Package evaluation to test HyperFEM on Julia 1.14.0-DEV.2212 (062a90bc8c*) started at 2026-05-22T13:07:38.574 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 16.36s ################################################################################ # Installation # Installing HyperFEM... Resolving package versions... Installed CommonWorldInvalidations ───────── v1.0.0 Installed HarfBuzz_jll ───────────────────── v8.5.1+0 Installed Bzip2_jll ──────────────────────── v1.0.9+0 Installed ChunkCodecLibZstd ──────────────── v1.0.0 Installed gmsh_jll ───────────────────────── v4.9.3+0 Installed PARMETIS_jll ───────────────────── v4.0.7+0 Installed MKL_jll ────────────────────────── v2025.2.0+0 Installed Libtiff_jll ────────────────────── v4.7.2+0 Installed Libuuid_jll ────────────────────── v2.42.0+0 Installed SIMDTypes ──────────────────────── v0.1.0 Installed DrWatson ───────────────────────── v2.19.1 Installed Cairo_jll ──────────────────────── v1.18.7+0 Installed NearestNeighbors ───────────────── v0.4.27 Installed Xorg_libXinerama_jll ───────────── v1.1.7+0 Installed OrderedCollections ─────────────── v1.8.1 Installed Wayland_protocols_jll ──────────── v1.44.0+0 Installed MPIABI_jll ─────────────────────── v0.1.5+0 Installed CpuId ──────────────────────────── v0.3.1 Installed Xorg_libpciaccess_jll ──────────── v0.19.0+0 Installed Graphite2_jll ──────────────────── v1.3.15+0 Installed PartitionedArrays ──────────────── v0.3.5 Installed ArgCheck ───────────────────────── v2.5.0 Installed BSON ───────────────────────────── v0.3.9 Installed Distances ──────────────────────── v0.10.12 Installed FileIO ─────────────────────────── v1.19.0 Installed Fontconfig_jll ─────────────────── v2.17.1+0 Installed Graphics ───────────────────────── v1.1.3 Installed OpenSpecFun_jll ────────────────── v0.5.6+0 Installed StaticArrayInterface ───────────── v1.10.0 Installed NaNMath ────────────────────────── v1.1.3 Installed QuadGK ─────────────────────────── v2.11.3 Installed ScopedValues ───────────────────── v1.6.2 Installed Librsvg_jll ────────────────────── v2.54.7+0 Installed SuperLU_DIST_jll ───────────────── v8.2.3+0 Installed NLSolversBase ──────────────────── v7.10.0 Installed Xorg_libxcb_jll ────────────────── v1.17.1+0 Installed InverseFunctions ───────────────── v0.1.17 Installed Reexport ───────────────────────── v1.2.2 Installed IterativeSolvers ───────────────── v0.9.4 Installed Static ─────────────────────────── v1.4.0 Installed Preferences ────────────────────── v1.5.2 Installed EpollShim_jll ──────────────────── v0.0.20230411+1 (no artifacts on this platform) Installed UnPack ─────────────────────────── v1.0.2 Installed LERC_jll ───────────────────────── v4.1.0+0 Installed LLVMOpenMP_jll ─────────────────── v18.1.8+0 Installed ADTypes ────────────────────────── v1.22.0 Installed Inflate ────────────────────────── v0.1.5 Installed DiffResults ────────────────────── v1.1.0 Installed ManualMemory ───────────────────── v0.1.8 Installed MacroTools ─────────────────────── v0.5.16 Installed DataStructures ─────────────────── v0.19.4 Installed AbstractTrees ──────────────────── v0.4.5 Installed FillArrays ─────────────────────── v1.16.0 