Package evaluation to test ApproxFunFourier on Julia 1.14.0-DEV.1601 (79ea5eb99c*) started at 2026-01-24T17:10:14.813 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 10.51s ################################################################################ # Installation # Installing ApproxFunFourier... Resolving package versions... Installed Calculus ──────────────── v0.5.2 Installed LowRankMatrices ───────── v1.0.2 Installed MKL_jll ───────────────── v2025.2.0+0 Installed MacroTools ────────────── v0.5.16 Installed RecurrenceRelationships ─ v0.2.0 Installed FillArrays ────────────── v1.16.0 Installed ConstructionBase ──────── v1.6.0 Installed ApproxFunBase ─────────── v0.9.33 Installed oneTBB_jll ────────────── v2022.0.0+1 Installed OrderedCollections ────── v1.8.1 Installed RecipesBase ───────────── v1.3.4 Installed Combinatorics ─────────── v1.1.0 Installed Statistics ────────────── v1.11.1 Installed FastTransforms_jll ────── v0.6.3+0 Installed BlockBandedMatrices ───── v0.13.4 Installed IntelOpenMP_jll ───────── v2025.2.0+0 Installed StaticArraysCore ──────── v1.4.4 Installed LazyArrays ────────────── v2.9.4 Installed DomainSets ────────────── v0.7.16 Installed StaticArrays ──────────── v1.9.16 Installed PrecompileTools ───────── v1.3.3 Installed FastGaussQuadrature ───── v1.1.0 Installed IrrationalConstants ───── v0.2.6 Installed AbstractFFTs ──────────── v1.5.0 Installed Infinities ────────────── v0.1.12 Installed OpenSpecFun_jll ───────── v0.5.6+0 Installed Requires ──────────────── v1.3.1 Installed ArrayLayouts ──────────── v1.12.2 Installed ApproxFunFourier ──────── v0.3.31 Installed LogExpFunctions ───────── v0.3.29 Installed FastTransforms ────────── v0.17.1 Installed Reexport ──────────────── v1.2.2 Installed ToeplitzMatrices ──────── v0.8.5 Installed IntervalSets ──────────── v0.7.13 Installed SpecialFunctions ──────── v2.6.1 Installed Setfield ──────────────── v1.1.2 Installed BandedMatrices ────────── v1.11.0 Installed BlockArrays ───────────── v1.9.3 Installed MatrixFactorizations ──── v3.1.3 Installed FFTW_jll ──────────────── v3.3.11+0 Installed Preferences ───────────── v1.5.1 Installed FFTW ──────────────────── v1.10.0 Installed JLLWrappers ───────────── v1.7.1 Installed LLVMOpenMP_jll ────────── v18.1.8+0 Installed CompositeTypes ────────── v0.1.4 Installed GenericFFT ────────────── v0.1.6 Installed Polynomials ───────────── v4.1.0 Installed Bessels ───────────────── v0.2.8 Installed IterTools ─────────────── v1.10.0 Installed DocStringExtensions ───── v0.9.5 Installed InfiniteArrays ────────── v0.15.11 Installed DSP ───────────────────── v0.8.4 Installing 4 artifacts Installed artifact OpenSpecFun 194.9 KiB Installed artifact FastTransforms 581.0 KiB Installed artifact LLVMOpenMP 661.6 KiB Installed artifact FFTW 2.2 MiB Updating `~/.julia/environments/v1.14/Project.toml` [59844689] + ApproxFunFourier v0.3.31 Updating `~/.julia/environments/v1.14/Manifest.toml` [621f4979] + AbstractFFTs v1.5.0 [fbd15aa5] + ApproxFunBase v0.9.33 [59844689] + ApproxFunFourier v0.3.31 [4c555306] + ArrayLayouts v1.12.2 [aae01518] + BandedMatrices v1.11.0 [0e736298] + Bessels v0.2.8 [8e7c35d0] + BlockArrays v1.9.3 [ffab5731] + BlockBandedMatrices v0.13.4 [49dc2e85] + Calculus v0.5.2 [861a8166] + Combinatorics v1.1.0 [b152e2b5] + CompositeTypes v0.1.4 [187b0558] + ConstructionBase v1.6.0 [717857b8] + DSP v0.8.4 [ffbed154] + DocStringExtensions v0.9.5 [5b8099bc] + DomainSets v0.7.16 [7a1cc6ca] + FFTW v1.10.0 [442a2c76] + FastGaussQuadrature v1.1.0 [057dd010] + FastTransforms v0.17.1 [1a297f60] + FillArrays v1.16.0 [a8297547] + GenericFFT v0.1.6 [4858937d] + InfiniteArrays v0.15.11 [e1ba4f0e] + Infinities v0.1.12 [8197267c] + IntervalSets v0.7.13 [92d709cd] + IrrationalConstants v0.2.6 [c8e1da08] + IterTools v1.10.0 [692b3bcd] + JLLWrappers v1.7.1 [5078a376] + LazyArrays v2.9.4 [2ab3a3ac] + LogExpFunctions v0.3.29 [e65ccdef] + LowRankMatrices v1.0.2 [1914dd2f] + MacroTools v0.5.16 [a3b82374] + MatrixFactorizations v3.1.3 [bac558e1] + OrderedCollections v1.8.1 [f27b6e38] + Polynomials v4.1.0 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.1 [3cdcf5f2] + RecipesBase v1.3.4 [807425ed] + RecurrenceRelationships v0.2.0 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.1 [efcf1570] + Setfield v1.1.2 [276daf66] + SpecialFunctions v2.6.1 [90137ffa] + StaticArrays v1.9.16 [1e83bf80] + StaticArraysCore v1.4.4 [10745b16] + Statistics v1.11.1 [c751599d] + ToeplitzMatrices v0.8.5 [f5851436] + FFTW_jll v3.3.11+0 [34b6f7d7] + FastTransforms_jll v0.6.3+0 [1d5cc7b8] + IntelOpenMP_jll v2025.2.0+0 [1d63c593] + LLVMOpenMP_jll v18.1.8+0 [856f044c] + MKL_jll v2025.2.0+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [1317d2d5] + oneTBB_jll v2022.0.0+1 [0dad84c5] + ArgTools v1.1.2 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [f43a241f] + Downloads v1.7.0 [7b1f6079] + FileWatching v1.11.0 [9fa8497b] + Future 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 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.14.0 [de0858da] + Printf v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.0.0 [9e88b42a] + Serialization v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.13.0 [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [781609d7] + GMP_jll v6.3.0+2 [deac9b47] + LibCURL_jll v8.18.0+0 [e37daf67] + LibGit2_jll v1.9.2+0 [29816b5a] + LibSSH2_jll v1.11.3+1 [3a97d323] + MPFR_jll v4.2.2+0 [14a3606d] + MozillaCACerts_jll v2025.12.2 [4536629a] + OpenBLAS_jll v0.3.29+0 [05823500] + OpenLibm_jll v0.8.7+0 [458c3c95] + OpenSSL_jll v3.5.4+0 [efcefdf7] + PCRE2_jll v10.47.0+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [83775a58] + Zlib_jll v1.3.1+2 [3161d3a3] + Zstd_jll v1.5.7+1 [8e850b90] + libblastrampoline_jll v5.15.0+0 [8e850ede] + nghttp2_jll v1.68.0+1 [3f19e933] + p7zip_jll v17.7.0+0 Building FastTransforms → `~/.julia/scratchspaces/44cfe95a-1eb2-52ea-b672-e2afdf69b78f/0cf70a407262f6f088eabcb464b0e887b485099e/build.log` Installation completed after 12.67s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling packages... 4454.0 ms ✓ TestEnv 1 dependency successfully precompiled in 5 seconds. 27 already precompiled. Precompiling package dependencies... Precompiling packages... 