Package evaluation of BifurcationKit on Julia 1.13.0-DEV.912 (a2457e6ed7*) started at 2025-07-27T20:33:34.907 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 9.91s ################################################################################ # Installation # Installing BifurcationKit... Resolving package versions... Updating `~/.julia/environments/v1.13/Project.toml` [0f109fa4] + BifurcationKit v0.5.0 Updating `~/.julia/environments/v1.13/Manifest.toml` [47edcb42] + ADTypes v1.15.0 [7d9f7c33] + Accessors v0.1.42 [79e6a3ab] + Adapt v4.3.0 [ec485272] + ArnoldiMethod v0.4.0 ⌅ [7d9fca2a] + Arpack v0.5.3 [4fba245c] + ArrayInterface v7.19.0 [4c555306] + ArrayLayouts v1.11.2 [0f109fa4] + BifurcationKit v0.5.0 [8e7c35d0] + BlockArrays v1.7.0 [38540f10] + CommonSolve v0.2.4 [bbf7d656] + CommonSubexpressions v0.3.1 [34da2185] + Compat v4.17.0 [a33af91c] + CompositionsBase v0.1.2 [187b0558] + ConstructionBase v1.6.0 [a8cc5b0e] + Crayons v4.1.1 [9a962f9c] + DataAPI v1.16.0 [864edb3b] + DataStructures v0.18.22 [e2d170a0] + DataValueInterfaces v1.0.0 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [ffbed154] + DocStringExtensions v0.9.5 [4e289a0a] + EnumX v1.0.5 [e2ba6199] + ExprTools v0.1.10 [55351af7] + ExproniconLite v0.10.14 [442a2c76] + FastGaussQuadrature v1.0.2 [1a297f60] + FillArrays v1.13.0 [f6369f11] + ForwardDiff v1.0.1 [069b7b12] + FunctionWrappers v1.1.3 [77dc65aa] + FunctionWrappersWrappers v0.1.3 [46192b85] + GPUArraysCore v0.2.0 [3587e190] + InverseFunctions v0.1.17 [92d709cd] + IrrationalConstants v0.2.4 [42fd0dbc] + IterativeSolvers v0.9.4 [82899510] + IteratorInterfaceExtensions v1.0.0 [692b3bcd] + JLLWrappers v1.7.1 [ae98c720] + Jieko v0.2.1 [ba0b0d4f] + Krylov v0.10.1 [0b1a1467] + KrylovKit v0.9.5 [b964fa9f] + LaTeXStrings v1.4.0 [7a12625a] + LinearMaps v3.11.4 [2ab3a3ac] + LogExpFunctions v0.3.29 [1914dd2f] + MacroTools v0.5.16 [2e0e35c7] + Moshi v0.3.7 [77ba4419] + NaNMath v1.1.3 [bac558e1] + OrderedCollections v1.8.1 [65ce6f38] + PackageExtensionCompat v1.0.2 [d96e819e] + Parameters v0.12.3 [d236fae5] + PreallocationTools v0.4.29 [aea7be01] + PrecompileTools v1.3.2 [21216c6a] + Preferences v1.4.3 [08abe8d2] + PrettyTables v2.4.0 [3cdcf5f2] + RecipesBase v1.3.4 [731186ca] + RecursiveArrayTools v3.35.0 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.1 [7e49a35a] + RuntimeGeneratedFunctions v0.5.15 [0bca4576] + SciMLBase v2.104.0 [c0aeaf25] + SciMLOperators v1.4.0 [53ae85a6] + SciMLStructures v1.7.0 [276daf66] + SpecialFunctions v2.5.1 [90137ffa] + StaticArrays v1.9.14 [1e83bf80] + StaticArraysCore v1.4.3 [10745b16] + Statistics v1.11.1 [892a3eda] + StringManipulation v0.4.1 [09ab397b] + StructArrays v0.7.1 [2efcf032] + SymbolicIndexingInterface v0.3.42 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.1 [3a884ed6] + UnPack v1.0.2 [409d34a3] + VectorInterface v0.5.0 ⌅ [68821587] + Arpack_jll v3.5.1+1 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [0dad84c5] + ArgTools v1.1.2 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [8ba89e20] + Distributed v1.11.0 [f43a241f] + Downloads v1.7.0 [7b1f6079] + FileWatching v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.12.0 [b27032c2] + LibCURL v0.6.4 [76f85450] + LibGit2 v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [56ddb016] + Logging v1.11.0 [d6f4376e] + Markdown v1.11.0 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.13.0 [de0858da] + Printf v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v0.7.0 [9e88b42a] + Serialization v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.11.0 [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [deac9b47] + LibCURL_jll v8.15.0+0 [e37daf67] + LibGit2_jll v1.9.1+0 [29816b5a] + LibSSH2_jll v1.11.3+1 [14a3606d] + MozillaCACerts_jll v2025.7.15 [4536629a] + OpenBLAS_jll v0.3.29+0 [05823500] + OpenLibm_jll v0.8.5+0 [458c3c95] + OpenSSL_jll v3.5.1+0 [efcefdf7] + PCRE2_jll v10.45.0+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [83775a58] + Zlib_jll v1.3.1+2 [8e850b90] + libblastrampoline_jll v5.13.1+0 [8e850ede] + nghttp2_jll v1.65.0+0 [3f19e933] + p7zip_jll v17.5.0+2 Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. To see why use `status --outdated -m` Installation completed after 4.79s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... ERROR: LoadError: The following 1 direct dependency failed to precompile: SciMLSensitivity Failed to precompile SciMLSensitivity [1ed8b502-d754-442c-8d5d-10ac956f44a1] to "/home/pkgeval/.julia/compiled/v1.13/SciMLSensitivity/jl_NPZxoL" (ProcessExited(1)). ERROR: LoadError: FieldError: type Core.TypeName has no field `mt`, available fields: `name`, `module`, `singletonname`, `names`, `atomicfields`, `constfields`, `wrapper`, `Typeofwrapper`, `cache`, `linearcache`, `partial`, `hash`, `max_args`, `n_uninitialized`, `flags`, `cache_entry_count`, `max_methods`, `constprop_heuristic` Stacktrace: [1] getproperty(x::Core.TypeName, f::Symbol) @ Base ./Base_compiler.jl:57 [2] top-level scope @ ~/.julia/packages/Enzyme/4HcV9/src/rules/jitrules.jl:1773 [3] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [4] top-level scope @ ~/.julia/packages/Enzyme/4HcV9/src/rules/llvmrules.jl:120 [5] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [6] top-level scope @ ~/.julia/packages/Enzyme/4HcV9/src/compiler.jl:1151 [7] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [8] top-level scope @ ~/.julia/packages/Enzyme/4HcV9/src/Enzyme.jl:139 [9] include(mod::Module, _path::String) @ Base ./Base.jl:311 [10] 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::String) @ Base ./loading.jl:3002 [11] top-level scope @ stdin:5 [12] eval(m::Module, e::Any) @ Core ./boot.jl:489 [13] include_string(mapexpr::typeof(identity), mod::Module, code::String, filename::String) @ Base ./loading.jl:2848 [14] include_string @ ./loading.jl:2858 [inlined] [15] exec_options(opts::Base.JLOptions) @ Base ./client.jl:318 [16] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/Enzyme/4HcV9/src/rules/jitrules.jl:1773 in expression starting at /home/pkgeval/.julia/packages/Enzyme/4HcV9/src/rules/llvmrules.jl:120 in expression starting at /home/pkgeval/.julia/packages/Enzyme/4HcV9/src/compiler.jl:1 in expression starting at /home/pkgeval/.julia/packages/Enzyme/4HcV9/src/Enzyme.jl:1 in expression starting at stdin:5 ERROR: LoadError: Failed to precompile Enzyme [7da242da-08ed-463a-9acd-ee780be4f1d9] to "/home/pkgeval/.julia/compiled/v1.13/Enzyme/jl_1eIH1I" (ProcessExited(1)). Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] compilecache(pkg::Base.PkgId, path::String, internal_stderr::IO, internal_stdout::IO, keep_loaded_modules::Bool; flags::Cmd, cacheflags::Base.CacheFlags, reasons::Dict{String, Int64}, loadable_exts::Nothing) @ Base ./loading.jl:3289 [3] (::Base.var"#__require_prelocked##0#__require_prelocked##1"{Base.PkgId})() @ Base ./loading.jl:2654 [4] mkpidlock(f::Base.var"#__require_prelocked##0#__require_prelocked##1"{Base.PkgId}, at::String, pid::Int32; kwopts::@Kwargs{stale_age::Int64, wait::Bool}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.13/FileWatching/src/pidfile.jl:94 [5] #mkpidlock#7 @ /opt/julia/share/julia/stdlib/v1.13/FileWatching/src/pidfile.jl:89 [inlined] [6] trymkpidlock(::Function, ::Vararg{Any}; kwargs::@Kwargs{stale_age::Int64}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.13/FileWatching/src/pidfile.jl:115 [7] #invokelatest_gr#235 @ ./reflection.jl:1333 [inlined] [8] invokelatest_gr @ ./reflection.jl:1325 [inlined] [9] maybe_cachefile_lock(f::Base.var"#__require_prelocked##0#__require_prelocked##1"{Base.PkgId}, pkg::Base.PkgId, srcpath::String; stale_age::Int64) @ Base ./loading.jl:3860 [10] maybe_cachefile_lock @ ./loading.jl:3857 [inlined] [11] __require_prelocked(pkg::Base.PkgId, env::String) @ Base ./loading.jl:2640 [12] _require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:2468 [13] macro expansion @ ./loading.jl:2396 [inlined] [14] macro expansion @ ./lock.jl:376 [inlined] [15] __require(into::Module, mod::Symbol) @ Base ./loading.jl:2360 [16] require @ ./loading.jl:2336 [inlined] [17] eval_import_path @ ./module.jl:36 [inlined] [18] eval_import_path_all(at::Module, path::Expr, keyword::String) @ Base ./module.jl:60 [19] _eval_import(::Bool, ::Module, ::Expr, ::Expr, ::Vararg{Expr}) @ Base ./module.jl:101 [20] top-level scope @ ~/.julia/packages/SciMLSensitivity/esFDj/src/SciMLSensitivity.jl:46 [21] include(mod::Module, _path::String) @ Base ./Base.jl:311 [22] 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:3002 [23] top-level scope @ stdin:5 [24] eval(m::Module, e::Any) @ Core ./boot.jl:489 [25] include_string(mapexpr::typeof(identity), mod::Module, code::String, filename::String) @ Base ./loading.jl:2848 [26] include_string @ ./loading.jl:2858 [inlined] [27] exec_options(opts::Base.JLOptions) @ Base ./client.jl:318 [28] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/SciMLSensitivity/esFDj/src/SciMLSensitivity.jl:1 in expression starting at stdin: in expression starting at /PkgEval.jl/scripts/precompile.jl:37 Precompilation failed after 843.54s ################################################################################ # Testing # Testing BifurcationKit Status `/tmp/jl_yXGX94/Project.toml` ⌃ [c29ec348] AbstractDifferentiation v0.4.4 [7d9f7c33] Accessors v0.1.42 [ec485272] ArnoldiMethod v0.4.0 ⌅ [7d9fca2a] Arpack v0.5.3 [0f109fa4] BifurcationKit v0.5.0 [8e7c35d0] BlockArrays v1.7.0 [13f3f980] CairoMakie v0.15.4 [b0b7db55] ComponentArrays v0.15.29 [864edb3b] DataStructures v0.18.22 [ffbed154] DocStringExtensions v0.9.5 [442a2c76] FastGaussQuadrature v1.0.2 [f6369f11] ForwardDiff v1.0.1 [42fd0dbc] IterativeSolvers v0.9.4 [ba0b0d4f] Krylov v0.10.1 [0b1a1467] KrylovKit v0.9.5 [7a12625a] LinearMaps v3.11.4 [1dea7af3] OrdinaryDiffEq v6.101.0 [d96e819e] Parameters v0.12.3 [91a5bcdd] Plots v1.40.17 [d236fae5] PreallocationTools v0.4.29 [731186ca] RecursiveArrayTools v3.35.0 [189a3867] Reexport v1.2.2 [0bca4576] SciMLBase v2.104.0 [1ed8b502] SciMLSensitivity v7.88.0 [09ab397b] StructArrays v0.7.1 [e88e6eb3] Zygote v0.7.10 [ade2ca70] Dates v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [de0858da] Printf v1.11.0 [9a3f8284] Random v1.11.0 [2f01184e] SparseArrays v1.13.