Package evaluation to test BAT on Julia 1.14.0-DEV.1260 (89243d1cdf*) started at 2025-11-17T00:28:00.365 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 10.15s ################################################################################ # Installation # Installing BAT... Resolving package versions... Installed MKL_jll ───────────────────── v2025.2.0+0 Installed OrderedCollections ────────── v1.8.1 Installed CommonWorldInvalidations ──── v1.0.0 Installed Calculus ──────────────────── v0.5.2 Installed Functors ──────────────────── v0.5.2 Installed DistributionsAD ───────────── v0.6.58 Installed OneTwoMany ────────────────── v0.1.2 Installed NearestNeighbors ──────────── v0.4.23 Installed HypothesisTests ───────────── v0.11.6 Installed ElasticClusterManager ─────── v2.0.0 Installed ArgCheck ──────────────────── v2.5.0 Installed ElasticArrays ─────────────── v1.2.12 Installed MIMEs ─────────────────────── v1.1.0 Installed ChainRules ────────────────── v1.72.6 Installed Distances ─────────────────── v0.10.12 Installed OpenSpecFun_jll ───────────── v0.5.6+0 Installed NaNMath ───────────────────── v1.1.3 Installed QuadGK ────────────────────── v2.11.2 Installed AutoDiffOperators ─────────── v0.3.0 Installed WoodburyMatrices ──────────── v1.0.0 Installed BAT ───────────────────────── v4.0.4 Installed Reexport ──────────────────── v1.2.2 Installed Tables ────────────────────── v1.12.1 Installed InverseFunctions ──────────── v0.1.17 Installed Missings ──────────────────── v1.2.0 Installed LazyReports ───────────────── v0.2.3 Installed Preferences ───────────────── v1.5.0 Installed Static ────────────────────── v1.3.1 Installed LaTeXStrings ──────────────── v1.4.0 Installed MappedArrays ──────────────── v0.4.2 Installed TableTraits ───────────────── v1.0.1 Installed ForwardDiffPullbacks ──────── v0.2.7 Installed Sobol ─────────────────────── v1.5.0 Installed Polynomials ───────────────── v4.1.0 Installed DensityInterface ──────────── v0.4.0 Installed SortingAlgorithms ─────────── v1.2.2 Installed UnPack ────────────────────── v1.0.2 Installed ADTypes ───────────────────── v1.19.0 Installed Indexing ──────────────────── v1.1.1 Installed MacroTools ────────────────── v0.5.16 Installed DiffResults ───────────────── v1.1.0 Installed DataStructures ────────────── v0.19.3 Installed oneTBB_jll ────────────────── v2022.0.0+1 Installed FillArrays ────────────────── v1.15.0 Installed Quadmath ──────────────────── v0.5.13 Installed DelimitedFiles ────────────── v1.9.1 Installed AffineMaps ────────────────── v0.3.3 Installed Tricks ────────────────────── v0.1.13 Installed StatsBase ─────────────────── v0.34.8 Installed RandomNumbers ─────────────── v1.6.0 Installed IntelOpenMP_jll ───────────── v2025.2.0+0 Installed DataValueInterfaces ───────── v1.0.0 Installed IrrationalConstants ───────── v0.2.6 Installed RealDot ───────────────────── v0.1.0 Installed CommonSubexpressions ──────── v0.3.1 Installed FunctionChains ────────────── v0.2.3 Installed MeasureBase ───────────────── v0.14.13 Installed GPUArraysCore ─────────────── v0.2.0 Installed Clustering ────────────────── v0.15.8 Installed StableRNGs ────────────────── v1.0.4 Installed TypedTables ───────────────── v1.4.6 Installed Setfield ──────────────────── v1.1.2 Installed CompositeTypes ────────────── v0.1.4 Installed Roots ─────────────────────── v2.2.10 Installed ValueShapes ───────────────── v0.11.3 Installed PDMats ────────────────────── v0.11.36 Installed Interpolations ────────────── v0.16.2 Installed MLDataDevices ─────────────── v1.15.1 Installed CompositionsBase ──────────── v0.1.2 Installed CommonSolve ───────────────── v0.2.4 Installed DocStringExtensions ───────── v0.9.5 Installed PrettyPrinting ────────────── v0.4.2 Installed NamedArrays ───────────────── v0.10.5 Installed ForwardDiff ───────────────── v1.3.0 Installed DifferentiationInterface ──── v0.7.11 Installed Rmath_jll ─────────────────── v0.5.1+0 Installed SparseInverseSubset ───────── v0.1.2 Installed IteratorInterfaceExtensions ─ v1.0.0 Installed SplitApplyCombine ─────────── v1.2.3 Installed AliasTables ───────────────── v1.1.3 Installed Combinatorics ─────────────── v1.0.3 Installed KernelDensity ─────────────── v0.6.10 Installed DomainSets ────────────────── v0.7.16 Installed StaticArraysCore ──────────── v1.4.4 Installed DataAPI ───────────────────── v1.16.0 Installed AbstractFFTs ──────────────── v1.5.0 Installed RecipesBase ───────────────── v1.3.4 Installed InvertedIndices ───────────── v1.3.1 Installed Colors ────────────────────── v0.13.1 Installed StaticArrays ──────────────── v1.9.15 Installed DoubleFloats ──────────────── v1.5.0 Installed ColorTypes ────────────────── v0.12.1 Installed AxisAlgorithms ────────────── v1.1.0 Installed SciMLPublic ───────────────── v1.0.0 Installed Requires ──────────────────── v1.3.1 Installed FunctionWrappers ──────────── v1.1.3 Installed LogExpFunctions ───────────── v0.3.29 Installed GenericLinearAlgebra ──────── v0.3.19 Installed Rmath ─────────────────────── v0.9.0 Installed DiffRules ─────────────────── v1.15.1 Installed ParallelProcessingTools ───── v0.4.9 Installed StatsFuns ─────────────────── v1.5.2 Installed JLLWrappers ───────────────── v1.7.1 