1052.2 ms ✓ HalfIntegers 4271.6 ms ✓ MacroTools 807.6 ms ✓ Reexport 1130.8 ms ✓ Statistics 1157.0 ms ✓ ConstructionBase 2154.8 ms ✓ IrrationalConstants 965.7 ms ✓ StaticArraysCore 2562.7 ms ✓ Bessels 1191.9 ms ✓ Requires 1269.8 ms ✓ OrderedCollections 917.6 ms ✓ CompositeTypes 851.9 ms ✓ LowRankMatrices 1318.0 ms ✓ Calculus 1139.7 ms ✓ DocStringExtensions 862.2 ms ✓ OddEvenIntegers 1147.3 ms ✓ IterTools 1025.4 ms ✓ IntervalSets 2060.4 ms ✓ Combinatorics 1012.9 ms ✓ AbstractFFTs 2516.9 ms ✓ FillArrays 1555.8 ms ✓ Infinities 1142.3 ms ✓ RecurrenceRelationships 1129.0 ms ✓ Compat 1177.3 ms ✓ Preferences 1314.3 ms ✓ Statistics → SparseArraysExt 798.7 ms ✓ ConstructionBase → ConstructionBaseLinearAlgebraExt 1411.3 ms ✓ LogExpFunctions 1222.2 ms ✓ OddEvenIntegers → OddEvenIntegersHalfIntegersExt 856.6 ms ✓ IntervalSets → IntervalSetsStatisticsExt 786.1 ms ✓ IntervalSets → IntervalSetsRandomExt 789.9 ms ✓ ConstructionBase → ConstructionBaseIntervalSetsExt 4331.5 ms ✓ AbstractFFTs → AbstractFFTsTestExt 1506.6 ms ✓ FillArrays → FillArraysSparseArraysExt 1696.0 ms ✓ FillArrays → FillArraysStatisticsExt 1252.9 ms ✓ LowRankMatrices → LowRankMatricesFillArraysExt 864.4 ms ✓ RecurrenceRelationships → RecurrenceRelationshipsLinearAlgebraExt 1239.4 ms ✓ RecurrenceRelationships → RecurrenceRelationshipsFillArraysExt 881.1 ms ✓ Compat → CompatLinearAlgebraExt 1271.2 ms ✓ JLLWrappers 900.1 ms ✓ PrecompileTools 2897.7 ms ✓ Setfield 6441.5 ms ✓ Aqua 4802.3 ms ✓ IntelOpenMP_jll 1498.2 ms ✓ LLVMOpenMP_jll 5535.0 ms ✓ oneTBB_jll 1492.8 ms ✓ FFTW_jll 1551.6 ms ✓ OpenSpecFun_jll 2908.6 ms ✓ RecipesBase 14193.0 ms ✓ StaticArrays  Downloading artifact: IntelOpenMP  Downloading artifact: oneTBB 10731.9 ms ✓ MKL_jll 1514.1 ms ✓ FastTransforms_jll 5160.5 ms ✓ SpecialFunctions 39687.0 ms ✓ Polynomials 1320.8 ms ✓ IntervalSets → IntervalSetsRecipesBaseExt 1419.4 ms ✓ StaticArrays → StaticArraysStatisticsExt 1424.2 ms ✓ ConstructionBase → ConstructionBaseStaticArraysExt 4808.9 ms ✓ DomainSets 1574.6 ms ✓ FillArrays → FillArraysStaticArraysExt 6839.2 ms ✓ FFTW 5389.6 ms ✓ FastGaussQuadrature 1647.2 ms ✓ DomainSets → DomainSetsRandomExt 22430.2 ms ✓ ArrayLayouts 1630.4 ms ✓ GenericFFT 3637.8 ms ✓ Polynomials → PolynomialsFFTWExt 20398.5 ms ✓ BandedMatrices 2756.0 ms ✓ ArrayLayouts → ArrayLayoutsSparseArraysExt 3471.9 ms ✓ MatrixFactorizations 3869.5 ms ✓ BlockArrays 6468.2 ms ✓ DSP 4737.9 ms ✓ BandedMatrices → BandedMatricesSparseArraysExt 7196.2 ms ✓ LazyArrays 3871.3 ms ✓ MatrixFactorizations → MatrixFactorizationsBandedMatricesExt 4147.8 ms ✓ BlockArrays → BlockArraysBandedMatricesExt 4737.9 ms ✓ ToeplitzMatrices 3594.9 ms ✓ LazyArrays → LazyArraysStaticArraysExt 8314.2 ms ✓ LazyArrays → LazyArraysBandedMatricesExt 4081.6 ms ✓ LazyArrays → LazyArraysBlockArraysExt 3548.8 ms ✓ RecurrenceRelationships → RecurrenceRelationshipsLazyArraysExt 5480.3 ms ✓ BlockBandedMatrices 5221.0 ms ✓ InfiniteArrays 12342.6 ms ✓ FastTransforms 5335.6 ms ✓ BlockBandedMatrices → BlockBandedMatricesSparseArraysExt 7308.3 ms ✓ LazyArrays → LazyArraysBlockBandedMatricesExt 6737.5 ms ✓ InfiniteArrays → InfiniteArraysDSPExt 4594.7 ms ✓ InfiniteArrays → InfiniteArraysBlockArraysExt 5669.3 ms ✓ InfiniteArrays → InfiniteArraysBandedMatricesExt 6079.0 ms ✓ InfiniteArrays → InfiniteArraysBlockBandedMatricesExt 4189.5 ms ✓ InfiniteArrays → InfiniteArraysStatisticsExt 25279.1 ms ✓ ApproxFunBase 17499.6 ms ✓ ApproxFunBase → ApproxFunBaseTestExt 17659.1 ms ✓ ApproxFunOrthogonalPolynomials 16726.6 ms ✓ ApproxFunFourier 15713.0 ms ✓ ApproxFunOrthogonalPolynomials → ApproxFunOrthogonalPolynomialsPolynomialsExt 93 dependencies successfully precompiled in 443 seconds. 37 already precompiled. 1 dependency had output during precompilation: ┌ MKL_jll │ Downloading artifact: IntelOpenMP │ Downloading artifact: oneTBB └ Precompilation completed after 458.1s ################################################################################ # Testing # Testing ApproxFunFourier Status `/tmp/jl_3n555O/Project.toml` [621f4979] AbstractFFTs v1.5.0 [fbd15aa5] ApproxFunBase v0.9.33 [59844689] ApproxFunFourier v0.3.31 [b70543e2] ApproxFunOrthogonalPolynomials v0.6.62 [4c88cf16] Aqua v0.8.14 [aae01518] BandedMatrices v1.11.0 [5b8099bc] DomainSets v0.7.16 [7a1cc6ca] FFTW v1.10.0 [057dd010] FastTransforms v0.17.1 [4858937d] InfiniteArrays v0.15.11 [8197267c] IntervalSets v0.7.13 [189a3867] Reexport v1.2.2 [276daf66] SpecialFunctions v2.6.1 [90137ffa] StaticArrays v1.9.16 [37e2e46d] LinearAlgebra v1.13.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_3n555O/Manifest.toml` [621f4979] AbstractFFTs v1.5.0 [fbd15aa5] ApproxFunBase v0.9.33 [59844689] ApproxFunFourier v0.3.31 [b70543e2] ApproxFunOrthogonalPolynomials v0.6.62 [4c88cf16] Aqua v0.8.14 [4c555306] ArrayLayouts v1.12.2 [aae01518] BandedMatrices v1.11.0 [0e736298] Bessels v0.2.8 [8e7c35d0] BlockArrays v1.9.3 [ffab5731] BlockBandedMatrices v0.13.4 [49dc2e85] Calculus v0.5.2 [861a8166] Combinatorics v1.1.0 [34da2185] Compat v4.18.1 [b152e2b5] CompositeTypes v0.1.4 [187b0558] ConstructionBase v1.6.0 [717857b8] DSP v0.8.4 [ffbed154] DocStringExtensions v0.9.5 [5b8099bc] DomainSets v0.7.16 [7a1cc6ca] FFTW v1.10.0 [442a2c76] FastGaussQuadrature v1.1.0 [057dd010] FastTransforms v0.17.1 [1a297f60] FillArrays v1.16.0 [a8297547] GenericFFT v0.1.6 [f0d1745a] HalfIntegers v1.6.0 [4858937d] InfiniteArrays v0.15.11 [e1ba4f0e] Infinities v0.1.12 [8197267c] IntervalSets v0.7.13 [92d709cd] IrrationalConstants v0.2.6 [c8e1da08] IterTools v1.10.0 [692b3bcd] JLLWrappers v1.7.1 [5078a376] LazyArrays v2.9.4 [2ab3a3ac] LogExpFunctions v0.3.29 [e65ccdef] LowRankMatrices v1.0.2 [1914dd2f] MacroTools v0.5.16 [a3b82374] MatrixFactorizations v3.1.3 [8d37c425] OddEvenIntegers v0.2.0 [bac558e1] OrderedCollections v1.8.1 [f27b6e38] Polynomials v4.1.0 [aea7be01] PrecompileTools v1.3.3 [21216c6a] Preferences v1.5.1 [3cdcf5f2] RecipesBase v1.3.4 [807425ed] RecurrenceRelationships v0.2.0 [189a3867] Reexport v1.2.2 [ae029012] Requires v1.3.1 [efcf1570] Setfield v1.1.2 [276daf66] SpecialFunctions v2.6.1 [90137ffa] StaticArrays v1.9.16 [1e83bf80] StaticArraysCore v1.4.4 [10745b16] Statistics v1.11.1 [c751599d] ToeplitzMatrices v0.8.5 [f5851436] FFTW_jll v3.3.11+0 [34b6f7d7] FastTransforms_jll v0.6.3+0 [1d5cc7b8] IntelOpenMP_jll v2025.2.0+0 [1d63c593] LLVMOpenMP_jll v18.1.8+0 [856f044c] MKL_jll v2025.2.0+0 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [1317d2d5] oneTBB_jll v2022.0.0+1 [0dad84c5] ArgTools v1.1.2 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [ade2ca70] Dates v1.11.0 [f43a241f] Downloads v1.7.0 [7b1f6079] FileWatching v1.11.0 [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 [ca575930] NetworkOptions v1.3.0 [44cfe95a] Pkg v1.14.0 [de0858da] Printf v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v1.0.0 [9e88b42a] Serialization v1.11.0 [2f01184e] SparseArrays v1.13.0 [f489334b] StyledStrings v1.13.0 [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test