Package evaluation to test HyperFEM on Julia 1.14.0-DEV.2213 (dc778b8d37*) started at 2026-05-21T15:06:39.081 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 14.76s ################################################################################ # Installation # Installing HyperFEM... Resolving package versions... Installed GridapPETSc ─ v0.5.7 Installed GridapGmsh ── v0.7.4 Updating `~/.julia/environments/v1.14/Project.toml` [ddbf423a] + HyperFEM v0.0.1 Updating `~/.julia/environments/v1.14/Manifest.toml` [47edcb42] + ADTypes v1.22.0 [621f4979] + AbstractFFTs v1.5.0 [1520ce14] + AbstractTrees v0.4.5 [7d9f7c33] + Accessors v0.1.44 [79e6a3ab] + Adapt v4.6.0 [dce04be8] + ArgCheck v2.5.0 [ec485272] + ArnoldiMethod v0.4.0 [4fba245c] + ArrayInterface v7.25.0 [4c555306] + ArrayLayouts v1.12.2 [a9b6321e] + Atomix v1.1.3 [15f4f7f2] + AutoHashEquals v2.2.0 [fbb218c0] + BSON v0.3.9 [d1d4a3ce] + BitFlags v0.1.9 [62783981] + BitTwiddlingConvenienceFunctions v0.1.6 [8e7c35d0] + BlockArrays v1.9.3 [fa961155] + CEnum v0.5.0 [2a0fbf3d] + CPUSummary v0.2.7 [159f3aea] + Cairo v1.1.1 [0b6fb165] + ChunkCodecCore v1.0.1 [4c0bbee4] + ChunkCodecLibZlib v1.0.0 [55437552] + ChunkCodecLibZstd v1.0.0 [7a955b69] + CircularArrays v1.5.0 [fb6a15b2] + CloseOpenIntervals v0.1.13 [944b1d66] + CodecZlib v0.7.8 [3da002f7] + ColorTypes v0.12.1 [5ae59095] + Colors v0.13.1 [861a8166] + Combinatorics v1.1.0 [38540f10] + CommonSolve v0.2.6 [bbf7d656] + CommonSubexpressions v0.3.1 [f70d9fcc] + CommonWorldInvalidations v1.0.0 [34da2185] + Compat v4.18.1 [a33af91c] + CompositionsBase v0.1.2 [187b0558] + ConstructionBase v1.6.0 [adafc99b] + CpuId v0.3.1 [864edb3b] + DataStructures v0.19.4 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [a0c0ee7d] + DifferentiationInterface v0.7.18 [b4f34e82] + Distances v0.10.12 [ffbed154] + DocStringExtensions v0.9.5 [634d3b9d] + DrWatson v2.19.1 [e2ba6199] + ExprTools v0.1.10 [7a1cc6ca] + FFTW v1.10.0 [442a2c76] + FastGaussQuadrature v1.2.0 [5789e2e9] + FileIO v1.19.0 [1a297f60] + FillArrays v1.16.0 [6a86dc24] + FiniteDiff v2.31.0 [53c48c17] + FixedPointNumbers v0.8.5 [08572546] + FlameGraphs v1.1.0 [f6369f11] + ForwardDiff v1.3.3 [a2bd30eb] + Graphics v1.1.3 [86223c79] + Graphs v1.14.0 ⌅ [56d4f2e9] + Gridap v0.19.11 ⌃ [f9701e48] + GridapDistributed v0.4.13 [3025c34a] + GridapGmsh v0.7.4 [bcdc36c2] + GridapPETSc v0.5.7 ⌅ [6d3209ee] + GridapSolvers v0.6.2 [9db2cae5] + Gtk4 v0.7.12 [8710efd8] + GtkObservables v2.2.2 [076d061b] + HashArrayMappedTries v0.2.0 [ddbf423a] + HyperFEM v0.0.1 [615f187c] + IfElse v0.1.1 [9b13fd28] + IndirectArrays v1.0.0 [d25df0c9] + Inflate v0.1.5 [8197267c] + IntervalSets v0.7.14 [3587e190] + InverseFunctions v0.1.17 [92d709cd] + IrrationalConstants v0.2.6 [42fd0dbc] + IterativeSolvers v0.9.4 [033835bb] + JLD2 v0.6.4 [692b3bcd] + JLLWrappers v1.8.0 [682c06a0] + JSON v1.6.0 [10f19ff3] + LayoutPointers v0.1.17 [1d6d02ad] + LeftChildRightSiblingTrees v0.2.1 [9c8b4983] + LightXML v0.9.3 ⌃ [d3d80556] + LineSearches v7.5.1 [2ab3a3ac] + LogExpFunctions v0.3.29 [da04e1cc] + MPI v0.20.26 [3da0fdf6] + MPIPreferences v0.1.12 [1914dd2f] + MacroTools v0.5.16 [d125e4d3] + ManualMemory v0.1.8 [85b6ec6f] + MethodAnalysis v1.0.0 [2679e427] + Metis v1.5.0 ⌅ [d41bc354] + NLSolversBase v7.10.0 [2774e3e8] + NLsolve v4.5.1 [77ba4419] + NaNMath v1.1.3 [b8a86587] + NearestNeighbors v0.4.27 [510215fc] + Observables v0.5.5 [6fe1bfb0] + OffsetArrays v1.17.0 [bac558e1] + OrderedCollections v1.8.1 [69de0a69] + Parsers v2.8.4 ⌅ [5a9dfac6] + PartitionedArrays v0.3.5 [eebad327] + PkgVersion v0.3.3 [f517fe37] + Polyester v0.7.19 [1d0040c9] + PolyesterWeave v0.2.2 [c74db56a] + PolynomialBases v0.4.25 [aea7be01] + PrecompileTools v1.3.4 [21216c6a] + Preferences v1.5.2 [c46f51b8] + ProfileView v1.10.3 [1fd47b50] + QuadGK v2.11.3 [3cdcf5f2] + RecipesBase v1.3.4 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.1 ⌅ [f2b01f46] + Roots v2.3.0 [d5f540fe] + RoundingIntegers v1.1.0 [94e857df] + SIMDTypes v0.1.0 [431bcebd] + SciMLPublic v1.0.1 [7e506255] + ScopedValues v1.6.2 [6c6a2e73] + Scratch v1.3.0 [efcf1570] + Setfield v1.1.2 [699a6c99] + SimpleTraits v0.9.6 [ce78b400] + SimpleUnPack v1.1.0 [a0a7dd2c] + SparseMatricesCSR v0.6.12 [276daf66] + SpecialFunctions v2.7.2 [aedffcd0] + Static v1.4.0 [0d7ed370] + StaticArrayInterface v1.10.0 [90137ffa] + StaticArrays v1.9.18 [1e83bf80] + StaticArraysCore v1.4.4 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.8.0 [7792a7ef] + StrideArraysCore v0.5.9 [ec057cc2] + StructUtils v2.8.2 [8290d209] + ThreadingUtilities v0.5.5 [a759f4b9] + TimerOutputs v0.5.29 [3bb67fe8] + TranscodingStreams v0.11.3 [3a884ed6] + UnPack v1.0.2 [013be700] + UnsafeAtomics v0.3.1 [4004b06d] + VTKBase v1.0.1 [64499a7a] + WriteVTK v1.21.2 [6e34b625] + Bzip2_jll v1.0.9+0 [83423d85] + Cairo_jll v1.18.7+0 [2702e6a9] + EpollShim_jll v0.0.20230411+1 [2e619515] + Expat_jll v2.8.0+0 [f5851436] + FFTW_jll v3.3.12+0 [a3f928ae] + Fontconfig_jll v2.17.1+0 [d7e528f0] + FreeType2_jll v2.14.3+1 [559328eb] + FriBidi_jll v1.0.17+0 [6ebb71f1] + GTK4_jll v4.18.6+0 ⌅ [b0724c58] + GettextRuntime_jll v0.22.4+0 [7746bdde] + Glib_jll v2.86.3+0 [75302f13] + Graphene_jll v1.10.8+0 [3b182d85] + Graphite2_jll v1.3.15+0 [2e76f6c2] + HarfBuzz_jll v8.5.1+0 [e33a78d0] + Hwloc_jll v2.13.0+1 [1d5cc7b8] + IntelOpenMP_jll v2025.2.0+0 [aacddb02] + JpegTurbo_jll v3.1.5+0 [88015f11] + LERC_jll v4.1.0+0 [1d63c593] + LLVMOpenMP_jll v18.1.8+0 [42c93a91] + Libepoxy_jll v1.5.11+0 ⌅ [e9f186c6] + Libffi_jll v3.4.7+0 [7e76a0d4] + Libglvnd_jll v1.7.1+1 [94ce4f54] + Libiconv_jll v1.18.0+0 [4b2f31a3] + Libmount_jll v2.42.0+0 [925c91fb] + Librsvg_jll v2.54.7+0 [89763e89] + Libtiff_jll v4.7.2+0 [38a345b3] + Libuuid_jll v2.42.0+0 [d00139f3] + METIS_jll v5.1.3+0 [856f044c] + MKL_jll v2025.2.0+0 [b5ada748] + MPIABI_jll v0.1.5+0 [7cb0a576] + MPICH_jll v5.0.1+0 [f1f71cc9] + MPItrampoline_jll v5.5.6+0 ⌃ [ca64183c] + MUMPS_jll v5.7.3+0 [9237b28f] + MicrosoftMPI_jll v10.1.4+3 [656ef2d0] + OpenBLAS32_jll v0.3.33+1 [fe0851c0] + OpenMPI_jll v5.0.11+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [b247a4be] + PARMETIS_jll v4.0.7+0 ⌃ [8fa3689e] + PETSc_jll v3.18.8+0 [b3ec0f5a] + PTSCOTCH_jll v7.0.5+0 [36c8627f] + Pango_jll v1.57.1+0 [30392449] + Pixman_jll v0.46.4+0 ⌅ [aabda75e] + SCALAPACK32_jll