Installed ZygoteRules ───────────────── v0.2.7 Installed Distributions ─────────────── v0.25.122 Installed Dictionaries ──────────────── v0.4.5 Installed Adapt ─────────────────────── v4.4.0 Installed HypergeometricFunctions ───── v0.3.28 Installed ConstructionBase ──────────── v1.6.0 Installed Accessors ─────────────────── v0.1.42 Installed Measurements ──────────────── v2.14.1 Installed EmpiricalDistributions ────── v0.3.10 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 LogarithmicNumbers ────────── v1.4.1 Installed PrecompileTools ───────────── v1.3.3 Installed IfElse ────────────────────── v0.1.1 Installed Ratios ────────────────────── v0.4.5 Installed Parameters ────────────────── v0.12.3 Installed OffsetArrays ──────────────── v1.17.0 Installed PtrArrays ─────────────────── v1.3.0 Installed HeterogeneousComputing ────── v0.2.4 Installed ChainRulesCore ────────────── v1.26.0 Installed SpecialFunctions ──────────── v2.6.1 Installed FixedPointNumbers ─────────── v0.8.5 Installed IntervalSets ──────────────── v0.7.12 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 v4.0.4 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 v4.0.4 [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 v0.7.11 [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 v0.7.12 [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 v0.4.23 [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 v0.11.3 [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 v1.11.0 [4607b0f0] + SuiteSparse [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [8dfed614] + Test v1.11.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [deac9b47] + LibCURL_jll v8.16.0+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 11.74s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling packages... WARNING: Imported binding Operations.project_rel_path was undeclared at import time during import to TestEnv. 4550.0 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... 4143.5 ms ✓ MacroTools 746.7 ms ✓ Reexport 917.9 ms ✓ MappedArrays 1135.5 ms ✓ ConstructionBase 1994.9 ms ✓ IrrationalConstants 821.5 ms ✓ ChangesOfVariables 745.8 ms ✓ DataValueInterfaces 819.3 ms ✓ StatsAPI 1245.2 ms ✓ Calculus 1017.8 ms ✓ IntervalSets 780.1 ms ✓ Indexing 1907.4 ms ✓ Combinatorics 825.7 ms ✓ ArgCheck 756.7 ms ✓ CommonSolve 793.0 ms ✓ LaTeXStrings 1090.0 ms ✓ Statistics 926.3 ms ✓ Tricks 975.4 ms ✓ StaticArraysCore 890.9 ms ✓ CompositeTypes 874.2 ms ✓ StableRNGs 741.8 ms ✓ IfElse 772.0 ms ✓ PtrArrays 900.0 ms ✓ PositiveFactorizations 804.7 ms ✓ DataAPI 844.7 ms ✓ SciMLPublic 744.8 ms ✓ RealDot 755.3 ms ✓ CommonWorldInvalidations 788.6 ms ✓ OneTwoMany 847.0 ms ✓ InvertedIndices 1508.6 ms ✓ RandomNumbers 871.3 ms ✓ InverseFunctions 814.1 ms ✓ AffineMaps 807.6 ms ✓ CompositionsBase 1041.0 ms ✓ AbstractFFTs 2734.1 ms ✓ PrettyPrinting 1906.7 ms ✓ FillArrays 2899.9 ms ✓ MIMEs 987.1 ms ✓ LogarithmicNumbers 780.5 ms ✓ UnPack 1243.3 ms ✓ OrderedCollections 1497.4 ms ✓ FunctionWrappers 1368.6 ms ✓ ADTypes 1121.0 ms ✓ DocStringExtensions 1622.0 ms ✓ OffsetArrays 738.6 ms ✓ IteratorInterfaceExtensions 973.6 ms ✓ DelimitedFiles 1724.7 ms ✓ GenericLinearAlgebra 998.3 ms ✓ NaNMath 1153.8 ms ✓ Requires 1212.4 ms ✓ SuiteSparse 1397.6 ms ✓ WoodburyMatrices 1148.5 ms ✓ Compat 1127.2 ms ✓ Preferences 4890.4 ms ✓ ElasticClusterManager 1708.0 ms ✓ CommonSubexpressions 787.9 ms ✓ ConstructionBase → ConstructionBaseLinearAlgebraExt 3714.0 ms ✓ ChangesOfVariables → ChangesOfVariablesTestExt 1274.8 ms ✓ Measurements 741.2 ms ✓ IntervalSets → IntervalSetsRandomExt 767.0 ms ✓ IntervalSets → IntervalSetsPrintfExt 716.2 ms ✓ ConstructionBase → ConstructionBaseIntervalSetsExt 1945.9 ms ✓ Dictionaries 1218.0 ms ✓ ArraysOfArrays 1286.2 ms ✓ Statistics → SparseArraysExt 3730.6 ms ✓ FixedPointNumbers 1455.0 ms ✓ Distances 745.5 ms ✓ IntervalSets → IntervalSetsStatisticsExt 836.9 ms ✓ DiffResults 942.5 ms ✓ AliasTables 981.4 ms ✓ Missings 1871.2 ms ✓ Random123 838.8 ms ✓ InverseFunctions → InverseFunctionsDatesExt 1703.1 ms ✓ InverseFunctions → InverseFunctionsTestExt 1120.9 ms ✓ FunctionChains 827.1 ms ✓ ChangesOfVariables → ChangesOfVariablesInverseFunctionsExt 756.5 ms ✓ AffineMaps → AffineMapsInverseFunctionsExt 780.2 ms ✓ AffineMaps → AffineMapsChangesOfVariablesExt 784.2 ms ✓ CompositionsBase → CompositionsBaseInverseFunctionsExt 4037.0 ms ✓ AbstractFFTs → AbstractFFTsTestExt 1508.5 ms ✓ FillArrays → FillArraysSparseArraysExt 956.9 ms ✓ FillArrays → FillArraysStatisticsExt 948.4 ms ✓ Parameters 3551.1 ms ✓ DataStructures 790.7 ms ✓ ADTypes → ADTypesConstructionBaseExt 2020.8 ms ✓ DifferentiationInterface 1402.1 ms ✓ LogExpFunctions 745.9 ms ✓ TableTraits 2371.6 ms ✓ Sobol 677.5 ms ✓ Ratios 940.0 ms ✓ Adapt 1688.7 ms ✓ PDMats 1078.1 ms ✓ SparseInverseSubset 1044.1 ms ✓ AxisAlgorithms 661.7 ms ✓ Compat → CompatLinearAlgebraExt 772.7 ms ✓ PrecompileTools 914.7 ms ✓ JLLWrappers 2234.6 ms ✓ Setfield 1115.5 ms ✓ SplitApplyCombine 625.4 ms ✓ ArraysOfArrays → ArraysOfArraysStaticArraysCoreExt 1831.8 ms ✓ NamedArrays 2568.6 ms ✓ ColorTypes 1272.1 ms ✓ Distances → DistancesSparseArraysExt 1752.8 ms ✓ DensityInterface 974.0 ms ✓ FunctionChains → FunctionChainsChangesOfVariablesExt 4959.5 ms ✓ Accessors 