v1.11.0 [cf7118a7] UUIDs v1.11.0 [4ec0a83e] Unicode v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.3.0+1 [781609d7] GMP_jll v6.3.0+2 [deac9b47] LibCURL_jll v8.18.0+0 [e37daf67] LibGit2_jll v1.9.2+0 [29816b5a] LibSSH2_jll v1.11.3+1 [3a97d323] MPFR_jll v4.2.2+0 [14a3606d] MozillaCACerts_jll v2025.12.2 [4536629a] OpenBLAS_jll v0.3.29+0 [05823500] OpenLibm_jll v0.8.7+0 [458c3c95] OpenSSL_jll v3.5.4+0 [efcefdf7] PCRE2_jll v10.47.0+0 [bea87d4a] SuiteSparse_jll v7.10.1+0 [83775a58] Zlib_jll v1.3.1+2 [3161d3a3] Zstd_jll v1.5.7+1 [8e850b90] libblastrampoline_jll v5.15.0+0 [8e850ede] nghttp2_jll v1.68.0+1 [3f19e933] p7zip_jll v17.7.0+0 Testing Running tests... Test Summary: | Pass Total Time Project quality | 9 9 1m22.9s Test Summary: | Pass Total Time utils | 1 1 0.0s Test Summary: | Pass Total Time Periodic Domains | 20 20 1.6s Test Summary: | Pass Total Time Cos/SinSpace | 84 84 1m01.7s Test Summary: | Pass Total Time Taylor/Hardy | 45 45 8.3s Test Summary: | Pass Total Time Fourier | 861 861 2m27.8s Test Summary: | Pass Total Time Laurent | 24 24 14.7s Test Summary: | Pass Total Time Circle | 59 59 1m51.7s Test Summary: | Pass Total Time Disk | 5 5 0.6s Test Summary: | Pass Total Time Calculus | 9 9 13.8s Test Summary: | Pass Total Time Negatively oriented circles | 5 5 1.2s Test Summary: | Pass Total Time Fourier inplace | 6 6 0.3s Test Summary: | Pass Total Time SVector circle | 4 4 2.8s 19.241003 seconds (10.88 M allocations: 649.506 MiB, 0.96% gc time, 99.90% compilation time) 32.991903 seconds (17.35 M allocations: 1.116 GiB, 1.54% gc time, 99.37% compilation time) Operators: Error During Test at /home/pkgeval/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:154 Test threw exception Expression: Matrix(A[Block(1):Block(3), Block(1):Block(3)]) ≈ Matrix(A[blockstart(rangespace(A), 1):blockstop(rangespace(A), 3), blockstart(domainspace(A), 1):blockstop(domainspace(A), 3)]) MethodError: no method matching strides(::BlockBandedMatrices.BlockBandedMatrix{Float64}) The function `strides` exists, but no method is defined for this combination of argument types. Closest candidates are: strides(!Matched::FFTW.FakeArray) @ FFTW ~/.julia/packages/FFTW/uNgRy/src/fft.jl:122 strides(!Matched::Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, Base.ReshapedArray{T, N, A} where {T, N, A<:Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}}, DenseArray}) @ Base reinterpretarray.jl:195 strides(!Matched::Base.ReinterpretArray{T, <:Any, S, <:AbstractArray{S}, IsReshaped}) where {T, S, IsReshaped} @ Base reinterpretarray.jl:199 ... Stacktrace: [1] _memory_offset(::BlockBandedMatrices.BlockBandedMatrix{Float64}, ::Int64, ::Int64) @ Base ./abstractarray.jl:1283 [2] cconvert(::Type{Ptr{Float64}}, V::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ Base ./reshapedarray.jl:405 [3] gemm!(transA::Char, transB::Char, alpha::Float64, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, beta::Float64, C::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ LinearAlgebra.BLAS /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/blas.jl:1652 [4] _gemm! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:294 [inlined] [5] materialize! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:311 [inlined] [6] muladd!(α::Float64, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, β::Float64, C::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}; kw::@Kwargs{}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [7] mul!(dest::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float64, β::Float64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:144 [8] mul!(C::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float64, β::Float64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:408 [9] _block_muladd! @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:205 [inlined] [10] _matmul @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:230 [inlined] [11] materialize!(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, Float64, BlockBandedMatrices.BlockBandedMatrix{Float64}, BlockBandedMatrices.BlockBandedMatrix{Float64}, BlockBandedMatrices.BlockBandedMatrix{Float64}}) @ BlockArrays ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:237 [12] muladd! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [inlined] [13] copyto! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:82 [inlined] [14] copy(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ArrayLayouts.ZerosLayout, Float64, BlockBandedMatrices.BlockBandedMatrix{Float64}, BlockBandedMatrices.BlockBandedMatrix{Float64}, FillArrays.Zeros{Float64, 2, Tuple{BlockArrays.BlockedOneTo{Int64, Vector{Int64}}, BlockArrays.BlockedOneTo{Int64, Vector{Int64}}}}}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:77 [15] copy @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:140 [inlined] [16] materialize @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:137 [inlined] [17] mul @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:138 [inlined] [18] *(A::BlockBandedMatrices.BlockBandedMatrix{Float64}, B::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:223 [19] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [20] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [21] axpy!(a::Float64, X::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [22] axpy!(α::Float64, P::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [23] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [24] (BlockBandedMatrices.BlockBandedMatrix)(P::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [25] _blockmaybebandedmatrix(S::ApproxFunBase.SubOperator{Float64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, f::Type{BlockBandedMatrices.BlockBandedMatrix}, fdef::typeof(ApproxFunBase.default_BlockBandedMatrix)) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:714 [26] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:685 [inlined] [27] convert(::Type{BlockBandedMatrices.BlockBandedMatrix}, B::ApproxFunBase.SubOperator{Float64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:931 [28] strictconvert(T::Type, x::ApproxFunBase.SubOperator{Float64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/ApproxFunBase.jl:121 [29] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [30] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [31] axpy!(a::Float64, X::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [32] axpy!