Package evaluation to test BAT on Julia 1.14.0-DEV.1299 (6d6224db99*) started at 2025-11-27T21:17:07.195 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 9.56s ################################################################################ # Installation # Installing BAT... Resolving package versions... Installed MKL_jll ───────────────────── v2025.2.0+0 Installed CommonWorldInvalidations ──── v1.0.0 Installed Calculus ──────────────────── v0.5.2 Installed DistributionsAD ───────────── v0.6.58 Installed OrderedCollections ────────── v1.8.1 Installed OneTwoMany ────────────────── v0.1.2 Installed Functors ──────────────────── v0.5.2 Installed NearestNeighbors ──────────── v0.4.24 Installed HypothesisTests ───────────── v0.11.6 Installed ElasticClusterManager ─────── v2.0.0 Installed ArgCheck ──────────────────── v2.5.0 Installed MIMEs ─────────────────────── v1.1.0 Installed ElasticArrays ─────────────── v1.2.12 Installed Distances ─────────────────── v0.10.12 Installed OpenSpecFun_jll ───────────── v0.5.6+0 Installed NaNMath ───────────────────── v1.1.3 Installed QuadGK ────────────────────── v2.11.2 Installed ChainRules ────────────────── v1.72.6 Installed AutoDiffOperators ─────────── v0.3.0 Installed WoodburyMatrices ──────────── v1.0.0 Installed Reexport ──────────────────── v1.2.2 Installed InverseFunctions ──────────── v0.1.17 Installed Tables ────────────────────── v1.12.1 Installed BAT ───────────────────────── v4.0.6 Installed Preferences ───────────────── v1.5.0 Installed LazyReports ───────────────── v0.2.3 Installed Missings ──────────────────── v1.2.0 Installed Static ────────────────────── v1.3.1 Installed TableTraits ───────────────── v1.0.1 Installed LaTeXStrings ──────────────── v1.4.0 Installed ForwardDiffPullbacks ──────── v0.2.7 Installed MappedArrays ──────────────── v0.4.2 Installed Polynomials ───────────────── v4.1.0 Installed Sobol ─────────────────────── v1.5.0 Installed DensityInterface ──────────── v0.4.0 Installed SortingAlgorithms ─────────── v1.2.2 Installed UnPack ────────────────────── v1.0.2 Installed ADTypes ───────────────────── v1.19.0 Installed MacroTools ────────────────── v0.5.16 Installed Indexing ──────────────────── v1.1.1 Installed DataStructures ────────────── v0.19.3 Installed DiffResults ───────────────── v1.1.0 Installed Tricks ────────────────────── v0.1.13 Installed FillArrays ────────────────── v1.15.0 Installed DelimitedFiles ────────────── v1.9.1 Installed oneTBB_jll ────────────────── v2022.0.0+1 Installed IntelOpenMP_jll ───────────── v2025.2.0+0 Installed DataValueInterfaces ───────── v1.0.0 Installed Quadmath ──────────────────── v0.5.13 Installed AffineMaps ────────────────── v0.3.3 Installed CommonSubexpressions ──────── v0.3.1 Installed StatsBase ─────────────────── v0.34.8 Installed RandomNumbers ─────────────── v1.6.0 Installed GPUArraysCore ─────────────── v0.2.0 Installed IrrationalConstants ───────── v0.2.6 Installed RealDot ───────────────────── v0.1.0 Installed MeasureBase ───────────────── v0.14.13 Installed Clustering ────────────────── v0.15.8 Installed Roots ─────────────────────── v2.2.10 Installed FunctionChains ────────────── v0.2.3 Installed StableRNGs ────────────────── v1.0.4 Installed CompositeTypes ────────────── v0.1.4 Installed TypedTables ───────────────── v1.4.6 Installed Setfield ──────────────────── v1.1.2 Installed Interpolations ────────────── v0.16.2 Installed ValueShapes ───────────────── v0.11.4 Installed NamedArrays ───────────────── v0.10.5 Installed PDMats ────────────────────── v0.11.36 Installed MLDataDevices ─────────────── v1.15.1 Installed DocStringExtensions ───────── v0.9.5 Installed CommonSolve ───────────────── v0.2.4 Installed CompositionsBase ──────────── v0.1.2 Installed ForwardDiff ───────────────── v1.3.0 Installed Rmath_jll ─────────────────── v0.5.1+0 Installed KernelDensity ─────────────── v0.6.10 Installed AliasTables ───────────────── v1.1.3 Installed SparseInverseSubset ───────── v0.1.2 Installed SplitApplyCombine ─────────── v1.2.3 Installed PrettyPrinting ────────────── v0.4.2 Installed DifferentiationInterface ──── v0.7.12 Installed Combinatorics ─────────────── v1.0.3 Installed IteratorInterfaceExtensions ─ v1.0.0 Installed RecipesBase ───────────────── v1.3.4 Installed InvertedIndices ───────────── v1.3.1 Installed DataAPI ───────────────────── v1.16.0 Installed StaticArraysCore ──────────── v1.4.4 Installed DomainSets ────────────────── v0.7.16 Installed StaticArrays ──────────────── v1.9.15 Installed Colors ────────────────────── v0.13.1 Installed DoubleFloats ──────────────── v1.5.0 Installed AbstractFFTs ──────────────── v1.5.0 Installed AxisAlgorithms ────────────── v1.1.0 Installed SciMLPublic ───────────────── v1.0.0 Installed ColorTypes ────────────────── v0.12.1 Installed GenericLinearAlgebra ──────── v0.3.19 Installed Requires ──────────────────── v1.3.1 Installed FunctionWrappers ──────────── v1.1.3 Installed LogExpFunctions ───────────── v0.3.29 Installed ParallelProcessingTools ───── v0.4.9 Installed Rmath ─────────────────────── v0.9.0 Installed DiffRules ─────────────────── v1.15.1 Installed JLLWrappers ───────────────── v1.7.1 Installed StatsFuns ─────────────────── v1.5.2 Installed ZygoteRules ───────────────── v0.2.7 Installed Dictionaries ──────────────── v0.4.5 Installed Distributions ─────────────── v0.25.122 Installed EmpiricalDistributions ────── v0.3.10 Installed Accessors ─────────────────── v0.1.42 Installed Adapt ─────────────────────── v4.4.0 Installed Measurements ──────────────── v2.14.1 Installed HypergeometricFunctions ───── v0.3.28 Installed ConstructionBase ──────────── v1.6.0 Installed LogarithmicNumbers ────────── v1.4.1 Installed Random123 ─────────────────── v1.7.1 Installed Compat ────────────────────── v4.18.1 Installed ArraysOfArrays ────────────── v0.6.6 Installed PositiveFactorizations ────── v0.2.4 Installed StatsAPI ──────────────────── v1.7.1 Installed Statistics ────────────────── v1.11.1 Installed StructArrays ──────────────── v0.7.2 Installed OffsetArrays ──────────────── v1.17.0 Installed Ratios ────────────────────── v0.4.5 Installed ChainRulesCore ────────────── v1.26.0 Installed PrecompileTools ───────────── v1.3.3 Installed Parameters ────────────────── v0.12.3 Installed IfElse ────────────────────── v0.1.1 Installed PtrArrays ─────────────────── v1.3.0 Installed HeterogeneousComputing ────── v0.2.4 Installed FixedPointNumbers ─────────── v0.8.5 Installed IntervalSets ──────────────── v0.7.13 Installed SpecialFunctions ──────────── v2.6.1 Installed FFTW ──────────────────────── v1.10.0 Installed FFTW_jll ──────────────────── v3.3.11+0 Installed ChangesOfVariables ────────── v0.1.10 Installing 3 artifacts Installed artifact Rmath 121.9 KiB Installed artifact OpenSpecFun 194.9 KiB Installed artifact FFTW 2.2 MiB Updating `~/.julia/environments/v1.14/Project.toml` [c0cd4b16] + BAT v4.0.6 Updating `~/.julia/environments/v1.14/Manifest.toml` [47edcb42] + ADTypes v1.19.0 [621f4979] + AbstractFFTs v1.5.0 [7d9f7c33] + Accessors v0.1.42 [79e6a3ab] + Adapt v4.4.0 [2c83c9a8] + AffineMaps v0.3.3 [66dad0bd] + AliasTables v1.1.3 [dce04be8] + ArgCheck