9309.9 ms ✓ ParallelProcessingTools 1028.3 ms ✓ SortingAlgorithms 1892.1 ms ✓ QuadGK 1091.9 ms ✓ DifferentiationInterface → DifferentiationInterfaceSparseArraysExt 1012.3 ms ✓ AutoDiffOperators 716.6 ms ✓ LogExpFunctions → LogExpFunctionsChangesOfVariablesExt 653.3 ms ✓ LogExpFunctions → LogExpFunctionsInverseFunctionsExt 1413.1 ms ✓ Tables 696.7 ms ✓ Ratios → RatiosFixedPointNumbersExt 924.9 ms ✓ Adapt → AdaptSparseArraysExt 674.8 ms ✓ ElasticArrays 904.7 ms ✓ GPUArraysCore 665.5 ms ✓ AffineMaps → AffineMapsAdaptExt 652.4 ms ✓ OffsetArrays → OffsetArraysAdaptExt 633.3 ms ✓ ArraysOfArrays → ArraysOfArraysAdaptExt 653.0 ms ✓ FunctionChains → FunctionChainsAdaptExt 1134.0 ms ✓ FillArrays → FillArraysPDMatsExt 2182.9 ms ✓ ChainRulesCore 1668.9 ms ✓ Quadmath 1233.8 ms ✓ Functors 12706.5 ms ✓ StaticArrays 2692.7 ms ✓ RecipesBase 5158.7 ms ✓ Static 1413.8 ms ✓ Rmath_jll 1316.0 ms ✓ OpenSpecFun_jll 4883.0 ms ✓ IntelOpenMP_jll 4771.6 ms ✓ oneTBB_jll 1383.5 ms ✓ FFTW_jll 1231.0 ms ✓ ColorTypes → StyledStringsExt 7869.0 ms ✓ Colors 1729.8 ms ✓ Accessors → TestExt 2434.6 ms ✓ Accessors → IntervalSetsExt 2470.4 ms ✓ Accessors → LinearAlgebraExt 1099.0 ms ✓ FunctionChains → FunctionChainsAccessorsExt 4506.7 ms ✓ StatsBase 1545.1 ms ✓ StructArrays 1390.0 ms ✓ LazyReports 1608.9 ms ✓ TypedTables 812.6 ms ✓ DifferentiationInterface → DifferentiationInterfaceGPUArraysCoreExt 1291.7 ms ✓ ChainRulesCore → ChainRulesCoreSparseArraysExt 2310.3 ms ✓ ZygoteRules 882.1 ms ✓ AbstractFFTs → AbstractFFTsChainRulesCoreExt 848.9 ms ✓ ADTypes → ADTypesChainRulesCoreExt 820.7 ms ✓ ArraysOfArrays → ArraysOfArraysChainRulesCoreExt 849.8 ms ✓ Distances → DistancesChainRulesCoreExt 854.6 ms ✓ DifferentiationInterface → DifferentiationInterfaceChainRulesCoreExt 2925.4 ms ✓ LogExpFunctions → LogExpFunctionsChainRulesCoreExt 743.9 ms ✓ AffineMaps → AffineMapsFunctorsExt 752.8 ms ✓ FunctionChains → FunctionChainsFunctorsExt 1563.1 ms ✓ MLDataDevices 1417.1 ms ✓ StaticArrays → StaticArraysStatisticsExt 1418.6 ms ✓ StaticArrays → StaticArraysChainRulesCoreExt 1386.8 ms ✓ ConstructionBase → ConstructionBaseStaticArraysExt 4884.1 ms ✓ DomainSets 1513.7 ms ✓ DifferentiationInterface → DifferentiationInterfaceStaticArraysExt 1408.7 ms ✓ Adapt → AdaptStaticArraysExt 2284.5 ms ✓ Accessors → StaticArraysExt 1883.4 ms ✓ AutoDiffOperators → AutoDiffOperatorsStaticArraysExt 1426.3 ms ✓ IntervalSets → IntervalSetsRecipesBaseExt 36463.5 ms ✓ Polynomials 1222.0 ms ✓ Measurements → MeasurementsRecipesBaseExt 1420.2 ms ✓ Rmath 4695.3 ms ✓ SpecialFunctions  Downloading artifact: IntelOpenMP  Downloading artifact: oneTBB 9870.9 ms ✓ MKL_jll 6722.5 ms ✓ Roots 1768.7 ms ✓ PDMats → StatsBaseExt 1424.5 ms ✓ StructArrays → StructArraysSparseArraysExt 859.0 ms ✓ StructArrays → StructArraysLinearAlgebraExt 839.0 ms ✓ StructArrays → StructArraysAdaptExt 1543.4 ms ✓ StructArrays → StructArraysStaticArraysExt 1053.0 ms ✓ Accessors → StructArraysExt 1966.4 ms ✓ LazyReports → LazyReportsStatsBaseExt 1500.5 ms ✓ MLDataDevices → MLDataDevicesChainRulesCoreExt 994.6 ms ✓ MLDataDevices → MLDataDevicesFillArraysExt 1342.5 ms ✓ MLDataDevices → MLDataDevicesSparseArraysExt 2734.6 ms ✓ HeterogeneousComputing 4410.9 ms ✓ NearestNeighbors 1439.3 ms ✓ DomainSets → DomainSetsRandomExt 3982.6 ms ✓ Interpolations 3148.2 ms ✓ Polynomials → PolynomialsChainRulesCoreExt 3574.7 ms ✓ SpecialFunctions → SpecialFunctionsChainRulesCoreExt 2351.3 ms ✓ HypergeometricFunctions 930.9 ms ✓ Measurements → MeasurementsSpecialFunctionsExt 1195.0 ms ✓ DiffRules 6458.0 ms ✓ DoubleFloats 5921.1 ms ✓ FFTW 1018.0 ms ✓ Roots → RootsChainRulesCoreExt 10234.9 ms ✓ ChainRules 3321.1 ms ✓ Clustering 5352.0 ms ✓ MeasureBase 2669.7 ms ✓ StatsFuns 6589.0 ms ✓ ForwardDiff 3424.4 ms ✓ Polynomials → PolynomialsFFTWExt 1660.8 ms ✓ MLDataDevices → MLDataDevicesChainRulesExt 2683.6 ms ✓ StatsFuns → StatsFunsChainRulesCoreExt 957.0 ms ✓ StatsFuns → StatsFunsInverseFunctionsExt 8885.6 ms ✓ Distributions 2120.5 ms ✓ ForwardDiff → ForwardDiffStaticArraysExt 1227.0 ms ✓ LogarithmicNumbers → LogarithmicNumbersForwardDiffExt 1559.8 ms ✓ DifferentiationInterface → DifferentiationInterfaceForwardDiffExt 1342.7 ms ✓ Roots → RootsForwardDiffExt 2375.7 ms ✓ Interpolations → InterpolationsForwardDiffExt 3436.2 ms ✓ Distributions → DistributionsTestExt 2974.1 ms ✓ Distributions → DistributionsDensityInterfaceExt 3031.6 ms ✓ Distributions → DistributionsChainRulesCoreExt 4160.0 ms ✓ HypothesisTests 2652.7 ms ✓ EmpiricalDistributions 2485.2 ms ✓ ForwardDiffPullbacks 3823.3 ms ✓ KernelDensity 7078.0 ms ✓ ValueShapes 8142.4 ms ✓ DistributionsAD 2924.0 ms ✓ DistributionsAD → DistributionsADForwardDiffExt 29991.7 ms ✓ BAT 218 dependencies successfully precompiled in 500 seconds. 38 already precompiled. 