Installed ArnoldiMethod ──────────────────── v0.4.0 Installed Xorg_libXdamage_jll ────────────── v1.1.7+0 Installed oneTBB_jll ─────────────────────── v2022.3.0+0 Installed Cairo ──────────────────────────── v1.1.1 Installed MethodAnalysis ─────────────────── v1.0.0 Installed HyperFEM ───────────────────────── v0.0.1 Installed CodecZlib ──────────────────────── v0.7.8 Installed Observables ────────────────────── v0.5.5 Installed IntelOpenMP_jll ────────────────── v2025.2.0+0 Installed ExprTools ──────────────────────── v0.1.10 Installed SCOTCH_jll ─────────────────────── v7.0.4+3 Installed Xorg_libXau_jll ────────────────── v1.0.13+0 Installed Xorg_libXfixes_jll ─────────────── v6.0.2+0 Installed CEnum ──────────────────────────── v0.5.0 Installed RoundingIntegers ───────────────── v1.1.0 Installed ArrayInterface ─────────────────── v7.25.0 Installed Libffi_jll ─────────────────────── v3.4.7+0 Installed StructUtils ────────────────────── v2.8.2 Installed Expat_jll ──────────────────────── v2.8.0+0 Installed Pixman_jll ─────────────────────── v0.46.4+0 Installed IrrationalConstants ────────────── v0.2.6 Installed CommonSubexpressions ───────────── v0.3.1 Installed LayoutPointers ─────────────────── v0.1.17 Installed SparseMatricesCSR ──────────────── v0.6.12 Installed ArrayLayouts ───────────────────── v1.12.2 Installed BitFlags ───────────────────────── v0.1.9 Installed Xorg_libXcursor_jll ────────────── v1.2.4+0 Installed libpng_jll ─────────────────────── v1.6.58+0 Installed OpenMPI_jll ────────────────────── v5.0.11+0 Installed SimpleTraits ───────────────────── v0.9.6 Installed PTSCOTCH_jll ───────────────────── v7.0.5+0 Installed Roots ──────────────────────────── v2.3.0 Installed LeftChildRightSiblingTrees ─────── v0.3.0 Installed Scratch ────────────────────────── v1.3.0 Installed GTK4_jll ───────────────────────── v4.18.6+0 Installed Hwloc_jll ──────────────────────── v2.13.0+1 Installed Graphene_jll ───────────────────── v1.10.8+0 Installed BlockArrays ────────────────────── v1.9.3 Installed Setfield ───────────────────────── v1.1.2 Installed GridapPETSc ────────────────────── v0.5.7 Installed DocStringExtensions ────────────── v0.9.5 Installed CompositionsBase ───────────────── v0.1.2 Installed WriteVTK ───────────────────────── v1.21.2 Installed PkgVersion ─────────────────────── v0.3.3 Installed CircularArrays ─────────────────── v1.5.0 Installed adwaita_icon_theme_jll ─────────── v43.0.1+0 Installed SimpleUnPack ───────────────────── v1.1.0 Installed LightXML ───────────────────────── v0.9.3 Installed CommonSolve ────────────────────── v0.2.6 Installed ForwardDiff ────────────────────── v1.3.3 Installed DifferentiationInterface ───────── v0.7.18 Installed PolynomialBases ────────────────── v0.4.25 Installed MicrosoftMPI_jll ───────────────── v10.1.4+3 (no artifacts on this platform) Installed HashArrayMappedTries ───────────── v0.2.0 Installed Combinatorics ──────────────────── v1.1.0 Installed RecipesBase ────────────────────── v1.3.4 Installed Xorg_libXi_jll ─────────────────── v1.8.3+0 Installed MPICH_jll ──────────────────────── v5.0.1+0 Installed BitTwiddlingConvenienceFunctions ─ v0.1.6 Installed Wayland_jll ────────────────────── v1.24.0+0 Installed Colors ─────────────────────────── v0.13.1 Installed StaticArraysCore ───────────────── v1.4.4 Installed GtkObservables ─────────────────── v2.2.2 Installed FastGaussQuadrature ────────────── v1.2.0 Installed StaticArrays ───────────────────── v1.9.18 Installed Xorg_libxkbfile_jll ────────────── v1.2.0+0 Installed AbstractFFTs ───────────────────── v1.5.0 Installed Libglvnd_jll ───────────────────── v1.7.1+1 Installed SCALAPACK32_jll ────────────────── v2.2.1+1 Installed SciMLPublic ────────────────────── v1.0.1 Installed ColorTypes ─────────────────────── v0.12.1 Installed Xorg_xkbcomp_jll ───────────────── v1.4.7+0 Installed GridapSolvers ──────────────────── v0.6.2 Installed Glib_jll ───────────────────────── v2.86.3+0 Installed DiffRules ──────────────────────── v1.15.1 Installed LogExpFunctions ────────────────── v0.3.29 Installed Gridap ─────────────────────────── v0.19.11 Installed Requires ───────────────────────── v1.3.1 Installed OpenBLAS32_jll ─────────────────── v0.3.33+1 Installed JSON ───────────────────────────── v1.6.0 Installed AutoHashEquals ─────────────────── v2.2.0 Installed Parsers ────────────────────────── v2.8.4 Installed CloseOpenIntervals ─────────────── v0.1.13 Installed Polyester ──────────────────────── v0.7.19 Installed Xorg_xkeyboard_config_jll ──────── v2.47.0+1 Installed UnsafeAtomics ──────────────────── v0.3.1 Installed FiniteDiff ─────────────────────── v2.31.0 Installed Xorg_libXdmcp_jll ──────────────── v1.1.6+0 Installed ChunkCodecCore ─────────────────── v1.0.1 Installed FlameGraphs ────────────────────── v1.2.0 Installed Pango_jll ──────────────────────── v1.57.1+0 Installed XZ_jll ─────────────────────────── v5.8.3+0 Installed JLLWrappers ────────────────────── v1.8.0 Installed ThreadingUtilities ─────────────── v0.5.5 Installed Accessors ──────────────────────── v0.1.44 Installed Graphs ─────────────────────────── v1.14.0 Installed Adapt ──────────────────────────── v4.6.0 Installed ConstructionBase ───────────────── v1.6.0 Installed Xorg_xtrans_jll ────────────────── v1.6.0+0 Installed JpegTurbo_jll ──────────────────── v3.1.5+0 Installed Libmount_jll ───────────────────── v2.42.0+0 Installed TranscodingStreams ─────────────── v0.11.3 Installed PETSc_jll ──────────────────────── v3.18.8+0 Installed Compat ─────────────────────────── v4.18.1 Installed JLD2 ───────────────────────────── v0.6.4 Installed MPI ────────────────────────────── v0.20.26 Installed StatsAPI ───────────────────────── v1.8.0 Installed Statistics ─────────────────────── v1.11.1 Installed Xorg_libX11_jll ────────────────── v1.8.13+0 Installed TimerOutputs ───────────────────── v0.5.29 Installed StrideArraysCore ───────────────── v0.5.9 Installed Libepoxy_jll ───────────────────── v1.5.11+0 Installed xkbcommon_jll ──────────────────── v1.13.0+0 Installed Atomix ─────────────────────────── v1.1.3 Installed OffsetArrays ───────────────────── v1.17.0 Installed GettextRuntime_jll ─────────────── v0.22.4+0 Installed ProfileView ────────────────────── v1.10.3 Installed Metis ──────────────────────────── v1.5.0 Installed PrecompileTools ────────────────── v1.3.4 Installed CPUSummary ─────────────────────── v0.2.7 Installed IfElse ─────────────────────────── v0.1.1 Installed NLsolve ────────────────────────── v4.5.1 Installed FriBidi_jll ────────────────────── v1.0.17+0 Installed Xorg_libXrender_jll ────────────── v0.9.12+0 Installed hicolor_icon_theme_jll ─────────── v0.18.0+0 Installed ChunkCodecLibZlib ──────────────── v1.0.0 Installed iso_codes_jll ──────────────────── v4.20.1+0 Installed XML2_jll ───────────────────────── v2.13.9+0 Installed SpecialFunctions ───────────────── v2.7.2 Installed FixedPointNumbers ──────────────── v0.8.5 Installed Gtk4 ───────────────────────────── v0.7.12 Installed gdk_pixbuf_jll ─────────────────── v2.42.13+0 Installed MPIPreferences ─────────────────── v0.1.12 Installed Libiconv_jll ───────────────────── v1.18.0+0 Installed FreeType2_jll ──────────────────── v2.14.3+1 Installed FFTW_jll ───────────────────────── v3.3.12+0 Installed IntervalSets ───────────────────── v0.7.14 Installed FFTW ───────────────────────────── v1.10.0 Installed GridapDistributed ──────────────── v0.4.13 Installed IndirectArrays ─────────────────── v1.0.0 Installed Xorg_libXext_jll ───────────────── v1.3.8+0 Installed METIS_jll ──────────────────────── v5.1.3+0 Installed MUMPS_jll ──────────────────────── v5.7.3+0 Installed MPItrampoline_jll ──────────────── v5.5.6+0 Installed LineSearches ───────────────────── v7.5.1 Installed VTKBase ────────────────────────── v1.0.1 Installed PolyesterWeave ─────────────────── v0.2.2 Installed Xorg_libXrandr_jll ─────────────── v1.5.6+0 Installed GridapGmsh ─────────────────────── v0.7.4 Installing 66 artifacts Installed artifact Bzip2 503.5 KiB Installed artifact Xorg_libXfixes 59.0 KiB Installed artifact Xorg_libXext 286.6 KiB Installed artifact Xorg_xtrans 48.2 KiB Installed artifact PTSCOTCH 175.5 KiB Installed artifact SCOTCH 343.5 KiB Installed artifact JpegTurbo 1.4 MiB Installed artifact LLVMOpenMP 661.6 KiB Installed artifact Graphene 223.2 KiB Installed artifact Xorg_libXrender 435.9 KiB Installed artifact SCALAPACK32 2.3 MiB Installed artifact Xorg_xkbcomp 274.8 KiB Installed artifact FFTW 2.2 MiB Installed artifact Fontconfig 984.8 KiB Installed artifact LERC 267.4 KiB Installed artifact HarfBuzz 1.7 MiB Installed artifact METIS 1.1 MiB Installed artifact Wayland 390.6 KiB Installed artifact Xorg_libXcursor 227.1 KiB Installed artifact XZ 1.6 MiB Installed artifact Pango 2.1 MiB Installed artifact Xorg_libpciaccess 26.2 KiB Installed artifact PARMETIS 572.3 KiB Installed artifact FreeType2 1.5 MiB Installed artifact hicolor_icon_theme 13.2 KiB Installed artifact Librsvg 9.3 MiB Installed artifact Xorg_libxcb 2.1 MiB Installed artifact Hwloc 3.5 MiB Installed artifact Xorg_xkeyboard_config 545.0 KiB Installed artifact Cairo 2.2 MiB Installed artifact Xorg_libXdamage 24.2 KiB Installed artifact MPICH 8.8 MiB Installed artifact Libiconv 1.9 MiB Installed artifact libpng 329.4 KiB Installed artifact Wayland_protocols 185.1 KiB Installed artifact OpenBLAS32 10.2 MiB Installed artifact Xorg_libxkbfile 91.1 KiB Installed artifact Libmount 6.9 MiB Installed artifact GettextRuntime 543.0 KiB Installed