v2.2.1+1 ⌅ [a8d0f55d] + SCOTCH_jll v7.0.4+3 ⌅ [9a1356b0] + SuperLU_DIST_jll v8.2.3+0 [a2964d1f] + Wayland_jll v1.24.0+0 [2381bf8a] + Wayland_protocols_jll v1.44.0+0 ⌅ [02c8fc9c] + XML2_jll v2.13.9+0 [ffd25f8a] + XZ_jll v5.8.3+0 [4f6342f7] + Xorg_libX11_jll v1.8.13+0 [0c0b7dd1] + Xorg_libXau_jll v1.0.13+0 [935fb764] + Xorg_libXcursor_jll v1.2.4+0 [0aeada51] + Xorg_libXdamage_jll v1.1.7+0 [a3789734] + Xorg_libXdmcp_jll v1.1.6+0 [1082639a] + Xorg_libXext_jll v1.3.8+0 [d091e8ba] + Xorg_libXfixes_jll v6.0.2+0 [a51aa0fd] + Xorg_libXi_jll v1.8.3+0 [d1454406] + Xorg_libXinerama_jll v1.1.7+0 [ec84b674] + Xorg_libXrandr_jll v1.5.6+0 [ea2f1a96] + Xorg_libXrender_jll v0.9.12+0 [a65dc6b1] + Xorg_libpciaccess_jll v0.19.0+0 [c7cfdc94] + Xorg_libxcb_jll v1.17.1+0 [cc61e674] + Xorg_libxkbfile_jll v1.2.0+0 [35661453] + Xorg_xkbcomp_jll v1.4.7+0 [33bec58e] + Xorg_xkeyboard_config_jll v2.47.0+1 [c5fb5394] + Xorg_xtrans_jll v1.6.0+0 [b437f822] + adwaita_icon_theme_jll v43.0.1+0 [da03df04] + gdk_pixbuf_jll v2.42.13+0 ⌃ [630162c2] + gmsh_jll v4.9.3+0 [059c91fe] + hicolor_icon_theme_jll v0.18.0+0 [bf975903] + iso_codes_jll v4.20.1+0 [b53b4c65] + libpng_jll v1.6.58+0 [1317d2d5] + oneTBB_jll v2022.3.0+0 [d8fb68d0] + xkbcommon_jll v1.13.0+0 [0dad84c5] + ArgTools v1.1.2 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [8ba89e20] + Distributed v1.11.0 [f43a241f] + Downloads v1.7.0 [7b1f6079] + FileWatching v1.11.0 [9fa8497b] + Future v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.13.0 [4af54fe1] + LazyArtifacts v1.11.0 [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 [a63ad114] + Mmap v1.11.0 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.14.0 [de0858da] + Printf v1.11.0 [9abbd945] + Profile v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.13.0 [9e88b42a] + Serialization v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.13.0 [4607b0f0] + SuiteSparse [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 [deac9b47] + LibCURL_jll v8.20.0+1 [e37daf67] + LibGit2_jll v1.9.3+0 [29816b5a] + LibSSH2_jll v1.11.101+0 [14a3606d] + MozillaCACerts_jll v2026.5.14 [4536629a] + OpenBLAS_jll v0.3.33+0 [05823500] + OpenLibm_jll v0.8.7+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 Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m` Building GridapGmsh ─→ `~/.julia/scratchspaces/44cfe95a-1eb2-52ea-b672-e2afdf69b78f/56bcd88698c92c1bacbca36aa82844de776c646e/build.log` Building GridapPETSc → `~/.julia/scratchspaces/44cfe95a-1eb2-52ea-b672-e2afdf69b78f/452b74fab1322912d08f683cbca8bf78fc1be880/build.log` Installation completed after 35.23s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompiling project... 6.1 s ✓ SCALAPACK32_jll 20.7 s ✓ GridapSolvers 6.2 s ✓ MUMPS_jll 17.5 s ✓ GridapSolvers → IterativeSolversExt 6.1 s ✓ PETSc_jll 19.3 s ✓ GridapPETSc 17.2 s ✓ GridapSolvers → GridapPETScExt 21.9 s ✓ HyperFEM 8 dependencies successfully precompiled in 118 seconds. 280 already precompiled. Precompilation completed after 157.26s ################################################################################ # Testing # Testing HyperFEM Status `/tmp/jl_GAAEOM/Project.toml` [f6369f11] ForwardDiff v1.3.3 ⌅ [56d4f2e9] Gridap v0.19.11 ⌅ [6d3209ee] GridapSolvers v0.6.2 [ddbf423a] HyperFEM v0.0.1 [682c06a0] JSON v1.6.0 [90137ffa] StaticArrays v1.9.18 [a759f4b9] TimerOutputs v0.5.29 [8dfed614] Test v1.11.0 Status `/tmp/jl_GAAEOM/Manifest.toml` [47edcb42] ADTypes v1.22.0 [621f4979] AbstractFFTs v1.5.0 [1520ce14] AbstractTrees v0.4.5 [7d9f7c33] Accessors v0.1.44 [79e6a3ab] Adapt v4.6.0 [dce04be8] ArgCheck v2.5.0 [ec485272] ArnoldiMethod v0.4.0 [4fba245c] ArrayInterface v7.25.0 [4c555306] ArrayLayouts v1.12.2 [a9b6321e] Atomix v1.1.3 [15f4f7f2] AutoHashEquals v2.2.0 [fbb218c0] BSON v0.3.9 [d1d4a3ce] BitFlags v0.1.9 [62783981] BitTwiddlingConvenienceFunctions v0.1.6 [8e7c35d0] BlockArrays v1.9.3 [fa961155] CEnum v0.5.0 [2a0fbf3d] CPUSummary v0.2.7 [159f3aea] Cairo v1.1.1 [0b6fb165] ChunkCodecCore v1.0.1 [4c0bbee4] ChunkCodecLibZlib v1.0.0 [55437552] ChunkCodecLibZstd v1.0.0 [7a955b69] CircularArrays v1.5.0 [fb6a15b2] CloseOpenIntervals v0.1.13 [944b1d66] CodecZlib v0.7.8 [3da002f7] ColorTypes v0.12.1 [5ae59095] Colors v0.13.1 [861a8166] Combinatorics v1.1.0 [38540f10] CommonSolve v0.2.6 [bbf7d656] CommonSubexpressions v0.3.1 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.18.1 [a33af91c] CompositionsBase v0.1.2 [187b0558] ConstructionBase v1.6.0 [adafc99b] CpuId v0.3.1 [864edb3b] DataStructures v0.19.4 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [a0c0ee7d] DifferentiationInterface v0.7.18 [b4f34e82] Distances v0.10.12 [ffbed154] DocStringExtensions v0.9.5 [634d3b9d] DrWatson v2.19.1 [e2ba6199] ExprTools v0.1.10 [7a1cc6ca] FFTW v1.10.0 [442a2c76] FastGaussQuadrature v1.2.0 [5789e2e9] FileIO v1.19.0 [1a297f60] FillArrays v1.16.0 [6a86dc24] FiniteDiff v2.31.0 [53c48c17] FixedPointNumbers v0.8.5 [08572546] FlameGraphs v1.1.0 [f6369f11] ForwardDiff v1.3.3 [a2bd30eb] Graphics v1.1.3 [86223c79] Graphs v1.14.0 ⌅ [56d4f2e9] Gridap v0.19.11 ⌃ [f9701e48] GridapDistributed v0.4.13 [3025c34a] GridapGmsh v0.7.4 [bcdc36c2] GridapPETSc v0.5.7 ⌅ [6d3209ee] GridapSolvers v0.6.2 [9db2cae5] Gtk4 v0.7.12 [8710efd8] GtkObservables v2.2.2 [076d061b] HashArrayMappedTries v0.2.0 [ddbf423a] HyperFEM v0.0.1 [615f187c] IfElse v0.1.1 [9b13fd28] IndirectArrays v1.0.0 [d25df0c9] Inflate v0.1.5 [8197267c] IntervalSets v0.7.14 [3587e190] InverseFunctions v0.1.17 [92d709cd] IrrationalConstants v0.2.6 [42fd0dbc] IterativeSolvers v0.9.4 [033835bb] JLD2 v0.6.4 [692b3bcd] JLLWrappers v1.8.0 [682c06a0] JSON v1.6.0 [10f19ff3] LayoutPointers v0.1.17 [1d6d02ad] LeftChildRightSiblingTrees v0.2.1 [9c8b4983] LightXML v0.9.3 ⌃ [d3d80556] LineSearches v7.5.1 [2ab3a3ac] LogExpFunctions v0.3.29 [da04e1cc] MPI v0.20.26 [3da0fdf6] MPIPreferences v0.1.12 [1914dd2f] MacroTools v0.5.16 [d125e4d3] ManualMemory v0.1.8 [85b6ec6f] MethodAnalysis v1.0.0 [2679e427] Metis 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Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... 