Package evaluation of PowerDynSolve on Julia 1.11.4 (a71dd056e0*) started at 2025-04-08T21:17:26.535 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 8.66s ################################################################################ # Installation # Installing PowerDynSolve... Resolving package versions... Updating `~/.julia/environments/v1.11/Project.toml` [b2d36aa5] + PowerDynSolve v1.0.0 Updating `~/.julia/environments/v1.11/Manifest.toml` ⌅ [79e6a3ab] + Adapt v3.5.0 ⌅ [4fba245c] + ArrayInterface v1.2.1 [30b0a656] + ArrayInterfaceCore v0.1.29 [6ba088a2] + ArrayInterfaceGPUArrays v0.2.2 [bbf7d656] + CommonSubexpressions v0.3.1 ⌅ [34da2185] + Compat v3.47.0 ⌃ [187b0558] + ConstructionBase v1.4.1 ⌅ [864edb3b] + DataStructures v0.17.20 [8bb1440f] + DelimitedFiles v1.9.1 ⌅ [2b5f629d] + DiffEqBase v5.20.1 ⌅ [01453d9d] + DiffEqDiffTools v0.14.0 ⌅ [9fdde737] + DiffEqOperators v3.5.0 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [b4f34e82] + Distances v0.10.12 ⌅ [ffbed154] + DocStringExtensions v0.8.6 ⌃ [d4d017d3] + ExponentialUtilities v1.23.0 ⌃ [6a86dc24] + FiniteDiff v2.17.0 ⌅ [f6369f11] + ForwardDiff v0.10.38 [069b7b12] + FunctionWrappers v1.1.3 ⌅ [46192b85] + GPUArraysCore v0.1.5 ⌅ [01680d73] + GenericSVD v0.2.2 [c145ed77] + GenericSchur v0.5.4 [92d709cd] + IrrationalConstants v0.2.4 ⌅ [42fd0dbc] + IterativeSolvers v0.8.5 [82899510] + IteratorInterfaceExtensions v1.0.0 [692b3bcd] + JLLWrappers v1.7.0 [50d2b5c4] + Lazy v0.15.1 [d3d80556] + LineSearches v7.3.0 [2ab3a3ac] + LogExpFunctions v0.3.29 [1914dd2f] + MacroTools v0.5.15 [46d2c3a1] + MuladdMacro v0.2.4 ⌃ [d41bc354] + NLSolversBase v7.8.3 [2774e3e8] + NLsolve v4.5.1 [77ba4419] + NaNMath v1.1.3 [bac558e1] + OrderedCollections v1.8.0 ⌅ [1dea7af3] + OrdinaryDiffEq v5.3.0 [d96e819e] + Parameters v0.12.3 [7ffb48b1] + PowerDynBase v1.0.0 [95be4243] + PowerDynOperationPoint v1.0.0 [b2d36aa5] + PowerDynSolve v1.0.0 [21216c6a] + Preferences v1.4.3 ⌅ [3cdcf5f2] + RecipesBase v0.7.0 ⌅ [731186ca] + RecursiveArrayTools v0.18.6 ⌅ [f2c3362d] + RecursiveFactorization v0.1.0 ⌅ [189a3867] + Reexport v0.2.0 ⌅ [ae029012] + Requires v0.5.2 ⌅ [f2b01f46] + Roots v0.8.4 [efcf1570] + Setfield v1.1.2 [66db9d55] + SnoopPrecompile v1.0.3 [276daf66] + SpecialFunctions v2.5.0 ⌅ [90137ffa] + StaticArrays v0.12.6 [1e83bf80] + StaticArraysCore v1.4.3 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.7.0 [3783bdb8] + TableTraits v1.0.1 [a2a6695c] + TreeViews v0.3.0 [3a884ed6] + UnPack v1.0.2 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [0dad84c5] + ArgTools v1.1.2 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [8ba89e20] + Distributed v1.11.0 [f43a241f] + Downloads v1.6.0 [7b1f6079] + FileWatching v1.11.0 [9fa8497b] + Future v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [b27032c2] + LibCURL v0.6.4 [76f85450] + LibGit2 v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.11.0 [56ddb016] + Logging v1.11.0 [d6f4376e] + Markdown v1.11.0 [a63ad114] + Mmap v1.11.0 [ca575930] + NetworkOptions v1.2.0 [44cfe95a] + Pkg v1.11.0 [de0858da] + Printf v1.11.0 [3fa0cd96] + REPL v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v0.7.0 [9e88b42a] + Serialization v1.11.0 [1a1011a3] + SharedArrays v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.11.0 [f489334b] + StyledStrings v1.11.0 [4607b0f0] + SuiteSparse [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [8dfed614] + Test v1.11.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.1.1+0 [deac9b47] + LibCURL_jll v8.6.0+0 [e37daf67] + LibGit2_jll v1.7.2+0 [29816b5a] + LibSSH2_jll v1.11.0+1 [c8ffd9c3] + MbedTLS_jll v2.28.6+0 [14a3606d] + MozillaCACerts_jll v2023.12.12 [4536629a] + OpenBLAS_jll v0.3.27+1 [05823500] + OpenLibm_jll v0.8.5+0 [bea87d4a] + SuiteSparse_jll v7.7.0+0 [83775a58] + Zlib_jll v1.2.13+1 [8e850b90] + libblastrampoline_jll v5.11.0+0 [8e850ede] + nghttp2_jll v1.59.0+0 [3f19e933] + p7zip_jll v17.4.0+2 Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m` Installation completed after 6.29s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompilation completed after 199.33s ################################################################################ # Testing # Testing PowerDynSolve Status `/tmp/jl_jOVclp/Project.toml` [a8cc5b0e] Crayons v4.1.1 ⌅ [2b5f629d] DiffEqBase v5.20.1 [50d2b5c4] Lazy v0.15.1 [2774e3e8] NLsolve v4.5.1 ⌅ [1dea7af3] OrdinaryDiffEq v5.3.0 [d96e819e] Parameters v0.12.3 [7ffb48b1] PowerDynBase v1.0.0 [95be4243] PowerDynOperationPoint v1.0.0 [b2d36aa5] PowerDynSolve v1.0.0 ⌅ [3cdcf5f2] RecipesBase v0.7.0 [37e2e46d] LinearAlgebra v1.11.0 [9a3f8284] Random v1.11.