v2.5.0 [65a8f2f4] + ArraysOfArrays v0.6.6 [6e1301d5] + AutoDiffOperators v0.3.0 [13072b0f] + AxisAlgorithms v1.1.0 [c0cd4b16] + BAT v4.0.6 [49dc2e85] + Calculus v0.5.2 [082447d4] + ChainRules v1.72.6 [d360d2e6] + ChainRulesCore v1.26.0 [9e997f8a] + ChangesOfVariables v0.1.10 [aaaa29a8] + Clustering v0.15.8 [3da002f7] + ColorTypes v0.12.1 [5ae59095] + Colors v0.13.1 [861a8166] + Combinatorics v1.0.3 [38540f10] + CommonSolve v0.2.4 [bbf7d656] + CommonSubexpressions v0.3.1 [f70d9fcc] + CommonWorldInvalidations v1.0.0 [34da2185] + Compat v4.18.1 [b152e2b5] + CompositeTypes v0.1.4 [a33af91c] + CompositionsBase v0.1.2 [187b0558] + ConstructionBase v1.6.0 [9a962f9c] + DataAPI v1.16.0 [864edb3b] + DataStructures v0.19.3 [e2d170a0] + DataValueInterfaces v1.0.0 [8bb1440f] + DelimitedFiles v1.9.1 [b429d917] + DensityInterface v0.4.0 [85a47980] + Dictionaries v0.4.5 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [a0c0ee7d] + DifferentiationInterface v0.7.12 [b4f34e82] + Distances v0.10.12 [31c24e10] + Distributions v0.25.122 [ced4e74d] + DistributionsAD v0.6.58 [ffbed154] + DocStringExtensions v0.9.5 [5b8099bc] + DomainSets v0.7.16 [497a8b3b] + DoubleFloats v1.5.0 [fdbdab4c] + ElasticArrays v1.2.12 [547eee1f] + ElasticClusterManager v2.0.0 [0bbb1fad] + EmpiricalDistributions v0.3.10 [7a1cc6ca] + FFTW v1.10.0 [1a297f60] + FillArrays v1.15.0 [53c48c17] + FixedPointNumbers v0.8.5 [f6369f11] + ForwardDiff v1.3.0 [450a3b6d] + ForwardDiffPullbacks v0.2.7 [8e6b2b91] + FunctionChains v0.2.3 [069b7b12] + FunctionWrappers v1.1.3 [d9f16b24] + Functors v0.5.2 [46192b85] + GPUArraysCore v0.2.0 [14197337] + GenericLinearAlgebra v0.3.19 [2182be2a] + HeterogeneousComputing v0.2.4 [34004b35] + HypergeometricFunctions v0.3.28 [09f84164] + HypothesisTests v0.11.6 [615f187c] + IfElse v0.1.1 [313cdc1a] + Indexing v1.1.1 [a98d9a8b] + Interpolations v0.16.2 [8197267c] + IntervalSets v0.7.13 [3587e190] + InverseFunctions v0.1.17 [41ab1584] + InvertedIndices v1.3.1 [92d709cd] + IrrationalConstants v0.2.6 [82899510] + IteratorInterfaceExtensions v1.0.0 [692b3bcd] + JLLWrappers v1.7.1 [5ab0869b] + KernelDensity v0.6.10 [b964fa9f] + LaTeXStrings v1.4.0 [e5afb96c] + LazyReports v0.2.3 [2ab3a3ac] + LogExpFunctions v0.3.29 [aa2f6b4e] + LogarithmicNumbers v1.4.1 [6c6e2e6c] + MIMEs v1.1.0 [7e8f7934] + MLDataDevices v1.15.1 [1914dd2f] + MacroTools v0.5.16 [dbb5928d] + MappedArrays v0.4.2 [fa1605e6] + MeasureBase v0.14.13 [eff96d63] + Measurements v2.14.1 [e1d29d7a] + Missings v1.2.0 [77ba4419] + NaNMath v1.1.3 [86f7a689] + NamedArrays v0.10.5 [b8a86587] + NearestNeighbors v0.4.24 [6fe1bfb0] + OffsetArrays v1.17.0 [762dc654] + OneTwoMany v0.1.2 [bac558e1] + OrderedCollections v1.8.1 [90014a1f] + PDMats v0.11.36 [8e8a01fc] + ParallelProcessingTools v0.4.9 [d96e819e] + Parameters v0.12.3 [f27b6e38] + Polynomials v4.1.0 [85a6dd25] + PositiveFactorizations v0.2.4 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.0 [54e16d92] + PrettyPrinting v0.4.2 [43287f4e] + PtrArrays v1.3.0 [1fd47b50] + QuadGK v2.11.2 [be4d8f0f] + Quadmath v0.5.13 [74087812] + Random123 v1.7.1 [e6cf234a] + RandomNumbers v1.6.0 [c84ed2f1] + Ratios v0.4.5 [c1ae055f] + RealDot v0.1.0 [3cdcf5f2] + RecipesBase v1.3.4 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.1 [79098fc4] + Rmath v0.9.0 [f2b01f46] + Roots v2.2.10 [431bcebd] + SciMLPublic v1.0.0 [efcf1570] + Setfield v1.1.2 [ed01d8cd] + Sobol v1.5.0 [a2af1166] + SortingAlgorithms v1.2.2 [dc90abb0] + SparseInverseSubset v0.1.2 [276daf66] + SpecialFunctions v2.6.1 [03a91e81] + SplitApplyCombine v1.2.3 [860ef19b] + StableRNGs v1.0.4 [aedffcd0] + Static v1.3.1 [90137ffa] + StaticArrays v1.9.15 [1e83bf80] + StaticArraysCore v1.4.4 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.7.1 [2913bbd2] + StatsBase v0.34.8 [4c63d2b9] + StatsFuns v1.5.2 [09ab397b] + StructArrays v0.7.2 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.1 [410a4b4d] + Tricks v0.1.13 [9d95f2ec] + TypedTables v1.4.6 [3a884ed6] + UnPack v1.0.2 [136a8f8c] + ValueShapes v0.11.4 [efce3f68] + WoodburyMatrices v1.0.0 [700de1a5] + ZygoteRules v0.2.7 [f5851436] + FFTW_jll v3.3.11+0 [1d5cc7b8] + IntelOpenMP_jll v2025.2.0+0 [856f044c] + MKL_jll v2025.2.0+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [f50d1b31] + Rmath_jll v0.5.1+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 [8ba89e20] + Distributed v1.11.0 [f43a241f] + Downloads v1.7.0 [7b1f6079] + FileWatching v1.11.0 [9fa8497b] + Future v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.12.0 [4af54fe1] + LazyArtifacts v1.11.0 [b27032c2] + LibCURL v1.0.0 [76f85450] + LibGit2 v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [56ddb016] + Logging v1.11.0 [d6f4376e] + Markdown v1.11.0 [a63ad114] + Mmap v1.11.0 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.13.0 [de0858da] + Printf v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.0.0 [9e88b42a] + Serialization v1.11.0 [1a1011a3] + SharedArrays v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.13.0 [4607b0f0] + SuiteSparse [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [8dfed614] + Test v1.11.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [deac9b47] + LibCURL_jll v8.17.0+0 [e37daf67] + LibGit2_jll v1.9.1+0 [29816b5a] + LibSSH2_jll v1.11.3+1 [14a3606d] + MozillaCACerts_jll v2025.11.4 [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 Installation completed after 11.62s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling packages... WARNING: Imported binding Operations.project_rel_path was undeclared at import time during import to TestEnv. 4373.1 ms ✓ TestEnv 1 dependency successfully precompiled in 5 seconds. 27 already precompiled. 1 dependency had output during precompilation: ┌ TestEnv │ WARNING: Imported binding Operations.project_rel_path was undeclared at import time during import to TestEnv. └ ┌ Error: Failed to use TestEnv.jl; test dependencies will not be precompiled │ exception = │ UndefVarError: `project_rel_path` not defined in `TestEnv` │ Suggestion: this global was defined as `Pkg.Operations.project_rel_path` but not assigned a value. │ Stacktrace: │ [1] get_test_dir(ctx::Pkg.Types.Context, pkgspec::PackageSpec) │ @ TestEnv ~/.julia/packages/TestEnv/i9lgt/src/julia-1.11/common.jl:75 │ [2] test_dir_has_project_file │ @ ~/.julia/packages/TestEnv/i9lgt/src/julia-1.11/common.jl:52 [inlined] │ [3] maybe_gen_project_override! │ @ ~/.julia/packages/TestEnv/i9lgt/src/julia-1.11/common.jl:83 [inlined] │ [4] activate(pkg::String; allow_reresolve::Bool) │ @ TestEnv ~/.julia/packages/TestEnv/i9lgt/src/julia-1.11/activate_set.jl:12 │ [5] activate(pkg::String) │ @ TestEnv ~/.julia/packages/TestEnv/i9lgt/src/julia-1.11/activate_set.jl:9 │ [6] top-level scope │ @ /PkgEval.jl/scripts/precompile.jl:24 │ [7] include(mod::Module, _path::String) │ @ Base ./Base.jl:309 │ [8] exec_options(opts::Base.JLOptions) │ @ Base ./client.jl:344 │ [9] _start() │ @ Base ./client.jl:577 └ @ Main /PkgEval.jl/scripts/precompile.jl:26 Precompiling package dependencies... Precompiling packages... 