1 dependency had output during precompilation: ┌ MKL_jll │ Downloading artifact: IntelOpenMP │ Downloading artifact: oneTBB └ Precompilation completed after 508.21s ################################################################################ # Testing # Testing BAT Test Could not use exact versions of packages in manifest, re-resolving. Note: if you do not check your manifest file into source control, then you can probably ignore this message. However, if you do check your manifest file into source control, then you probably want to pass the `allow_reresolve = false` kwarg when calling the `Pkg.test` function. Installed DefineSingletons ─────────── v0.1.2 Installed Xorg_libpciaccess_jll ────── v0.18.1+0 Installed EnumX ────────────────────── v1.0.5 Installed HDF5_jll ─────────────────── v1.14.6+0 Installed InitialValues ────────────── v0.3.1 Installed PreallocationTools ───────── v0.4.34 Installed NLSolversBase ────────────── v7.10.0 Installed Jieko ────────────────────── v0.2.1 Installed Crayons ──────────────────── v4.1.1 Installed Optim ────────────────────── v1.13.2 Installed MCMCChains ───────────────── v6.0.7 Installed RecursiveArrayTools ──────── v3.39.0 Installed IterativeSolvers ─────────── v0.9.4 Installed RangeArrays ──────────────── v0.3.2 Installed NaturalSort ──────────────── v1.0.0 Installed libaec_jll ───────────────── v1.1.4+0 Installed AbstractTrees ────────────── v0.4.5 Installed SparseMatrixColorings ────── v0.4.23 Installed ExprTools ────────────────── v0.1.10 Installed Zygote ───────────────────── v0.7.10 Installed ConsoleProgressMonitor ───── v0.1.2 Installed Aqua ─────────────────────── v0.8.14 Installed ArrayInterface ───────────── v7.22.0 Installed MCMCDiagnosticTools ──────── v0.3.15 Installed LoggingExtras ────────────── v1.2.0 Installed LinearSolve ──────────────── v3.47.0 Installed OpenMPI_jll ──────────────── v5.0.9+0 Installed Hwloc_jll ────────────────── v2.12.2+0 Installed LeftChildRightSiblingTrees ─ v0.2.1 Installed TerminalLoggers ──────────── v0.1.7 Installed ConcreteStructs ──────────── v0.2.3 Installed NestedSamplers ───────────── v0.8.3 Installed ArrayLayouts ─────────────── v1.12.0 Installed SparseConnectivityTracer ─── v1.1.3 Installed SplittablesBase ──────────── v0.1.15 Installed Baselet ──────────────────── v0.1.1 Installed OptimizationBase ─────────── v4.0.2 Installed AdaptiveRejectionSampling ── v0.1.2 Installed AxisArrays ───────────────── v0.4.8 Installed ForwardDiff ──────────────── v0.10.39 Installed Transducers ──────────────── v0.4.80 Installed SimpleUnPack ─────────────── v1.1.0 Installed Moshi ────────────────────── v0.3.7 Installed MicrosoftMPI_jll ─────────── v10.1.4+3 Installed MPICH_jll ────────────────── v4.3.2+0 Installed FunctionWrappersWrappers ─── v0.1.3 Installed InplaceOps ───────────────── v0.3.0 Installed SciMLStructures ──────────── v1.7.0 Installed SciMLOperators ───────────── v1.11.0 Installed LogDensityProblemsAD ─────── v1.13.1 Installed StringManipulation ───────── v0.4.1 Installed Krylov ───────────────────── v0.10.2 Installed BangBang ─────────────────── v0.3.37 Installed FiniteDiff ───────────────── v2.29.0 Installed PrettyTables ─────────────── v2.4.0 Installed FastClosures ─────────────── v0.3.2 Installed OptimizationOptimJL ──────── v0.4.8 Installed AdvancedHMC ──────────────── v0.6.1 Installed SciMLBase ────────────────── v2.127.0 Installed StatisticalTraits ────────── v3.5.0 Installed IRTools ──────────────────── v0.4.15 Installed IterTools ────────────────── v1.10.0 Installed MicroCollections ─────────── v0.1.4 Installed MGVI ─────────────────────── v0.4.5 Installed RuntimeGeneratedFunctions ── v0.5.16 Installed ProgressLogging ──────────── v0.1.5 Installed LinearMaps ───────────────── v3.11.4 Installed SymbolicIndexingInterface ── v0.3.44 Installed ExproniconLite ───────────── v0.10.14 Installed ProgressMeter ────────────── v1.11.0 Installed LazyArrays ───────────────── v2.9.0 Installed BATTestCases ─────────────── v0.1.0 Installed LogDensityProblems ───────── v2.2.0 Installed XML2_jll ─────────────────── v2.13.9+0 Installed AbstractMCMC ─────────────── v4.4.2 Installed SciMLLogging ─────────────── v1.5.0 Installed Cuba ─────────────────────── v2.3.0 Installed ScientificTypesBase ──────── v3.0.0 Installed MPIPreferences ───────────── v0.1.11 Installed Libiconv_jll ─────────────── v1.18.0+0 Installed Cuba_jll ─────────────────── v4.2.2+1 Installed MPItrampoline_jll ────────── v5.5.4+0 Installed LineSearches ─────────────── v7.4.0 Installed MLJModelInterface ────────── v1.12.0 Installed HDF5 ─────────────────────── v0.17.2 Installing 8 artifacts Installed artifact Xorg_libpciaccess 24.8 KiB Installed artifact libaec 49.6 KiB Installed artifact Cuba 325.9 KiB Installed artifact Libiconv 1.9 MiB Installed artifact XML2 2.5 MiB Installed artifact Hwloc 3.5 MiB Installed artifact MPICH 3.3 MiB Installed artifact HDF5 5.7 MiB Updating `/tmp/jl_TTuEiX/Project.toml` ⌅ [80f14c24] + AbstractMCMC v4.4.2 ⌃ [0bf59076] + AdvancedHMC v0.6.1 [4c88cf16] + Aqua v0.8.14 [c0cd4b16] + BAT v4.0.4 [91d0e2c9] + BATTestCases v0.1.0 [8a292aeb] + Cuba v2.3.0 ⌅ [f6369f11] ↓ ForwardDiff v1.3.0 ⇒ v0.10.39 [f67ccb44] + HDF5 v0.17.2 [fdae7790] + MGVI v0.4.5 [41ceaf6f] + NestedSamplers v0.8.3 [429524aa] + Optim v1.13.2 [36348300] + OptimizationOptimJL v0.4.8 [5d786b92] + TerminalLoggers v0.1.7 [e88e6eb3] + Zygote v0.7.10 Updating `/tmp/jl_TTuEiX/Manifest.toml` [621f4979] + AbstractFFTs v1.5.0 ⌅ [80f14c24] + AbstractMCMC v4.4.2 [1520ce14] + AbstractTrees v0.4.5 ⌅ [c75e803d] + AdaptiveRejectionSampling v0.1.2 ⌃ [0bf59076] + AdvancedHMC v0.6.1 [4c88cf16] + Aqua v0.8.14 [4fba245c] + ArrayInterface v7.22.0 [4c555306] + ArrayLayouts v1.12.0 [13072b0f] + AxisAlgorithms v1.1.0 [39de3d68] + AxisArrays v0.4.8 [c0cd4b16] + BAT v4.0.4 [91d0e2c9] + BATTestCases v0.1.0 ⌅ [198e06fe] + BangBang v0.3.37 [9718e550] + Baselet v0.1.1 [aaaa29a8] + Clustering v0.15.8 [3da002f7] + ColorTypes v0.12.1 [5ae59095] + Colors v0.13.1 [b152e2b5] + CompositeTypes v0.1.4 [2569d6c7] + ConcreteStructs v0.2.3 [88cd18e8] + ConsoleProgressMonitor v0.1.2 [a8cc5b0e] + Crayons v4.1.1 [8a292aeb] + Cuba v2.3.0 [244e2a9f] + DefineSingletons v0.1.2 [8bb1440f] + DelimitedFiles v1.9.1 [b4f34e82] + Distances v0.10.12 [5b8099bc] + DomainSets v0.7.16 [497a8b3b] + DoubleFloats v1.5.0 [4e289a0a] + EnumX v1.0.5 [e2ba6199] + ExprTools v0.1.10 [55351af7] + ExproniconLite v0.10.14 [7a1cc6ca] + FFTW v1.10.0 [9aa1b823] + FastClosures v0.3.2 [6a86dc24] + FiniteDiff v2.29.0 [53c48c17] + FixedPointNumbers v0.8.5 ⌅ [f6369f11] ↓ ForwardDiff v1.3.0 ⇒ v0.10.39 [450a3b6d] + ForwardDiffPullbacks v0.2.7 [77dc65aa] + FunctionWrappersWrappers v0.1.3 [14197337] + GenericLinearAlgebra v0.3.19 [f67ccb44] + HDF5 v0.17.2 [7869d1d1] + IRTools v0.4.15 [22cec73e] + InitialValues v0.3.1 [505f98c9] + InplaceOps v0.3.0 [a98d9a8b] + Interpolations v0.16.2 [41ab1584] + InvertedIndices v1.3.1 [c8e1da08] + IterTools v1.10.0 [42fd0dbc] + IterativeSolvers v0.9.4 [ae98c720] + Jieko v0.2.1 [5ab0869b] + KernelDensity v0.6.10 [ba0b0d4f] + Krylov v0.10.2 [b964fa9f] + LaTeXStrings v1.4.0 [5078a376] + LazyArrays v2.9.0 [1d6d02ad] + LeftChildRightSiblingTrees v0.2.1 [d3d80556] + LineSearches v7.4.0 [7a12625a] + LinearMaps v3.11.4 [7ed4a6bd] + LinearSolve v3.47.0 [6fdf6af0] + LogDensityProblems v2.2.0 [996a588d] + LogDensityProblemsAD v1.13.1 [e6f89c97] + LoggingExtras v1.2.0 ⌅ [c7f686f2] + MCMCChains v6.0.7 [be115224] + MCMCDiagnosticTools v0.3.15 [fdae7790] + MGVI v0.4.5 [e80e1ace] + MLJModelInterface v1.12.0 [3da0fdf6] + MPIPreferences v0.1.11 ⌅ [128add7d] + MicroCollections v0.1.4 [2e0e35c7] + Moshi v0.3.7 [d41bc354] + NLSolversBase v7.10.0 [86f7a689] + NamedArrays v0.10.5 [c020b1a1] + NaturalSort v1.0.0 [b8a86587] + NearestNeighbors v0.4.23 [41ceaf6f] + NestedSamplers v0.8.3 [6fe1bfb0] + OffsetArrays v1.17.0 [762dc654] + OneTwoMany v0.1.2 [429524aa] + Optim v1.13.2 [bca83a33] + OptimizationBase v4.0.2 [36348300] + OptimizationOptimJL v0.4.8 [f27b6e38] + Polynomials v4.1.0 [85a6dd25] + PositiveFactorizations v0.2.4 [d236fae5] + PreallocationTools v0.4.34 ⌅ [08abe8d2] + PrettyTables v2.4.0 [33c8b6b6] + ProgressLogging v0.1.5 [92933f4c] + ProgressMeter v1.11.0 [be4d8f0f] + Quadmath v0.5.13 [b3c3ace0] + RangeArrays v0.3.2 [c84ed2f1] + Ratios v0.4.5 [3cdcf5f2] + RecipesBase v1.3.4 [731186ca] + RecursiveArrayTools v3.39.0 [7e49a35a] + RuntimeGeneratedFunctions v0.5.16 [0bca4576] + SciMLBase v2.127.0 [a6db7da4] + SciMLLogging v1.5.0 [c0aeaf25] + SciMLOperators v1.11.0 [53ae85a6] + SciMLStructures v1.7.0 [30f210dd] + ScientificTypesBase v3.0.0 [efcf1570] + Setfield v1.1.2 [ce78b400] + SimpleUnPack v1.1.0 [ed01d8cd] + Sobol v1.5.0 [9f842d2f] + SparseConnectivityTracer v1.1.3 [0a514795] + SparseMatrixColorings v0.4.23 [171d559e] + SplittablesBase v0.1.15 [64bff920] + StatisticalTraits v3.5.0 [892a3eda] + StringManipulation v0.4.1 ⌃ [2efcf032] + SymbolicIndexingInterface v0.3.44 [5d786b92] + TerminalLoggers v0.1.7 ⌃ [28d57a85] + Transducers v0.4.80 [efce3f68] + WoodburyMatrices v1.0.0 [e88e6eb3] + Zygote v0.7.10 [3bed1096] + Cuba_jll v4.2.2+1 [f5851436] + FFTW_jll v3.3.11+0 [0234f1f7] + HDF5_jll v1.14.6+0 [e33a78d0] + Hwloc_jll v2.12.2+0 [1d5cc7b8] + IntelOpenMP_jll v2025.2.0+0 [94ce4f54] + Libiconv_jll v1.18.0+0 [856f044c] + MKL_jll v2025.2.0+0 [7cb0a576] + MPICH_jll v4.3.2+0 [f1f71cc9] + MPItrampoline_jll v5.5.4+0 [9237b28f] + MicrosoftMPI_jll v10.1.4+3 [fe0851c0] + OpenMPI_jll v5.0.9+0 ⌅ [02c8fc9c] + XML2_jll v2.13.9+0 [a65dc6b1] + Xorg_libpciaccess_jll v0.18.1+0 [477f73a3] + libaec_jll v1.1.4+0 [1317d2d5] + oneTBB_jll v2022.0.0+1 [9fa8497b] + Future v1.11.0 [4af54fe1] + LazyArtifacts v1.11.0 [a63ad114] + Mmap v1.11.0 [3fa0cd96] + REPL v1.11.0 [1a1011a3] + SharedArrays v1.11.0 Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m` Test Successfully re-resolved Status `/tmp/jl_TTuEiX/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 v4.0.4 [91d0e2c9] BATTestCases v0.1.0 [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 v0.10.39 [8e6b2b91] FunctionChains v0.2.3 [f67ccb44] HDF5 v0.17.2 [2182be2a] HeterogeneousComputing v0.2.4 [09f84164] HypothesisTests v0.11.6 [8197267c] IntervalSets v0.7.12 [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 v1.13.2 [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 v0.11.3 [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_TTuEiX/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 ⌅ [c75e803d] AdaptiveRejectionSampling v0.1.2 ⌃ [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 v1.12.0 [65a8f2f4] ArraysOfArrays v0.6.6 [6e1301d5] AutoDiffOperators v0.3.0 [13072b0f] AxisAlgorithms v1.1.0 [39de3d68] AxisArrays v0.4.8 [c0cd4b16] BAT v4.0.4 [91d0e2c9] BATTestCases v0.1.0 ⌅ [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] CompositeTypes v0.1.4 [a33af91c] CompositionsBase v0.1.2 [2569d6c7] ConcreteStructs v0.2.3 [88cd18e8] ConsoleProgressMonitor v0.1.2 [187b0558] ConstructionBase v1.6.0 [a8cc5b0e] Crayons v4.1.1 [8a292aeb] Cuba v2.3.0 [9a962f9c] DataAPI v1.16.0 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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:3147  [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:2993  [9] include_string  @ ./loading.jl:3003 [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/yelYL/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_cJ5fMu" (ProcessExited(1)). in expression starting at /home/pkgeval/.julia/packages/BAT/yelYL/test/transforms/test_distribution_transform.jl:8 test_findmode OptimizationAlg: Error During Test at /home/pkgeval/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:26 Got exception outside of a @test MethodError: no method matching bat_findmode_impl(::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, ::OptimizationAlg{NelderMead{Optim.AffineSimplexer, Optim.AdaptiveParameters}, DoNotTransform, InitFromTarget}, ::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) The function `bat_findmode_impl` exists, but no method is defined for this combination of argument types. Closest candidates are: bat_findmode_impl(::Union{MeasureBase.AbstractMeasure, Distribution, 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}}}, !Matched::OptimAlg, ::BATContext) @ BATOptimExt ~/.julia/packages/BAT/yelYL/ext/BATOptimExt.jl:40 bat_findmode_impl(::Union{MeasureBase.AbstractMeasure, Distribution, 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}}}, !Matched::ModeAsDefined, ::BATContext) @ BAT ~/.julia/packages/BAT/yelYL/src/optimization/findmode_simple.jl:18 bat_findmode_impl(!Matched::Distribution, !Matched::ModeAsDefined, ::BATContext) @ BAT ~/.julia/packages/BAT/yelYL/src/optimization/findmode_simple.jl:22 ... Stacktrace: [1] bat_findmode(target::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{NelderMead{Optim.AffineSimplexer, Optim.AdaptiveParameters}, DoNotTransform, InitFromTarget}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/yelYL/src/algotypes/mode_estimator.jl:48 [2] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:30 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [4] (::var"#test_findmode#test_findmode##0"{var"#test_findmode#39#42"{@NamedTuple{x::Float64, c::Vector{Int64}, a::SubArray{Float64, 1, Vector{Float64}, Tuple{UnitRange{Int64}}, true}}, Vector{Float64}}})(posterior::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{NelderMead{Optim.AffineSimplexer, Optim.AdaptiveParameters}, DoNotTransform, InitFromTarget}, rtol::Float64, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}; inferred::Bool) @ Main ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:27 [5] kwcall(::@NamedTuple{inferred::Bool}, ::var"#test_findmode#test_findmode##0"{var"#test_findmode#39#42"{@NamedTuple{x::Float64, c::Vector{Int64}, a::SubArray{Float64, 1, Vector{Float64}, Tuple{UnitRange{Int64}}, true}}, Vector{Float64}}}, posterior::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{NelderMead{Optim.AffineSimplexer, Optim.AdaptiveParameters}, DoNotTransform, InitFromTarget}, rtol::Float64, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ Main ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:25 [6] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:11 [7] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [8] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:102 [inlined] [9] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [10] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:104 [inlined] [11] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [12] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [14] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [inlined] [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [16] top-level scope @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:21 [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [18] macro expansion @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:30 [inlined] [19] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [20] top-level scope @ none:6 [21] eval(m::Module, e::Any) @ Core ./boot.jl:489 [22] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [23] _start() @ Base ./client.jl:577 Optimization.jl - NelderMead: Error During Test at /home/pkgeval/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:101 Got exception outside of a @test UndefVarError: `Optimization` not defined in `Main` Suggestion: check for spelling errors or missing imports. Stacktrace: [1] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:11 [2] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [3] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:102 [inlined] [4] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [5] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:108 [inlined] [6] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [7] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [8] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [9] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [inlined] [10] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [11] top-level scope @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:21 [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [13] macro