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_jOVclp/Manifest.toml` ⌅ [79e6a3ab] Adapt v3.5.0 ⌅ [4fba245c] ArrayInterface v1.2.1 [30b0a656] ArrayInterfaceCore v0.1.29 [6ba088a2] ArrayInterfaceGPUArrays v0.2.2 [bbf7d656] CommonSubexpressions v0.3.1 ⌅ [34da2185] Compat v3.47.0 ⌃ [187b0558] ConstructionBase v1.4.1 [a8cc5b0e] Crayons v4.1.1 ⌅ [864edb3b] DataStructures v0.17.20 [8bb1440f] DelimitedFiles v1.9.1 ⌅ [2b5f629d] DiffEqBase v5.20.1 ⌅ [01453d9d] DiffEqDiffTools v0.14.0 ⌅ [9fdde737] DiffEqOperators v3.5.0 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [b4f34e82] Distances v0.10.12 ⌅ [ffbed154] DocStringExtensions v0.8.6 ⌃ [d4d017d3] ExponentialUtilities v1.23.0 ⌃ [6a86dc24] FiniteDiff v2.17.0 ⌅ [f6369f11] ForwardDiff v0.10.38 [069b7b12] FunctionWrappers v1.1.3 ⌅ [46192b85] GPUArraysCore v0.1.5 ⌅ [01680d73] GenericSVD v0.2.2 [c145ed77] GenericSchur v0.5.4 [92d709cd] IrrationalConstants v0.2.4 ⌅ [42fd0dbc] IterativeSolvers v0.8.5 [82899510] IteratorInterfaceExtensions v1.0.0 [692b3bcd] JLLWrappers v1.7.0 [50d2b5c4] Lazy v0.15.1 [d3d80556] LineSearches v7.3.0 [2ab3a3ac] LogExpFunctions v0.3.29 [1914dd2f] MacroTools v0.5.15 [46d2c3a1] MuladdMacro v0.2.4 ⌃ [d41bc354] NLSolversBase v7.8.3 [2774e3e8] NLsolve v4.5.1 [77ba4419] NaNMath v1.1.3 [bac558e1] OrderedCollections v1.8.0 ⌅ [1dea7af3] OrdinaryDiffEq v5.3.0 [d96e819e] Parameters v0.12.3 [7ffb48b1] PowerDynBase v1.0.0 [95be4243] PowerDynOperationPoint v1.0.0 [b2d36aa5] PowerDynSolve v1.0.0 [21216c6a] Preferences v1.4.3 ⌅ [3cdcf5f2] RecipesBase v0.7.0 ⌅ [731186ca] RecursiveArrayTools v0.18.6 ⌅ [f2c3362d] RecursiveFactorization v0.1.0 ⌅ [189a3867] Reexport v0.2.0 ⌅ [ae029012] Requires v0.5.2 ⌅ [f2b01f46] Roots v0.8.4 [efcf1570] Setfield v1.1.2 [66db9d55] SnoopPrecompile v1.0.3 [276daf66] SpecialFunctions v2.5.0 ⌅ [90137ffa] StaticArrays v0.12.6 [1e83bf80] StaticArraysCore v1.4.3 [10745b16] Statistics v1.11.1 [82ae8749] StatsAPI v1.7.0 [3783bdb8] TableTraits v1.0.1 [a2a6695c] TreeViews v0.3.0 [3a884ed6] UnPack v1.0.2 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [0dad84c5] ArgTools v1.1.2 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [ade2ca70] Dates v1.11.0 [8ba89e20] Distributed v1.11.0 [f43a241f] Downloads v1.6.0 [7b1f6079] FileWatching v1.11.0 [9fa8497b] Future v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [b27032c2] LibCURL v0.6.4 [76f85450] LibGit2 v1.11.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.11.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [a63ad114] Mmap v1.11.0 [ca575930] NetworkOptions v1.2.0 [44cfe95a] Pkg v1.11.0 [de0858da] Printf v1.11.0 [3fa0cd96] REPL v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v0.7.0 [9e88b42a] Serialization v1.11.0 [1a1011a3] SharedArrays v1.11.0 [6462fe0b] Sockets v1.11.0 [2f01184e] SparseArrays v1.11.0 [f489334b] StyledStrings v1.11.0 [4607b0f0] SuiteSparse [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test v1.11.0 [cf7118a7] UUIDs v1.11.0 [4ec0a83e] Unicode v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.1.1+0 [deac9b47] LibCURL_jll v8.6.0+0 [e37daf67] LibGit2_jll v1.7.2+0 [29816b5a] LibSSH2_jll v1.11.0+1 [c8ffd9c3] MbedTLS_jll v2.28.6+0 [14a3606d] MozillaCACerts_jll v2023.12.12 [4536629a] OpenBLAS_jll v0.3.27+1 [05823500] OpenLibm_jll v0.8.5+0 [bea87d4a] SuiteSparse_jll v7.7.0+0 [83775a58] Zlib_jll v1.2.13+1 [8e850b90] libblastrampoline_jll v5.11.0+0 [8e850ede] nghttp2_jll v1.59.0+0 [3f19e933] p7zip_jll v17.4.0+2 Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... Precompiling PowerDynSolve... 3319.3 ms ✓ Setfield 3089.6 ms ✓ DataStructures 1997.1 ms ✓ DiffEqDiffTools 2107.0 ms ✓ RecursiveArrayTools 5881.5 ms ? DiffEqBase 6731.3 ms ? DiffEqOperators 6766.9 ms ? OrdinaryDiffEq Info Given PowerDynSolve was explicitly requested, output will be shown live  WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. 7460.4 ms ? PowerDynSolve 4 dependencies successfully precompiled in 39 seconds. 92 already precompiled. 4 dependencies failed but may be precompilable after restarting julia 4 dependencies had output during precompilation: ┌ DiffEqBase │ WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. │ ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. └ ┌ PowerDynSolve │ [Output was shown above] └ ┌ DiffEqOperators │ WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. │ ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. └ ┌ OrdinaryDiffEq │ WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. │ ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. └ WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. Precompiling OrdinaryDiffEq... 