4119.0 ms ✓ MacroTools 793.8 ms ✓ Reexport 952.6 ms ✓ MappedArrays 1143.8 ms ✓ ConstructionBase 2082.4 ms ✓ IrrationalConstants 918.0 ms ✓ ChangesOfVariables 802.1 ms ✓ DataValueInterfaces 868.2 ms ✓ StatsAPI 1313.2 ms ✓ Calculus 1071.2 ms ✓ IntervalSets 841.8 ms ✓ Indexing 2072.2 ms ✓ Combinatorics 921.8 ms ✓ ArgCheck 851.9 ms ✓ CommonSolve 890.9 ms ✓ LaTeXStrings 1160.9 ms ✓ Statistics 953.9 ms ✓ Tricks 972.3 ms ✓ StaticArraysCore 902.7 ms ✓ CompositeTypes 915.9 ms ✓ StableRNGs 773.9 ms ✓ IfElse 838.9 ms ✓ PtrArrays 958.8 ms ✓ PositiveFactorizations 883.6 ms ✓ DataAPI 914.3 ms ✓ SciMLPublic 809.7 ms ✓ RealDot 800.8 ms ✓ CommonWorldInvalidations 838.8 ms ✓ OneTwoMany 851.1 ms ✓ InvertedIndices 1580.0 ms ✓ RandomNumbers 934.8 ms ✓ InverseFunctions 865.4 ms ✓ AffineMaps 818.1 ms ✓ CompositionsBase 1036.5 ms ✓ AbstractFFTs 2711.6 ms ✓ PrettyPrinting 2035.0 ms ✓ FillArrays 2973.0 ms ✓ MIMEs 1024.9 ms ✓ LogarithmicNumbers 793.7 ms ✓ UnPack 1227.3 ms ✓ OrderedCollections 1462.6 ms ✓ FunctionWrappers 1392.7 ms ✓ ADTypes 1097.9 ms ✓ DocStringExtensions 1609.5 ms ✓ OffsetArrays 896.0 ms ✓ IteratorInterfaceExtensions 1075.8 ms ✓ DelimitedFiles 1756.8 ms ✓ GenericLinearAlgebra 1021.1 ms ✓ NaNMath 1160.7 ms ✓ Requires 1267.9 ms ✓ SuiteSparse 1406.6 ms ✓ WoodburyMatrices 1163.0 ms ✓ Compat 1117.3 ms ✓ Preferences 4689.4 ms ✓ ElasticClusterManager 2432.4 ms ✓ CommonSubexpressions 1364.9 ms ✓ ConstructionBase → ConstructionBaseLinearAlgebraExt 3761.4 ms ✓ ChangesOfVariables → ChangesOfVariablesTestExt 1304.3 ms ✓ Measurements 772.8 ms ✓ IntervalSets → IntervalSetsRandomExt 788.0 ms ✓ ConstructionBase → ConstructionBaseIntervalSetsExt 1922.1 ms ✓ Dictionaries 1234.4 ms ✓ ArraysOfArrays 1292.9 ms ✓ Statistics → SparseArraysExt 3608.5 ms ✓ FixedPointNumbers 1468.3 ms ✓ Distances 801.0 ms ✓ IntervalSets → IntervalSetsStatisticsExt 880.2 ms ✓ DiffResults 971.2 ms ✓ AliasTables 970.3 ms ✓ Missings 1848.1 ms ✓ Random123 888.3 ms ✓ InverseFunctions → InverseFunctionsDatesExt 1583.6 ms ✓ InverseFunctions → InverseFunctionsTestExt 1129.6 ms ✓ FunctionChains 852.9 ms ✓ ChangesOfVariables → ChangesOfVariablesInverseFunctionsExt 811.8 ms ✓ AffineMaps → AffineMapsInverseFunctionsExt 868.6 ms ✓ AffineMaps → AffineMapsChangesOfVariablesExt 1308.2 ms ✓ CompositionsBase → CompositionsBaseInverseFunctionsExt 4140.7 ms ✓ AbstractFFTs → AbstractFFTsTestExt 1512.4 ms ✓ FillArrays → FillArraysSparseArraysExt 944.5 ms ✓ FillArrays → FillArraysStatisticsExt 940.0 ms ✓ Parameters 3513.9 ms ✓ DataStructures 759.5 ms ✓ ADTypes → ADTypesConstructionBaseExt 1841.3 ms ✓ DifferentiationInterface 1341.1 ms ✓ LogExpFunctions 745.3 ms ✓ TableTraits 2306.8 ms ✓ Sobol 837.5 ms ✓ Ratios 937.7 ms ✓ Adapt 1821.1 ms ✓ PDMats 1293.4 ms ✓ SparseInverseSubset 1392.2 ms ✓ AxisAlgorithms 838.3 ms ✓ Compat → CompatLinearAlgebraExt 922.3 ms ✓ PrecompileTools 1190.3 ms ✓ JLLWrappers 2929.0 ms ✓ Setfield 1364.2 ms ✓ SplitApplyCombine 772.8 ms ✓ ArraysOfArrays → ArraysOfArraysStaticArraysCoreExt 2283.0 ms ✓ NamedArrays 2687.9 ms ✓ ColorTypes 1296.8 ms ✓ Distances → DistancesSparseArraysExt 1700.0 ms ✓ DensityInterface 915.0 ms ✓ FunctionChains → FunctionChainsChangesOfVariablesExt 4761.6 ms ✓ Accessors 8749.5 ms ✓ ParallelProcessingTools 1195.8 ms ✓ SortingAlgorithms 2730.3 ms ✓ QuadGK 1423.2 ms ✓ DifferentiationInterface → DifferentiationInterfaceSparseArraysExt 1358.4 ms ✓ AutoDiffOperators 1031.6 ms ✓ LogExpFunctions → LogExpFunctionsChangesOfVariablesExt 943.3 ms ✓ LogExpFunctions → LogExpFunctionsInverseFunctionsExt 1756.2 ms ✓ Tables 983.0 ms ✓ Ratios → RatiosFixedPointNumbersExt 1270.0 ms ✓ Adapt → AdaptSparseArraysExt 868.1 ms ✓ ElasticArrays 1171.2 ms ✓ GPUArraysCore 753.9 ms ✓ AffineMaps → AffineMapsAdaptExt 799.6 ms ✓ OffsetArrays → OffsetArraysAdaptExt 755.1 ms ✓ ArraysOfArrays → ArraysOfArraysAdaptExt 760.6 ms ✓ FunctionChains → FunctionChainsAdaptExt 1443.2 ms ✓ FillArrays → FillArraysPDMatsExt 2896.8 ms ✓ ChainRulesCore 1799.7 ms ✓ Quadmath 1426.7 ms ✓ Functors 12868.5 ms ✓ StaticArrays 2701.1 ms ✓ RecipesBase 5041.2 ms ✓ Static 1375.2 ms ✓ Rmath_jll 1466.4 ms ✓ OpenSpecFun_jll 4675.6 ms ✓ IntelOpenMP_jll 4706.1 ms ✓ oneTBB_jll 1396.0 ms ✓ FFTW_jll 1310.1 ms ✓ ColorTypes → StyledStringsExt 7669.2 ms ✓ Colors 1797.9 ms ✓ Accessors → TestExt 2515.4 ms ✓ Accessors → IntervalSetsExt 2312.4 ms ✓ Accessors → LinearAlgebraExt 1030.8 ms ✓ FunctionChains → FunctionChainsAccessorsExt 4988.1 ms ✓ StatsBase 1807.4 ms ✓ StructArrays 1638.1 ms ✓ LazyReports 1810.1 ms ✓ TypedTables 843.4 ms ✓ DifferentiationInterface → DifferentiationInterfaceGPUArraysCoreExt 1321.9 ms ✓ ChainRulesCore → ChainRulesCoreSparseArraysExt 2025.2 ms ✓ ZygoteRules 929.6 ms ✓ AbstractFFTs → AbstractFFTsChainRulesCoreExt 854.6 ms ✓ ADTypes → ADTypesChainRulesCoreExt 891.8 ms ✓ ArraysOfArrays → ArraysOfArraysChainRulesCoreExt 915.8 ms ✓ Distances → DistancesChainRulesCoreExt 873.3 ms ✓ DifferentiationInterface → DifferentiationInterfaceChainRulesCoreExt 3077.9 ms ✓ LogExpFunctions → LogExpFunctionsChainRulesCoreExt 809.8 ms ✓ AffineMaps → AffineMapsFunctorsExt 813.8 ms ✓ FunctionChains → FunctionChainsFunctorsExt 1602.8 ms ✓ MLDataDevices 1440.8 ms ✓ StaticArrays → StaticArraysStatisticsExt 1561.5 ms ✓ StaticArrays → StaticArraysChainRulesCoreExt 1467.4 ms ✓ ConstructionBase → ConstructionBaseStaticArraysExt 4896.0 ms ✓ DomainSets 1473.2 ms ✓ DifferentiationInterface → DifferentiationInterfaceStaticArraysExt 1440.5 ms ✓ Adapt → AdaptStaticArraysExt 1632.7 ms ✓ Accessors → StaticArraysExt 1523.4 ms ✓ AutoDiffOperators → AutoDiffOperatorsStaticArraysExt 1302.9 ms ✓ IntervalSets → IntervalSetsRecipesBaseExt 36827.3 ms ✓ Polynomials 1282.0 ms ✓ Measurements → MeasurementsRecipesBaseExt 1460.9 ms ✓ Rmath 4237.7 ms ✓ SpecialFunctions  Downloading artifact: IntelOpenMP  Downloading artifact: oneTBB 8258.9 ms ✓ MKL_jll 4894.9 ms ✓ Roots 1065.1 ms ✓ PDMats → StatsBaseExt 993.2 ms ✓ StructArrays → StructArraysSparseArraysExt 679.7 ms ✓ StructArrays → StructArraysLinearAlgebraExt 661.1 ms ✓ StructArrays → StructArraysAdaptExt 1173.3 ms ✓ StructArrays → StructArraysStaticArraysExt 1674.8 ms ✓ Accessors → StructArraysExt 1485.6 ms ✓ LazyReports → LazyReportsStatsBaseExt 1190.9 ms ✓ MLDataDevices → MLDataDevicesChainRulesCoreExt 841.5 ms ✓ MLDataDevices → MLDataDevicesFillArraysExt 1108.7 ms ✓ MLDataDevices → MLDataDevicesSparseArraysExt 2033.3 ms ✓ HeterogeneousComputing 3394.6 ms ✓ NearestNeighbors 1086.1 ms ✓ DomainSets → DomainSetsRandomExt 3083.5 ms ✓ Interpolations 2306.3 ms ✓ Polynomials → PolynomialsChainRulesCoreExt 2755.3 ms ✓ SpecialFunctions → SpecialFunctionsChainRulesCoreExt 1742.5 ms ✓ HypergeometricFunctions 778.7 ms ✓ Measurements → MeasurementsSpecialFunctionsExt 961.8 ms ✓ DiffRules 4986.1 ms ✓ DoubleFloats 4564.7 ms ✓ FFTW 1036.3 ms ✓ Roots → RootsChainRulesCoreExt 11834.4 ms ✓ ChainRules 3705.6 ms ✓ Clustering 6065.0 ms ✓ MeasureBase 2855.9 ms ✓ StatsFuns 6613.9 ms ✓ ForwardDiff 3500.2 ms ✓ Polynomials → PolynomialsFFTWExt 1636.4 ms ✓ MLDataDevices → MLDataDevicesChainRulesExt 2913.3 ms ✓ StatsFuns → StatsFunsChainRulesCoreExt 916.9 ms ✓ StatsFuns → StatsFunsInverseFunctionsExt 7487.3 ms ✓ Distributions 1739.4 ms ✓ ForwardDiff → ForwardDiffStaticArraysExt 1169.6 ms ✓ LogarithmicNumbers → LogarithmicNumbersForwardDiffExt 1310.1 ms ✓ DifferentiationInterface → DifferentiationInterfaceForwardDiffExt 1236.6 ms ✓ Roots → RootsForwardDiffExt 2405.3 ms ✓ Interpolations → InterpolationsForwardDiffExt 3554.3 ms ✓ Distributions → DistributionsTestExt 2433.6 ms ✓ Distributions → DistributionsDensityInterfaceExt 2425.8 ms ✓ Distributions → DistributionsChainRulesCoreExt 3466.5 ms ✓ HypothesisTests 2225.6 ms ✓ EmpiricalDistributions 2239.8 ms ✓ ForwardDiffPullbacks 3298.2 ms ✓ KernelDensity 6241.1 ms ✓ ValueShapes 6653.1 ms ✓ DistributionsAD 2940.1 ms ✓ DistributionsAD → DistributionsADForwardDiffExt 24343.8 ms ✓ BAT 217 dependencies successfully precompiled in 487 seconds. 