Package evaluation to test ToolsForCategoricalTowers on Julia 1.14.0-DEV.2172 (32456e37ae*) started at 2026-05-12T14:22:00.690 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 16.11s ################################################################################ # Installation # Installing ToolsForCategoricalTowers... Resolving package versions... Updating `~/.julia/environments/v1.14/Project.toml` [e2cf920d] + ToolsForCategoricalTowers v0.1.7 Updating `~/.julia/environments/v1.14/Manifest.toml` [c3fe647b] + AbstractAlgebra v0.49.0 [d64df2ee] + CAP v0.7.4 [c5961c08] + CartesianCategories v0.3.15 [692b3bcd] + JLLWrappers v1.8.0 [1914dd2f] + MacroTools v0.5.16 [bfd98c86] + MonoidalCategories v0.2.15 [2edaba10] + Nemo v0.55.0 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.2 [fb686558] + RandomExtensions v0.4.4 [e2cf920d] + ToolsForCategoricalTowers v0.1.7 [e134572f] + FLINT_jll v301.500.0+0 [656ef2d0] + OpenBLAS32_jll v0.3.33+0 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [de0858da] + Printf v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.0.0 [9e88b42a] + Serialization v1.11.0 [2f01184e] + SparseArrays v1.13.0 [fa267f1f] + TOML v1.0.3 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.5.1+0 [781609d7] + GMP_jll v6.3.0+2 [3a97d323] + MPFR_jll v4.2.2+0 [4536629a] + OpenBLAS_jll v0.3.33+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [8e850b90] + libblastrampoline_jll v5.15.0+0 Installation completed after 6.04s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompiling project... 45.1 s ✓ LinearAlgebraForCAP 22.1 s ✓ ToolsForCategoricalTowers 23.5 s ✓ Toposes 26.1 s ✓ AdditiveClosuresForCAP 52.9 s ✓ FinSetsForCAP 20.6 s ✓ LinearClosuresForCAP 39.5 s ✓ FreydCategoriesForCAP 30.7 s ✓ FreydCategoriesForCAP → FreydCategoriesForCAPFinSetsForCAPExtension 8 dependencies successfully precompiled in 262 seconds. 69 already precompiled. Precompilation completed after 289.39s ################################################################################ # Testing # Testing ToolsForCategoricalTowers Status `/tmp/jl_4rLFZ3/Project.toml` [d64df2ee] CAP v0.7.4 [c5961c08] CartesianCategories v0.3.15 [e30172f5] Documenter v1.17.0 [0a079e9b] FinSetsForCAP v0.3.8 [cec356e3] FreydCategoriesForCAP v0.2.0 [29b9b1b6] MatricesForHomalg v0.1.8 [bfd98c86] MonoidalCategories v0.2.15 [e2cf920d] ToolsForCategoricalTowers v0.1.7 [36a15fe6] Toposes v0.1.18 [8dfed614] Test v1.11.0 Status `/tmp/jl_4rLFZ3/Manifest.toml` [a4c015fc] ANSIColoredPrinters v0.0.1 [c3fe647b] AbstractAlgebra v0.49.0 [1520ce14] AbstractTrees v0.4.5 [bbee75d5] AdditiveClosuresForCAP v0.2.1 [d64df2ee] CAP v0.7.4 [c5961c08] CartesianCategories v0.3.15 [944b1d66] CodecZlib v0.7.8 [ffbed154] DocStringExtensions v0.9.5 [e30172f5] Documenter v1.17.0 [0a079e9b] FinSetsForCAP v0.3.8 [cec356e3] FreydCategoriesForCAP v0.2.0 [d7ba0133] Git v1.5.0 [b5f81e59] IOCapture v1.0.0 [692b3bcd] JLLWrappers v1.8.0 [682c06a0] JSON v1.5.2 [0e77f7df] LazilyInitializedFields v1.3.0 [3dc4824f] LinearAlgebraForCAP v0.2.1 [1f080b7b] LinearClosuresForCAP v0.2.0 [1914dd2f] MacroTools v0.5.16 [d0879d2d] MarkdownAST v0.1.3 [29b9b1b6] MatricesForHomalg v0.1.8 [bfd98c86] MonoidalCategories v0.2.15 [2edaba10] Nemo v0.55.0 [69de0a69] Parsers v2.8.4 [aea7be01] PrecompileTools v1.3.3 [21216c6a] Preferences v1.5.2 [fb686558] RandomExtensions v0.4.4 [2792f1a3] RegistryInstances v0.1.0 [ec057cc2] StructUtils v2.8.1 [e2cf920d] ToolsForCategoricalTowers v0.1.7 [36a15fe6] Toposes v0.1.18 [3bb67fe8] TranscodingStreams v0.11.3 [2e619515] Expat_jll v2.8.0+0 [e134572f] FLINT_jll v301.500.0+0 [020c3dae] Git_LFS_jll v3.7.0+0 [f8c6e375] Git_jll v2.54.0+0 [94ce4f54] Libiconv_jll v1.18.0+0 [656ef2d0] OpenBLAS32_jll v0.3.33+0 [9bd350c2] OpenSSH_jll v10.3.1+0 [0dad84c5] ArgTools v1.1.2 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [ade2ca70] Dates v1.11.0 [f43a241f] Downloads v1.7.0 [7b1f6079] FileWatching v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [ac6e5ff7] JuliaSyntaxHighlighting v1.13.0 [b27032c2] LibCURL v1.0.0 [76f85450] LibGit2 v1.11.