6355.9 ms ? DiffEqBase 8253.6 ms ? DiffEqOperators Info Given OrdinaryDiffEq was explicitly requested, output will be shown live  WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. 6875.4 ms ? OrdinaryDiffEq WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. Precompiling DiffEqBase... Info Given DiffEqBase was explicitly requested, output will be shown live  WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. 6258.3 ms ? DiffEqBase WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation. WARNING: Method definition combine_axes(Any, Any) in module Broadcast at broadcast.jl:497 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/diffeqfastbc.jl:18. WARNING: Compat.TypeUtils is deprecated, call the respective Base functions directly likely near /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/utils.jl:47 WARNING: importing deprecated binding TypeUtils.typename into DiffEqBase. , use Base.typename instead. WARNING: Method definition nextfloat(ForwardDiff.Dual{T, V, N}) where {T, V, N} in module ForwardDiff at /home/pkgeval/.julia/packages/ForwardDiff/UBbGT/src/dual.jl:313 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/init.jl:40. WARNING: Method definition prevfloat(ForwardDiff.Dual{T, V, N}) where {T, V, N} in module ForwardDiff at /home/pkgeval/.julia/packages/ForwardDiff/UBbGT/src/dual.jl:317 overwritten in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/init.jl:41. Precompiling DiffEqOperators... 6326.7 ms ? DiffEqBase Info Given DiffEqOperators was explicitly requested, output will be shown live  ┌ Warning: Module DiffEqBase with build ID ffffffff-ffff-ffff-0026-7d8cd6de6743 is missing from the cache. │ This may mean DiffEqBase [2b5f629d-d688-5b77-993f-72d75c75574e] does not support precompilation but is imported by a module that does. └ @ Base loading.jl:2541 1891.9 ms ? DiffEqOperators ┌ Warning: Module DiffEqBase with build ID ffffffff-ffff-ffff-0026-7d8cd6de6743 is missing from the cache. │ This may mean DiffEqBase [2b5f629d-d688-5b77-993f-72d75c75574e] does not support precompilation but is imported by a module that does. └ @ Base loading.jl:2541 WARNING: Method definition update_coefficients!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any, Any, Any) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:4 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:4. WARNING: Method definition convert(Type{AbstractArray{T, N} where N where T}, DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:7 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:7. WARNING: Method definition size(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:8 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:8. WARNING: Method definition opnorm(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:9 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:9. WARNING: Method definition opnorm(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Real) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:9 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:9. WARNING: Method definition getindex(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Int64) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:10 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:10. WARNING: Method definition getindex(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Vararg{Int64, N}) where {N} in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:11 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:11. WARNING: Method definition *(Union{Number, AbstractArray{T, 1} where T, AbstractArray{T, 2} where T}, DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:15 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:15. WARNING: Method definition /(Union{Number, AbstractArray{T, 1} where T, AbstractArray{T, 2} where T}, DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:15 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:15. WARNING: Method definition \(Union{Number, AbstractArray{T, 1} where T, AbstractArray{T, 2} where T}, DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:15 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:15. WARNING: Method definition ldiv!