38 already precompiled. 1 dependency had output during precompilation: ┌ MKL_jll │ Downloading artifact: IntelOpenMP │ Downloading artifact: oneTBB └ Precompilation completed after 490.3s ################################################################################ # Testing # Testing BAT Status `/tmp/jl_w2K20l/Project.toml` ⌅ [80f14c24] AbstractMCMC v4.4.2 ⌃ [0bf59076] AdvancedHMC v0.6.1 [2c83c9a8] AffineMaps v0.3.3 [4c88cf16] Aqua v0.8.14 [65a8f2f4] ArraysOfArrays v0.6.6 [6e1301d5] AutoDiffOperators v0.3.0 [c0cd4b16] BAT v4.0.6 [91d0e2c9] BATTestCases v0.2.0 [9e997f8a] ChangesOfVariables v0.1.10 [8a292aeb] Cuba v2.3.0 [b429d917] DensityInterface v0.4.0 [31c24e10] Distributions v0.25.122 [ced4e74d] DistributionsAD v0.6.58 [fdbdab4c] ElasticArrays v1.2.12 [0bbb1fad] EmpiricalDistributions v0.3.10 [1a297f60] FillArrays v1.15.0 [f6369f11] ForwardDiff v1.3.0 [8e6b2b91] FunctionChains v0.2.3 [f67ccb44] HDF5 v0.17.2 [2182be2a] HeterogeneousComputing v0.2.4 [09f84164] HypothesisTests v0.11.6 [8197267c] IntervalSets v0.7.13 [3587e190] InverseFunctions v0.1.17 [e5afb96c] LazyReports v0.2.3 [fdae7790] MGVI v0.4.5 [fa1605e6] MeasureBase v0.14.13 [eff96d63] Measurements v2.14.1 [41ceaf6f] NestedSamplers v0.8.3 [429524aa] Optim v1.13.3 [22f7324a] OptimizationLBFGSB v1.2.1 [36348300] OptimizationOptimJL v0.4.8 [90014a1f] PDMats v0.11.36 [8e8a01fc] ParallelProcessingTools v0.4.9 [1fd47b50] QuadGK v2.11.2 [74087812] Random123 v1.7.1 [860ef19b] StableRNGs v1.0.4 [10745b16] Statistics v1.11.1 [2913bbd2] StatsBase v0.34.8 [09ab397b] StructArrays v0.7.2 [bd369af6] Tables v1.12.1 [5d786b92] TerminalLoggers v0.1.7 [9d95f2ec] TypedTables v1.4.6 [3a884ed6] UnPack v1.0.2 [136a8f8c] ValueShapes v0.11.4 [e88e6eb3] Zygote v0.7.10 [8ba89e20] Distributed v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [56ddb016] Logging v1.11.0 [44cfe95a] Pkg v1.13.0 [9a3f8284] Random v1.11.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_w2K20l/Manifest.toml` [47edcb42] ADTypes v1.19.0 [621f4979] AbstractFFTs v1.5.0 ⌅ [80f14c24] AbstractMCMC v4.4.2 [1520ce14] AbstractTrees v0.4.5 [7d9f7c33] Accessors v0.1.42 [79e6a3ab] Adapt v4.4.0 ⌃ [0bf59076] AdvancedHMC v0.6.1 [2c83c9a8] AffineMaps v0.3.3 [66dad0bd] AliasTables v1.1.3 [4c88cf16] Aqua v0.8.14 [dce04be8] ArgCheck v2.5.0 [4fba245c] ArrayInterface v7.22.0 [4c555306] ArrayLayouts v1.12.2 [65a8f2f4] ArraysOfArrays v0.6.6 [6e1301d5] AutoDiffOperators v0.3.0 [13072b0f] AxisAlgorithms v1.1.0 [39de3d68] AxisArrays v0.4.8 [c0cd4b16] BAT v4.0.6 [91d0e2c9] BATTestCases v0.2.0 ⌅ [198e06fe] BangBang v0.3.37 [9718e550] Baselet v0.1.1 [49dc2e85] Calculus v0.5.2 [082447d4] ChainRules v1.72.6 [d360d2e6] ChainRulesCore v1.26.0 [9e997f8a] ChangesOfVariables v0.1.10 [aaaa29a8] Clustering v0.15.8 [3da002f7] ColorTypes v0.12.1 [5ae59095] Colors v0.13.1 [861a8166] Combinatorics v1.0.3 [38540f10] CommonSolve v0.2.4 [bbf7d656] CommonSubexpressions v0.3.1 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.18.1 [b152e2b5] 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Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... [ Info: Running tests with 1 Julia threads active. ERROR: LoadError: ParseError: # Error @ /home/pkgeval/.julia/packages/Zygote/55SqB/src/lib/array.jl:609:19  # to create a Diagonal  tr(x), function (Δ::Number) # └─────────┘ ── Invalid signature in function definition Stacktrace:  [1] top-level scope  @ ~/.julia/packages/Zygote/55SqB/src/lib/array.jl:609  [2] include(mapexpr::Function, mod::Module, _path::String)  @ Base ./Base.jl:310  [3] top-level scope  @ ~/.julia/packages/Zygote/55SqB/src/Zygote.jl:40  [4] include(mod::Module, _path::String)  @ Base ./Base.jl:309  [5] include_package_for_output(pkg::Base.PkgId, input::String, depot_path::Vector{String}, dl_load_path::Vector{String}, load_path::Vector{String}, concrete_deps::Vector{Pair{Base.PkgId, UInt128}}, source::Nothing)  @ Base ./loading.jl:3157  [6] top-level scope  @ stdin:5  [7] eval(m::Module, e::Any)  @ Core ./boot.jl:489  [8] include_string(mapexpr::typeof(identity), mod::Module, code::String, filename::String)  @ Base ./loading.jl:3003  [9] include_string  @ ./loading.jl:3013 [inlined]  [10] exec_options(opts::Base.JLOptions)  @ Base ./client.jl:342  [11] _start()  @ Base ./client.jl:577 in expression starting at /home/pkgeval/.julia/packages/Zygote/55SqB/src/lib/array.jl:609 in expression starting at /home/pkgeval/.julia/packages/Zygote/55SqB/src/Zygote.jl:1 in expression starting at stdin:5 1 dependency had output during precompilation: ┌ Zygote │ [Output was shown above] └ transforms: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/transforms/test_transforms.jl:5 Got exception outside of a @test LoadError: The following 1 package failed to precompile: Zygote Failed to precompile Zygote [e88e6eb3-aa80-5325-afca-941959d7151f] to "/home/pkgeval/.julia/compiled/v1.14/Zygote/jl_zsgKj7" (ProcessExited(1)). in expression starting at /home/pkgeval/.julia/packages/BAT/Cwksl/test/transforms/test_distribution_transform.jl:8 mcmc_sample: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc_sample.jl:11 Got exception outside of a @test TaskFailedException nested task error: MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [inlined] [9] (::BAT.var"#193#194"{@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}, Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, Int64})() @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:314 ...and 31 more exceptions. Stacktrace: [1] sync_end(c::Channel{Any}) @ Base ./task.jl:630 [2] macro expansion @ ./task.jl:663 [inlined] [3] mcmc_iterate!!(outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}; kwargs::@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:313 [4] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:298 [5] mcmc_init!(samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, target::PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, init_alg::MCMCChainPoolInit, callback::Function, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/chain_pool_init.jl:86 [6] bat_sample_impl(m::PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_sample.jl:83 [7] sample_and_verify(target::PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, ref_dist::FullNormal, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}; max_retries::Int64) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/bat_sample.jl:20 [8] sample_and_verify(target::PosteriorMeasure{DensityInterface.LogFuncDensity{Base.Fix1{typeof(logdensityof), BAT.BATDistMeasure{FullNormal}}}, BAT.BATDistMeasure{Product{Continuous, Uniform{Float64}, Vector{Uniform{Float64}}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, ref_dist::FullNormal, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/bat_sample.jl:14 [9] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc_sample.jl:12 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [11] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc_sample.jl:24 [inlined] [12] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [13] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:6 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [15] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:7 [inlined] [16] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [17] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:6 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [19] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:7 [inlined] [20] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [21] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [22] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [23] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:31 [inlined] [24] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [25] top-level scope @ none:6 [26] eval(m::Module, e::Any) @ Core ./boot.jl:489 [27] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [28] _start() @ Base ./client.jl:577 MCMC iteration: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:23 Got exception outside of a @test MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [9] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:9 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [11] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:24 [inlined] [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [13] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:30 [inlined] [14] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [15] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:6 [16] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [17] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:8 [inlined] [18] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [19] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:6 [20] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [21] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:7 [inlined] [22] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [23] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [24] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [25] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:31 [inlined] [26] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [27] top-level scope @ none:6 [28] eval(m::Module, e::Any) @ Core ./boot.jl:489 [29] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [30] _start() @ Base ./client.jl:577 MCMC tuning and burn-in: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:55 Got exception outside of a @test MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_cycle!!(tuner::BAT.AdaptiveAffineTuningState{BAT.MCMCBasicStats{Float64, Float64}}, chain_state::MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, samples::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_adaptive_mh_tuner.jl:129 [5] mcmc_tune_post_cycle!!(state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.AdaptiveAffineTuningState{BAT.MCMCBasicStats{Float64, Float64}}, BAT.MCMCNoTemperingState}, samples::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:338 [6] _broadcast_getindex_evalf @ ./broadcast.jl:698 [inlined] [7] _broadcast_getindex @ ./broadcast.jl:671 [inlined] [8] _getindex @ ./broadcast.jl:619 [inlined] [9] getindex @ ./broadcast.jl:615 [inlined] [10] copy @ ./broadcast.jl:932 [inlined] [11] materialize(bc::Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1}, Nothing, typeof(BAT.mcmc_tune_post_cycle!!), Tuple{Vector{MCMCState}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}}}) @ Base.Broadcast ./broadcast.jl:893 [12] mcmc_burnin!(outputs::Vector{Vector{StructArrays.StructArray{DensitySample{P, T, W, R, Q}, 1, @NamedTuple{v::PV, logd::TV, weight::WV, info::RV, aux::QV}} where {P, T<:AbstractFloat, W<:Real, R, Q, PV<:AbstractVector{P}, TV<:AbstractVector{T}, WV<:AbstractVector{W}, RV<:AbstractVector{R}, QV<:AbstractVector{Q}}}}, mcmc_states::Vector{MCMCState}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, AdaptiveAffineTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, callback::var"#48#49") @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/multi_cycle_burnin.jl:56 [13] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:9 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [15] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:56 [inlined] [16] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [17] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:91 [inlined] [18] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [19] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:6 [20] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [21] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:8 [inlined] [22] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [23] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:6 [24] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [25] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:7 [inlined] [26] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [27] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [28] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [29] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:31 [inlined] [30] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [31] top-level scope @ none:6 [32] eval(m::Module, e::Any) @ Core ./boot.jl:489 [33] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [34] _start() @ Base ./client.jl:577 bat_sample: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:115 Got exception outside of a @test TaskFailedException nested task error: MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [inlined] [9] (::BAT.var"#193#194"{@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}, Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, Int64})() @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:314 ...and 31 more exceptions. Stacktrace: [1] sync_end(c::Channel{Any}) @ Base ./task.jl:630 [2] macro expansion @ ./task.jl:663 [inlined] [3] mcmc_iterate!!(outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}; kwargs::@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:313 [4] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:298 [5] mcmc_init!(samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, target::BAT.BATDistMeasure{ValueShapes.UnshapedNTD{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, init_alg::MCMCChainPoolInit, callback::Function, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/chain_pool_init.jl:86 [6] bat_sample_impl(m::BAT.BATDistMeasure{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_sample.jl:83 [7] bat_sample(target::BAT.BATDistMeasure{NamedTupleDist{(:a, :b), Tuple{Normal{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:57 [8] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:9 [9] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [10] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:116 [inlined] [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [12] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:116 [inlined] [13] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [14] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:6 [15] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [16] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:8 [inlined] [17] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [18] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:6 [19] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [20] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/test_samplers.jl:7 [inlined] [21] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [22] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [23] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [24] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:31 [inlined] [25] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [26] top-level scope @ none:6 [27] eval(m::Module, e::Any) @ Core ./boot.jl:489 [28] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [29] _start() @ Base ./client.jl:577 MCMC sampling in transformed space: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:148 Test threw exception Expression: (BAT.sample_and_verify(posterior, TransformedMCMC(proposal = RandomWalk(), pretransform = PriorToNormal()), prior.dist)).verified TaskFailedException nested task error: MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [inlined] [9] (::BAT.var"#193#194"{@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}, Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, Int64})() @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:314 ...and 31 more exceptions. Stacktrace: [1] sync_end(c::Channel{Any}) @ Base ./task.jl:630 [2] macro expansion @ ./task.jl:663 [inlined] [3] mcmc_iterate!!(outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}; kwargs::@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:313 [4] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:298 [5] mcmc_init!(samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, target::PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, PosteriorMeasure{DensityInterface.LogFuncDensity{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, var"#50#51"}}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}}, init_alg::MCMCChainPoolInit, callback::Function, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/chain_pool_init.jl:86 [6] bat_sample_impl(m::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#50#51"}, PosteriorMeasure{DensityInterface.LogFuncDensity{var"#50#51"}, BAT.BATDistMeasure{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_sample.jl:83 [7] sample_and_verify(target::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#50#51"}, PosteriorMeasure{DensityInterface.LogFuncDensity{var"#50#51"}, BAT.BATDistMeasure{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, ref_dist::NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}; max_retries::Int64) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/bat_sample.jl:20 [8] sample_and_verify(target::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#50#51"}, PosteriorMeasure{DensityInterface.LogFuncDensity{var"#50#51"}, BAT.BATDistMeasure{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, ref_dist::NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/bat_sample.jl:14 [9] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:9 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [11] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:143 [inlined] [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [13] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:148 [inlined] [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:750 [inlined] [15] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mh.jl:148 [inlined] ERROR: LoadError: ParseError: # Error @ /home/pkgeval/.julia/packages/Zygote/55SqB/src/lib/array.jl:609:19  # to create a Diagonal  tr(x), function (Δ::Number) # └─────────┘ ── Invalid signature in function definition Stacktrace:  [1] top-level scope  @ ~/.julia/packages/Zygote/55SqB/src/lib/array.jl:609  [2] include(mapexpr::Function, mod::Module, _path::String)  @ Base ./Base.jl:310  [3] top-level scope  @ ~/.julia/packages/Zygote/55SqB/src/Zygote.jl:40  [4] include(mod::Module, _path::String)  @ Base ./Base.jl:309  [5] include_package_for_output(pkg::Base.PkgId, input::String, depot_path::Vector{String}, dl_load_path::Vector{String}, load_path::Vector{String}, concrete_deps::Vector{Pair{Base.PkgId, UInt128}}, source::Nothing)  @ Base ./loading.jl:3157  [6] top-level scope  @ stdin:5  [7] eval(m::Module, e::Any)  @ Core ./boot.jl:489  [8] include_string(mapexpr::typeof(identity), mod::Module, code::String, filename::String)  @ Base ./loading.jl:3003  [9] include_string  @ ./loading.jl:3013 [inlined]  [10] exec_options(opts::Base.JLOptions)  @ Base ./client.jl:342  [11] _start()  @ Base ./client.jl:577 in expression starting at /home/pkgeval/.julia/packages/Zygote/55SqB/src/lib/array.jl:609 in expression starting at /home/pkgeval/.julia/packages/Zygote/55SqB/src/Zygote.jl:1 in expression starting at stdin:5 1 dependency had output during precompilation: ┌ Zygote │ [Output was shown above] └ mcmc: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_mcmc.jl:5 Got exception outside of a @test LoadError: The following 1 package failed to precompile: Zygote Failed to precompile Zygote [e88e6eb3-aa80-5325-afca-941959d7151f] to "/home/pkgeval/.julia/compiled/v1.14/Zygote/jl_tA7l40" (ProcessExited(1)). in expression starting at /home/pkgeval/.julia/packages/BAT/Cwksl/test/samplers/mcmc/test_hmc.jl:8 hdf5: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/io/test_hdf5.jl:11 Got exception outside of a @test TaskFailedException nested task error: MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [inlined] [9] (::BAT.var"#193#194"{@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}, Vector{MCMCState{MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{MCMCState{MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, Int64})() @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:314 ...and 31 more exceptions. Stacktrace: [1] sync_end(c::Channel{Any}) @ Base ./task.jl:630 [2] macro expansion @ ./task.jl:663 [inlined] [3] mcmc_iterate!!(outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}; kwargs::@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:313 [4] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:298 [5] mcmc_init!(samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, target::PosteriorMeasure{MeasureBase.Likelihood{FunctionChains.FunctionChain{Tuple{BAT.DistributionTransform{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}, BAT.StandardMvNormal{Float64}}, ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}}}, Vector{Float64}}, BAT.BATDistMeasure{BAT.StandardMvNormal{Float64}}}, init_alg::MCMCChainPoolInit, callback::Function, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/chain_pool_init.jl:86 [6] bat_sample_impl(m::PosteriorMeasure{MeasureBase.Likelihood{ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, Vector{Float64}}, BAT.BATDistMeasure{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_sample.jl:83 [7] bat_sample(target::PosteriorMeasure{MeasureBase.Likelihood{ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, Vector{Float64}}, BAT.BATDistMeasure{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:57 [8] bat_sample(target::PosteriorMeasure{MeasureBase.Likelihood{ComposedFunction{Base.Fix2{Type{MvNormal}, Matrix{Float64}}, Base.Fix2{typeof(unshaped), NamedTupleShape{(:a, :b, :c, :d, :e, :f), Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, Vector{Float64}}, BAT.BATDistMeasure{NamedTupleDist{(:a, :b, :c, :d, :e, :f), Tuple{Exponential{Float64}, ConstValueDist{Multivariate, Vector{Float64}}, Normal{Float64}, Product{Continuous, Weibull{Float64}, Vector{Weibull{Float64}}}, Beta{Float64}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Float64}, true}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}, ValueAccessor{ScalarShape{Real}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, PriorToNormal, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:68 [9] (::var"#55#56")(tmp_datadir::String) @ Main ~/.julia/packages/BAT/Cwksl/test/io/test_hdf5.jl:14 [10] mktempdir(fn::var"#55#56", parent::String; prefix::String) @ Base.Filesystem ./file.jl:936 [11] mktempdir(fn::Function, parent::String) @ Base.Filesystem ./file.jl:932 [12] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/io/test_hdf5.jl:12 [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [14] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/io/test_hdf5.jl:12 [inlined] [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [16] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/io/test_io.jl:6 [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [18] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/io/test_io.jl:6 [inlined] [19] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [20] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [21] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [22] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:32 [inlined] [23] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [24] top-level scope @ none:6 [25] eval(m::Module, e::Any) @ Core ./boot.jl:489 [26] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [27] _start() @ Base ./client.jl:577 funnel distribution: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:17 Got exception outside of a @test TaskFailedException nested task error: MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [inlined] [9] (::BAT.var"#193#194"{@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}, Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, Int64})() @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:314 ...and 31 more exceptions. Stacktrace: [1] sync_end(c::Channel{Any}) @ Base ./task.jl:630 [2] macro expansion @ ./task.jl:663 [inlined] [3] mcmc_iterate!!(outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}; kwargs::@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:313 [4] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:298 [5] mcmc_init!(samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, target::BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, init_alg::MCMCChainPoolInit, callback::Function, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/chain_pool_init.jl:86 [6] bat_sample_impl(m::BAT.BATDistMeasure{FunnelDistribution{Float64, Int64}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_sample.jl:83 [7] bat_sample(target::FunnelDistribution{Float64, Int64}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:57 [8] bat_sample(target::FunnelDistribution{Float64, Int64}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:68 [9] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:23 [inlined] [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [11] (::var"#test_integration#test_integration##0"{var"#test_integration#57#58"{BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}})(algorithm::BridgeSampling{DoNotTransform, EffSampleSizeFromAC{GeyerAutocorLen}}, title::String, dist::FunnelDistribution{Float64, Int64}; val_expected::Float64, val_rtol::Int64, err_max::Float64) @ Main ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:18 [12] kwcall(::@NamedTuple{val_rtol::Int64}, ::var"#test_integration#test_integration##0"{var"#test_integration#57#58"{BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}}, algorithm::BridgeSampling{DoNotTransform, EffSampleSizeFromAC{GeyerAutocorLen}}, title::String, dist::FunnelDistribution{Float64, Int64}) @ Main ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:14 [13] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:12 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [15] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:32 [inlined] [16] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [17] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/integration/test_integration.jl:6 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [19] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/integration/test_integration.jl:6 [inlined] [20] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [21] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [22] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [23] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:34 [inlined] [24] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [25] top-level scope @ none:6 [26] eval(m::Module, e::Any) @ Core ./boot.jl:489 [27] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [28] _start() @ Base ./client.jl:577 MvNormal: Error During Test at /home/pkgeval/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:17 Got exception outside of a @test TaskFailedException nested task error: MethodError: Cannot `convert` an object of type LowerTriangular{Float64, Matrix{Float64}} to an object of type Adjoint{Float64, Matrix{Float64}} The function `convert` exists, but no method is defined for this combination of argument types. Closest candidates are: (::Type{Adjoint{T, S}} where {T, S})(::Any) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:33 convert(::Type{Adjoint{T, S}}, !Matched::Adjoint) where {T, S} @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/adjtrans.jl:367 convert(::Type{T}, !Matched::T) where T<:AbstractArray @ Base abstractarray.jl:16 ... Stacktrace: [1] LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}(data::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/triangular.jl:23 [2] convert(::Type{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}}, m::LowerTriangular{Float64, Matrix{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.14/LinearAlgebra/src/special.jl:70 [3] oftype(x::LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, y::LowerTriangular{Float64, Matrix{Float64}}) @ Base ./essentials.jl:711 [4] mcmc_tune_post_step!!