(α::Float64, P::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [33] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [34] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [inlined] [35] (AbstractMatrix)(V::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [36] defaultgetindex(::PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, ::Val{2}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:397 [37] defaultgetindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:378 [inlined] [38] getindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:350 [inlined] [39] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:778 [inlined] [40] backend_testinfoperator(A::PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBaseTestExt ~/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:154 Operators: Error During Test at /home/pkgeval/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:155 Test threw exception Expression: Matrix(A[Block(3):Block(4), Block(2):Block(4)]) ≈ Matrix(A[blockstart(rangespace(A), 3):blockstop(rangespace(A), 4), blockstart(domainspace(A), 2):blockstop(domainspace(A), 4)]) MethodError: no method matching strides(::BlockBandedMatrices.BlockBandedMatrix{Float64}) The function `strides` exists, but no method is defined for this combination of argument types. Closest candidates are: strides(!Matched::FFTW.FakeArray) @ FFTW ~/.julia/packages/FFTW/uNgRy/src/fft.jl:122 strides(!Matched::Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, Base.ReshapedArray{T, N, A} where {T, N, A<:Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}}, DenseArray}) @ Base reinterpretarray.jl:195 strides(!Matched::Base.ReinterpretArray{T, <:Any, S, <:AbstractArray{S}, IsReshaped}) where {T, S, IsReshaped} @ Base reinterpretarray.jl:199 ... Stacktrace: [1] _memory_offset(::BlockBandedMatrices.BlockBandedMatrix{Float64}, ::Int64, ::Int64) @ Base ./abstractarray.jl:1283 [2] cconvert(::Type{Ptr{Float64}}, V::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ Base ./reshapedarray.jl:405 [3] gemm!(transA::Char, transB::Char, alpha::Float64, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, beta::Float64, C::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ LinearAlgebra.BLAS /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/blas.jl:1652 [4] _gemm! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:294 [inlined] [5] materialize! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:311 [inlined] [6] muladd!(α::Float64, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, β::Float64, C::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}; kw::@Kwargs{}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [7] mul!(dest::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float64, β::Float64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:144 [8] mul!(C::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float64, 2, BlockBandedMatrices.BlockBandedMatrix{Float64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float64, β::Float64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:408 [9] _block_muladd! @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:205 [inlined] [10] _matmul @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:230 [inlined] [11] materialize!(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, Float64, BlockBandedMatrices.BlockBandedMatrix{Float64}, BlockBandedMatrices.BlockBandedMatrix{Float64}, BlockBandedMatrices.BlockBandedMatrix{Float64}}) @ BlockArrays ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:237 [12] muladd! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [inlined] [13] copyto! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:82 [inlined] [14] copy(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ArrayLayouts.ZerosLayout, Float64, BlockBandedMatrices.BlockBandedMatrix{Float64}, BlockBandedMatrices.BlockBandedMatrix{Float64}, FillArrays.Zeros{Float64, 2, Tuple{BlockArrays.BlockedOneTo{Int64, Vector{Int64}}, BlockArrays.BlockedOneTo{Int64, Vector{Int64}}}}}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:77 [15] copy @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:140 [inlined] [16] materialize @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:137 [inlined] [17] mul @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:138 [inlined] [18] *(A::BlockBandedMatrices.BlockBandedMatrix{Float64}, B::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:223 [19] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [20] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [21] axpy!(a::Float64, X::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [22] axpy!(α::Float64, P::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [23] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [24] (BlockBandedMatrices.BlockBandedMatrix)(P::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [25] _blockmaybebandedmatrix(S::ApproxFunBase.SubOperator{Float64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, f::Type{BlockBandedMatrices.BlockBandedMatrix}, fdef::typeof(ApproxFunBase.default_BlockBandedMatrix)) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:714 [26] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:685 [inlined] [27] convert(::Type{BlockBandedMatrices.BlockBandedMatrix}, B::ApproxFunBase.SubOperator{Float64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:931 [28] strictconvert(T::Type, x::ApproxFunBase.SubOperator{Float64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/ApproxFunBase.jl:121 [29] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [30] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [31] axpy!(a::Float64, X::ApproxFunBase.SubOperator{Float64, TimesOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [32] axpy!