281.963936 seconds (138.02 M allocations: 7.694 GiB, 3.52% gc time, 99.67% compilation time: <1% of which was recompilation) ViscousIncompressible: Error During Test at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:82 Test threw exception Expression: isapprox(∂Ψuu(F, Fn, Avn), tangent, rtol = rtolH) ArgumentError: cannot reinterpret an `Float64` array to `NTuple{81, Float64}` whose first dimension has size `9`. The resulting array would have a non-integral first dimension. Stacktrace: [1] (::Base.var"#thrownonint#reinterpret##0")(S::Type, T::Type, dim::Int64) @ Base ./reinterpretarray.jl:71 [2] view(A::Matrix{Float64}, I::UnitRange{Int64}) @ Base ./reinterpretarray.jl:89 [inlined] [3] _totuple(T::Type{NTuple{81, Float64}}, itr::Matrix{Float64}) @ Base ./reinterpretarray.jl:979 [4] NTuple{81, Float64}(itr::Matrix{Float64}) @ Base ./tuple.jl:454 [5] TensorValue(data::Matrix{Float64}) @ Gridap.TensorValues ~/.julia/packages/Gridap/eNa8j/src/TensorValues/TensorValueTypes.jl:66 [6] ∂Ce_∂C(::ViscousIncompressible, γα::Float64, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, invUvn::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, λα::Float64, F::TensorValue{3, 3, Float64, 9}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:288 [7] ViscousTangentOperator(obj::ViscousIncompressible, Se_::HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, F::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, invUv::TensorValue{3, 3, Float64, 9}, invUvn::TensorValue{3, 3, Float64, 9}, λα::Float64) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:339 [8] Tangent(obj::ViscousIncompressible, Se_::Function, ∂Se∂Ce_::Function, F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:469 [9] ∂Ψ∂F∂F @ ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:20 [inlined] [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] [11] test_viscous_derivatives_numerical(model::ViscousIncompressible; rtolP::Float64, rtolH::Float64) @ Main ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:82 ViscousIncompressible2: Error During Test at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:142 Test threw exception Expression: isapprox(norm(∂Ψuu(F, Fn, Avn)), 4.847586088299776, rtol = 1.0e-10) ArgumentError: cannot reinterpret an `Float64` array to `NTuple{81, Float64}` whose first dimension has size `9`. The resulting array would have a non-integral first dimension. Stacktrace: [1] (::Base.var"#thrownonint#reinterpret##0")(S::Type, T::Type, dim::Int64) @ Base ./reinterpretarray.jl:71 [2] view(A::Matrix{Float64}, I::UnitRange{Int64}) @ Base ./reinterpretarray.jl:89 [inlined] [3] _totuple(T::Type{NTuple{81, Float64}}, itr::Matrix{Float64}) @ Base ./reinterpretarray.jl:979 [4] NTuple{81, Float64}(itr::Matrix{Float64}) @ Base ./tuple.jl:454 [5] TensorValue(data::Matrix{Float64}) @ Gridap.TensorValues ~/.julia/packages/Gridap/eNa8j/src/TensorValues/TensorValueTypes.jl:66 [6] ∂Ce_∂C(::ViscousIncompressible, γα::Float64, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, invUvn::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, λα::Float64, F::TensorValue{3, 3, Float64, 9}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:288 [7] ViscousTangentOperator(obj::ViscousIncompressible, Se_::HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, F::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, invUv::TensorValue{3, 3, Float64, 9}, invUvn::TensorValue{3, 3, Float64, 9}, λα::Float64) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:339 [8] Tangent(obj::ViscousIncompressible, Se_::Function, ∂Se∂Ce_::Function, F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:469 [9] (::HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}})(F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:20 [10] top-level scope @ ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:132 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] [12] macro expansion @ ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:142 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] GeneralizedMaxwell NeoHookean 1-branch: Error During Test at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:82 Test threw exception Expression: isapprox(∂Ψuu(F, Fn, Avn), tangent, rtol = rtolH) ArgumentError: cannot reinterpret an `Float64` array to `NTuple{81, Float64}` whose first dimension has size `9`. The resulting array would have a non-integral first dimension. Stacktrace: [1] (::Base.var"#thrownonint#reinterpret##0")(S::Type, T::Type, dim::Int64) @ Base ./reinterpretarray.jl:71 [2] view(A::Matrix{Float64}, I::UnitRange{Int64}) @ Base ./reinterpretarray.jl:89 [inlined] [3] _totuple(T::Type{NTuple{81, Float64}}, itr::Matrix{Float64}) @ Base ./reinterpretarray.jl:979 [4] NTuple{81, Float64}(itr::Matrix{Float64}) @ Base ./tuple.jl:454 [5] TensorValue(data::Matrix{Float64}) @ Gridap.TensorValues ~/.julia/packages/Gridap/eNa8j/src/TensorValues/TensorValueTypes.jl:66 [6] ∂Ce_∂C(::ViscousIncompressible, γα::Float64, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, invUvn::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, λα::Float64, F::TensorValue{3, 3, Float64, 9}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:288 [7] ViscousTangentOperator(obj::ViscousIncompressible, Se_::HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, F::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, invUv::TensorValue{3, 3, Float64, 9}, invUvn::TensorValue{3, 3, Float64, 9}, λα::Float64) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:339 [8] Tangent(obj::ViscousIncompressible, Se_::Function, ∂Se∂Ce_::Function, F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:469 [9] iterate(t::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}) @ Base ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:20 [inlined] [10] _zip_iterate_some(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}, ds::Tuple{Missing, Missing}, f::Missing) @ Base.Iterators ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [inlined] [11] _zip_iterate_all(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}) @ Base.Iterators ./operators.jl:1363 [inlined] [12] iterate(z::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}) @ Base.Iterators ./reduce.jl:98 [inlined] [13] _foldl_impl(op::Base.MappingRF{Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}, Base.BottomRF{typeof(+)}}, init::TensorValue{9, 9, Float64, 81}, itr::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}) @ Base ./reduce.jl:56 [14] foldl_impl @ ./reduce.jl:46 [inlined] [15] mapfoldl_impl @ ./reduce.jl:42 [inlined] [16] #mapfoldl#275 @ ./reduce.jl:173 [inlined] [17] mapreduce(f::typeof(identity), op::typeof(+), itr::Base.Generator{Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}, Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:306 [inlined] [18] reduce(op::typeof(+), itr::Base.Generator{Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}, Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:490 [inlined] [19] mapreduce(f::HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}, op::typeof(+), itr::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, itrs::Tuple{VectorValue{10, Float64}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:307 [inlined] [20] (::HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}})(F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [21] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] [22] test_viscous_derivatives_numerical(model::GeneralizedMaxwell{NeoHookean3D}; rtolP::Float64, rtolH::Float64) @ Main ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ViscousModelsTests.jl:82 116.751069 seconds (47.42 M allocations: 2.705 GiB, 1.93% gc time, 99.03% compilation time) ViscoElectricModel: Error During Test at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ElectroMechanicalTests.jl:123 Test threw exception Expression: norm(∂Ψuu(F(∇u), E(∇φ), F(∇un), Avn)) ≈ 3110.7607787445168 ArgumentError: cannot reinterpret an `Float64` array to `NTuple{81, Float64}` whose first dimension has size `9`. The resulting array would have a non-integral first dimension. Stacktrace: [1] (::Base.var"#thrownonint#reinterpret##0")(S::Type, T::Type, dim::Int64) @ Base ./reinterpretarray.jl:71 [2] view(A::Matrix{Float64}, I::UnitRange{Int64}) @ Base ./reinterpretarray.jl:89 [inlined] [3] _totuple(T::Type{NTuple{81, Float64}}, itr::Matrix{Float64}) @ Base ./reinterpretarray.jl:979 [4] NTuple{81, Float64}(itr::Matrix{Float64}) @ Base ./tuple.jl:454 [5] TensorValue(data::Matrix{Float64}) @ Gridap.TensorValues ~/.julia/packages/Gridap/eNa8j/src/TensorValues/TensorValueTypes.jl:66 [6] ∂Ce_∂C(::ViscousIncompressible, γα::Float64, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, invUvn::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, λα::Float64, F::TensorValue{3, 3, Float64, 9}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:288 [7] ViscousTangentOperator(obj::ViscousIncompressible, Se_::HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, F::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, invUv::TensorValue{3, 3, Float64, 9}, invUvn::TensorValue{3, 3, Float64, 9}, λα::Float64) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:339 [8] Tangent(obj::ViscousIncompressible, Se_::Function, ∂Se∂Ce_::Function, F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:469 [9] iterate(t::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}) @ Base ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:20 [inlined] [10] _zip_iterate_some(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}, ds::Tuple{Missing, Missing}, f::Missing) @ Base.Iterators ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [inlined] [11] _zip_iterate_all(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}) @ Base.Iterators ./operators.jl:1363 [inlined] [12] iterate(z::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}) @ Base.Iterators ./reduce.jl:98 [inlined] [13] _foldl_impl(op::Base.MappingRF{Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}, Base.BottomRF{typeof(+)}}, init::TensorValue{9, 9, Float64, 81}, itr::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}) @ Base ./reduce.jl:56 [14] foldl_impl @ ./reduce.jl:46 [inlined] [15] mapfoldl_impl @ ./reduce.jl:42 [inlined] [16] #mapfoldl#275 @ ./reduce.jl:173 [inlined] [17] mapreduce(f::typeof(identity), op::typeof(+), itr::Base.Generator{Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}, Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:306 [inlined] [18] reduce(op::typeof(+), itr::Base.Generator{Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}}}}, Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:490 [inlined] [19] mapreduce(f::HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}, op::typeof(+), itr::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, itrs::Tuple{VectorValue{10, Float64}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:307 [inlined] [20] (::HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}})(F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [inlined] [21] (::HyperFEM.PhysicalModels.var"#∂Ψuu#∂Ψuu##17"{HyperFEM.PhysicalModels.var"#∂Ψem_uu#_getCoupling##28"{HyperFEM.PhysicalModels.var"#∂Ψem_JJ#_getCoupling##27"{IdealDielectric, HyperFEM.PhysicalModels.var"#HEHE#_getCoupling##18"{HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_HJ#_getCoupling##26"{IdealDielectric, HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_HH#_getCoupling##25"{IdealDielectric, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_∂J#_getCoupling##21"{IdealDielectric, HyperFEM.PhysicalModels.var"#HEHE#_getCoupling##18"{HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_∂H#_getCoupling##20"{IdealDielectric, HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}, HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}})(F::TensorValue{3, 3, Float64, 9}, E::VectorValue{3, Float64}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ElectroMechanicalModels.jl:42 [22] top-level scope @ ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ElectroMechanicalTests.jl:106 [23] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] [24] macro expansion @ ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ElectroMechanicalTests.jl:123 [inlined] [25] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] ViscoElectricModel 2-branch: Error During Test at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ElectroMechanicalTests.jl:146 Test threw exception Expression: norm(∂Ψuu(F(∇u), E(∇φ), F(∇un), Avn, Avn)) ≈ 3110.9722775475557 ArgumentError: cannot reinterpret an `Float64` array to `NTuple{81, Float64}` whose first dimension has size `9`. The resulting array would have a non-integral first dimension. Stacktrace: [1] (::Base.var"#thrownonint#reinterpret##0")(S::Type, T::Type, dim::Int64) @ Base ./reinterpretarray.jl:71 [2] view(A::Matrix{Float64}, I::UnitRange{Int64}) @ Base ./reinterpretarray.jl:89 [inlined] [3] _totuple(T::Type{NTuple{81, Float64}}, itr::Matrix{Float64}) @ Base ./reinterpretarray.jl:979 [4] NTuple{81, Float64}(itr::Matrix{Float64}) @ Base ./tuple.jl:454 [5] TensorValue(data::Matrix{Float64}) @ Gridap.TensorValues ~/.julia/packages/Gridap/eNa8j/src/TensorValues/TensorValueTypes.jl:66 [6] ∂Ce_∂C(::ViscousIncompressible, γα::Float64, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, invUvn::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, λα::Float64, F::TensorValue{3, 3, Float64, 9}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:288 [7] ViscousTangentOperator(obj::ViscousIncompressible, Se_::HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, F::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, invUv::TensorValue{3, 3, Float64, 9}, invUvn::TensorValue{3, 3, Float64, 9}, λα::Float64) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:339 [8] Tangent(obj::ViscousIncompressible, Se_::Function, ∂Se∂Ce_::Function, F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:469 [9] iterate(t::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}) @ Base ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:20 [inlined] [10] _zip_iterate_some(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}, ds::Tuple{Missing, Missing}, f::Missing) @ Base.Iterators ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [inlined] [11] _zip_iterate_all(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}) @ Base.Iterators ./operators.jl:1363 [inlined] [12] iterate(z::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}}}) @ Base.Iterators ./reduce.jl:98 [inlined] [13] _foldl_impl(op::Base.MappingRF{Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}, Base.BottomRF{typeof(+)}}, init::TensorValue{9, 9, Float64, 81}, itr::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}}}) @ Base ./reduce.jl:56 [14] foldl_impl @ ./reduce.jl:46 [inlined] [15] mapfoldl_impl(f::typeof(identity), op::typeof(+), nt::TensorValue{9, 9, Float64, 81}, itr::Base.Generator{Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}}}, Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}}) @ Base ./reduce.jl:42 [16] mapfoldl(f::Function, op::Function, itr::Base.Generator{Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}}}, Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}}; init::TensorValue{9, 9, Float64, 81}) @ Base ./reduce.jl:173 [17] mapfoldl @ ./reduce.jl:173 [inlined] [18] mapreduce @ ./reduce.jl:306 [inlined] [19] #reduce#281 @ ./reduce.jl:490 [inlined] [20] mapreduce(f::Function, op::Function, itr::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, itrs::Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}}; kw::@Kwargs{init::TensorValue{9, 9, Float64, 81}}) @ Base ./reduce.jl:307 [21] (::HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}})(::TensorValue{3, 3, Float64, 9}, ::TensorValue{3, 3, Float64, 9}, ::VectorValue{10, Float64}, ::Vararg{VectorValue{10, Float64}}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [22] (::HyperFEM.PhysicalModels.var"#∂Ψuu#∂Ψuu##17"{HyperFEM.PhysicalModels.var"#∂Ψem_uu#_getCoupling##28"{HyperFEM.PhysicalModels.var"#∂Ψem_JJ#_getCoupling##27"{IdealDielectric, HyperFEM.PhysicalModels.var"#HEHE#_getCoupling##18"{HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_HJ#_getCoupling##26"{IdealDielectric, HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_HH#_getCoupling##25"{IdealDielectric, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_∂J#_getCoupling##21"{IdealDielectric, HyperFEM.PhysicalModels.var"#HEHE#_getCoupling##18"{HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#∂Ψem_∂H#_getCoupling##20"{IdealDielectric, HyperFEM.PhysicalModels.var"#HE#_getCoupling##17"{HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}, HyperFEM.PhysicalModels.var"#J#_getCoupling##15"}, HyperFEM.PhysicalModels.var"#H#_getCoupling##16"}, HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}})(::TensorValue{3, 3, Float64, 9}, ::VectorValue{3, Float64}, ::TensorValue{3, 3, Float64, 9}, ::VectorValue{10, Float64}, ::Vararg{VectorValue{10, Float64}}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ElectroMechanicalModels.jl:42 [23] top-level scope @ ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ElectroMechanicalTests.jl:128 [24] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] [25] macro expansion @ ~/.julia/packages/HyperFEM/wo5yR/test/TestConstitutiveModels/ElectroMechanicalTests.jl:146 [inlined] [26] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] 2.418709 seconds (1.28 M allocations: 70.242 MiB, 2.79% gc time, 88.53% compilation time) 70.630500 seconds (21.46 M allocations: 1.336 GiB, 2.13% gc time, 99.80% compilation time) 230.416589 seconds (146.88 M allocations: 7.976 GiB, 2.47% gc time, 99.82% compilation time) SimulationsTests: Error During Test at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/SimulationsTests/runtests.jl:5 Got exception outside of a @test LoadError: ArgumentError: cannot reinterpret an `Float64` array to `NTuple{81, Float64}` whose first dimension has size `9`. The resulting array would have a non-integral first dimension. Stacktrace: [1] (::Base.var"#thrownonint#reinterpret##0")(S::Type, T::Type, dim::Int64) @ Base ./reinterpretarray.jl:71 [2] view(A::Matrix{Float64}, I::UnitRange{Int64}) @ Base ./reinterpretarray.jl:89 [inlined] [3] _totuple(T::Type{NTuple{81, Float64}}, itr::Matrix{Float64}) @ Base ./reinterpretarray.jl:979 [4] NTuple{81, Float64}(itr::Matrix{Float64}) @ Base ./tuple.jl:454 [5] TensorValue(data::Matrix{Float64}) @ Gridap.TensorValues ~/.julia/packages/Gridap/eNa8j/src/TensorValues/TensorValueTypes.jl:66 [6] ∂Ce_∂C(::ViscousIncompressible, γα::Float64, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, invUvn::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, λα::Float64, F::TensorValue{3, 3, Float64, 9}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:288 [7] ViscousTangentOperator(obj::ViscousIncompressible, Se_::HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}, ∂Se∂Ce_::HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, F::TensorValue{3, 3, Float64, 