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_yXGX94/Manifest.toml` [47edcb42] ADTypes v1.15.0 ⌃ [c29ec348] AbstractDifferentiation v0.4.4 [621f4979] AbstractFFTs v1.5.0 [1520ce14] AbstractTrees v0.4.5 [7d9f7c33] Accessors v0.1.42 [79e6a3ab] Adapt v4.3.0 [35492f91] AdaptivePredicates v1.2.0 [66dad0bd] AliasTables v1.1.3 [27a7e980] Animations v0.4.2 [ec485272] ArnoldiMethod v0.4.0 ⌅ [7d9fca2a] Arpack v0.5.3 [4fba245c] ArrayInterface v7.19.0 [4c555306] ArrayLayouts v1.11.2 [a9b6321e] Atomix v1.1.1 [67c07d97] Automa v1.1.0 [13072b0f] AxisAlgorithms v1.1.0 [39de3d68] AxisArrays v0.4.7 [18cc8868] BaseDirs v1.3.2 [0f109fa4] BifurcationKit v0.5.0 [d1d4a3ce] BitFlags v0.1.9 [62783981] BitTwiddlingConvenienceFunctions v0.1.6 [8e7c35d0] BlockArrays v1.7.0 [70df07ce] BracketingNonlinearSolve v1.3.0 [fa961155] CEnum v0.5.0 [2a0fbf3d] CPUSummary v0.2.6 [96374032] CRlibm v1.0.2 [159f3aea] Cairo v1.1.1 [13f3f980] CairoMakie v0.15.4 [7057c7e9] Cassette v0.3.14 [082447d4] ChainRules v1.72.5 [d360d2e6] ChainRulesCore v1.25.2 [fb6a15b2] CloseOpenIntervals v0.1.13 [944b1d66] CodecZlib v0.7.8 [a2cac450] ColorBrewer v0.4.1 [35d6a980] ColorSchemes v3.30.0 [3da002f7] ColorTypes v0.12.1 [c3611d14] ColorVectorSpace v0.11.0 [5ae59095] Colors v0.13.1 [38540f10] CommonSolve v0.2.4 [bbf7d656] CommonSubexpressions v0.3.1 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.17.0 [b0b7db55] ComponentArrays v0.15.29 [a33af91c] CompositionsBase v0.1.2 [95dc2771] ComputePipeline v0.1.3 [2569d6c7] ConcreteStructs v0.2.3 [f0e56b4a] ConcurrentUtilities v2.5.0 [187b0558] ConstructionBase v1.6.0 [d38c429a] Contour v0.6.3 [adafc99b] CpuId v0.3.1 [a8cc5b0e] Crayons v4.1.1 [9a962f9c] DataAPI v1.16.0 [864edb3b] DataStructures v0.18.22 [e2d170a0] DataValueInterfaces v1.0.0 [927a84f5] DelaunayTriangulation v1.6.4 [8bb1440f] DelimitedFiles v1.9.1 [2b5f629d] DiffEqBase v6.179.0 [459566f4] DiffEqCallbacks v4.8.0 [77a26b50] DiffEqNoiseProcess v5.24.1 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [a0c0ee7d] DifferentiationInterface v0.7.3 [31c24e10] Distributions v0.25.120 [ffbed154] DocStringExtensions v0.9.5 [4e289a0a] EnumX v1.0.5 [7da242da] Enzyme v0.13.63 [f151be2c] EnzymeCore v0.8.12 [429591f6] ExactPredicates v2.2.8 [460bff9d] ExceptionUnwrapping v0.1.11 [d4d017d3] ExponentialUtilities v1.27.0 [e2ba6199] ExprTools v0.1.10 [55351af7] ExproniconLite v0.10.14 [411431e0] Extents v0.1.6 [c87230d0] FFMPEG v0.4.4 [7a1cc6ca] FFTW v1.9.0 [7034ab61] FastBroadcast v0.3.5 [9aa1b823] FastClosures v0.3.2 [442a2c76] FastGaussQuadrature v1.0.2 [a4df4552] FastPower v1.1.3 [5789e2e9] FileIO v1.17.0 ⌅ [8fc22ac5] FilePaths v0.8.3 [48062228] FilePathsBase v0.9.24 [1a297f60] FillArrays v1.13.0 [6a86dc24] FiniteDiff v2.27.0 [53c48c17] FixedPointNumbers v0.8.5 [1fa38f19] Format v1.3.7 [f6369f11] ForwardDiff v1.0.1 [b38be410] FreeType v4.1.1 [663a7486] FreeTypeAbstraction v0.10.8 [f62d2435] FunctionProperties v0.1.2 [069b7b12] FunctionWrappers v1.1.3 [77dc65aa] FunctionWrappersWrappers v0.1.3 [d9f16b24] Functors v0.5.2 [46192b85] GPUArraysCore v0.2.0 [61eb1bfa] GPUCompiler v1.6.1 [28b8d3ca] GR v0.73.17 [c145ed77] GenericSchur v0.5.5 [5c1252a2] GeometryBasics v0.5.10 [a2bd30eb] Graphics v1.1.3 [3955a311] GridLayoutBase v0.11.1 [42e2da0e] Grisu v1.0.2 [cd3eb016] HTTP v1.10.17 [076d061b] HashArrayMappedTries v0.2.0 [34004b35] HypergeometricFunctions v0.3.28 [7869d1d1] IRTools v0.4.15 [615f187c] IfElse v0.1.1 [2803e5a7] ImageAxes v0.6.12 [c817782e] ImageBase v0.1.7 [a09fc81d] ImageCore v0.10.5 [82e4d734] ImageIO v0.6.9 [bc367c6b] ImageMetadata v0.9.10 [9b13fd28] IndirectArrays v1.0.0 [d25df0c9] Inflate v0.1.5 ⌅ [a98d9a8b] Interpolations v0.15.1 ⌅ [d1acc4aa] IntervalArithmetic v0.22.36 [8197267c] IntervalSets v0.7.11 [3587e190] InverseFunctions v0.1.17 [92d709cd] IrrationalConstants v0.2.4 [f1662d9f] Isoband v0.1.1 [c8e1da08] IterTools v1.10.0 [42fd0dbc] IterativeSolvers v0.9.4 [82899510] IteratorInterfaceExtensions v1.0.0 [1019f520] JLFzf v0.1.11 [692b3bcd] JLLWrappers v1.7.1 [682c06a0] 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Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... --> There are 1 threads Problem wrap of ┌─ Bifurcation Problem with uType Vector{Float64} ├─ Inplace: false ├─ Dimension: 2 ├─ Symmetric: false └─ Parameter: p1Problem wrap for curve of PD of periodic orbits. Based on the formulation: ┌─ Bifurcation Problem with uType Vector{Float64} ├─ Inplace: false ├─ Dimension: 2 ├─ Symmetric: false └─ Parameter: p10.7820476687006569 0.03593780213317488 │ 1 │ │ 1 │ GMRES: system of size 100 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 6.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 2 9.2e-01 3.0e-01 0.00s 1 4 6.9e-02 2.8e-01 0.00s 1 6 4.7e-03 2.6e-01 0.00s 1 8 3.3e-04 2.8e-01 0.00s 1 10 2.3e-05 2.8e-01 0.00s 1 12 1.8e-06 2.6e-01 0.00s 1 14 9.6e-08 2.2e-01 0.00s 1 16 6.9e-09 2.6e-01 0.00s Linear Solvers: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 Got exception outside of a @test LoadError: MethodError: no method matching iterate(::BorderedArray{Vector{Float64}, Float64}) The function `iterate` exists, but no method is defined for this combination of argument types. Closest candidates are: iterate(!Matched::Base.MethodSpecializations) @ Base runtime_internals.jl:1851 iterate(!Matched::Base.MethodSpecializations, !Matched::Nothing) @ Base runtime_internals.jl:1857 iterate(!Matched::Base.MethodSpecializations, !Matched::Int64) @ Base runtime_internals.jl:1858 ... Stacktrace: [1] isempty(itr::BorderedArray{Vector{Float64}, Float64}) @ Base ./essentials.jl:1122 [2] norm(itr::BorderedArray{Vector{Float64}, Float64}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/generic.jl:727 [3] linsolve(f::BifurcationKit.MatrixFreeBLSmap{Matrix{Float64}, Vector{Float64}, Vector{Float64}, Float64, Float64, typeof(dot)}, b::BorderedArray{Vector{Float64}, Float64}, x₀::BorderedArray{Vector{Float64}, Float64}, a₀::Int64, a₁::Int64; kwargs::@Kwargs{rtol::Float64, verbosity::Int64, krylovdim::Int64, maxiter::Int64, atol::Float64, issymmetric::Bool, ishermitian::Bool, isposdef::Bool}) @ KrylovKit ~/.julia/packages/KrylovKit/jC5gU/src/linsolve/linsolve.jl:116 [4] linsolve(f::BifurcationKit.MatrixFreeBLSmap{Matrix{Float64}, Vector{Float64}, Vector{Float64}, Float64, Float64, typeof(dot)}, b::BorderedArray{Vector{Float64}, Float64}, a₀::Int64, a₁::Int64; kwargs::@Kwargs{rtol::Float64, verbosity::Int64, krylovdim::Int64, maxiter::Int64, atol::Float64, issymmetric::Bool, ishermitian::Bool, isposdef::Bool}) @ KrylovKit ~/.julia/packages/KrylovKit/jC5gU/src/linsolve/linsolve.jl:107 [5] (::GMRESKrylovKit{Float64, Nothing})(J::BifurcationKit.MatrixFreeBLSmap{Matrix{Float64}, Vector{Float64}, Vector{Float64}, Float64, Float64, typeof(dot)}, rhs::BorderedArray{Vector{Float64}, Float64}; a₀::Int64, a₁::Int64, kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/LinearSolver.jl:254 [6] (::GMRESKrylovKit{Float64, Nothing})(J::BifurcationKit.MatrixFreeBLSmap{Matrix{Float64}, Vector{Float64}, Vector{Float64}, Float64, Float64, typeof(dot)}, rhs::BorderedArray{Vector{Float64}, Float64}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/LinearSolver.jl:252 [7] (::MatrixFreeBLS{GMRESKrylovKit{Float64, Nothing}})(J::Matrix{Float64}, dR::Vector{Float64}, dzu::Vector{Float64}, dzp::Float64, R::Vector{Float64}, n::Float64, ξu::Int64, ξp::Int64; shift::Float64, dotp::Function, applyξu!::Nothing) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl:414 [8] MatrixFreeBLS @ ~/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl:403 [inlined] [9] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/test_linear.jl:189 [10] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [11] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [13] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:9 [inlined] [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [15] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:11 [inlined] [16] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [17] top-level scope @ none:6 [18] eval(m::Module, e::Any) @ Core ./boot.jl:489 [19] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [20] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/test_linear.jl:158 [ Info: Entry in test-record-from-solution.jl WARNING: Method definition f(Any, Any) in module Main at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/test-record-from-solution.jl:5 overwritten at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/test_results.jl:5. ┌─ Deflation operator with 1 root(s) ├─ eltype = Float64 ├─ power = 2 ├─ α = 1.0 ├─ dist = dot └─ autodiff = false ┌─ Deflation operator with 1 root(s) ├─ eltype = Float32 ├─ power = 2 ├─ α = 1.0 ├─ dist = dot └─ autodiff = false ┌─ Deflation operator with 1 root(s) ├─ eltype = Float16 ├─ power = 2 ├─ α = 1.0 ├─ dist = dot └─ autodiff = false ┌─ Deflated Problem with uType Vector{Float64} ├─ Symmetric: false ├─ jacobian: nothing ├─ Parameter p └─ deflation operator: ┌─ Deflation operator with 1 root(s) ├─ eltype = Float64 ├─ power = 2 ├─ α = 1.0 ├─ dist = dot └─ autodiff = false WARNING: Method definition F4def(Any, Any) in module Main at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/test_newton.jl:64 overwritten at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/test_newton.jl:155. Precompiling packages... 8994.4 ms ✓ RecipesPipeline 103850.8 ms ✓ Plots 19428.4 ms ✓ Plots → UnitfulExt 3 dependencies successfully precompiled in 134 seconds. 177 already precompiled. Precompiling packages... 1892.2 ms ✓ Qt6ShaderTools_jll 1992.2 ms ✓ Qt6Declarative_jll 1967.4 ms ✓ Qt6Wayland_jll 26703.6 ms ✓ BifurcationKit → PlotsExt 4 dependencies successfully precompiled in 36 seconds. 271 already precompiled. | 1 │ 1.0000e+00 │ ( 1, 1) | │ 1 │ │ ( 1, 1) │ 6.718377 seconds (6.08 M allocations: 333.498 MiB, 1.77% gc time, 99.98% compilation time) ┌ Error: Unrecognized keyword arguments found. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:55 Unrecognized keyword arguments: (:essai,) 6.480166 seconds (2.09 M allocations: 115.977 MiB, 1.68% gc time, 99.98% compilation time) ┌─ Bifurcation Problem with uType Vector{Float64} ├─ Inplace: false ├─ Dimension: 1 ├─ Symmetric: false └─ Parameter: p 5.502454 seconds (2.11 M allocations: 117.028 MiB, 99.98% compilation time) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ────────────────── AutoSwitch ────────────────── ━━━━━━━━━━━━━━━━━━ INITIAL GUESS ━━━━━━━━━━━━━━━━━━ ──▶ convergence of initial guess = OK ──▶ parameter = -1.5, initial step ━━━━━━━━━━━━━━━━━━ INITIAL TANGENT ━━━━━━━━━━━━━━━━━━ ──▶ convergence of the initial guess = OK ──▶ parameter = -1.4999333333333333, initial step (bis) Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 0 Step size = 1.0000e-02 Parameter p = -1.5000e+00 ──▶ -1.4859e+00 [guess] Parameter p = -1.5000e+00 ──▶ -1.4859e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 1 Step size = 1.3200e-02 Parameter p = -1.4859e+00 ──▶ -1.4672e+00 [guess] Parameter p = -1.4859e+00 ──▶ -1.4672e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 2 Step size = 1.7424e-02 Parameter p = -1.4672e+00 ──▶ -1.4425e+00 [guess] Parameter p = -1.4672e+00 ──▶ -1.4425e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 3 Step size = 2.3000e-02 Parameter p = -1.4425e+00 ──▶ -1.4100e+00 [guess] Parameter p = -1.4425e+00 ──▶ -1.4100e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 4 Step size = 3.0360e-02 Parameter p = -1.4100e+00 ──▶ -1.3671e+00 [guess] Parameter p = -1.4100e+00 ──▶ -1.3671e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 5 Step size = 4.0075e-02 Parameter p = -1.3671e+00 ──▶ -1.3104e+00 [guess] Parameter p = -1.3671e+00 ──▶ -1.3104e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 6 Step size = 4.7288e-02 Parameter p = -1.3104e+00 ──▶ -1.2435e+00 [guess] Parameter p = -1.3104e+00 ──▶ -1.2435e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 7 Step size = 5.1000e-02 Parameter p = -1.2435e+00 ──▶ -1.1714e+00 [guess] Parameter p = -1.2435e+00 ──▶ -1.1714e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 8 Step size = 5.1000e-02 Parameter p = -1.1714e+00 ──▶ -1.0993e+00 [guess] Parameter p = -1.1714e+00 ──▶ -1.0993e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 9 Step size = 5.1000e-02 Parameter p = -1.0993e+00 ──▶ -1.0272e+00 [guess] Parameter p = -1.0993e+00 ──▶ -1.0272e+00 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 10 Step size = 5.1000e-02 Parameter p = -1.0272e+00 ──▶ -9.5505e-01 [guess] Parameter p = -1.0272e+00 ──▶ -9.5505e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 11 Step size = 5.1000e-02 Parameter p = -9.5505e-01 ──▶ -8.8293e-01 [guess] Parameter p = -9.5505e-01 ──▶ -8.8293e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 12 Step size = 5.1000e-02 Parameter p = -8.8293e-01 ──▶ -8.1081e-01 [guess] Parameter p = -8.8293e-01 ──▶ -8.1081e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 13 Step size = 5.1000e-02 Parameter p = -8.1081e-01 ──▶ -7.3870e-01 [guess] Parameter p = -8.1081e-01 ──▶ -7.3870e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 14 Step size = 5.1000e-02 Parameter p = -7.3870e-01 ──▶ -6.6658e-01 [guess] Parameter p = -7.3870e-01 ──▶ -6.6658e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 15 Step size = 5.1000e-02 Parameter p = -6.6658e-01 ──▶ -5.9448e-01 [guess] Parameter p = -6.6658e-01 ──▶ -5.9448e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 16 Step size = 5.1000e-02 Parameter p = -5.9448e-01 ──▶ -5.2238e-01 [guess] Parameter p = -5.9448e-01 ──▶ -5.2238e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 17 Step size = 5.1000e-02 Parameter p = -5.2238e-01 ──▶ -4.5030e-01 [guess] Parameter p = -5.2238e-01 ──▶ -4.5030e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 18 Step size = 5.1000e-02 Parameter p = -4.5030e-01 ──▶ -3.7827e-01 [guess] Parameter p = -4.5030e-01 ──▶ -3.7827e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 19 Step size = 5.1000e-02 Parameter p = -3.7827e-01 ──▶ -3.0632e-01 [guess] Parameter p = -3.7827e-01 ──▶ -3.0632e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 20 Step size = 5.1000e-02 Parameter p = -3.0632e-01 ──▶ -2.3460e-01 [guess] Parameter p = -3.0632e-01 ──▶ -2.3460e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 21 Step size = 5.1000e-02 Parameter p = -2.3460e-01 ──▶ -1.6366e-01 [guess] Parameter p = -2.3460e-01 ──▶ -1.6366e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 22 Step size = 5.1000e-02 Parameter p = -1.6366e-01 ──▶ -9.6358e-02 [guess] Parameter p = -1.6366e-01 ──▶ -9.6358e-02 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 23 Step size = 5.1000e-02 Parameter p = -9.6358e-02 ──▶ -5.1902e-02 [guess] Parameter p = -9.6358e-02 ──▶ -6.6989e-02 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 24 Step size = 5.1000e-02 Parameter p = -6.6989e-02 ──▶ -5.2693e-02 [guess] Parameter p = -6.6989e-02 ──▶ -6.0828e-02 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 25 Step size = 5.1000e-02 Parameter p = -6.0828e-02 ──▶ -6.1182e-02 [guess] Parameter p = -6.0828e-02 ──▶ -6.5523e-02 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 26 Step size = 5.1000e-02 Parameter p = -6.5523e-02 ──▶ -7.3919e-02 [guess] Parameter p = -6.5523e-02 ──▶ -7.6829e-02 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 27 Step size = 5.1000e-02 Parameter p = -7.6829e-02 ──▶ -9.0753e-02 [guess] Parameter p = -7.6829e-02 ──▶ -9.3007e-02 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 28 Step size = 5.1000e-02 Parameter p = -9.3007e-02 ──▶ -1.1128e-01 [guess] Parameter p = -9.3007e-02 ──▶ -1.1317e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 29 Step size = 5.1000e-02 Parameter p = -1.1317e-01 ──▶ -1.3511e-01 [guess] Parameter p = -1.1317e-01 ──▶ -1.3677e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 30 Step size = 5.1000e-02 Parameter p = -1.3677e-01 ──▶ -1.6194e-01 [guess] Parameter p = -1.3677e-01 ──▶ -1.6342e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 31 Step size = 5.1000e-02 Parameter p = -1.6342e-01 ──▶ -1.9149e-01 [guess] Parameter p = -1.6342e-01 ──▶ -1.9283e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 32 Step size = 5.1000e-02 Parameter p = -1.9283e-01 ──▶ -2.2352e-01 [guess] Parameter p = -1.9283e-01 ──▶ -2.2474e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 33 Step size = 5.1000e-02 Parameter p = -2.2474e-01 ──▶ -2.5782e-01 [guess] Parameter p = -2.2474e-01 ──▶ -2.5894e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 34 Step size = 5.1000e-02 Parameter p = -2.5894e-01 ──▶ -2.9422e-01 [guess] Parameter p = -2.5894e-01 ──▶ -2.9525e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 35 Step size = 5.1000e-02 Parameter p = -2.9525e-01 ──▶ -3.3254e-01 [guess] Parameter p = -2.9525e-01 ──▶ -3.3349e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 36 Step size = 5.1000e-02 Parameter p = -3.3349e-01 ──▶ -3.7264e-01 [guess] Parameter p = -3.3349e-01 ──▶ -3.7351e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 37 Step size = 5.1000e-02 Parameter p = -3.7351e-01 ──▶ -4.1437e-01 [guess] Parameter p = -3.7351e-01 ──▶ -4.1517e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 38 Step size = 5.1000e-02 Parameter p = -4.1517e-01 ──▶ -4.5761e-01 [guess] Parameter p = -4.1517e-01 ──▶ -4.5835e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 39 Step size = 5.1000e-02 Parameter p = -4.5835e-01 ──▶ -5.0224e-01 [guess] Parameter p = -4.5835e-01 ──▶ -5.0293e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 40 Step size = 5.1000e-02 Parameter p = -5.0293e-01 ──▶ -5.4817e-01 [guess] Parameter p = -5.0293e-01 ──▶ -5.4881e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 41 Step size = 5.1000e-02 Parameter p = -5.4881e-01 ──▶ -5.9530e-01 [guess] Parameter p = -5.4881e-01 ──▶ -5.9530e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 42 Step size = 5.1000e-02 Parameter p = -5.9530e-01 ──▶ -6.4294e-01 [guess] Parameter p = -5.9530e-01 ──▶ -6.4294e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 43 Step size = 5.1000e-02 Parameter p = -6.4294e-01 ──▶ -6.9164e-01 [guess] Parameter p = -6.4294e-01 ──▶ -6.9164e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 44 Step size = 5.1000e-02 Parameter p = -6.9164e-01 ──▶ -7.4133e-01 [guess] Parameter p = -6.9164e-01 ──▶ -7.4133e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 45 Step size = 5.1000e-02 Parameter p = -7.4133e-01 ──▶ -7.9194e-01 [guess] Parameter p = -7.4133e-01 ──▶ -7.9194e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 46 Step size = 5.1000e-02 Parameter p = -7.9194e-01 ──▶ -8.4343e-01 [guess] Parameter p = -7.9194e-01 ──▶ -8.4343e-01 Predictor: Bordered ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 47 Step size = 5.1000e-02 Parameter p = -8.4343e-01 ──▶ -8.9571e-01 [guess] Parameter p = -8.4343e-01 ──▶ -8.9571e-01 Predictor: Bordered 7.289202 seconds (2.80 M allocations: 155.306 MiB, 2.01% gc time, 99.87% compilation time) 5.410074 seconds (1.93 M allocations: 105.441 MiB, 99.94% compilation time) ┌ Warning: Assignment to `br0` in soft scope is ambiguous because a global variable by the same name exists: `br0` will be treated as a new local. Disambiguate by using `local br0` to suppress this warning or `global br0` to assign to the existing global variable. └ @ ~/.julia/packages/BifurcationKit/I0BRP/test/simple_continuation.jl:174 ┌─ Curve type: EquilibriumCont ├─ Number of points: 89 ├─ Type of vectors: Vector{Float64} ├─ Parameter p starts at -1.5, ends at -3.0 ├─ Algo: PALC └─ Special points: - # 1, bp at p ≈ -0.06090827 ∈ (-0.06090827, -0.06089831), |δp|=1e-05, [converged], δ = ( 1, 0), step = 30 - # 2, endpoint at p ≈ -3.00000000, step = 88 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ────────────────── Multiple ────────────────── ━━━━━━━━━━━━━━━━━━ INITIAL GUESS ━━━━━━━━━━━━━━━━━━ ──▶ convergence of initial guess = OK ──▶ parameter = -1.5, initial step ━━━━━━━━━━━━━━━━━━ INITIAL TANGENT ━━━━━━━━━━━━━━━━━━ ──▶ convergence of the initial guess = OK ──▶ parameter = -1.4999, initial step (bis) Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 0 Step size = 1.5000e-02 Parameter p = -1.5000e+00 ──▶ -1.4788e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.195, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.5000e+00 ──▶ -1.4788e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 dsnew = 0.0225 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 1 Step size = 2.2500e-02 Parameter p = -1.4788e+00 ──▶ -1.4470e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.2925, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.4788e+00 ──▶ -1.4470e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 dsnew = 0.03375 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 2 Step size = 3.3750e-02 Parameter p = -1.4470e+00 ──▶ -1.3992e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.4470e+00 ──▶ -1.3992e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 3 Step size = 3.3750e-02 Parameter p = -1.3992e+00 ──▶ -1.3515e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.3992e+00 ──▶ -1.3515e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 4 Step size = 3.3750e-02 Parameter p = -1.3515e+00 ──▶ -1.3038e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.3515e+00 ──▶ -1.3038e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 5 Step size = 3.3750e-02 Parameter p = -1.3038e+00 ──▶ -1.2561e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.3038e+00 ──▶ -1.2561e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 6 Step size = 3.3750e-02 Parameter p = -1.2561e+00 ──▶ -1.2083e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.2561e+00 ──▶ -1.2083e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 7 Step size = 3.3750e-02 Parameter p = -1.2083e+00 ──▶ -1.1606e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.2083e+00 ──▶ -1.1606e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 8 Step size = 3.3750e-02 Parameter p = -1.1606e+00 ──▶ -1.1129e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.1606e+00 ──▶ -1.1129e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 9 Step size = 3.3750e-02 Parameter p = -1.1129e+00 ──▶ -1.0651e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.1129e+00 ──▶ -1.0651e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 10 Step size = 3.3750e-02 Parameter p = -1.0651e+00 ──▶ -1.0174e+00 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.0651e+00 ──▶ -1.0174e+00 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 11 Step size = 3.3750e-02 Parameter p = -1.0174e+00 ──▶ -9.6968e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.0174e+00 ──▶ -9.6968e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 12 Step size = 3.3750e-02 Parameter p = -9.6968e-01 ──▶ -9.2196e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -9.6968e-01 ──▶ -9.2196e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 13 Step size = 3.3750e-02 Parameter p = -9.2196e-01 ──▶ -8.7423e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -9.2196e-01 ──▶ -8.7423e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 14 Step size = 3.3750e-02 Parameter p = -8.7423e-01 ──▶ -8.2650e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -8.7423e-01 ──▶ -8.2651e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 15 Step size = 3.3750e-02 Parameter p = -8.2651e-01 ──▶ -7.7878e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -8.2651e-01 ──▶ -7.7878e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 16 Step size = 3.3750e-02 Parameter p = -7.7878e-01 ──▶ -7.3106e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -7.7878e-01 ──▶ -7.3106e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 17 Step size = 3.3750e-02 Parameter p = -7.3106e-01 ──▶ -6.8334e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -7.3106e-01 ──▶ -6.8334e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 18 Step size = 3.3750e-02 Parameter p = -6.8334e-01 ──▶ -6.3562e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -6.8334e-01 ──▶ -6.3562e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 19 Step size = 3.3750e-02 Parameter p = -6.3562e-01 ──▶ -5.8790e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -6.3562e-01 ──▶ -5.8791e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 20 Step size = 3.3750e-02 Parameter p = -5.8791e-01 ──▶ -5.4020e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -5.8791e-01 ──▶ -5.4020e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 21 Step size = 3.3750e-02 Parameter p = -5.4020e-01 ──▶ -4.9250e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -5.4020e-01 ──▶ -4.9250e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 22 Step size = 3.3750e-02 Parameter p = -4.9250e-01 ──▶ -4.4481e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -4.9250e-01 ──▶ -4.4482e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 23 Step size = 3.3750e-02 Parameter p = -4.4482e-01 ──▶ -3.9714e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -4.4482e-01 ──▶ -3.9717e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 24 Step size = 3.3750e-02 Parameter p = -3.9717e-01 ──▶ -3.4951e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -3.9717e-01 ──▶ -3.4956e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 25 Step size = 3.3750e-02 Parameter p = -3.4956e-01 ──▶ -3.0195e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -3.4956e-01 ──▶ -3.0203e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 26 Step size = 3.3750e-02 Parameter p = -3.0203e-01 ──▶ -2.5451e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -3.0203e-01 ──▶ -2.5467e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 27 Step size = 3.3750e-02 Parameter p = -2.5467e-01 ──▶ -2.0735e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -2.5467e-01 ──▶ -2.0771e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 28 Step size = 3.3750e-02 Parameter p = -2.0771e-01 ──▶ -1.6083e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -2.0771e-01 ──▶ -1.6179e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 29 Step size = 3.3750e-02 Parameter p = -1.6179e-01 ──▶ -1.1613e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor ├─ i = 13, s(i) = 0.43875000000000003, converged = [ NO] └─ i = 12, s(i) = 0.405, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.6179e-01 ──▶ -1.1904e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 30 Step size = 3.3750e-02 Parameter p = -1.1904e-01 ──▶ -7.7200e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor ├─ i = 13, s(i) = 0.43875000000000003, converged = [ NO] ├─ i = 12, s(i) = 0.405, converged = [ NO] └─ i = 11, s(i) = 0.37125, converged = [YES] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p = -1.1904e-01 ──▶ -8.5672e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 31 Step size = 3.3750e-02 Parameter p = -8.5672e-02 ──▶ -5.4366e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor ├─ i = 13, s(i) = 0.43875000000000003, converged = [ NO] ├─ i = 12, s(i) = 0.405, converged = [ NO] └─ i = 11, s(i) = 0.37125, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -8.5672e-02 ──▶ -6.7992e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 32 Step size = 3.3750e-02 Parameter p = -6.7992e-02 ──▶ -5.1454e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -6.7992e-02 ──▶ -6.1556e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 0 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 33 Step size = 3.3750e-02 Parameter p = -6.1556e-02 ──▶ -5.5277e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -6.1556e-02 ──▶ -6.1281e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ──▶ Bifurcation detected before p = -0.06128105033038877 Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.21937500000000001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.10968750000000001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.054843750000000004, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.027421875000000002, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.013710937500000001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.0068554687500000005, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.0034277343750000002, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.0017138671875000001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.0008569335937500001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.00042846679687500003, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.00021423339843750001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -0.00010711669921875001, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -5.3558349609375004e-5, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -2.6779174804687502e-5, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -1.3389587402343751e-5, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -6.6947937011718754e-6, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -3.3473968505859377e-6, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -1.6736984252929689e-6, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -8.368492126464844e-7, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -4.184246063232422e-7, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -2.092123031616211e-7, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -1.0460615158081055e-7, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -5.230307579040528e-8, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -2.615153789520264e-8, converged = [YES] Predictor: Secant Predictor: Secant ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = -1.307576894760132e-8, converged = [YES] Predictor: Secant Predictor: Secant Predictor: Secant ──> bp Bifurcation point at p ≈ -0.06496328859565723, δn_unstable = 1, δn_imag = 0 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 34 Step size = 3.3750e-02 Parameter p = -6.4963e-02 ──▶ -7.5203e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -6.4963e-02 ──▶ -7.1589e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 35 Step size = 3.3750e-02 Parameter p = -7.1589e-02 ──▶ -7.8194e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -7.1589e-02 ──▶ -8.0562e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 36 Step size = 3.3750e-02 Parameter p = -8.0562e-02 ──▶ -8.9523e-02 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -8.0562e-02 ──▶ -9.1534e-02 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 37 Step size = 3.3750e-02 Parameter p = -9.1534e-02 ──▶ -1.0250e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -9.1534e-02 ──▶ -1.0427e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 38 Step size = 3.3750e-02 Parameter p = -1.0427e-01 ──▶ -1.1699e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.0427e-01 ──▶ -1.1859e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 39 Step size = 3.3750e-02 Parameter p = -1.1859e-01 ──▶ -1.3291e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.1859e-01 ──▶ -1.3438e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 40 Step size = 3.3750e-02 Parameter p = -1.3438e-01 ──▶ -1.5015e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.3438e-01 ──▶ -1.5151e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 41 Step size = 3.3750e-02 Parameter p = -1.5151e-01 ──▶ -1.6863e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.5151e-01 ──▶ -1.6990e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 42 Step size = 3.3750e-02 Parameter p = -1.6990e-01 ──▶ -1.8828e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.6990e-01 ──▶ -1.8947e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 43 Step size = 3.3750e-02 Parameter p = -1.8947e-01 ──▶ -2.0903e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -1.8947e-01 ──▶ -2.1014e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 44 Step size = 3.3750e-02 Parameter p = -2.1014e-01 ──▶ -2.3081e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -2.1014e-01 ──▶ -2.3186e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 45 Step size = 3.3750e-02 Parameter p = -2.3186e-01 ──▶ -2.5357e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -2.3186e-01 ──▶ -2.5457e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 46 Step size = 3.3750e-02 Parameter p = -2.5457e-01 ──▶ -2.7726e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -2.5457e-01 ──▶ -2.7820e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 47 Step size = 3.3750e-02 Parameter p = -2.7820e-01 ──▶ -3.0183e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -2.7820e-01 ──▶ -3.0271e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 48 Step size = 3.3750e-02 Parameter p = -3.0271e-01 ──▶ -3.2722e-01 [guess] ────────────────────────────────────────────────────────────────────── ┌─Multiple tangent predictor └─ i = 13, s(i) = 0.43875000000000003, converged = [YES] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p = -3.0271e-01 ──▶ -3.2806e-01 ──▶ Computed 1 eigenvalues in 1 iterations, #unstable = 1 Predictor: Secant ┌ Error: --> Decrease ds └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/Multiple.jl:139 ┌ Error: --> Decrease ds └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/Multiple.jl:139 Continuation: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:27 Got exception outside of a @test LoadError: MethodError: no method matching iterate(::BorderedArray{Vector{Float64}, Float64}) The function `iterate` exists, but no method is defined for this combination of argument types. Closest candidates are: iterate(!Matched::Base.MethodSpecializations) @ Base runtime_internals.jl:1851 iterate(!Matched::Base.MethodSpecializations, !Matched::Nothing) @ Base runtime_internals.jl:1857 iterate(!Matched::Base.MethodSpecializations, !Matched::Int64) @ Base runtime_internals.jl:1858 ... Stacktrace: [1] isempty(itr::BorderedArray{Vector{Float64}, Float64}) @ Base ./essentials.jl:1122 [2] norm(itr::BorderedArray{Vector{Float64}, Float64}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/generic.jl:727 [3] newton_moore_penrose(iter::ContIterable{BifurcationKit.EquilibriumCont, BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}, Float64, DefaultLS, DefaultEig{typeof(real)}, typeof(norm), typeof(BifurcationKit.finalise_default), typeof(BifurcationKit.cb_default), Nothing}, state::ContState{BorderedArray{Vector{Float64}, Float64}, Float64, Vector{ComplexF64}, Matrix{ComplexF64}, Tuple{Nothing, Nothing}}, dotθ::BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}; normN::typeof(norm), callback::typeof(BifurcationKit.cb_default), kwargs::@Kwargs{iterationC::Int64, z0::BorderedArray{Vector{Float64}, Float64}}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/MoorePenrose.jl:174 [4] newton_moore_penrose @ ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/MoorePenrose.jl:121 [inlined] [5] corrector!