(tuner_state::BAT.RAMTrafoTunerState, chain_state::MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, p_accept::Vector{Float64}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:349 [inlined] [6] mcmc_step!!(mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_state.jl:177 [7] mcmc_iterate!!(output::Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}, mcmc_state::MCMCState{MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}; max_nsteps::Int64, max_time::Float64, nonzero_weights::Bool) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:262 [inlined] [9] (::BAT.var"#193#194"{@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}, Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}, Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, Int64})() @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:314 ...and 31 more exceptions. Stacktrace: [1] sync_end(c::Channel{Any}) @ Base ./task.jl:630 [2] macro expansion @ ./task.jl:663 [inlined] [3] mcmc_iterate!!(outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}; kwargs::@Kwargs{max_nsteps::Int64, nonzero_weights::Bool}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:313 [4] kwcall(::@NamedTuple{max_nsteps::Int64, nonzero_weights::Bool}, ::typeof(BAT.mcmc_iterate!!), outputs::Vector{Vector{StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, ElasticMatrix{Float64, Vector{Float64}}}, logd::Vector{Float64}, weight::Vector{Int64}, info::StructArrays.StructVector{BAT.MCMCSampleID, @NamedTuple{chainid::Vector{Int32}, walkerid::Vector{Int32}, chaincycle::Vector{Int32}, stepno::Vector{Int64}, sampletype::Vector{Int32}}, Int64}, aux::Vector{Nothing}}, Int64}}}, mcmc_states::Vector{MCMCState{MCMCChainState{BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, BAT.RNGPartition{Philox4x{UInt64, 10}, Tuple{UInt64, UInt64}, NTuple{6, UInt32}, UnitRange{Int64}}, AffineMaps.MulAdd{LowerTriangular{Float64, Adjoint{Float64, Matrix{Float64}}}, Vector{Float64}}, MHProposalState{BAT.BATDistMeasure{Distributions.GenericMvTDist{Float64, ScalMat{Float64}, Zeros{Float64, 1, Tuple{Base.OneTo{Int64}}}}}}, RepetitionWeighting{Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, StructArrays.StructVector{DensitySample{Vector{Float64}, Float64, Int64, BAT.MCMCSampleID, Nothing}, @NamedTuple{v::ArrayOfSimilarArrays{Float64, 1, 1, 2, Matrix{Float64}}, logd::Vector{Float64}, weight::Vector{Int64}, info::Vector{BAT.MCMCSampleID}, aux::Vector{Nothing}}, Int64}, BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}, BAT.NoMCMCProposalTunerState, BAT.RAMTrafoTunerState, BAT.MCMCNoTemperingState}}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_algorithm.jl:298 [5] mcmc_init!(samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, target::BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, init_alg::MCMCChainPoolInit, callback::Function, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/chain_pool_init.jl:86 [6] bat_sample_impl(m::BAT.BATDistMeasure{ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}}, samplingalg::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/samplers/mcmc/mcmc_sample.jl:83 [7] bat_sample(target::ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:57 [8] bat_sample(target::ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}, algorithm::TransformedMCMC{RandomWalk{TDist{Float64}}, NoMCMCProposalTuning, DoNotTransform, BAT.TriangularAffineTransform, RAMTuning, BAT.NoMCMCTempering, MCMCChainPoolInit, MCMCMultiCycleBurnin, BrooksGelmanConvergence, RepetitionWeighting{Int64}, typeof(BAT.nop_func)}) @ BAT ~/.julia/packages/BAT/Cwksl/src/algotypes/sampling_algorithm.jl:68 [9] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:23 [inlined] [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [11] (::var"#test_integration#test_integration##0"{var"#test_integration#57#58"{BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}})(algorithm::BridgeSampling{DoNotTransform, EffSampleSizeFromAC{GeyerAutocorLen}}, title::String, dist::ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}; val_expected::Float64, val_rtol::Int64, err_max::Float64) @ Main ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:18 [12] kwcall(::@NamedTuple{val_rtol::Int64}, ::var"#test_integration#test_integration##0"{var"#test_integration#57#58"{BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}}}, algorithm::BridgeSampling{DoNotTransform, EffSampleSizeFromAC{GeyerAutocorLen}}, title::String, dist::ZeroMeanDiagNormal{Tuple{Base.OneTo{Int64}}}) @ Main ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:14 [13] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:12 [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [15] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/integration/test_brigde_sampling_integration.jl:37 [inlined] [16] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [17] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/integration/test_integration.jl:6 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [19] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/integration/test_integration.jl:6 [inlined] [20] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [21] top-level scope @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:21 [22] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [23] macro expansion @ ~/.julia/packages/BAT/Cwksl/test/runtests.jl:34 [inlined] [24] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [25] top-level scope @ none:6 [26] eval(m::Module, e::Any) @ Core ./boot.jl:489 [27] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [28] _start() @ Base ./client.jl:577 Test Summary: | Pass Error Total Time Package BAT | 555 10 565 22m53.8s Aqua tests | 9 9 2m18.0s utils | 15 15 1.6s rngs | 23 23 2.6s distributions | 289 289 27.4s parameters | 51 51 1m07.6s transforms | 1 1 25.5s densities | 7 7 1.6s initvals | 14 14 9.1s statistics | 72 72 43.0s optimization | 29 29 5m16.8s samplers | 39 6 45 9m23.4s bat_sample | 20 20 9.8s mcmc | 3 6 9 2m04.0s proposaldist | 0 0.0s mcmc_sample | 1 1 42.2s RandomWalk | 3 4 7 1m01.5s MCMC iteration | 1 1 7.5s MCMC tuning and burn-in | 1 1 2 26.6s bat_sample | 1 1 6.3s MCMC sampling in transformed space | 1 1 20.9s importance_samplers | 4 4 7.3s nested_sampling | 4 4 2m47.1s MGVI | 8 8 1m13.2s io | 1 1 1m27.6s hdf5 | 1 1 23.6s hdf5 | 0 0.0s plotting | 0 0.0s integration | 7 2 9 57.3s bridge_sampling_integration | 2 2 34.3s funnel distribution | 1 1 17.0s MvNormal | 1 1 15.7s cuba_integration | 7 7 3.3s RNG of the outermost testset: Xoshiro(0x623c8c4ecad693eb, 0x567f9198d8e674be, 0xed7737df617d414a, 0x87759b0b772b6b4e, 0xbd4695c67f2c27b9) ERROR: LoadError: Some tests did not pass: 555 passed, 0 failed, 10 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/BAT/Cwksl/test/runtests.jl:20 Testing failed after 1421.47s ERROR: LoadError: Package BAT 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:2946 [3] test @ /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Operations.jl:2795 [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:219 [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:577 in expression starting at /PkgEval.jl/scripts/evaluate.jl:210 PkgEval failed after 2011.59s: package fails to precompile