9}, Ce_trial::TensorValue{3, 3, Float64, 9}, Ce::TensorValue{3, 3, Float64, 9}, invUv::TensorValue{3, 3, Float64, 9}, invUvn::TensorValue{3, 3, Float64, 9}, λα::Float64) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:339 [8] Tangent(obj::ViscousIncompressible, Se_::Function, ∂Se∂Ce_::Function, F::TensorValue{3, 3, Float64, 9}, Fn::TensorValue{3, 3, Float64, 9}, A::VectorValue{10, Float64}) @ HyperFEM.PhysicalModels ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:469 [9] iterate(t::Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}) @ Base ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:20 [inlined] [10] _zip_iterate_some(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}, VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}, ds::Tuple{Missing, Missing}, f::Missing) @ Base.Iterators ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [inlined] [11] _zip_iterate_all(is::Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}, VectorValue{10, Float64}}}, ss::Tuple{Tuple{}, Tuple{}}) @ Base.Iterators ./operators.jl:1363 [inlined] [12] iterate(z::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}, VectorValue{10, Float64}}}}) @ Base.Iterators ./reduce.jl:98 [inlined] [13] _foldl_impl(op::Base.MappingRF{Base.Splat{HyperFEM.PhysicalModels.var"#∂Ψ∂FF##5#∂Ψ∂FF##6"{TensorValue{3, 3, Float64, 9}, TensorValue{3, 3, Float64, 9}}}, Base.BottomRF{typeof(+)}}, init::TensorValue{9, 9, Float64, 81}, itr::Base.Iterators.Zip{Tuple{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, Tuple{VectorValue{10, Float64}, VectorValue{10, Float64}, VectorValue{10, Float64}}}}) @ Base ./reduce.jl:56 [14] foldl_impl @ ./reduce.jl:46 [inlined] [15] mapfoldl_impl @ ./reduce.jl:42 [inlined] [16] mapfoldl @ ./reduce.jl:173 [inlined] [17] mapreduce @ ./reduce.jl:306 [inlined] [18] reduce @ ./reduce.jl:490 [inlined] [19] mapreduce @ ./reduce.jl:307 [inlined] [20] ==(x::Int64, y::Int64) @ Base ~/.julia/packages/HyperFEM/wo5yR/src/PhysicalModels/ViscousModels.jl:62 [inlined] [21] (::Gridap.Arrays.var"#_size_zero##0#_size_zero##1")(i::Int64) @ Gridap.Arrays ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:93 [inlined] [22] map(f::Gridap.Arrays.var"#_size_zero##0#_size_zero##1", t::Tuple{Int64}) @ Base ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:87 [inlined] [23] _size_zero(a::Vector{TensorValue{3, 3, Float64, 9}}) @ Gridap.Arrays ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:64 [inlined] [24] map(f::typeof(Gridap.Arrays._size_zero), t::Tuple{Vector{TensorValue{3, 3, Float64, 9}}, Vector{TensorValue{3, 3, Float64, 9}}, Vector{VectorValue{10, Float64}}, Vector{VectorValue{10, Float64}}, Vector{VectorValue{10, Float64}}}) @ Base ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:62 [inlined] [25] return_value(::Broadcasting{HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}}, ::Vector{TensorValue{3, 3, Float64, 9}}, ::Vector{TensorValue{3, 3, Float64, 9}}, ::Vector{VectorValue{10, Float64}}, ::Vector{VectorValue{10, Float64}}, ::Vector{VectorValue{10, Float64}}) @ Gridap.Arrays ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:191 [26] tail(x::Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#14#15"}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(adjoint)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(dot)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{FillArrays.Fill{Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{FillArrays.Fill{Gridap.Fields.LinearCombinationMap{Colon}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Broadcasting{PosNegReindex{Vector{Float64}, Vector{Float64}}}, 1, Tuple{Base.OneTo{Int64}}}, Vector{Float64}, 1, Tuple{Table{Int32, Vector{Int32}, Vector{Int32}}}}, FillArrays.Fill{Matrix{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}}}}}}}}}, LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#14#15"}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(adjoint)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(dot)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{FillArrays.Fill{Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{FillArrays.Fill{Gridap.Fields.LinearCombinationMap{Colon}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Broadcasting{PosNegReindex{Vector{Float64}, Vector{Float64}}}, 1, Tuple{Base.OneTo{Int64}}}, Vector{Float64}, 1, Tuple{Table{Int32, Vector{Int32}, Vector{Int32}}}}, FillArrays.Fill{Matrix{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}}}}}}}}}, Vector{Vector{VectorValue{10, Float64}}}, Vector{Vector{VectorValue{10, Float64}}}, Vector{Vector{VectorValue{10, Float64}}}}) @ Base ~/.julia/packages/Gridap/eNa8j/src/Fields/FieldArrays.jl:570 [inlined] [27] map(f::typeof(testitem), t::Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#14#15"}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(adjoint)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(dot)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{FillArrays.Fill{Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{FillArrays.Fill{Gridap.Fields.LinearCombinationMap{Colon}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Broadcasting{PosNegReindex{Vector{Float64}, Vector{Float64}}}, 1, Tuple{Base.OneTo{Int64}}}, Vector{Float64}, 1, Tuple{Table{Int32, Vector{Int32}, Vector{Int32}}}}, FillArrays.Fill{Matrix{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}}}}}}}}}, LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#14#15"}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(adjoint)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(dot)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{FillArrays.Fill{Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{FillArrays.Fill{Gridap.Fields.LinearCombinationMap{Colon}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Broadcasting{PosNegReindex{Vector{Float64}, Vector{Float64}}}, 1, Tuple{Base.OneTo{Int64}}}, Vector{Float64}, 1, Tuple{Table{Int32, Vector{Int32}, Vector{Int32}}}}, FillArrays.Fill{Matrix{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}}}}}}}}}, Vector{Vector{VectorValue{10, Float64}}}, Vector{Vector{VectorValue{10, Float64}}}, Vector{Vector{VectorValue{10, Float64}}}}) @ Base ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:62 [inlined] [28] lazy_map(::Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}}, ::LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#14#15"}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(adjoint)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(dot)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{FillArrays.Fill{Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{FillArrays.Fill{Gridap.Fields.LinearCombinationMap{Colon}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Broadcasting{PosNegReindex{Vector{Float64}, Vector{Float64}}}, 1, Tuple{Base.OneTo{Int64}}}, Vector{Float64}, 1, Tuple{Table{Int32, Vector{Int32}, Vector{Int32}}}}, FillArrays.Fill{Matrix{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}}}}}}}}}, ::LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{HyperFEM.PhysicalModels.var"#14#15"}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(adjoint)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Gridap.Fields.BroadcastingFieldOpMap{typeof(dot)}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{FillArrays.Fill{Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{FillArrays.Fill{Gridap.Fields.LinearCombinationMap{Colon}, 1, Tuple{Base.OneTo{Int64}}}, Vector{TensorValue{3, 3, Float64, 9}}, 1, Tuple{LazyArray{FillArrays.Fill{Broadcasting{PosNegReindex{Vector{Float64}, Vector{Float64}}}, 1, Tuple{Base.OneTo{Int64}}}, Vector{Float64}, 1, Tuple{Table{Int32, Vector{Int32}, Vector{Int32}}}}, FillArrays.Fill{Matrix{TensorValue{3, 3, Float64, 9}}, 1, Tuple{Base.OneTo{Int64}}}}}}}}}}}, ::Vector{Vector{VectorValue{10, Float64}}}, ::Vector{Vector{VectorValue{10, Float64}}}, ::Vector{Vector{VectorValue{10, Float64}}}) @ Gridap.Arrays ~/.julia/packages/Gridap/eNa8j/src/Arrays/LazyArrays.jl:57 [29] evaluate!(cache::Nothing, f::Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}}, x::Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}) @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/CellFields.jl:399 [30] evaluate @ ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:87 [inlined] [31] (::Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}})(x::Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}) @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/CellFields.jl:247 [inlined] [32] (::Gridap.CellData.var"#evaluate!##0#evaluate!##1"{Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}})(i::Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}}) @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/CellFields.jl:398 [inlined] ┌ [33] map(f::Gridap.CellData.var"#evaluate!##0#evaluate!##1"{Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, t::Tuple{Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#∂Ψ∂FF#∂Ψ∂FF##4"{Tuple{HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}, HyperFEM.PhysicalModels.var"#∂Ψ∂F∂F#∂Ψ∂F∂F##0"{ViscousIncompressible, HyperFEM.PhysicalModels.var"#∂S∂C#SecondPiola##2"{IncompressibleNeoHookean3D}, HyperFEM.PhysicalModels.var"#S#SecondPiola##1"{IncompressibleNeoHookean3D}}}, HyperFEM.PhysicalModels.var"#∂Ψuu#157"{HyperFEM.PhysicalModels.var"#∂Ψ2_∂J2#156"{HyperFEM.PhysicalModels.var"#∂log2∂J2#153"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#∂Ψ_∂J#154"{HyperFEM.PhysicalModels.var"#∂log∂J#152"{Float64}, HyperFEM.PhysicalModels.var"#J#149", Float64, Float64}, HyperFEM.PhysicalModels.var"#H#150", Float64}}}, Gridap.CellData.OperationCellField{ReferenceDomain, typeof(adjoint)}}) │ @ Base ./tuple.jl:359 ├ [34] evaluate!(cache::Nothing, f::Gridap.CellData.OperationCellField{ReferenceDomain, typeof(inner)}, x::Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}) │ @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/CellFields.jl:398 ├ [35] evaluate │ @ ~/.julia/packages/Gridap/eNa8j/src/Arrays/Maps.jl:87 [inlined] ├ [36] (::Gridap.CellData.OperationCellField{ReferenceDomain, typeof(inner)})(x::Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}) │ @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/CellFields.jl:247 ├ [37] integrate(f::Gridap.CellData.OperationCellField{ReferenceDomain, typeof(inner)}, quad::CellQuadrature{ReferenceDomain, PhysicalDomain}) │ @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/CellQuadratures.jl:151 ╰───── repeated 2 times [43] integrate(f::Gridap.CellData.OperationCellField{ReferenceDomain, typeof(inner)}, b::Gridap.CellData.GenericMeasure) @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/DomainContributions.jl:168 [44] *(a::Gridap.CellData.Integrand, b::Gridap.CellData.GenericMeasure) @ Gridap.CellData ~/.julia/packages/Gridap/eNa8j/src/CellData/DomainContributions.jl:152 [45] jacobian(::GeneralizedMaxwell{NeoHookean3D}, ::Kinematics{Mechano, Solid}, ::SingleFieldFEFunction{Gridap.CellData.GenericCellField{ReferenceDomain}}, ::Gridap.FESpaces.SingleFieldFEBasis{Gridap.FESpaces.TrialBasis, ReferenceDomain}, ::Gridap.FESpaces.SingleFieldFEBasis{Gridap.FESpaces.TestBasis, ReferenceDomain}, ::Gridap.CellData.GenericMeasure, ::Float64, ::Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#14#15"}, ::CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, ::CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, ::Vararg{CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}}) @ HyperFEM.WeakForms ~/.julia/packages/HyperFEM/wo5yR/src/WeakForms/WeakForms.jl:52 [46] (::var"#65#66"{Float64, Int64, Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#14#15"}, Tuple{CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}}, Gridap.CellData.GenericMeasure, Kinematics{Mechano, Solid}, GeneralizedMaxwell{NeoHookean3D}})(u::SingleFieldFEFunction{Gridap.CellData.GenericCellField{ReferenceDomain}}, du::Gridap.FESpaces.SingleFieldFEBasis{Gridap.FESpaces.TrialBasis, ReferenceDomain}, v::Gridap.FESpaces.SingleFieldFEBasis{Gridap.FESpaces.TestBasis, ReferenceDomain}) @ Main ~/.julia/packages/HyperFEM/wo5yR/test/data/ViscoElasticSimulation.jl:74 [47] allocate_jacobian(op::Gridap.FESpaces.FEOperatorFromWeakForm, uh::SingleFieldFEFunction{Gridap.CellData.GenericCellField{ReferenceDomain}}) @ Gridap.FESpaces ~/.julia/packages/Gridap/eNa8j/src/FESpaces/FEOperatorsFromWeakForm.jl:70 [48] jacobian(op::Gridap.FESpaces.FEOperatorFromWeakForm, u::SingleFieldFEFunction{Gridap.CellData.GenericCellField{ReferenceDomain}}) @ Gridap.FESpaces ~/.julia/packages/Gridap/eNa8j/src/FESpaces/FEOperators.jl:76 [49] jacobian(op::Gridap.FESpaces.AlgebraicOpFromFEOp, x::Vector{Float64}) @ Gridap.FESpaces ~/.julia/packages/Gridap/eNa8j/src/FESpaces/FEOperators.jl:182 [50] instantiate_caches(x::Vector{Float64}, nls::NewtonSolver, op::Gridap.FESpaces.AlgebraicOpFromFEOp) @ HyperFEM.ComputationalModels ~/.julia/packages/HyperFEM/wo5yR/src/ComputationalModels/FESpaces.jl:130 [51] StaticNonlinearModel(res::var"#res#61"{Int64, Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#14#15"}, Tuple{CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}}, Gridap.CellData.GenericMeasure, Kinematics{Mechano, Solid}, GeneralizedMaxwell{NeoHookean3D}}, jac::var"#jac#64"{Int64, Gridap.CellData.OperationCellField{ReferenceDomain, HyperFEM.PhysicalModels.var"#14#15"}, Tuple{CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}, CellState{VectorValue{10, Float64}, Gridap.CellData.CellPoint{ReferenceDomain, FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}, LazyArray{Gridap.Geometry.CartesianMap{3, Float64, 9}, Vector{VectorValue{3, Float64}}, 1, Tuple{FillArrays.Fill{Vector{VectorValue{3, Float64}}, 1, Tuple{Base.OneTo{Int64}}}}}, Gridap.Geometry.BodyFittedTriangulation{3, 3, CartesianDiscreteModel{3, Float64, typeof(identity)}, CartesianGrid{3, Float64, typeof(identity)}, IdentityVector{Int64}}}}}, Gridap.CellData.GenericMeasure, Kinematics{Mechano, Solid}, GeneralizedMaxwell{NeoHookean3D}}, U::TrialFESpace{UnconstrainedFESpace{Vector{Float64}, Gridap.FESpaces.NodeToDofGlue{VectorValue{3, Int32}}}}, V::UnconstrainedFESpace{Vector{Float64}, Gridap.FESpaces.NodeToDofGlue{VectorValue{3, Int32}}}, dirbc::DirichletBC{Vector{Vector{Float64}}}; assem_U::GenericSparseMatrixAssembler, nls::NewtonSolver, xh::SingleFieldFEFunction{Gridap.CellData.GenericCellField{ReferenceDomain}}, xh⁻::SingleFieldFEFunction{Gridap.CellData.GenericCellField{ReferenceDomain}}) @ HyperFEM.ComputationalModels ~/.julia/packages/HyperFEM/wo5yR/src/ComputationalModels/Drivers.jl:108 [52] visco_elastic_simulation(; t_end::Int64, writevtk::Bool, verbose::Bool) @ Main ~/.julia/packages/HyperFEM/wo5yR/test/data/ViscoElasticSimulation.jl:78 [53] top-level scope @ ~/.julia/packages/HyperFEM/wo5yR/test/SimulationsTests/ViscoElasticSimulationTest.jl:7 [54] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:327 [55] top-level scope @ ~/.julia/packages/HyperFEM/wo5yR/test/SimulationsTests/runtests.jl:7 [56] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] [57] macro expansion @ ~/.julia/packages/HyperFEM/wo5yR/test/SimulationsTests/runtests.jl:7 [inlined] [58] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:327 [59] top-level scope @ ~/.julia/packages/HyperFEM/wo5yR/test/runtests.jl:7 [60] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2246 [inlined] [61] macro expansion @ ~/.julia/packages/HyperFEM/wo5yR/test/runtests.jl:13 [inlined] [62] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:327 [63] top-level scope @ none:6 [64] eval(m::Module, e::Any) @ Core ./boot.jl:517 [65] exec_options(opts::Base.JLOptions) @ Base ./client.jl:321 [66] _start() @ Base ./client.jl:596 in expression starting at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/SimulationsTests/ViscoElasticSimulationTest.jl:7 Test Summary: | Pass Error Total Time HyperFEMTests | 279 6 285 12m29.9s ConstitutiveModels | 224 5 229 6m41.2s composition of HGO_1Fiber | 3 3 12.5s HGO_4Fibers | 3 3 8.9s composition of HGO_4Fibers+MooneyRivlin3D | 3 3 45.8s Iso+Aniso | 3 3 0.4s Iso+MultiAniso | 3 3 1.6s NonlinearMooneyRivlin_CV | 3 3 13.5s NonlinearNeoHookean_CV | 3 3 6.6s IncompressibleNeoHookean3D_2dP | 3 3 0.3s LinearElasticity2D | 3 3 2.6s LinearElasticity3D | 3 3 4.3s NeoHookean3D | 3 3 6.3s Gent2D | 3 3 1.4s MooneyRivlin2D | 3 3 2.3s MooneyRivlin3D | 3 3 10.4s NonlinearMooneyRivlin2D | 3 3 1.9s Yeoh3D | 3 3 6.0s NonlinearMooneyRivlin2D_CV | 3 3 1.8s NonlinearMooneyRivlin3D | 3 3 10.9s IncompressibleNeoHookean2D | 3 3 1.6s IncompressibleNeoHookean2D_CV | 3 3 1.3s NonlinearIncompressibleMooneyRivlin2D_CV | 3 3 2.1s EightChain | 3 3 6.4s TransverseIsotropy2D | 4 4 0.8s TransverseIsotropy3D | 4 4 0.0s TermoElectroMech | 10 10 2.5s TermoMech | 6 6 0.3s ThermoMech_EntropicPolyconvex | 6 6 20.3s ThermoElectroMech_Bonet | 10 10 20.2s VolumetricEnergy | 3 3 2.7s ThermoElectroMech_Govindjee | 10 10 23.9s ThermoElectroMech_PINNS | 10 10 51.7s IdealMagnetic2D | 3 3 0.2s IdealMagnetic | 6 6 0.3s HardMagnetic_SoftMaterial3D_aniso | 6 6 0.8s HardMagnetic_SoftMaterial3D | 6 6 0.2s Magnetic3D | 3 3 0.1s Magnetic2D | 3 3 0.0s IdealMagnetic_SoftMaterial2D | 6 6 1.2s HardMagnetic_SoftMaterial2D | 6 6 1.0s ARAP2D | 3 3 1.1s ARAP2D_regularized | 3 3 1.2s HessianRegularization | 4 4 2.1s Hessian∇JRegularization | 4 4 0.4s VolumetricEnergy | 2 2 1.8s EightChain | 2 2 0.9s EightChain+VolumetricEnergy | 2 2 1.1s NeoHookean3D | 2 2 1.0s ViscousIncompressible | 1 1 2 1m44.9s ViscousIncompressible2 | 1 1 2 0.1s GeneralizedMaxwell EightChain 0-branch | 2 2 2.3s GeneralizedMaxwell NeoHookean 0-branch | 2 2 1.3s GeneralizedMaxwell NeoHookean 1-branch | 1 1 2 2.0s Dissipation ViscousIncompressible | 1 1 0.0s Dissipation invertibility | 5 5 1.0s GeneralizedMaxell energy at rest | 4 4 0.1s Electro+4*HGO_1Fiber | 3 3 0.3s ElectroMechano | 6 6 0.1s FlexoElectroMechanics | 6 6 0.4s ViscoElectricModel | 1 1 2 0.2s ViscoElectricModel 2-branch | 1 1 2 1.3s TensorAlgebra | 37 37 1m10.6s WeakForms | 18 18 3m50.4s SimulationsTests | 1 1 45.9s RNG of the outermost testset: Random.Xoshiro(0xcbd6080570be3867, 0xd5b6be3f42903caa, 0x103362c4431b277b, 0x6757623780e01af4, 0x715ee01d0e177078) ERROR: LoadError: Some tests did not pass: 279 passed, 0 failed, 6 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/HyperFEM/wo5yR/test/runtests.jl:5 Testing failed after 792.52s ERROR: LoadError: Package HyperFEM 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:3247 [3] Cmd(cmd::Cmd) @ Base /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Operations.jl:3110 [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:587 [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:355 [12] _start() @ Base ./client.jl:596 in expression starting at /PkgEval.jl/scripts/evaluate.jl:214 PkgEval failed after 1027.08s: package tests unexpectedly errored