(α::Float64, P::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [33] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [34] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [inlined] [35] (AbstractMatrix)(V::ApproxFunBase.SubOperator{Float64, PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [36] defaultgetindex(::PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, ::Val{2}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:397 [37] defaultgetindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:378 [inlined] [38] getindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:350 [inlined] [39] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:778 [inlined] [40] backend_testinfoperator(A::PlusOperator{Float64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBaseTestExt ~/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:155 Operators: Error During Test at /home/pkgeval/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:154 Test threw exception Expression: Matrix(A[Block(1):Block(3), Block(1):Block(3)]) ≈ Matrix(A[blockstart(rangespace(A), 1):blockstop(rangespace(A), 3), blockstart(domainspace(A), 1):blockstop(domainspace(A), 3)]) MethodError: no method matching strides(::BlockBandedMatrices.BlockBandedMatrix{Float32}) The function `strides` exists, but no method is defined for this combination of argument types. Closest candidates are: strides(!Matched::FFTW.FakeArray) @ FFTW ~/.julia/packages/FFTW/uNgRy/src/fft.jl:122 strides(!Matched::Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, Base.ReshapedArray{T, N, A} where {T, N, A<:Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}}, DenseArray}) @ Base reinterpretarray.jl:195 strides(!Matched::Base.ReinterpretArray{T, <:Any, S, <:AbstractArray{S}, IsReshaped}) where {T, S, IsReshaped} @ Base reinterpretarray.jl:199 ... Stacktrace: [1] _memory_offset(::BlockBandedMatrices.BlockBandedMatrix{Float32}, ::Int64, ::Int64) @ Base ./abstractarray.jl:1283 [2] cconvert(::Type{Ptr{Float32}}, V::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ Base ./reshapedarray.jl:405 [3] gemm!(transA::Char, transB::Char, alpha::Float32, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, beta::Float32, C::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ LinearAlgebra.BLAS /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/blas.jl:1652 [4] _gemm! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:294 [inlined] [5] materialize! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:311 [inlined] [6] muladd!(α::Float32, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, β::Float32, C::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}; kw::@Kwargs{}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [7] mul!(dest::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float32, β::Float32) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:144 [8] mul!(C::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float32, β::Float32) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:408 [9] _block_muladd! @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:205 [inlined] [10] _matmul @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:230 [inlined] [11] materialize!(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, Float32, BlockBandedMatrices.BlockBandedMatrix{Float32}, BlockBandedMatrices.BlockBandedMatrix{Float32}, BlockBandedMatrices.BlockBandedMatrix{Float32}}) @ BlockArrays ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:237 [12] muladd! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [inlined] [13] copyto! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:82 [inlined] [14] copy(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ArrayLayouts.ZerosLayout, Float32, BlockBandedMatrices.BlockBandedMatrix{Float32}, BlockBandedMatrices.BlockBandedMatrix{Float32}, FillArrays.Zeros{Float32, 2, Tuple{BlockArrays.BlockedOneTo{Int64, Vector{Int64}}, BlockArrays.BlockedOneTo{Int64, Vector{Int64}}}}}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:77 [15] copy @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:140 [inlined] [16] materialize @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:137 [inlined] [17] mul @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:138 [inlined] [18] *(A::BlockBandedMatrices.BlockBandedMatrix{Float32}, B::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:223 [19] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [20] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [21] axpy!(a::Float32, X::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [22] axpy!(α::Float32, P::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [23] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [24] (BlockBandedMatrices.BlockBandedMatrix)(P::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [25] _blockmaybebandedmatrix(S::ApproxFunBase.SubOperator{Float32, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, f::Type{BlockBandedMatrices.BlockBandedMatrix}, fdef::typeof(ApproxFunBase.default_BlockBandedMatrix)) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:714 [26] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:685 [inlined] [27] convert(::Type{BlockBandedMatrices.BlockBandedMatrix}, B::ApproxFunBase.SubOperator{Float32, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:931 [28] strictconvert(T::Type, x::ApproxFunBase.SubOperator{Float32, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/ApproxFunBase.jl:121 [29] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [30] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [31] axpy!(a::Float32, X::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [32] axpy!(α::Float32, P::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [33] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [34] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [inlined] [35] (AbstractMatrix)(V::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [36] defaultgetindex(::PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, ::Val{2}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:397 [37] defaultgetindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:378 [inlined] [38] getindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:350 [inlined] [39] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:778 [inlined] [40] backend_testinfoperator(A::PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBaseTestExt ~/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:154 Operators: Error During Test at /home/pkgeval/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:155 Test threw exception Expression: Matrix(A[Block(3):Block(4), Block(2):Block(4)]) ≈ Matrix(A[blockstart(rangespace(A), 3):blockstop(rangespace(A), 4), blockstart(domainspace(A), 2):blockstop(domainspace(A), 4)]) MethodError: no method matching strides(::BlockBandedMatrices.BlockBandedMatrix{Float32}) The function `strides` exists, but no method is defined for this combination of argument types. Closest candidates are: strides(!Matched::FFTW.FakeArray) @ FFTW ~/.julia/packages/FFTW/uNgRy/src/fft.jl:122 strides(!Matched::Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, Base.ReshapedArray{T, N, A} where {T, N, A<:Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}}, DenseArray}) @ Base reinterpretarray.jl:195 strides(!Matched::Base.ReinterpretArray{T, <:Any, S, <:AbstractArray{S}, IsReshaped}) where {T, S, IsReshaped} @ Base reinterpretarray.jl:199 ... Stacktrace: [1] _memory_offset(::BlockBandedMatrices.BlockBandedMatrix{Float32}, ::Int64, ::Int64) @ Base ./abstractarray.jl:1283 [2] cconvert(::Type{Ptr{Float32}}, V::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ Base ./reshapedarray.jl:405 [3] gemm!