artifact adwaita_icon_theme 5.0 MiB Installed artifact Libglvnd 833.5 KiB Installed artifact Pixman 390.8 KiB Installed artifact Xorg_libX11 4.8 MiB Installed artifact SuperLU_DIST 1.6 MiB Installed artifact Libepoxy 504.4 KiB Installed artifact XML2 2.5 MiB Installed artifact Xorg_libXinerama 25.5 KiB Installed artifact FriBidi 78.9 KiB Installed artifact xkbcommon 298.7 KiB Installed artifact Libffi 44.2 KiB Installed artifact Expat 287.9 KiB Installed artifact Graphite2 120.2 KiB Installed artifact Xorg_libXdmcp 67.7 KiB Installed artifact OpenSpecFun 194.9 KiB Installed artifact Xorg_libXi 1.6 MiB Installed artifact GTK4 14.1 MiB Installed artifact gmsh 10.3 MiB Installed artifact Libtiff 2.3 MiB Installed artifact Xorg_libXau 36.6 KiB Installed artifact gdk_pixbuf 943.6 KiB Installed artifact Xorg_libXrandr 97.3 KiB Installed artifact Libuuid 3.9 MiB Installed artifact MUMPS 4.7 MiB Installed artifact iso_codes 7.9 MiB Installed artifact Glib 7.7 MiB Installed artifact PETSc 144.6 MiB 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 v1.2.0 [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 v0.3.0 [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 GridapPETSc → `~/.julia/scratchspaces/44cfe95a-1eb2-52ea-b672-e2afdf69b78f/452b74fab1322912d08f683cbca8bf78fc1be880/build.log` Building GridapGmsh ─→ `~/.julia/scratchspaces/44cfe95a-1eb2-52ea-b672-e2afdf69b78f/56bcd88698c92c1bacbca36aa82844de776c646e/build.log` Installation completed after 158.74s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling project... 4.6 s ✓ TestEnv 1 dependency successfully precompiled in 5 seconds. 27 already precompiled. Precompiling package dependencies... Precompiling project... 4.1 s ✓ MacroTools 0.8 s ✓ Reexport 1.2 s ✓ ConstructionBase 2.0 s ✓ IrrationalConstants 0.9 s ✓ StatsAPI 1.1 s ✓ Observables 1.1 s ✓ IntervalSets 1.0 s ✓ CEnum 2.3 s ✓ Combinatorics 1.1 s ✓ Inflate 1.0 s ✓ ArgCheck 0.9 s ✓ CommonSolve 1.4 s ✓ TranscodingStreams 1.1 s ✓ ChunkCodecCore 1.2 s ✓ Statistics 1.1 s ✓ StaticArraysCore 0.8 s ✓ IfElse 1.0 s ✓ AutoHashEquals 1.0 s ✓ ManualMemory 0.9 s ✓ Adapt 0.8 s ✓ SciMLPublic 0.9 s ✓ CommonWorldInvalidations 3.0 s ✓ UnsafeAtomics 0.9 s ✓ VTKBase 0.8 s ✓ InverseFunctions 0.9 s ✓ BitFlags 0.8 s ✓ CompositionsBase 1.0 s ✓ AbstractTrees 0.7 s ✓ SimpleUnPack 1.0 s ✓ AbstractFFTs 1.8 s ✓ FillArrays 0.8 s ✓ ExprTools 0.8 s ✓ IndirectArrays 0.8 s ✓ RoundingIntegers 0.7 s ✓ UnPack 1.2 s ✓ OrderedCollections 0.8 s ✓ HashArrayMappedTries 1.3 s ✓ ADTypes 1.0 s ✓ DocStringExtensions 1.3 s ✓ BSON 1.3 s ✓ OffsetArrays 0.7 s ✓ SIMDTypes 0.9 s ✓ NaNMath 1.1 s ✓ Requires 1.1 s ✓ Scratch 1.5 s ✓ StructUtils 1.4 s ✓ CpuId 1.1 s ✓ Compat 1.2 s ✓ Preferences 3.1 s ✓ PkgVersion 1.4 s ✓ CommonSubexpressions 2.7 s ✓ SimpleTraits 0.7 s ✓ ConstructionBase → ConstructionBaseLinearAlgebraExt 0.7 s ✓ IntervalSets → IntervalSetsRandomExt 0.7 s ✓ ConstructionBase → ConstructionBaseIntervalSetsExt 0.8 s ✓ CodecZlib 0.9 s ✓ ChunkCodecLibZlib 1.0 s ✓ ChunkCodecLibZstd 1.3 s ✓ Statistics → SparseArraysExt 3.8 s ✓ FixedPointNumbers 1.5 s ✓ Distances 0.8 s ✓ IntervalSets → IntervalSetsStatisticsExt 0.9 s ✓ DiffResults 2.0 s ✓ ThreadingUtilities 1.2 s ✓ ArrayInterface 1.6 s ✓ Adapt → AdaptSparseArraysExt 1.0 s ✓ Atomix 1.5 s ✓ InverseFunctions → InverseFunctionsDatesExt 2.0 s ✓ InverseFunctions → InverseFunctionsTestExt 0.9 s ✓ CompositionsBase → CompositionsBaseInverseFunctionsExt 0.9 s ✓ LeftChildRightSiblingTrees 1.2 s ✓ MethodAnalysis 4.4 s ✓ AbstractFFTs → AbstractFFTsTestExt 1.9 s ✓ FillArrays → FillArraysSparseArraysExt 1.1 s ✓ FillArrays → FillArraysStatisticsExt 3.3 s ✓ TimerOutputs 3.7 s ✓ DataStructures 1.0 s ✓ ScopedValues 0.8 s ✓ ADTypes → ADTypesConstructionBaseExt 2.2 s ✓ DifferentiationInterface 1.6 s ✓ LogExpFunctions 0.9 s ✓ OffsetArrays → OffsetArraysAdaptExt 0.9 s ✓ CircularArrays 9.4 s ✓ FileIO 1.3 s ✓ StructUtils → StructUtilsStaticArraysCoreExt 1.0 s ✓ Compat → CompatLinearAlgebraExt 1.9 s ✓ PrecompileTools 2.1 s ✓ JLLWrappers 2.4 s ✓ MPIPreferences 3.1 s ✓ Setfield 2.8 s ✓ ColorTypes 1.6 s ✓ Distances → DistancesSparseArraysExt 0.8 s ✓ ArrayInterface → ArrayInterfaceStaticArraysCoreExt 1.7 s ✓ ArrayInterface → ArrayInterfaceSparseArraysExt 5.7 s ✓ Accessors 2.5 s ✓ QuadGK 1.7 s ✓ DifferentiationInterface → DifferentiationInterfaceSparseArraysExt 0.9 s ✓ LogExpFunctions → LogExpFunctionsInverseFunctionsExt 15.1 s ✓ StaticArrays 4.0 s ✓ RecipesBase 18.2 s ✓ Parsers 8.4 s ✓ Static 48.2 s ✓ JLD2 1.8 s ✓ Libffi_jll 1.8 s ✓ OpenBLAS32_jll 1.8 s ✓ Bzip2_jll 1.8 s ✓ XZ_jll 1.8 s ✓ gmsh_jll 1.3 s ✓ MicrosoftMPI_jll 2.1 s ✓ OpenSpecFun_jll 1.6 s ✓ Xorg_xtrans_jll 5.3 s ✓ IntelOpenMP_jll 2.3 s ✓ libpng_jll 5.1 s ✓ oneTBB_jll 2.4 s ✓ iso_codes_jll 1.6 s ✓ EpollShim_jll 1.7 s ✓ Wayland_protocols_jll 2.3 s ✓ Libmount_jll 2.4 s ✓ Libuuid_jll 2.4 s ✓ FriBidi_jll 2.5 s ✓ LERC_jll 2.5 s ✓ Xorg_libXau_jll 2.1 s ✓ FFTW_jll 1.9 s ✓ METIS_jll 2.0 s ✓ hicolor_icon_theme_jll 1.8 s ✓ Graphite2_jll 1.7 s ✓ Xorg_libpciaccess_jll 1.9 s ✓ LLVMOpenMP_jll 2.1 s ✓ Libiconv_jll 2.1 s ✓ Xorg_libXdmcp_jll 2.2 s ✓ Expat_jll 2.2 s ✓ JpegTurbo_jll 4.3 s ✓ MPItrampoline_jll 1.3 s ✓ ColorTypes → StyledStringsExt 8.1 s ✓ Colors 1.4 s ✓ FiniteDiff 2.3 s ✓ Accessors → TestExt 3.1 s ✓ Accessors → IntervalSetsExt 3.1 s ✓ Accessors → LinearAlgebraExt 4.5 s ✓ ArnoldiMethod 1.9 s ✓ StaticArrays → StaticArraysStatisticsExt 1.9 s ✓ ConstructionBase → ConstructionBaseStaticArraysExt 1.9 s ✓ Adapt → AdaptStaticArraysExt 2.2 s ✓ FillArrays → FillArraysStaticArraysExt 1.8 s ✓ DifferentiationInterface → DifferentiationInterfaceStaticArraysExt 1.8 s ✓ Accessors → StaticArraysExt 4.3 s ✓ IterativeSolvers 1.8 s ✓ IntervalSets → IntervalSetsRecipesBaseExt 7.7 s ✓ JSON 1.4 s ✓ BitTwiddlingConvenienceFunctions 3.0 s ✓ CPUSummary 6.7 s ✓ StaticArrayInterface 5.9 s ✓ JLD2 → UnPackExt 2.4 s ✓ FreeType2_jll 2.4 s ✓ SCOTCH_jll 5.6 s ✓ SpecialFunctions  Downloading artifact: IntelOpenMP  Downloading artifact: oneTBB 10.2 s ✓ MKL_jll 2.9 s ✓ Metis 2.3 s ✓ adwaita_icon_theme_jll 2.3 s ✓ Pixman_jll 2.4 s ✓ XML2_jll 2.4 s ✓ GettextRuntime_jll 2.3 s ✓ Xorg_libxcb_jll 2.3 s ✓ Wayland_jll 2.3 s ✓ Libtiff_jll 1.4 s ✓ Graphics 10.0 s ✓ FlameGraphs 1.7 s ✓ FiniteDiff → FiniteDiffStaticArraysExt 1.6 s ✓ FiniteDiff → FiniteDiffSparseArraysExt 1.1 s ✓ DifferentiationInterface → DifferentiationInterfaceFiniteDiffExt 