expansion @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:30 [inlined] [14] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [15] top-level scope @ none:6 [16] eval(m::Module, e::Any) @ Core ./boot.jl:489 [17] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [18] _start() @ Base ./client.jl:577 test_findmode OptimizationAlg: Error During Test at /home/pkgeval/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:26 Got exception outside of a @test MethodError: no method matching bat_findmode_impl(::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, ::OptimizationAlg{ParticleSwarm{Vector{Any}, Vector{Any}}, DoNotTransform, InitFromTarget}, ::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) The function `bat_findmode_impl` exists, but no method is defined for this combination of argument types. Closest candidates are: bat_findmode_impl(::Union{MeasureBase.AbstractMeasure, Distribution, 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}}}, !Matched::OptimAlg, ::BATContext) @ BATOptimExt ~/.julia/packages/BAT/yelYL/ext/BATOptimExt.jl:40 bat_findmode_impl(::Union{MeasureBase.AbstractMeasure, Distribution, 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}}}, !Matched::ModeAsDefined, ::BATContext) @ BAT ~/.julia/packages/BAT/yelYL/src/optimization/findmode_simple.jl:18 bat_findmode_impl(!Matched::Distribution, !Matched::ModeAsDefined, ::BATContext) @ BAT ~/.julia/packages/BAT/yelYL/src/optimization/findmode_simple.jl:22 ... Stacktrace: [1] bat_findmode(target::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{ParticleSwarm{Vector{Any}, Vector{Any}}, DoNotTransform, InitFromTarget}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/yelYL/src/algotypes/mode_estimator.jl:48 [2] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:30 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [4] (::var"#test_findmode#test_findmode##0"{var"#test_findmode#39#42"{@NamedTuple{x::Float64, c::Vector{Int64}, a::SubArray{Float64, 1, Vector{Float64}, Tuple{UnitRange{Int64}}, true}}, Vector{Float64}}})(posterior::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{ParticleSwarm{Vector{Any}, Vector{Any}}, DoNotTransform, InitFromTarget}, rtol::Float64, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}; inferred::Bool) @ Main ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:27 [5] kwcall(::@NamedTuple{inferred::Bool}, ::var"#test_findmode#test_findmode##0"{var"#test_findmode#39#42"{@NamedTuple{x::Float64, c::Vector{Int64}, a::SubArray{Float64, 1, Vector{Float64}, Tuple{UnitRange{Int64}}, true}}, Vector{Float64}}}, posterior::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{ParticleSwarm{Vector{Any}, Vector{Any}}, DoNotTransform, InitFromTarget}, rtol::Float64, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ Main ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:25 [6] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:11 [7] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [8] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:112 [inlined] [9] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [10] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:116 [inlined] [11] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [12] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [14] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [inlined] [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [16] top-level scope @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:21 [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [18] macro expansion @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:30 [inlined] [19] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [20] top-level scope @ none:6 [21] eval(m::Module, e::Any) @ Core ./boot.jl:489 [22] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [23] _start() @ Base ./client.jl:577 Optimization.jl with custom options: Error During Test at /home/pkgeval/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:111 Got exception outside of a @test MethodError: no method matching bat_findmode_impl(::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, ::OptimizationAlg{ParticleSwarm{Vector{Any}, Vector{Any}}, DoNotTransform, InitFromTarget}, ::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) The function `bat_findmode_impl` exists, but no method is defined for this combination of argument types. Closest candidates are: bat_findmode_impl(::Union{MeasureBase.AbstractMeasure, Distribution, 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}}}, !Matched::OptimAlg, ::BATContext) @ BATOptimExt ~/.julia/packages/BAT/yelYL/ext/BATOptimExt.jl:40 bat_findmode_impl(::Union{MeasureBase.AbstractMeasure, Distribution, 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}}}, !Matched::ModeAsDefined, ::BATContext) @ BAT ~/.julia/packages/BAT/yelYL/src/optimization/findmode_simple.jl:18 bat_findmode_impl(!Matched::Distribution, !Matched::ModeAsDefined, ::BATContext) @ BAT ~/.julia/packages/BAT/yelYL/src/optimization/findmode_simple.jl:22 ... Stacktrace: [1] bat_findmode(target::PosteriorMeasure{DensityInterface.LogFuncDensity{var"#40#41"}, BAT.BATDistMeasure{NamedTupleDist{(:x, :c, :a), Tuple{Normal{Float64}, ConstValueDist{Multivariate, Vector{Int64}}, FullNormal}, Tuple{ValueAccessor{ScalarShape{Real}}, ValueAccessor{ConstValueShape{Vector{Int64}, true}}, ValueAccessor{ArrayShape{Real, 1}}}, NamedTuple}}}, algorithm::OptimizationAlg{ParticleSwarm{Vector{Any}, Vector{Any}}, DoNotTransform, InitFromTarget}, context::BATContext{Float64, Philox4x{UInt64, 10}, HeterogeneousComputing.CPUnit, NoAutoDiff}) @ BAT ~/.julia/packages/BAT/yelYL/src/algotypes/mode_estimator.jl:48 [2] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:11 [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [4] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:112 [inlined] [5] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [6] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_mode_estimators.jl:121 [inlined] [7] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [8] top-level scope @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [9] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [10] macro expansion @ ~/.julia/packages/BAT/yelYL/test/optimization/test_optimization.jl:6 [inlined] [11] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [12] top-level scope @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:21 [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:1961 [inlined] [14] macro expansion @ ~/.julia/packages/BAT/yelYL/test/runtests.jl:30 [inlined] [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:310 [16] top-level scope @ none:6 [17] eval(m::Module, e::Any) @ Core ./boot.jl:489 [18] exec_options(opts::Base.JLOptions) @ Base ./client.jl:310 [19] _start() @ Base ./client.jl:577 mcmc_sample: Error During Test at /home/pkgeval/.julia/packages/BAT/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/bat_sample.jl:14 [9] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:262 [9] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/multi_cycle_burnin.jl:56 [13] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/algotypes/sampling_algorithm.jl:57 [8] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/bat_sample.jl:14 [9] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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:3147  [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:2993  [9] include_string  @ ./loading.jl:3003 [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/yelYL/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_kHrS3k" (ProcessExited(1)). in expression starting at /home/pkgeval/.julia/packages/BAT/yelYL/test/samplers/mcmc/test_hmc.jl:8 hdf5: Error During Test at /home/pkgeval/.julia/packages/BAT/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/algotypes/sampling_algorithm.jl:68 [9] (::var"#55#56")(tmp_datadir::String) @ Main ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/algotypes/sampling_algorithm.jl:68 [9] macro expansion @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/test/integration/test_brigde_sampling_integration.jl:14 [13] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_tuning/mcmc_ram_tuner.jl:102 [5] mcmc_tune_post_step!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/src/samplers/mcmc/mcmc_algorithm.jl:280 [8] mcmc_iterate!! @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/src/algotypes/sampling_algorithm.jl:68 [9] macro expansion @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/test/integration/test_brigde_sampling_integration.jl:14 [13] top-level scope @ ~/.julia/packages/BAT/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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/yelYL/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 | 544 14 558 24m55.8s Aqua tests | 9 9 2m38.3s utils | 15 15 2.3s rngs | 23 23 4.1s distributions | 289 289 35.0s parameters | 51 51 1m16.0s transforms | 1 1 27.6s densities | 7 7 1.7s initvals | 14 14 9.7s statistics | 72 72 48.8s optimization | 18 4 22 4m47.9s mode_estimators | 18 4 22 42.6s ModeAsDefined | 5 5 13.1s MaxDensitySearch | 3 3 1.2s Optim.jl - NelderMead | 2 2 2.4s Optim.jl with custom options | 4 4 0.2s Optim.jl - LBFGS | 4 4 13.7s Optimization.jl - NelderMead | 2 2 7.1s test_findmode OptimizationAlg | 1 1 5.7s Optimization.jl with custom options | 2 2 0.9s test_findmode OptimizationAlg | 1 1 0.4s samplers | 39 6 45 9m58.7s bat_sample | 20 20 9.9s mcmc | 3 6 9 2m41.4s proposaldist | 0 0.0s mcmc_sample | 1 1 55.6s RandomWalk | 3 4 7 1m22.0s MCMC iteration | 1 1 11.3s MCMC tuning and burn-in | 1 1 2 36.2s bat_sample | 1 1 7.1s MCMC sampling in transformed space | 1 1 27.3s importance_samplers | 4 4 8.0s nested_sampling | 4 4 2m37.6s MGVI | 8 8 1m15.5s io | 1 1 1m32.5s hdf5 | 1 1 24.0s hdf5 | 0 0.0s plotting | 0 0.0s integration | 7 2 9 1m00.9s bridge_sampling_integration | 2 2 35.8s funnel distribution | 1 1 17.1s MvNormal | 1 1 17.1s cuba_integration | 7 7 3.6s RNG of the outermost testset: Xoshiro(0x3bc5b84f826518a0, 0x8bd9e410bac2cbe5, 0xd19c22e099ce9ee5, 0xf2e59915eadd241a, 0x9ba7427e1fc2937e) ERROR: LoadError: Some tests did not pass: 544 passed, 0 failed, 14 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/BAT/yelYL/test/runtests.jl:20 Testing failed after 1585.85s 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 2171.44s: package fails to precompile