(Union{AbstractArray{T, 1}, AbstractArray{T, 2}} where T, DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Union{AbstractArray{T, 1}, AbstractArray{T, 2}} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:19 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:19. WARNING: Method definition isreal(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:22 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:22. WARNING: Method definition issymmetric(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:22 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:22. WARNING: Method definition ishermitian(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:22 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:22. WARNING: Method definition isposdef(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:22 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:22. WARNING: Method definition factorize(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:24 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:24. WARNING: Method definition lu(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition lu!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition qr(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition qr!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition cholesky(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition cholesky!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition ldlt(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition ldlt!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition bunchkaufman(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition bunchkaufman!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition lq(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition lq!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition svd(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition svd!(DiffEqBase.AbstractDiffEqLinearOperator{T} where T, Any...) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:28 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:28. WARNING: Method definition (::Type{Array{T, 2} where T})(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:33 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:33. WARNING: Method definition exp(DiffEqBase.AbstractDiffEqLinearOperator{T} where T) in module DiffEqBase at /home/pkgeval/.julia/packages/DiffEqBase/pqp0B/src/operators/common_defaults.jl:34 overwritten in module DiffEqOperators at /home/pkgeval/.julia/packages/DiffEqOperators/YrhHv/src/common_defaults.jl:34. random_seed = 1234 = 1234 Integration Tests: 279.581719776 s random_seed = 1234 = 1234 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [11] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:i}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:91 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [15] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:s}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:95 [11] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:p}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:96 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [15] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:v}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:89 [11] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [13] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:int}}, i::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, sym::Symbol, args::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [11] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:int}}, i::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:ω}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:100 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::UnitRange{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [12] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:120 Test threw exception Expression: sol(t, n, :int, 1) == sol(t, n, :ω) MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, ::Type{Val{:int}}, i::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::UnitRange{Int64}, sym::Symbol, args::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [11] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:120 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [12] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:i}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:91 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [15] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [16] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:s}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:95 [11] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:p}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:96 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [15] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [16] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:v}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:89 [11] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [12] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [14] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:int}}, i::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, sym::Symbol, args::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, sym::Symbol, args::Int64; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [12] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:int}}, i::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:ω}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:100 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [11] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [13] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:120 Test threw exception Expression: sol(t, n, :int, 1) == sol(t, n, :ω) MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:int}}, i::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, sym::Symbol, args::Int64) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, sym::Symbol, args::Int64; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [12] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:120 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:i}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:91 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [15] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:i}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:91 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:s}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:95 [15] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [16] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:p}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:96 [17] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [19] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:i}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:91 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [15] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Test threw exception Expression: size(sol(t, n, syms...)) == result_size MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, ::Symbol; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:i}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:91 [13] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [14] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:s}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:95 [15] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [16] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Int64, ::Type{Val{:p}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:96 [17] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Int64, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:676 [inlined] [19] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:118 Grid Solutions Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:11 Got exception outside of a @test LoadError: MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:int}}, i::Vector{Int64}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:98 [9] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, sym::Symbol, args::Vector{Int64}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Colon, sym::Symbol, args::Vector{Int64}; kwargs::@Kwargs{}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [11] GridSolution @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:71 [inlined] [12] #18 @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:924 [inlined] [13] (::Base.RedirectStdStream)(thunk::var"#18#24"{StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, PowerDynSolve.GridSolution}, stream::IOStream) @ Base ./stream.jl:1464 [14] #17 @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:923 [inlined] [15] open(::var"#17#23"{StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, PowerDynSolve.GridSolution}, ::String, ::Vararg{String}; kwargs::@Kwargs{}) @ Base ./io.jl:410 [16] open(::Function, ::String, ::String) @ Base ./io.jl:407 [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:922 [inlined] [18] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:122 [19] include(fname::String) @ Main ./sysimg.jl:38 [20] macro expansion @ ./timing.jl:421 [inlined] [21] macro expansion @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:12 [inlined] [22] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:1793 [inlined] [23] macro expansion @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:11 [inlined] [24] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:1704 [inlined] [25] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:11 [26] include(fname::String) @ Main ./sysimg.jl:38 [27] top-level scope @ none:6 [28] eval @ ./boot.jl:430 [inlined] [29] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [30] _start() @ Base ./client.jl:531 in expression starting at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/gridsolutions.jl:101 random_seed = 1234 = 1234 Plot Recipes Tests: Error During Test at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:11 Got exception outside of a @test LoadError: MethodError: Cannot `convert` an object of type Vector{Float64} to an object of type Float64 The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: convert(::Type{T}, !Matched::T) where T @ Base Base.jl:126 convert(::Type{T}, !Matched::CartesianIndex{1}) where T<:Number @ Base multidimensional.jl:136 convert(::Type{T}, !Matched::AbstractChar) where T<:Number @ Base char.jl:185 ... Stacktrace: [1] setindex!(A::Matrix{Float64}, x::Vector{Float64}, i::Int64) @ Base ./array.jl:987 [2] copyto_unaliased! @ ./abstractarray.jl:1087 [inlined] [3] copyto! @ ./abstractarray.jl:1061 [inlined] [4] copyto_axcheck!(dest::Matrix{Float64}, src::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./abstractarray.jl:1167 [5] Array @ ./array.jl:626 [inlined] [6] Array @ ./boot.jl:605 [inlined] [7] convert(::Type{Array}, a::RecursiveArrayTools.DiffEqArray{Float64, 2, Vector{Vector{Float64}}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}}) @ Base ./array.jl:618 [8] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:u}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:85 [9] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [10] (::PowerDynSolve.GridSolution)(t::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, n::Base.OneTo{Int64}, ::Type{Val{:v}}) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:89 [11] (::PowerDynSolve.GridSolution)(::StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:76 [12] macro expansion @ ~/.julia/packages/PowerDynSolve/JJ3cs/src/GridSolutions.jl:129 [inlined] [13] apply_recipe(::Dict{Symbol, Any}, ::PowerDynSolve.GridSolution, ::Base.OneTo{Int64}, ::Symbol) @ PowerDynSolve ~/.julia/packages/RecipesBase/zBoFG/src/RecipesBase.jl:275 [14] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/plotrecipes.jl:48 [15] include(fname::String) @ Main ./sysimg.jl:38 [16] macro expansion @ ./timing.jl:421 [inlined] [17] macro expansion @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:12 [inlined] [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:1793 [inlined] [19] macro expansion @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:11 [inlined] [20] macro expansion @ /opt/julia/share/julia/stdlib/v1.11/Test/src/Test.jl:1704 [inlined] [21] top-level scope @ ~/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:11 [22] include(fname::String) @ Main ./sysimg.jl:38 [23] top-level scope @ none:6 [24] eval @ ./boot.jl:430 [inlined] [25] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [26] _start() @ Base ./client.jl:531 in expression starting at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/plotrecipes.jl:25 Test Summary: | Pass Error Broken Total Time All Tests | 124 20 2 146 5m17.5s Integration Tests | 12 2 14 4m40.0s Grid Solutions Tests | 100 19 119 35.4s Plot Recipes Tests | 12 1 13 2.0s ERROR: LoadError: Some tests did not pass: 124 passed, 0 failed, 20 errored, 2 broken. in expression starting at /home/pkgeval/.julia/packages/PowerDynSolve/JJ3cs/test/runtests.jl:10 Testing failed after 321.36s ERROR: LoadError: Package PowerDynSolve errored during testing Stacktrace: [1] pkgerror(msg::String) @ Pkg.Types /opt/julia/share/julia/stdlib/v1.11/Pkg/src/Types.jl:68 [2] test(ctx::Pkg.Types.Context, pkgs::Vector{Pkg.Types.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/v1.11/Pkg/src/Operations.jl:2124 [3] test @ /opt/julia/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:2007 [inlined] [4] test(ctx::Pkg.Types.Context, pkgs::Vector{Pkg.Types.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/v1.11/Pkg/src/API.jl:481 [5] test(pkgs::Vector{Pkg.Types.PackageSpec}; io::IOContext{IO}, kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.11/Pkg/src/API.jl:159 [6] test @ /opt/julia/share/julia/stdlib/v1.11/Pkg/src/API.jl:147 [inlined] [7] #test#74 @ /opt/julia/share/julia/stdlib/v1.11/Pkg/src/API.jl:146 [inlined] [8] top-level scope @ /PkgEval.jl/scripts/evaluate.jl:219 in expression starting at /PkgEval.jl/scripts/evaluate.jl:210 PkgEval failed after 567.29s: illegal method overwrites during precompilation