7.3 s ✓ Roots 9.1 s ✓ NearestNeighbors 10.9 s ✓ Graphs 22.7 s ✓ ArrayLayouts 2.2 s ✓ PolyesterWeave 1.5 s ✓ StaticArrayInterface → StaticArrayInterfaceOffsetArraysExt 1.9 s ✓ StaticArrayInterface → StaticArrayInterfaceStaticArraysExt 1.5 s ✓ CloseOpenIntervals 1.7 s ✓ LayoutPointers 6.9 s ✓ DrWatson 2.4 s ✓ Fontconfig_jll 5.3 s ✓ FastGaussQuadrature 1.5 s ✓ DiffRules 8.1 s ✓ FFTW 1.6 s ✓ LightXML 2.4 s ✓ Hwloc_jll 2.5 s ✓ Glib_jll 2.4 s ✓ Xorg_libX11_jll 5.9 s ✓ TimerOutputs → FlameGraphsExt 3.7 s ✓ Metis → MetisGraphs 4.3 s ✓ ArrayLayouts → ArrayLayoutsSparseArraysExt 5.9 s ✓ BlockArrays 2.6 s ✓ StrideArraysCore 7.6 s ✓ ForwardDiff 5.2 s ✓ PolynomialBases 2.2 s ✓ WriteVTK 2.2 s ✓ MPICH_jll 4.6 s ✓ OpenMPI_jll 4.6 s ✓ MPIABI_jll 2.3 s ✓ Graphene_jll 2.4 s ✓ Xorg_libXfixes_jll 2.3 s ✓ Xorg_libXrender_jll 2.3 s ✓ Xorg_libXext_jll 2.2 s ✓ Xorg_libxkbfile_jll 2.4 s ✓ gdk_pixbuf_jll 3.5 s ✓ BlockArrays → BlockArraysAdaptExt 2.4 s ✓ Polyester 2.2 s ✓ ForwardDiff → ForwardDiffStaticArraysExt 1.8 s ✓ DifferentiationInterface → DifferentiationInterfaceForwardDiffExt 1.7 s ✓ Roots → RootsForwardDiffExt 5.5 s ✓ SCALAPACK32_jll 11.4 s ✓ MPI 5.5 s ✓ PTSCOTCH_jll 5.1 s ✓ PARMETIS_jll 2.4 s ✓ Xorg_libXdamage_jll 2.3 s ✓ Xorg_libXcursor_jll 2.4 s ✓ Xorg_libXrandr_jll 2.4 s ✓ Xorg_libXinerama_jll 2.4 s ✓ Xorg_libXi_jll 2.4 s ✓ Cairo_jll 2.3 s ✓ Libglvnd_jll 2.4 s ✓ Xorg_xkbcomp_jll 3.9 s ✓ SparseMatricesCSR 2.9 s ✓ NLSolversBase 5.6 s ✓ MUMPS_jll 5.5 s ✓ SuperLU_DIST_jll 2.4 s ✓ HarfBuzz_jll 2.4 s ✓ Libepoxy_jll 1.7 s ✓ Xorg_xkeyboard_config_jll 8.6 s ✓ PartitionedArrays 3.2 s ✓ LineSearches 5.5 s ✓ PETSc_jll 2.4 s ✓ Pango_jll 2.3 s ✓ xkbcommon_jll 3.3 s ✓ NLsolve 3.1 s ✓ Cairo 2.5 s ✓ Librsvg_jll 2.6 s ✓ GTK4_jll 49.5 s ✓ Gridap 48.8 s ✓ Gtk4 17.8 s ✓ GridapDistributed  (julia:1360): Gtk-WARNING **: 13:25:47.716: Unable to acquire session bus: Cannot spawn a message bus without a machine-id: Invalid machine ID in /workspace/destdir/var/lib/dbus/machine-id or /etc/machine-id 25.2 s ✓ GtkObservables 17.7 s ✓ GridapPETSc 18.2 s ✓ GridapGmsh 18.5 s ✓ GridapSolvers  (julia:1378): Gtk-WARNING **: 13:27:14.057: Unable to acquire session bus: Cannot spawn a message bus without a machine-id: Invalid machine ID in /workspace/destdir/var/lib/dbus/machine-id or /etc/machine-id 16.7 s ✓ ProfileView 15.6 s ✓ GridapSolvers → IterativeSolversExt 16.6 s ✓ GridapSolvers → GridapPETScExt 17.9 s ✓ HyperFEM 249 dependencies successfully precompiled in 968 seconds. 39 already precompiled. 3 dependencies had output during precompilation: ┌ GtkObservables │ (julia:1360): Gtk-WARNING **: 13:25:47.716: Unable to acquire session bus: Cannot spawn a message bus without a machine-id: Invalid machine ID in /workspace/destdir/var/lib/dbus/machine-id or /etc/machine-id └ ┌ ProfileView │ (julia:1378): Gtk-WARNING **: 13:27:14.057: Unable to acquire session bus: Cannot spawn a message bus without a machine-id: Invalid machine ID in /workspace/destdir/var/lib/dbus/machine-id or /etc/machine-id └ ┌ MKL_jll │ Downloading artifact: IntelOpenMP │ Downloading artifact: oneTBB └ Precompilation completed after 1005.46s ################################################################################ # Testing # Testing HyperFEM Status `/tmp/jl_P8mviW/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_P8mviW/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 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Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... 