(transA::Char, transB::Char, alpha::Float32, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, beta::Float32, C::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ LinearAlgebra.BLAS /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/blas.jl:1652 [4] _gemm! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:294 [inlined] [5] materialize! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:311 [inlined] [6] muladd!(α::Float32, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, β::Float32, C::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}; kw::@Kwargs{}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [7] mul!(dest::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float32, β::Float32) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:144 [8] mul!(C::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{Float32, 2, BlockBandedMatrices.BlockBandedMatrix{Float32}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::Float32, β::Float32) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:408 [9] _block_muladd! @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:205 [inlined] [10] _matmul @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:230 [inlined] [11] materialize!(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, Float32, BlockBandedMatrices.BlockBandedMatrix{Float32}, BlockBandedMatrices.BlockBandedMatrix{Float32}, BlockBandedMatrices.BlockBandedMatrix{Float32}}) @ BlockArrays ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:237 [12] muladd! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [inlined] [13] copyto! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:82 [inlined] [14] copy(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ArrayLayouts.ZerosLayout, Float32, BlockBandedMatrices.BlockBandedMatrix{Float32}, BlockBandedMatrices.BlockBandedMatrix{Float32}, FillArrays.Zeros{Float32, 2, Tuple{BlockArrays.BlockedOneTo{Int64, Vector{Int64}}, BlockArrays.BlockedOneTo{Int64, Vector{Int64}}}}}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:77 [15] copy @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:140 [inlined] [16] materialize @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:137 [inlined] [17] mul @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:138 [inlined] [18] *(A::BlockBandedMatrices.BlockBandedMatrix{Float32}, B::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:223 [19] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [20] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [21] axpy!(a::Float32, X::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [22] axpy!(α::Float32, P::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [23] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [24] (BlockBandedMatrices.BlockBandedMatrix)(P::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [25] _blockmaybebandedmatrix(S::ApproxFunBase.SubOperator{Float32, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, f::Type{BlockBandedMatrices.BlockBandedMatrix}, fdef::typeof(ApproxFunBase.default_BlockBandedMatrix)) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:714 [26] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:685 [inlined] [27] convert(::Type{BlockBandedMatrices.BlockBandedMatrix}, B::ApproxFunBase.SubOperator{Float32, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:931 [28] strictconvert(T::Type, x::ApproxFunBase.SubOperator{Float32, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/ApproxFunBase.jl:121 [29] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [30] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [31] axpy!(a::Float32, X::ApproxFunBase.SubOperator{Float32, TimesOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [32] axpy!(α::Float32, P::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{Float32}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [33] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [34] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [inlined] [35] (AbstractMatrix)(V::ApproxFunBase.SubOperator{Float32, PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [36] defaultgetindex(::PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, ::Val{2}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:397 [37] defaultgetindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:378 [inlined] [38] getindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:350 [inlined] [39] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:778 [inlined] [40] backend_testinfoperator(A::PlusOperator{Float32, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{Float32}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBaseTestExt ~/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:155 Operators: Error During Test at /home/pkgeval/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:154 Test threw exception Expression: Matrix(A[Block(1):Block(3), Block(1):Block(3)]) ≈ Matrix(A[blockstart(rangespace(A), 1):blockstop(rangespace(A), 3), blockstart(domainspace(A), 1):blockstop(domainspace(A), 3)]) MethodError: no method matching strides(::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) The function `strides` exists, but no method is defined for this combination of argument types. Closest candidates are: strides(!Matched::FFTW.FakeArray) @ FFTW ~/.julia/packages/FFTW/uNgRy/src/fft.jl:122 strides(!Matched::Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, Base.ReshapedArray{T, N, A} where {T, N, A<:Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}}, DenseArray}) @ Base reinterpretarray.jl:195 strides(!Matched::Base.ReinterpretArray{T, <:Any, S, <:AbstractArray{S}, IsReshaped}) where {T, S, IsReshaped} @ Base reinterpretarray.jl:199 ... Stacktrace: [1] _memory_offset(::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, ::Int64, ::Int64) @ Base ./abstractarray.jl:1283 [2] cconvert(::Type{Ptr{ComplexF64}}, V::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ Base ./reshapedarray.jl:405 [3] gemm!(transA::Char, transB::Char, alpha::ComplexF64, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, beta::ComplexF64, C::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ LinearAlgebra.BLAS /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/blas.jl:1652 [4] _gemm! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:294 [inlined] [5] materialize! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:311 [inlined] [6] muladd!