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [ca575930] NetworkOptions v1.3.0 [44cfe95a] Pkg v1.14.0 [de0858da] Printf v1.11.0 [3fa0cd96] REPL v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v1.0.0 [9e88b42a] Serialization v1.11.0 [6462fe0b] Sockets v1.11.0 [2f01184e] SparseArrays v1.13.0 [f489334b] StyledStrings v1.13.0 [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test v1.11.0 [cf7118a7] UUIDs v1.11.0 [4ec0a83e] Unicode v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.5.1+0 [781609d7] GMP_jll v6.3.0+2 [deac9b47] LibCURL_jll v8.20.0+1 [e37daf67] LibGit2_jll v1.9.3+0 [29816b5a] LibSSH2_jll v1.11.101+0 [3a97d323] MPFR_jll v4.2.2+0 [14a3606d] MozillaCACerts_jll v2026.3.19 [4536629a] OpenBLAS_jll v0.3.33+0 [458c3c95] OpenSSL_jll v3.5.6+0 [efcefdf7] PCRE2_jll v10.47.0+0 [bea87d4a] SuiteSparse_jll v7.10.1+0 [83775a58] Zlib_jll v1.3.2+0 [3161d3a3] Zstd_jll v1.5.7+1 [8e850b90] libblastrampoline_jll v5.15.0+0 [8e850ede] nghttp2_jll v1.69.0+0 [3f19e933] p7zip_jll v17.8.0+0 Testing Running tests... ┌ Warning: Unable to determine HTML(edit_link = ...) from remote HEAD branch, defaulting to "master". │ Calling `git remote` failed with an exception. Set JULIA_DEBUG=Documenter to see the error. │ Unless this is due to a configuration error, the relevant variable should be set explicitly. └ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/utilities/utilities.jl:719 [ Info: SetupBuildDirectory: setting up build directory. [ Info: Doctest: running doctests. ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:2-49 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> D1 = DummyCategoryInDoctrines( [ "IsAbCategory" ] ) │ DummyCategoryInDoctrines( [ "IsAbCategory" ] ) │ │ julia> Display( D1 ) │ A CAP category with name DummyCategoryInDoctrines( [ "IsAbCategory" ] ): │ │ 16 primitive operations were used to derive 29 operations for this category which algorithmically │ * IsAbCategory │ │ julia> D2 = DummyCategoryInDoctrines( [ "IsAbCategory", "IsAbelianCategory" ] ) │ DummyCategoryInDoctrines( [ "IsAbelianCategory" ] ) │ │ julia> Display( D2 ) │ A CAP category with name DummyCategoryInDoctrines( [ "IsAbelianCategory" ] ): │ │ 33 primitive operations were used to derive 292 operations for this category which algorithmically │ * IsAbelianCategory │ │ julia> D3 = DummyCategoryInDoctrines( │ [ "IsCategoryWithInitialObject", │ "IsCategoryWithTerminalObject", │ "IsCategoryWithZeroObject" ] ) │ DummyCategoryInDoctrines( [ "IsCategoryWithInitialObject", "IsCategoryWithTerminalObject", "IsCategoryWithZeroObject" ] ) │ │ julia> Display( D3 ) │ A CAP category with name DummyCategoryInDoctrines( [ "IsCategoryWithInitialObject", "IsCategoryWithTerminalObject", "IsCategoryWithZeroObject" ] ): │ │ 18 primitive operations were used to derive 41 operations for this category which algorithmically │ * IsCategoryWithZeroObject │ │ julia> D4 = DummyCategoryInDoctrines( │ [ "IsCategoryWithInitialObject", │ "IsCategoryWithTerminalObject", │ "IsCategoryWithZeroObject" ]; minimal = true ) │ DummyCategoryInDoctrines( [ "IsCategoryWithZeroObject" ] ) │ │ julia> Display( D4 ) │ A CAP category with name DummyCategoryInDoctrines( [ "IsCategoryWithZeroObject" ] ): │ │ 14 primitive operations were used to derive 41 operations for this category which algorithmically │ * IsCategoryWithZeroObject │ │ ``` │ │ Subexpression: │ │ Display( D2 ) │ │ Evaluated output: │ │ A CAP category with name DummyCategoryInDoctrines( [ "IsAbelianCategory" ] ): │ │ 33 primitive operations were used to derive 300 operations for this category which algorithmically │ * IsAbelianCategory │ │ Expected output: │ │ A CAP category with name DummyCategoryInDoctrines( [ "IsAbelianCategory" ] ): │ │ 33 primitive operations were used to derive 292 operations for this category which algorithmically │ * IsAbelianCategory │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name DummyCategoryInDoctrines( [ "IsAbelianCategory" ] ): │ │ 33 primitive operations were used to derive 292 300 operations for this category which algorithmically │ * IsAbelianCategory └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:2 ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:52-197 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> true │ true │ │ julia> true │ true │ │ julia> sFinSets = SkeletalCategoryOfFiniteSets( ) │ SkeletalFinSets │ │ julia> Display( sFinSets ) │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> a = FinSet( sFinSets, 2 ) │ |2| │ │ julia> b = FinSet( sFinSets, 3 ) │ |3| │ │ julia> beta = CocartesianBraiding( a, b ) │ |5| → |5| │ │ julia> Display( beta ) │ [ 0,..., 4 ] ⱶ[ 3, 4, 0, 1, 2 ]→ [ 0,..., 4 ] │ │ julia> id_a = IdentityMorphism( a ) │ |2| → |2| │ │ julia> id_b = IdentityMorphism( b ) │ |3| → |3| │ │ julia> f = PairGAP( [ 1, 0 ], [ id_a, id_b ] ); │ │ julia> beta2 = MorphismBetweenCoproducts( [ a, b ], f, [ b, a ] ) │ |5| → |5| │ │ julia> beta2 == beta │ true │ │ julia> W = WrapperCategory( sFinSets, │ @rec( only_primitive_operations = false ) ) │ WrapperCategory( SkeletalFinSets ) │ │ julia> Display( W ) │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> W_a = a / W │ │ │ julia> W_b = b / W │ │ │ julia> W_beta = CocartesianBraiding( W_a, W_b ) │ │ │ julia> MorphismDatum( W_beta ) == beta │ true │ │ julia> W_id_a = IdentityMorphism( W_a ) │ │ │ julia> W_id_b = IdentityMorphism( W_b ) │ │ │ julia> W_f = PairGAP( [ 1, 0 ], [ W_id_a, W_id_b ] ); │ │ julia> W_beta2 = MorphismBetweenCoproducts( [ W_a, W_b ], W_f, [ W_b, W_a ] ) │ │ │ julia> W_beta2 == W_beta │ true │ │ julia> O = Opposite( sFinSets ) │ Opposite( SkeletalFinSets ) │ │ julia> Display( O ) │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ julia> O_a = a / O │ │ │ julia> O_b = b / O │ │ │ julia> O_beta = CartesianBraiding( O_b, O_a ) │ │ │ julia> MorphismDatum( O_beta ) == beta │ true │ │ julia> O_id_a = IdentityMorphism( O_a ) │ │ │ julia> O_id_b = IdentityMorphism( O_b ) │ │ │ julia> O_f = PairGAP( [ 1, 0 ], [ O_id_a, O_id_b ] ); │ │ julia> O_beta2 = MorphismBetweenDirectProducts( [ O_b, O_a ], O_f, [ O_a, O_b ] ) │ │ │ julia> O_beta2 == O_beta │ true │ │ ``` │ │ Subexpression: │ │ Display( sFinSets ) │ │ Evaluated output: │ │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 380 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ Expected output: │ │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 380 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:52 ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:52-197 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> true │ true │ │ julia> true │ true │ │ julia> sFinSets = SkeletalCategoryOfFiniteSets( ) │ SkeletalFinSets │ │ julia> Display( sFinSets ) │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> a = FinSet( sFinSets, 2 ) │ |2| │ │ julia> b = FinSet( sFinSets, 3 ) │ |3| │ │ julia> beta = CocartesianBraiding( a, b ) │ |5| → |5| │ │ julia> Display( beta ) │ [ 0,..., 4 ] ⱶ[ 3, 4, 0, 1, 2 ]→ [ 0,..., 4 ] │ │ julia> id_a = IdentityMorphism( a ) │ |2| → |2| │ │ julia> id_b = IdentityMorphism( b ) │ |3| → |3| │ │ julia> f = PairGAP( [ 1, 0 ], [ id_a, id_b ] ); │ │ julia> beta2 = MorphismBetweenCoproducts( [ a, b ], f, [ b, a ] ) │ |5| → |5| │ │ julia> beta2 == beta │ true │ │ julia> W = WrapperCategory( sFinSets, │ @rec( only_primitive_operations = false ) ) │ WrapperCategory( SkeletalFinSets ) │ │ julia> Display( W ) │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> W_a = a / W │ │ │ julia> W_b = b / W │ │ │ julia> W_beta = CocartesianBraiding( W_a, W_b ) │ │ │ julia> MorphismDatum( W_beta ) == beta │ true │ │ julia> W_id_a = IdentityMorphism( W_a ) │ │ │ julia> W_id_b = IdentityMorphism( W_b ) │ │ │ julia> W_f = PairGAP( [ 1, 0 ], [ W_id_a, W_id_b ] ); │ │ julia> W_beta2 = MorphismBetweenCoproducts( [ W_a, W_b ], W_f, [ W_b, W_a ] ) │ │ │ julia> W_beta2 == W_beta │ true │ │ julia> O = Opposite( sFinSets ) │ Opposite( SkeletalFinSets ) │ │ julia> Display( O ) │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ julia> O_a = a / O │ │ │ julia> O_b = b / O │ │ │ julia> O_beta = CartesianBraiding( O_b, O_a ) │ │ │ julia> MorphismDatum( O_beta ) == beta │ true │ │ julia> O_id_a = IdentityMorphism( O_a ) │ │ │ julia> O_id_b = IdentityMorphism( O_b ) │ │ │ julia> O_f = PairGAP( [ 1, 0 ], [ O_id_a, O_id_b ] ); │ │ julia> O_beta2 = MorphismBetweenDirectProducts( [ O_b, O_a ], O_f, [ O_a, O_b ] ) │ │ │ julia> O_beta2 == O_beta │ true │ │ ``` │ │ Subexpression: │ │ Display( W ) │ │ Evaluated output: │ │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 356 primitive operations were used to derive 370 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ Expected output: │ │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 356 primitive operations were used to derive 358 370 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:52 ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:52-197 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> true │ true │ │ julia> true │ true │ │ julia> sFinSets = SkeletalCategoryOfFiniteSets( ) │ SkeletalFinSets │ │ julia> Display( sFinSets ) │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> a = FinSet( sFinSets, 2 ) │ |2| │ │ julia> b = FinSet( sFinSets, 3 ) │ |3| │ │ julia> beta = CocartesianBraiding( a, b ) │ |5| → |5| │ │ julia> Display( beta ) │ [ 0,..., 4 ] ⱶ[ 3, 4, 0, 1, 2 ]→ [ 0,..., 4 ] │ │ julia> id_a = IdentityMorphism( a ) │ |2| → |2| │ │ julia> id_b = IdentityMorphism( b ) │ |3| → |3| │ │ julia> f = PairGAP( [ 1, 0 ], [ id_a, id_b ] ); │ │ julia> beta2 = MorphismBetweenCoproducts( [ a, b ], f, [ b, a ] ) │ |5| → |5| │ │ julia> beta2 == beta │ true │ │ julia> W = WrapperCategory( sFinSets, │ @rec( only_primitive_operations = false ) ) │ WrapperCategory( SkeletalFinSets ) │ │ julia> Display( W ) │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> W_a = a / W │ │ │ julia> W_b = b / W │ │ │ julia> W_beta = CocartesianBraiding( W_a, W_b ) │ │ │ julia> MorphismDatum( W_beta ) == beta │ true │ │ julia> W_id_a = IdentityMorphism( W_a ) │ │ │ julia> W_id_b = IdentityMorphism( W_b ) │ │ │ julia> W_f = PairGAP( [ 1, 0 ], [ W_id_a, W_id_b ] ); │ │ julia> W_beta2 = MorphismBetweenCoproducts( [ W_a, W_b ], W_f, [ W_b, W_a ] ) │ │ │ julia> W_beta2 == W_beta │ true │ │ julia> O = Opposite( sFinSets ) │ Opposite( SkeletalFinSets ) │ │ julia> Display( O ) │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ julia> O_a = a / O │ │ │ julia> O_b = b / O │ │ │ julia> O_beta = CartesianBraiding( O_b, O_a ) │ │ │ julia> MorphismDatum( O_beta ) == beta │ true │ │ julia> O_id_a = IdentityMorphism( O_a ) │ │ │ julia> O_id_b = IdentityMorphism( O_b ) │ │ │ julia> O_f = PairGAP( [ 1, 0 ], [ O_id_a, O_id_b ] ); │ │ julia> O_beta2 = MorphismBetweenDirectProducts( [ O_b, O_a ], O_f, [ O_a, O_b ] ) │ │ │ julia> O_beta2 == O_beta │ true │ │ ``` │ │ Subexpression: │ │ Display( O ) │ │ Evaluated output: │ │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 289 primitive operations were used to derive 305 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ Expected output: │ │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 289 primitive operations were used to derive 293 305 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:52 ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:200-345 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> true │ true │ │ julia> true │ true │ │ julia> sFinSets = SkeletalCategoryOfFiniteSets( ) │ SkeletalFinSets │ │ julia> Display( sFinSets ) │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> a = FinSet( sFinSets, 2 ) │ |2| │ │ julia> b = FinSet( sFinSets, 3 ) │ |3| │ │ julia> beta = CartesianBraiding( a, b ) │ |6| → |6| │ │ julia> Display( beta ) │ [ 0,..., 5 ] ⱶ[ 0, 3, 1, 4, 2, 5 ]→ [ 0,..., 5 ] │ │ julia> id_a = IdentityMorphism( a ) │ |2| → |2| │ │ julia> id_b = IdentityMorphism( b ) │ |3| → |3| │ │ julia> f = PairGAP( [ 1, 0 ], [ id_b, id_a ] ); │ │ julia> beta2 = MorphismBetweenDirectProducts( [ a, b ], f, [ b, a ] ) │ |6| → |6| │ │ julia> beta2 == beta │ true │ │ julia> W = WrapperCategory( sFinSets, │ @rec( only_primitive_operations = false ) ) │ WrapperCategory( SkeletalFinSets ) │ │ julia> Display( W ) │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> W_a = a / W │ │ │ julia> W_b = b / W │ │ │ julia> W_beta = CartesianBraiding( W_a, W_b ) │ │ │ julia> MorphismDatum( W_beta ) == beta │ true │ │ julia> W_id_a = IdentityMorphism( W_a ) │ │ │ julia> W_id_b = IdentityMorphism( W_b ) │ │ │ julia> W_f = PairGAP( [ 1, 0 ], [ W_id_b, W_id_a ] ); │ │ julia> W_beta2 = MorphismBetweenDirectProducts( [ W_a, W_b ], W_f, [ W_b, W_a ] ) │ │ │ julia> W_beta2 == W_beta │ true │ │ julia> O = Opposite( sFinSets ) │ Opposite( SkeletalFinSets ) │ │ julia> Display( O ) │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ julia> O_a = a / O │ │ │ julia> O_b = b / O │ │ │ julia> O_beta = CocartesianBraiding( O_b, O_a ) │ │ │ julia> MorphismDatum( O_beta ) == beta │ true │ │ julia> O_id_a = IdentityMorphism( O_a ) │ │ │ julia> O_id_b = IdentityMorphism( O_b ) │ │ │ julia> O_f = PairGAP( [ 1, 0 ], [ O_id_b, O_id_a ] ); │ │ julia> O_beta2 = MorphismBetweenCoproducts( [ O_b, O_a ], O_f, [ O_a, O_b ] ) │ │ │ julia> O_beta2 == O_beta │ true │ │ ``` │ │ Subexpression: │ │ Display( sFinSets ) │ │ Evaluated output: │ │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 380 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ Expected output: │ │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 380 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:200 ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:200-345 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> true │ true │ │ julia> true │ true │ │ julia> sFinSets = SkeletalCategoryOfFiniteSets( ) │ SkeletalFinSets │ │ julia> Display( sFinSets ) │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> a = FinSet( sFinSets, 2 ) │ |2| │ │ julia> b = FinSet( sFinSets, 3 ) │ |3| │ │ julia> beta = CartesianBraiding( a, b ) │ |6| → |6| │ │ julia> Display( beta ) │ [ 0,..., 5 ] ⱶ[ 0, 3, 1, 4, 2, 5 ]→ [ 0,..., 5 ] │ │ julia> id_a = IdentityMorphism( a ) │ |2| → |2| │ │ julia> id_b = IdentityMorphism( b ) │ |3| → |3| │ │ julia> f = PairGAP( [ 1, 0 ], [ id_b, id_a ] ); │ │ julia> beta2 = MorphismBetweenDirectProducts( [ a, b ], f, [ b, a ] ) │ |6| → |6| │ │ julia> beta2 == beta │ true │ │ julia> W = WrapperCategory( sFinSets, │ @rec( only_primitive_operations = false ) ) │ WrapperCategory( SkeletalFinSets ) │ │ julia> Display( W ) │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> W_a = a / W │ │ │ julia> W_b = b / W │ │ │ julia> W_beta = CartesianBraiding( W_a, W_b ) │ │ │ julia> MorphismDatum( W_beta ) == beta │ true │ │ julia> W_id_a = IdentityMorphism( W_a ) │ │ │ julia> W_id_b = IdentityMorphism( W_b ) │ │ │ julia> W_f = PairGAP( [ 1, 0 ], [ W_id_b, W_id_a ] ); │ │ julia> W_beta2 = MorphismBetweenDirectProducts( [ W_a, W_b ], W_f, [ W_b, W_a ] ) │ │ │ julia> W_beta2 == W_beta │ true │ │ julia> O = Opposite( sFinSets ) │ Opposite( SkeletalFinSets ) │ │ julia> Display( O ) │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ julia> O_a = a / O │ │ │ julia> O_b = b / O │ │ │ julia> O_beta = CocartesianBraiding( O_b, O_a ) │ │ │ julia> MorphismDatum( O_beta ) == beta │ true │ │ julia> O_id_a = IdentityMorphism( O_a ) │ │ │ julia> O_id_b = IdentityMorphism( O_b ) │ │ │ julia> O_f = PairGAP( [ 1, 0 ], [ O_id_b, O_id_a ] ); │ │ julia> O_beta2 = MorphismBetweenCoproducts( [ O_b, O_a ], O_f, [ O_a, O_b ] ) │ │ │ julia> O_beta2 == O_beta │ true │ │ ``` │ │ Subexpression: │ │ Display( W ) │ │ Evaluated output: │ │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 356 primitive operations were used to derive 370 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ Expected output: │ │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 356 primitive operations were used to derive 358 370 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:200 ┌ Error: doctest failure in ../docs/src/AutoDocTests.tst.autogen.md:200-345 │ │ ```jldoctest AutoDocTests │ julia> using CAP, MonoidalCategories, CartesianCategories, Toposes, FinSetsForCAP, MatricesForHomalg, FreydCategoriesForCAP, ToolsForCategoricalTowers │ │ julia> true │ true │ │ julia> true │ true │ │ julia> true │ true │ │ julia> sFinSets = SkeletalCategoryOfFiniteSets( ) │ SkeletalFinSets │ │ julia> Display( sFinSets ) │ A CAP category with name SkeletalFinSets: │ │ 58 primitive operations were used to derive 368 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> a = FinSet( sFinSets, 2 ) │ |2| │ │ julia> b = FinSet( sFinSets, 3 ) │ |3| │ │ julia> beta = CartesianBraiding( a, b ) │ |6| → |6| │ │ julia> Display( beta ) │ [ 0,..., 5 ] ⱶ[ 0, 3, 1, 4, 2, 5 ]→ [ 0,..., 5 ] │ │ julia> id_a = IdentityMorphism( a ) │ |2| → |2| │ │ julia> id_b = IdentityMorphism( b ) │ |3| → |3| │ │ julia> f = PairGAP( [ 1, 0 ], [ id_b, id_a ] ); │ │ julia> beta2 = MorphismBetweenDirectProducts( [ a, b ], f, [ b, a ] ) │ |6| → |6| │ │ julia> beta2 == beta │ true │ │ julia> W = WrapperCategory( sFinSets, │ @rec( only_primitive_operations = false ) ) │ WrapperCategory( SkeletalFinSets ) │ │ julia> Display( W ) │ A CAP category with name WrapperCategory( SkeletalFinSets ): │ │ 344 primitive operations were used to derive 358 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsElementaryTopos │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByDirectProduct │ │ julia> W_a = a / W │ │ │ julia> W_b = b / W │ │ │ julia> W_beta = CartesianBraiding( W_a, W_b ) │ │ │ julia> MorphismDatum( W_beta ) == beta │ true │ │ julia> W_id_a = IdentityMorphism( W_a ) │ │ │ julia> W_id_b = IdentityMorphism( W_b ) │ │ │ julia> W_f = PairGAP( [ 1, 0 ], [ W_id_b, W_id_a ] ); │ │ julia> W_beta2 = MorphismBetweenDirectProducts( [ W_a, W_b ], W_f, [ W_b, W_a ] ) │ │ │ julia> W_beta2 == W_beta │ true │ │ julia> O = Opposite( sFinSets ) │ Opposite( SkeletalFinSets ) │ │ julia> Display( O ) │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ julia> O_a = a / O │ │ │ julia> O_b = b / O │ │ │ julia> O_beta = CocartesianBraiding( O_b, O_a ) │ │ │ julia> MorphismDatum( O_beta ) == beta │ true │ │ julia> O_id_a = IdentityMorphism( O_a ) │ │ │ julia> O_id_b = IdentityMorphism( O_b ) │ │ │ julia> O_f = PairGAP( [ 1, 0 ], [ O_id_b, O_id_a ] ); │ │ julia> O_beta2 = MorphismBetweenCoproducts( [ O_b, O_a ], O_f, [ O_a, O_b ] ) │ │ │ julia> O_beta2 == O_beta │ true │ │ ``` │ │ Subexpression: │ │ Display( O ) │ │ Evaluated output: │ │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 289 primitive operations were used to derive 305 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ Expected output: │ │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 primitive operations were used to derive 293 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct │ │ diff = │ Warning: Diff output requires color. │ A CAP category with name Opposite( SkeletalFinSets ): │ │ 277 289 primitive operations were used to derive 293 305 operations for this category which algorithmically │ * IsCategoryWithDecidableColifts │ * IsCategoryWithDecidableLifts │ * IsEquippedWithHomomorphismStructure │ * IsSymmetricMonoidalCategory │ * IsBicartesianCoclosedCategory │ * IsFiniteBicompleteCategory │ and furthermore mathematically │ * IsSkeletalCategory │ * IsStrictCartesianCategory │ * IsStrictCocartesianCategory │ * IsSymmetricMonoidalCategoryStructureGivenByCoproduct └ @ Documenter ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/docs/src/AutoDocTests.tst.autogen.md:200 ┌ Error: Doctesting failed │ exception = │ `makedocs` encountered a doctest error. Terminating build │ Stacktrace: │ [1] error(s::String) │ @ Base ./error.jl:56 │ [2] runner(::Type{Documenter.Builder.Doctest}, doc::Documenter.Document) │ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/builder_pipeline.jl:213 │ [3] dispatch(::Type{Documenter.Builder.DocumentPipeline}, x::Documenter.Document) │ @ Documenter.Selectors ~/.julia/packages/Documenter/AXNMp/src/utilities/Selectors.jl:170 │ [4] delete!(::Base.EnvDict, k::String) │ @ Base ~/.julia/packages/Documenter/AXNMp/src/makedocs.jl:283 [inlined] │ [5] withenv(::Documenter.var"#95#96"{Documenter.Document}, ::Pair{String, Nothing}, ::Vararg{Pair{String, Nothing}}) │ @ Base ./env.jl:265 │ [6] #93 │ @ ~/.julia/packages/Documenter/AXNMp/src/makedocs.jl:282 [inlined] │ [7] cd(f::Documenter.var"#93#94"{Documenter.Document}, dir::String) │ @ Base.Filesystem ./file.jl:112 │ [8] makedocs(; debug::Bool, format::Documenter.HTMLWriter.HTML, kwargs::@Kwargs{root::String, source::String, sitename::String, doctest::Symbol, modules::Vector{Module}, doctestfilters::Vector{Pair{Regex, String}}, remotes::Nothing, plugins::Vector{Documenter.Plugin}}) │ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/makedocs.jl:281 │ [9] (::Documenter.var"#all_doctests#147"{Bool, Vector{Pair{Regex, String}}, Vector{Documenter.Plugin}, Vector{Module}})() │ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:85 │ [10] macro expansion │ @ ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:110 [inlined] │ [11] macro expansion │ @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] │ [12] macro expansion │ @ ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:110 [inlined] │ [13] get_testset() │ @ Test /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] │ [14] doctest(source::String, modules::Vector{Module}; fix::Bool, testset::String, doctestfilters::Vector{Pair{Regex, String}}, plugins::Vector{Documenter.Plugin}) │ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:110 │ [15] doctest │ @ ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:69 [inlined] │ [16] doctest(package::Module; manual::Bool, testset::Nothing, kwargs::@Kwargs{doctestfilters::Vector{Pair{Regex, String}}}) │ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:37 │ [17] top-level scope │ @ ~/.julia/packages/ToolsForCategoricalTowers/2UI6F/test/runtests.jl:11 │ [18] include(mapexpr::Function, mod::Module, _path::String) │ @ Base ./Base.jl:327 │ [19] top-level scope │ @ none:6 │ [20] eval(m::Module, e::Any) │ @ Core ./boot.jl:517 │ [21] exec_options(opts::Base.JLOptions) │ @ Base ./client.jl:318 │ [22] _start() │ @ Base ./client.jl:593 └ @ Documenter ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:99 Doctests: ToolsForCategoricalTowers: Test Failed at /home/pkgeval/.julia/packages/Documenter/AXNMp/src/doctest.jl:110 Expression: all_doctests() Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:784 [inlined] [2] macro expansion @ ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:110 [inlined] [3] Dict{Symbol, Any}() @ Base /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] [4] doctest(source::String, modules::Vector{Module}; fix::Bool, testset::String, doctestfilters::Vector{Pair{Regex, String}}, plugins::Vector{Documenter.Plugin}) @ Documenter ~/.julia/packages/Documenter/AXNMp/src/doctest.jl:110 Test Summary: | Fail Total Time Doctests: ToolsForCategoricalTowers | 1 1 4m53.4s RNG of the outermost testset: Random.Xoshiro(0x2151dcf9f399f170, 0x7fc297acf4e7a51d, 0xaaab99559623881b, 0x2bafe60184913239, 0x27c2ecb760fae8dd) ERROR: LoadError: Some tests did not pass: 0 passed, 1 failed, 0 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/ToolsForCategoricalTowers/2UI6F/test/runtests.jl:11 Testing failed after 348.33s ERROR: LoadError: Package ToolsForCategoricalTowers errored during testing Stacktrace: [1] pkgerror(msg::String) @ Pkg.Types /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Types.jl:68 [2] test(ctx::Pkg.Types.Context, pkgs::Vector{PackageSpec}; coverage::Bool, julia_args::Cmd, test_args::Cmd, test_fn::Nothing, force_latest_compatible_version::Bool, allow_earlier_backwards_compatible_versions::Bool, allow_reresolve::Bool) @ Pkg.Operations /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Operations.jl:3162 [3] Cmd(cmd::Cmd) @ Base /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Operations.jl:3025 [inlined] [4] test(ctx::Pkg.Types.Context, pkgs::Vector{PackageSpec}; coverage::Bool, test_fn::Nothing, julia_args::Cmd, test_args::Cmd, force_latest_compatible_version::Bool, allow_earlier_backwards_compatible_versions::Bool, allow_reresolve::Bool, kwargs::@Kwargs{io::IOContext{IO}}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:586 [5] test(pkgs::Vector{PackageSpec}; io::IOContext{IO}, kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:172 [6] test(pkgs::Vector{String}; kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:160 [7] test @ /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:160 [inlined] [8] test(pkg::String; kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:159 [inlined] [9] top-level scope @ /PkgEval.jl/scripts/evaluate.jl:223 [10] include(mod::Module, _path::String) @ Base ./Base.jl:326 [11] exec_options(opts::Base.JLOptions) @ Base ./client.jl:352 [12] _start() @ Base ./client.jl:593 in expression starting at /PkgEval.jl/scripts/evaluate.jl:214 PkgEval failed after 680.78s: package has test failures