278.046683 seconds (137.55 M allocations: 7.669 GiB, 3.27% 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:82 120.108208 seconds (47.42 M allocations: 2.705 GiB, 1.57% gc time, 99.18% 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] 2.257196 seconds (1.28 M allocations: 70.228 MiB, 91.63% compilation time) 68.590037 seconds (21.46 M allocations: 1.336 GiB, 2.33% gc time, 99.82% compilation time) 236.040558 seconds (146.46 M allocations: 7.959 GiB, 2.50% gc time, 99.75% 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 12m38.7s ConstitutiveModels | 224 5 229 6m40.5s composition of HGO_1Fiber | 3 3 12.4s HGO_4Fibers | 3 3 8.1s composition of HGO_4Fibers+MooneyRivlin3D | 3 3 38.4s Iso+Aniso | 3 3 0.5s Iso+MultiAniso | 3 3 1.8s NonlinearMooneyRivlin_CV | 3 3 13.4s NonlinearNeoHookean_CV | 3 3 5.9s IncompressibleNeoHookean3D_2dP | 3 3 0.3s LinearElasticity2D | 3 3 2.8s LinearElasticity3D | 3 3 4.7s NeoHookean3D | 3 3 5.5s Gent2D | 3 3 1.5s MooneyRivlin2D | 3 3 2.2s MooneyRivlin3D | 3 3 10.5s NonlinearMooneyRivlin2D | 3 3 1.9s Yeoh3D | 3 3 5.4s NonlinearMooneyRivlin2D_CV | 3 3 1.8s NonlinearMooneyRivlin3D | 3 3 11.5s IncompressibleNeoHookean2D | 3 3 1.6s IncompressibleNeoHookean2D_CV | 3 3 1.3s NonlinearIncompressibleMooneyRivlin2D_CV | 3 3 1.4s EightChain | 3 3 6.3s TransverseIsotropy2D | 4 4 0.8s TransverseIsotropy3D | 4 4 0.0s TermoElectroMech | 10 10 2.6s TermoMech | 6 6 0.2s ThermoMech_EntropicPolyconvex | 6 6 20.2s ThermoElectroMech_Bonet | 10 10 21.0s VolumetricEnergy | 3 3 2.7s ThermoElectroMech_Govindjee | 10 10 23.8s ThermoElectroMech_PINNS | 10 10 55.0s IdealMagnetic2D | 3 3 0.2s IdealMagnetic | 6 6 0.4s HardMagnetic_SoftMaterial3D_aniso | 6 6 1.0s HardMagnetic_SoftMaterial3D | 6 6 0.2s Magnetic3D | 3 3 0.1s Magnetic2D | 3 3 0.0s IdealMagnetic_SoftMaterial2D | 6 6 1.7s HardMagnetic_SoftMaterial2D | 6 6 1.1s ARAP2D | 3 3 1.2s ARAP2D_regularized | 3 3 2.1s HessianRegularization | 4 4 2.3s Hessian∇JRegularization | 4 4 0.4s VolumetricEnergy | 2 2 1.8s EightChain | 2 2 1.0s EightChain+VolumetricEnergy | 2 2 1.2s NeoHookean3D | 2 2 1.2s ViscousIncompressible | 1 1 2 1m48.3s ViscousIncompressible2 | 1 1 2 0.1s GeneralizedMaxwell EightChain 0-branch | 2 2 2.3s GeneralizedMaxwell NeoHookean 0-branch | 2 2 1.2s GeneralizedMaxwell NeoHookean 1-branch | 1 1 2 1.8s Dissipation ViscousIncompressible | 1 1 0.0s Dissipation invertibility | 5 5 0.9s 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 1.1s TensorAlgebra | 37 37 1m08.6s WeakForms | 18 18 3m56.0s SimulationsTests | 1 1 51.9s RNG of the outermost testset: Random.Xoshiro(0xd1f0507b8619f382, 0x052e3bded7dda011, 0x4305881326eb22ba, 0x3a95d05973c3d911, 0xcaaf5ee9faa570ce) 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 801.59s 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 2044.35s: package tests unexpectedly errored