(α::ComplexF64, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, β::ComplexF64, C::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}; kw::@Kwargs{}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [7] mul!(dest::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::ComplexF64, β::ComplexF64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:144 [8] mul!(C::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::ComplexF64, β::ComplexF64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:408 [9] _block_muladd! @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:205 [inlined] [10] _matmul @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:230 [inlined] [11] materialize!(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ComplexF64, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}}) @ BlockArrays ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:237 [12] muladd! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [inlined] [13] copyto! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:82 [inlined] [14] copy(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ArrayLayouts.ZerosLayout, ComplexF64, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, FillArrays.Zeros{ComplexF64, 2, Tuple{BlockArrays.BlockedOneTo{Int64, Vector{Int64}}, BlockArrays.BlockedOneTo{Int64, Vector{Int64}}}}}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:77 [15] copy @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:140 [inlined] [16] materialize @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:137 [inlined] [17] mul @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:138 [inlined] [18] *(A::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, B::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:223 [19] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [20] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [21] axpy!(a::ComplexF64, X::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [22] axpy!(α::ComplexF64, P::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [23] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [24] (BlockBandedMatrices.BlockBandedMatrix)(P::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [25] _blockmaybebandedmatrix(S::ApproxFunBase.SubOperator{ComplexF64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, f::Type{BlockBandedMatrices.BlockBandedMatrix}, fdef::typeof(ApproxFunBase.default_BlockBandedMatrix)) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:714 [26] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:685 [inlined] [27] convert(::Type{BlockBandedMatrices.BlockBandedMatrix}, B::ApproxFunBase.SubOperator{ComplexF64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:931 [28] strictconvert(T::Type, x::ApproxFunBase.SubOperator{ComplexF64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/ApproxFunBase.jl:121 [29] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [30] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [31] axpy!(a::ComplexF64, X::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [32] axpy!(α::ComplexF64, P::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [33] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [34] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [inlined] [35] (AbstractMatrix)(V::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [36] defaultgetindex(::PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, ::Val{2}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:397 [37] defaultgetindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:378 [inlined] [38] getindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:350 [inlined] [39] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:778 [inlined] [40] backend_testinfoperator(A::PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBaseTestExt ~/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:154 Operators: Error During Test at /home/pkgeval/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:155 Test threw exception Expression: Matrix(A[Block(3):Block(4), Block(2):Block(4)]) ≈ Matrix(A[blockstart(rangespace(A), 3):blockstop(rangespace(A), 4), blockstart(domainspace(A), 2):blockstop(domainspace(A), 4)]) MethodError: no method matching strides(::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) The function `strides` exists, but no method is defined for this combination of argument types. Closest candidates are: strides(!Matched::FFTW.FakeArray) @ FFTW ~/.julia/packages/FFTW/uNgRy/src/fft.jl:122 strides(!Matched::Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, Base.ReshapedArray{T, N, A} where {T, N, A<:Union{Base.ReinterpretArray{T, N, S, A, IsReshaped} where {T, N, A<:Union{SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}, IsReshaped, S}, SubArray{T, N, A, I, true} where {T, N, A<:DenseArray, I<:Union{Tuple{Vararg{Real}}, Tuple{AbstractUnitRange, Vararg{Any}}}}, DenseArray}}, DenseArray}) @ Base reinterpretarray.jl:195 strides(!Matched::Base.ReinterpretArray{T, <:Any, S, <:AbstractArray{S}, IsReshaped}) where {T, S, IsReshaped} @ Base reinterpretarray.jl:199 ... Stacktrace: [1] _memory_offset(::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, ::Int64, ::Int64) @ Base ./abstractarray.jl:1283 [2] cconvert(::Type{Ptr{ComplexF64}}, V::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ Base ./reshapedarray.jl:405 [3] gemm!(transA::Char, transB::Char, alpha::ComplexF64, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, beta::ComplexF64, C::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}) @ LinearAlgebra.BLAS /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/blas.jl:1652 [4] _gemm! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:294 [inlined] [5] materialize! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:311 [inlined] [6] muladd!(α::ComplexF64, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, β::ComplexF64, C::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}; kw::@Kwargs{}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [7] mul!(dest::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::ComplexF64, β::ComplexF64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:144 [8] mul!(C::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, A::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, B::SubArray{ComplexF64, 2, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, Tuple{BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}, BlockArrays.BlockSlice{Block{1, Int64}, Int64, UnitRange{Int64}}}, false}, α::ComplexF64, β::ComplexF64) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:408 [9] _block_muladd! @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:205 [inlined] [10] _matmul @ ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:230 [inlined] [11] materialize!(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ComplexF64, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}}) @ BlockArrays ~/.julia/packages/BlockArrays/wmk4q/src/blocklinalg.jl:237 [12] muladd! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:75 [inlined] [13] copyto! @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:82 [inlined] [14] copy(M::ArrayLayouts.MulAdd{BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, BlockBandedMatrices.BlockBandedColumns{ArrayLayouts.ColumnMajor}, ArrayLayouts.ZerosLayout, ComplexF64, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, FillArrays.Zeros{ComplexF64, 2, Tuple{BlockArrays.BlockedOneTo{Int64, Vector{Int64}}, BlockArrays.BlockedOneTo{Int64, Vector{Int64}}}}}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/muladd.jl:77 [15] copy @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:140 [inlined] [16] materialize @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:137 [inlined] [17] mul @ ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:138 [inlined] [18] *(A::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}, B::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ArrayLayouts ~/.julia/packages/ArrayLayouts/RCHQ8/src/mul.jl:223 [19] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [20] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [21] axpy!(a::ComplexF64, X::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [22] axpy!(α::ComplexF64, P::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [23] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [24] (BlockBandedMatrices.BlockBandedMatrix)(P::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [25] _blockmaybebandedmatrix(S::ApproxFunBase.SubOperator{ComplexF64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, f::Type{BlockBandedMatrices.BlockBandedMatrix}, fdef::typeof(ApproxFunBase.default_BlockBandedMatrix)) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:714 [26] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:685 [inlined] [27] convert(::Type{BlockBandedMatrices.BlockBandedMatrix}, B::ApproxFunBase.SubOperator{ComplexF64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:931 [28] strictconvert(T::Type, x::ApproxFunBase.SubOperator{ComplexF64, ApproxFunBase.MultiplicationWrapper{ApproxFunBase.SumSpace{Tuple{CosSpace{PeriodicSegment{Float64}, Float64}, SinSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ApproxFunBase.SumSpace{Tuple{SinSpace{PeriodicSegment{Float64}, Float64}, CosSpace{PeriodicSegment{Float64}, Float64}}, PeriodicSegment{Float64}, Float64}, ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/ApproxFunBase.jl:121 [29] (BlockBandedMatrices.BlockBandedMatrix)(V::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:577 [30] AbstractArray @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [inlined] [31] axpy!(a::ComplexF64, X::ApproxFunBase.SubOperator{ComplexF64, TimesOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Y::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:837 [32] axpy!(α::ComplexF64, P::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, A::BlockBandedMatrices.BlockBandedMatrix{ComplexF64}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:122 [33] convert_axpy!(::Type{BlockBandedMatrices.BlockBandedMatrix}, S::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:873 [34] BlockSkylineMatrix @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/general/algebra.jl:111 [inlined] [35] (AbstractMatrix)(V::ApproxFunBase.SubOperator{ComplexF64, PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, Tuple{BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:958 [36] defaultgetindex(::PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}, ::Val{2}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}, ::BlockArrays.BlockRange{1, Tuple{UnitRange{Int64}}}) @ ApproxFunBase ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:397 [37] defaultgetindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:378 [inlined] [38] getindex @ ~/.julia/packages/ApproxFunBase/jd32s/src/Operators/Operator.jl:350 [inlined] [39] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:778 [inlined] [40] backend_testinfoperator(A::PlusOperator{ComplexF64, Tuple{Int64, Int64}, Tuple{Infinities.InfiniteCardinal{0}, Infinities.InfiniteCardinal{0}}, Operator{ComplexF64}, Tuple{Int64, Int64}, Tuple{Int64, Int64}}) @ ApproxFunBaseTestExt ~/.julia/packages/ApproxFunBase/jd32s/ext/ApproxFunBaseTestExt.jl:155 47.142753 seconds (21.57 M allocations: 1.355 GiB, 1.10% gc time, 96.21% compilation time) 36.710660 seconds (22.36 M allocations: 1.286 GiB, 1.42% gc time, 99.97% compilation time) Test Summary: | Pass Error Total Time Operators | 3052 6 3058 2m49.5s RNG of the outermost testset: Random.Xoshiro(0x370ca6d06eb456aa, 0x0c530b836cfbc11e, 0x4e2d3905c1ebf5e5, 0x3d1eb4a2587134c7, 0x8ebed6e7ea5bd8ee) ERROR: LoadError: Some tests did not pass: 3052 passed, 0 failed, 6 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/ApproxFunFourier/AYt6V/test/runtests.jl:509 Testing failed after 1070.18s ERROR: LoadError: Package ApproxFunFourier 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:3122 [3] test @ /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Operations.jl:2987 [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:572 [5] kwcall(::@NamedTuple{julia_args::Cmd, io::IOContext{IO}}, ::typeof(Pkg.API.test), ctx::Pkg.Types.Context, pkgs::Vector{PackageSpec}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:548 [6] 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 [7] kwcall(::@NamedTuple{julia_args::Cmd}, ::typeof(Pkg.API.test), pkgs::Vector{PackageSpec}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:161 [8] test(pkgs::Vector{String}; kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:160 [9] test @ /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:160 [inlined] [10] kwcall(::@NamedTuple{julia_args::Cmd}, ::typeof(Pkg.API.test), pkg::String) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:159 [11] top-level scope @ /PkgEval.jl/scripts/evaluate.jl:237 [12] include(mod::Module, _path::String) @ Base ./Base.jl:309 [13] exec_options(opts::Base.JLOptions) @ Base ./client.jl:344 [14] _start() @ Base ./client.jl:585 in expression starting at /PkgEval.jl/scripts/evaluate.jl:228 PkgEval failed after 1596.04s: package tests unexpectedly errored