(state::ContState{BorderedArray{Vector{Float64}, Float64}, Float64, Vector{ComplexF64}, Matrix{ComplexF64}, Tuple{Nothing, Nothing}}, it::ContIterable{BifurcationKit.EquilibriumCont, BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}, Float64, DefaultLS, DefaultEig{typeof(real)}, typeof(norm), typeof(BifurcationKit.finalise_default), typeof(BifurcationKit.cb_default), Nothing}, algo::MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}; kwargs::@Kwargs{iterationC::Int64, z0::BorderedArray{Vector{Float64}, Float64}}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/MoorePenrose.jl:108 [6] corrector! @ ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/MoorePenrose.jl:100 [inlined] [7] corrector! @ ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/Contbase.jl:22 [inlined] [8] iterate(it::ContIterable{BifurcationKit.EquilibriumCont, BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}, Float64, DefaultLS, DefaultEig{typeof(real)}, typeof(norm), typeof(BifurcationKit.finalise_default), typeof(BifurcationKit.cb_default), Nothing}, state::ContState{BorderedArray{Vector{Float64}, Float64}, Float64, Vector{ComplexF64}, Matrix{ComplexF64}, Tuple{Nothing, Nothing}}; _verbosity::UInt8) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:446 [9] iterate @ ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:429 [inlined] [10] continuation!(it::ContIterable{BifurcationKit.EquilibriumCont, BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}, Float64, DefaultLS, DefaultEig{typeof(real)}, typeof(norm), typeof(BifurcationKit.finalise_default), typeof(BifurcationKit.cb_default), Nothing}, state::ContState{BorderedArray{Vector{Float64}, Float64}, Float64, Vector{ComplexF64}, Matrix{ComplexF64}, Tuple{Nothing, Nothing}}, contRes::ContResult{BifurcationKit.EquilibriumCont, @NamedTuple{x::Float64, param::Float64, itnewton::Int64, itlinear::Int64, ds::Float64, n_unstable::Int64, n_imag::Int64, stable::Bool, step::Int64}, Vector{ComplexF64}, Matrix{ComplexF64}, SpecialPoint{Float64, @NamedTuple{x::Float64}, Vector{Float64}, Vector{Float64}}, Vector{@NamedTuple{x::Vector{Float64}, p::Float64, step::Int64}}, ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:561 [11] continuation(it::ContIterable{BifurcationKit.EquilibriumCont, BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, MoorePenrose{PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}, Float64, DefaultLS, DefaultEig{typeof(real)}, typeof(norm), typeof(BifurcationKit.finalise_default), typeof(BifurcationKit.cb_default), Nothing}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:588 [12] continuation(prob::BifurcationProblem{BifFunction{typeof(F_simple), BifurcationKit.var"#119#120"{typeof(F_simple)}, Nothing, Nothing, typeof(Jac_simple), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, Float64, typeof(identity), typeof(BifurcationKit.plot_default), var"#77#78", typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, alg::MoorePenrose{PALC{Secant, MatrixBLS{Nothing}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, MatrixBLS{Nothing}}, contparams::ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}; linear_algo::Nothing, bothside::Bool, kwargs::@Kwargs{verbosity::Int64}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:659 [13] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/simple_continuation.jl:309 [14] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [15] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [16] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [17] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:28 [inlined] [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [19] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:28 [inlined] [20] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [21] top-level scope @ none:6 [22] eval(m::Module, e::Any) @ Core ./boot.jl:489 [23] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [24] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/simple_continuation.jl:309 WARNING: Method definition F0_simple(Any, Any) in module Main at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/simple_continuation.jl:10 overwritten at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/plots-utils.jl:8. Transcritical bifurcation point at μ ≈ 0.0005310637271224761 Normal form (aδμ + b1⋅x⋅δμ + b2⋅x²/2 + b3⋅x³/6) ┌─ a = 7.187319746485116e-14 ├─ b1 = 3.2300000000172466 ├─ b2 = -2.239999999999969 └─ b3 = 1.4040000000000001 ──> For μ = 0.0005310637271224761 ──> There are 1 unstable eigenvalues ──> Eigenvalues for continuation step 1 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ┌─ Normal form computation for 1d kernel ├─ analyse bifurcation at p = 0.0005310640141772467 ├─ smallest eigenvalue at bifurcation = 0.0017153367657925067 ┌── left eigenvalues = 2-element Vector{ComplexF64}: 0.0017153367657925067 + 0.0im -1.0 + 0.0im ├── right eigenvalue = 0.0017153367657925067 └── left eigenvalue = 0.0017153367657925067 + 0.0im ┌── Normal form: aδμ + b1⋅x⋅δμ + b2⋅x²/2 + b3⋅x³/6 ├─── a = 2.682912478025423e-12 ├─── b1 = 3.23 ├─── b2/2 = -5.830973868649681e-13 └─── b3/6 = -0.234 SuperCritical - Pitchfork bifurcation point at μ ≈ 0.0005310640141772467 Normal form x ─▶ x + a⋅δp + x⋅(b1⋅δp + b3⋅x²/6) ┌─ a = 2.682912478025423e-12 ├─ b1 = 3.23 ├─ b2 = -1.1661947737299363e-12 └─ b3 = -1.4040000000000001 ┌─ Curve type: EquilibriumCont from Pitchfork bifurcation point. ├─ Number of points: 20 ├─ Type of vectors: Vector{Float64} ├─ Parameter μ starts at 0.0005310640141772467, ends at 0.00633354489275113 ├─ Algo: PALC └─ Special points: - # 1, bp at μ ≈ +0.00000029 ∈ (+0.00000029, +0.00053106), |δp|=5e-04, [ guess], δ = (-1, 0), step = 1 - # 2, endpoint at μ ≈ +0.00721756, step = 20 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ───▶ Automatic computation of bifurcation diagram ──────────────────────────────────────────────────────────────────────────────── ──▶ New branch, level = 2, dim(Kernel) = 1, code = (0,), from bp #1 at p = 4.531578045579016e-6, type = bp ────▶ From Pitchfork - # 1, bp at p ≈ +0.00000453 ∈ (-0.00000410, +0.00000453), |δp|=9e-06, [converged], δ = ( 1, 0), step = 6 ┌ Info: │ autodiff = true └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [-0.0034996756067560268, -0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: -0.0034996756067560268 + 0.0im -0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [-0.0034996756067560268, -0.0034996756067560268] ──▶ VP★ = [-0.0034996756067560268, -0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [-1.8339151298192827e-18, -1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: -3.23 0.0 0.0 -3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: 6.76782e-19 9.32786e-20 9.32786e-20 3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: 6.47628e-19 -8.91189e-19 -8.91189e-19 3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.22251 0.0162978 0.0162978 0.00358594 [:, :, 2] = 0.0162978 0.00358594 0.00358594 0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = 0.0863631 0.0273946 0.0273946 -0.0513304 [:, :, 2] = 0.0273946 -0.0513304 -0.0513304 0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + -3.23 * x1 ⋅ p + 0.123 ⋅ x1³ + 0.234 ⋅ x1 ⋅ x2² + -3.23 * x2 ⋅ p + 0.456 ⋅ x1² ⋅ x2 + 0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d! (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 7) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = true └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 5) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ┌ Info: │ autodiff = false └ _F = Fbp2d (generic function with 1 method) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ Normal form Computation for a 2-d kernel ──▶ analyse bifurcation at p = 0.0010834908999244664 ──▶ smallest eigenvalues at bifurcation = [0.0034996756067560268, 0.0034996756067560268] [ Info: No eigenvector recorded, computing them on the fly ──▶ (λs, λs (recomputed)) = 3×2 Matrix{ComplexF64}: 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im 0.00349968+0.0im -1.0+0.0im -1.0+0.0im 3-element Vector{ComplexF64}: 0.0034996756067560268 + 0.0im 0.0034996756067560268 + 0.0im -1.0 + 0.0im ──▶ VP[1] paired with VP★[1] ──▶ VP[2] paired with VP★[2] ──▶ VP = [0.0034996756067560268, 0.0034996756067560268] ──▶ VP★ = [0.0034996756067560268, 0.0034996756067560268] ──▶ Gram matrix = 2×2 Matrix{Float64}: 1.0 5.55112e-17 -5.55112e-17 1.0 ──▶ a (∂/∂p) = [1.8339151298192827e-18, 1.9671624963894663e-17] ──▶ b1 (∂²/∂x∂p) = 2×2 Matrix{Float64}: 3.23 0.0 0.0 3.23 ──▶ b2 (∂²/∂x²) = ──▶ component 1 2×2 Matrix{Float64}: -6.76782e-19 -9.32786e-20 -9.32786e-20 -3.4841e-19 ──▶ component 2 2×2 Matrix{Float64}: -6.47628e-19 8.91189e-19 8.91189e-19 -3.97801e-18 ──▶ b3 (∂³/∂x³) = ──▶ component 1 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.22251 -0.0162978 -0.0162978 -0.00358594 [:, :, 2] = -0.0162978 -0.00358594 -0.00358594 -0.0187349 ──▶ component 2 2×2×2 Array{Float64, 3}: [:, :, 1] = -0.0863631 -0.0273946 -0.0273946 0.0513304 [:, :, 2] = -0.0273946 0.0513304 0.0513304 -0.22251 Non simple bifurcation point at μ ≈ 0.0010834908999244664. Kernel dimension = 2 Normal form: + 3.23 * x1 ⋅ p + -0.123 ⋅ x1³ + -0.234 ⋅ x1 ⋅ x2² + 3.23 * x2 ⋅ p + -0.456 ⋅ x1² ⋅ x2 + -0.123 ⋅ x2³ ──▶ BS from Non simple branch point ──▶ we find 1 (resp. 6) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ BS from Non simple branch point ──▶ we found 10 (resp. 10) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). [Bifurcation diagram] ┌─ From 0-th bifurcation point. ├─ Children number: 4 └─ Root (recursion level 1) ┌─ Curve type: EquilibriumCont ├─ Number of points: 76 ├─ Type of vectors: Vector{Float64} ├─ Parameter p starts at -0.2, ends at 0.3 ├─ Algo: PALC └─ Special points: - # 1, bp at p ≈ +0.00000281 ∈ (-0.00000065, +0.00000281), |δp|=3e-06, [converged], δ = ( 1, 0), step = 31 - # 2, bp at p ≈ +0.15000005 ∈ (+0.14999995, +0.15000005), |δp|=1e-07, [converged], δ = (-1, 0), step = 53 - # 3, endpoint at p ≈ +0.30000000, step = 75 ┌ Warning: Gram matrix not equal to identity. Switching to LU algorithm. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/NormalForms.jl:440 G (det = -1.0) = 3×3 Matrix{Float64}: 0.0 0.0 1.0 0.0 1.0 0.0 1.0 0.0 0.0 3×3 Matrix{Float64}: 1.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 1.0 ──▶ BS from Non simple branch point ──▶ we find 2 (resp. 2) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ Looking for solutions after the bifurcation point... ──▶ Looking for solutions before the bifurcation point... ──▶ we find 2 (resp. 2) roots after (resp. before) the bifurcation point. ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ BS from Non simple branch point ──▶ we find 2 (resp. 2) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ Looking for solutions after the bifurcation point... ──▶ Looking for solutions before the bifurcation point... ──▶ we find 2 (resp. 2) roots after (resp. before) the bifurcation point. ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ BS from Non simple branch point ──▶ we find 4 (resp. 4) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ Looking for solutions after the bifurcation point... ──▶ Looking for solutions before the bifurcation point... ──▶ we find 4 (resp. 4) roots after (resp. before) the bifurcation point. ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ──▶ BS from Non simple branch point ──▶ we find 4 (resp. 4) roots before (resp. after) the bifurcation point counting the trivial solution (Reduced equation). ──▶ Looking for solutions after the bifurcation point... ──▶ Looking for solutions before the bifurcation point... ──▶ we find 4 (resp. 4) roots after (resp. before) the bifurcation point. ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ SuperCritical - Hopf bifurcation point at r ≈ 0.0025304832720493943. Frequency ω ≈ 1.0 Period of the periodic orbit ≈ 6.283185307179586 Normal form z⋅(iω + a⋅δp + b⋅|z|²): ┌─ a = 1.0 + 0.0im └─ b = -2.2460000000000004 + 0.2640000000000001im SuperCritical - Hopf bifurcation point at r ≈ 0.0025304832720493943. Frequency ω ≈ 1.0 Period of the periodic orbit ≈ 6.283185307179586 Normal form z⋅(iω + a⋅δp + b⋅|z|²): ┌─ a = 1.0 + 0.0im └─ b = -2.2460000000000004 + 0.2640000000000001im SuperCritical - Hopf bifurcation point at r ≈ 0.0025304832720493943. Frequency ω ≈ 1.0 Period of the periodic orbit ≈ 6.283185307179586 Normal form z⋅(iω + a⋅δp + b⋅|z|²): ┌─ a = 1.0 + 0.0im └─ b = -2.2460000000000004 + 0.2640000000000001im SuperCritical - Hopf bifurcation point at r ≈ 0.0025304832720493943. Frequency ω ≈ 1.0 Period of the periodic orbit ≈ 6.283185307179586 Normal form z⋅(iω + a⋅δp + b⋅|z|²): ┌─ a = 1.0 + 0.0im └─ b = -2.2460000000000004 + 0.2640000000000001im Normal forms: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:37 Got exception outside of a @test LoadError: MethodError: no method matching iterate(::BorderedArray{Vector{Float64}, Float64}) The function `iterate` exists, but no method is defined for this combination of argument types. Closest candidates are: iterate(!Matched::Base.MethodSpecializations) @ Base runtime_internals.jl:1851 iterate(!Matched::Base.MethodSpecializations, !Matched::Nothing) @ Base runtime_internals.jl:1857 iterate(!Matched::Base.MethodSpecializations, !Matched::Int64) @ Base runtime_internals.jl:1858 ... Stacktrace: [1] isempty(itr::BorderedArray{Vector{Float64}, Float64}) @ Base ./essentials.jl:1122 [2] norm(itr::BorderedArray{Vector{Float64}, Float64}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/generic.jl:727 [3] _newton(prob::BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, x0::BorderedArray{Vector{Float64}, Float64}, p0::@NamedTuple{β1::Float64, β2::Float64, c::Float64}, options::NewtonPar{Float64, FoldLinearSolverMinAug, BifurcationKit.FoldEig{BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, DefaultEig{typeof(real)}}}; normN::typeof(norm), callback::typeof(BifurcationKit.cb_default), kwargs::@Kwargs{iterationC::Int64, p::Float64}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Newton.jl:78 [4] solve(prob::BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, ::Newton, options::NewtonPar{Float64, FoldLinearSolverMinAug, BifurcationKit.FoldEig{BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, DefaultEig{typeof(real)}}}; kwargs::@Kwargs{normN::typeof(norm), callback::typeof(BifurcationKit.cb_default), iterationC::Int64, p::Float64}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Newton.jl:149 [5] iterate(it::ContIterable{BifurcationKit.FoldCont, BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, PALC{Secant, BorderingBLS{FoldLinearSolverMinAug, Float64}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, Float64, FoldLinearSolverMinAug, BifurcationKit.FoldEig{BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, DefaultEig{typeof(real)}}, typeof(norm), BifurcationKit.var"#update_minaug_fold#415"{BifurcationKit.var"#update_minaug_fold#410#416"{Int64, typeof(norm), @Kwargs{}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, PropertyLens{:β2}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}, typeof(BifurcationKit.cb_default), PairOfEvents{ContinuousEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_bt_cusp)}, Tuple{String, String}, Int64, typeof(BifurcationKit.default_finalise_event!), Nothing}, DiscreteEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_zh)}, Tuple{String}, typeof(BifurcationKit.default_finalise_event!), Nothing}}}; _verbosity::UInt8) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:350 [6] iterate(it::ContIterable{BifurcationKit.FoldCont, BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, PALC{Secant, BorderingBLS{FoldLinearSolverMinAug, Float64}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, Float64, FoldLinearSolverMinAug, BifurcationKit.FoldEig{BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, DefaultEig{typeof(real)}}, typeof(norm), BifurcationKit.var"#update_minaug_fold#415"{BifurcationKit.var"#update_minaug_fold#410#416"{Int64, typeof(norm), @Kwargs{}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, PropertyLens{:β2}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}, typeof(BifurcationKit.cb_default), PairOfEvents{ContinuousEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_bt_cusp)}, Tuple{String, String}, Int64, typeof(BifurcationKit.default_finalise_event!), Nothing}, DiscreteEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_zh)}, Tuple{String}, typeof(BifurcationKit.default_finalise_event!), Nothing}}}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:330 [7] continuation(it::ContIterable{BifurcationKit.FoldCont, BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, PALC{Secant, BorderingBLS{FoldLinearSolverMinAug, Float64}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, Float64, FoldLinearSolverMinAug, BifurcationKit.FoldEig{BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, DefaultEig{typeof(real)}}, typeof(norm), BifurcationKit.var"#update_minaug_fold#415"{BifurcationKit.var"#update_minaug_fold#410#416"{Int64, typeof(norm), @Kwargs{}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, PropertyLens{:β2}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}, typeof(BifurcationKit.cb_default), PairOfEvents{ContinuousEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_bt_cusp)}, Tuple{String, String}, Int64, typeof(BifurcationKit.default_finalise_event!), Nothing}, DiscreteEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_zh)}, Tuple{String}, typeof(BifurcationKit.default_finalise_event!), Nothing}}}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:581 [8] continuation(prob::BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, alg::PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, contparams::ContinuationPar{Float64, FoldLinearSolverMinAug, BifurcationKit.FoldEig{BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β2}, typeof(BifurcationKit.plot_default), BifurcationKit.var"#417#418"{BifurcationKit.var"#419#420"{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Tuple{Symbol, Symbol}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}}, DefaultEig{typeof(real)}}}; linear_algo::BorderingBLS{FoldLinearSolverMinAug, Float64}, bothside::Bool, kwargs::@Kwargs{kind::BifurcationKit.FoldCont, normC::typeof(norm), finalise_solution::BifurcationKit.var"#update_minaug_fold#415"{BifurcationKit.var"#update_minaug_fold#410#416"{Int64, typeof(norm), @Kwargs{}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, PropertyLens{:β2}, FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{Nothing}, UniformScaling{Bool}, typeof(norm)}}}, event::PairOfEvents{ContinuousEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_bt_cusp)}, Tuple{String, String}, Int64, typeof(BifurcationKit.default_finalise_event!), Nothing}, DiscreteEvent{ComposedFunction{typeof(BifurcationKit.convert_to_tuple_eve), typeof(BifurcationKit.test_zh)}, Tuple{String}, typeof(BifurcationKit.default_finalise_event!), Nothing}}}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Continuation.jl:659 [9] continuation_fold(prob::BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, alg::PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, foldpointguess::BorderedArray{Vector{Float64}, Float64}, par::@NamedTuple{β1::Float64, β2::Float64, c::Float64}, lens1::PropertyLens{:β1}, lens2::PropertyLens{:β2}, eigenvec::SubArray{Float64, 1, Vector{Float64}, Tuple{UnitRange{Int64}}, true}, eigenvec_ad::SubArray{Float64, 1, Vector{Float64}, Tuple{UnitRange{Int64}}, true}, options_cont::ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}; update_minaug_every_step::Int64, normC::typeof(norm), bdlinsolver::MatrixBLS{Nothing}, bdlinsolver_adjoint::MatrixBLS{Nothing}, jacobian_ma::BifurcationKit.MinAug, compute_eigen_elements::Bool, usehessian::Bool, kind::BifurcationKit.FoldCont, record_from_solution::Nothing, kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugFold.jl:495 [10] continuation_fold(prob::BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, br::ContResult{BifurcationKit.EquilibriumCont, @NamedTuple{x::Float64, param::Float64, itnewton::Int64, itlinear::Int64, ds::Float64, n_unstable::Int64, n_imag::Int64, stable::Bool, step::Int64}, Vector{ComplexF64}, Matrix{ComplexF64}, SpecialPoint{Float64, @NamedTuple{x::Float64}, Vector{Float64}, Vector{Float64}}, Vector{@NamedTuple{x::Vector{Float64}, p::Float64, step::Int64}}, ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, BifurcationProblem{BifFunction{typeof(Fcusp), BifurcationKit.var"#119#120"{typeof(Fcusp)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{β1::Float64, β2::Float64, c::Float64}, PropertyLens{:β1}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}}, ind_fold::Int64, lens2::PropertyLens{:β2}, options_cont::ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}; alg::PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, normC::typeof(norm), nev::Int64, start_with_eigen::Bool, bdlinsolver::MatrixBLS{Nothing}, bdlinsolver_adjoint::MatrixBLS{Nothing}, a::Nothing, b::Nothing, kwargs::@Kwargs{compute_eigen_elements::Bool, update_minaug_every_step::Int64, jacobian_ma::BifurcationKit.MinAug}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugFold.jl:571 [11] continuation_fold @ ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugFold.jl:509 [inlined] [12] #continuation#401 @ ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/codim2.jl:311 [inlined] [13] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/testNF.jl:310 [14] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [15] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [16] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [17] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:39 [inlined] [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [19] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:39 [inlined] [20] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [21] top-level scope @ none:6 [22] eval(m::Module, e::Any) @ Core ./boot.jl:489 [23] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [24] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/testNF.jl:310 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ────────────────── PALC ────────────────── ━━━━━━━━━━━━━━━━━━ INITIAL GUESS ━━━━━━━━━━━━━━━━━━ ──▶ convergence of initial guess = OK ──▶ parameter = -3.0, initial step ━━━━━━━━━━━━━━━━━━ INITIAL TANGENT ━━━━━━━━━━━━━━━━━━ ──▶ convergence of the initial guess = OK ──▶ parameter = -2.9999933333333333, initial step (bis) Predictor: Secant ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 0 Step size = 1.0000e-03 Parameter p1 = -3.0000e+00 ──▶ -2.9986e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -3.0000e+00 ──▶ -2.9986e+00 Predictor: Secant ──▶ Event values: (-1.0,) ──▶ (-0.9986180397827904,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 1 Step size = 1.3200e-03 Parameter p1 = -2.9986e+00 ──▶ -2.9968e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9986e+00 ──▶ -2.9968e+00 Predictor: Secant ──▶ Event values: (-0.9986180397827904,) ──▶ (-0.9967938908852547,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 2 Step size = 1.7424e-03 Parameter p1 = -2.9968e+00 ──▶ -2.9944e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9968e+00 ──▶ -2.9944e+00 Predictor: Secant ──▶ Event values: (-0.9967938908852547,) ──▶ (-0.9943860817140209,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 3 Step size = 2.3000e-03 Parameter p1 = -2.9944e+00 ──▶ -2.9912e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9944e+00 ──▶ -2.9912e+00 Predictor: Secant ──▶ Event values: (-0.9943860817140209,) ──▶ (-0.9912078912990223,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 4 Step size = 3.0360e-03 Parameter p1 = -2.9912e+00 ──▶ -2.9870e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9912e+00 ──▶ -2.9870e+00 Predictor: Secant ──▶ Event values: (-0.9912078912990223,) ──▶ (-0.9870128857077405,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 5 Step size = 4.0075e-03 Parameter p1 = -2.9870e+00 ──▶ -2.9815e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9870e+00 ──▶ -2.9815e+00 Predictor: Secant ──▶ Event values: (-0.9870128857077405,) ──▶ (-0.9814758384373605,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 6 Step size = 5.2899e-03 Parameter p1 = -2.9815e+00 ──▶ -2.9742e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9815e+00 ──▶ -2.9742e+00 Predictor: Secant ──▶ Event values: (-0.9814758384373605,) ──▶ (-0.9741675672042343,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 7 Step size = 6.9826e-03 Parameter p1 = -2.9742e+00 ──▶ -2.9645e+00 [guess] ──▶ Step Converged in 1 Nonlinear Iteration(s) Parameter p1 = -2.9742e+00 ──▶ -2.9645e+00 Predictor: Secant ──▶ Event values: (-0.9741675672042343,) ──▶ (-0.96452175753054,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 8 Step size = 9.2170e-03 Parameter p1 = -2.9645e+00 ──▶ -2.9518e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.9645e+00 ──▶ -2.9518e+00 Predictor: Secant ──▶ Event values: (-0.96452175753054,) ──▶ (-0.9517912400484199,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 9 Step size = 1.0876e-02 Parameter p1 = -2.9518e+00 ──▶ -2.9368e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.9518e+00 ──▶ -2.9368e+00 Predictor: Secant ──▶ Event values: (-0.9517912400484199,) ──▶ (-0.9367721236855182,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 10 Step size = 1.2834e-02 Parameter p1 = -2.9368e+00 ──▶ -2.9190e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.9368e+00 ──▶ -2.9191e+00 Predictor: Secant ──▶ Event values: (-0.9367721236855182,) ──▶ (-0.9190536628212209,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 11 Step size = 1.5144e-02 Parameter p1 = -2.9191e+00 ──▶ -2.8981e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.9191e+00 ──▶ -2.8982e+00 Predictor: Secant ──▶ Event values: (-0.9190536628212209,) ──▶ (-0.8981516940574208,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 12 Step size = 1.7870e-02 Parameter p1 = -2.8982e+00 ──▶ -2.8735e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.8982e+00 ──▶ -2.8735e+00 Predictor: Secant ──▶ Event values: (-0.8981516940574208,) ──▶ (-0.8734956562166514,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 13 Step size = 2.1086e-02 Parameter p1 = -2.8735e+00 ──▶ -2.8444e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.8735e+00 ──▶ -2.8444e+00 Predictor: Secant ──▶ Event values: (-0.8734956562166514,) ──▶ (-0.8444133892830563,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 14 Step size = 2.4882e-02 Parameter p1 = -2.8444e+00 ──▶ -2.8101e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.8444e+00 ──▶ -2.8101e+00 Predictor: Secant ──▶ Event values: (-0.8444133892830563,) ──▶ (-0.8101133767613113,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 15 Step size = 2.9361e-02 Parameter p1 = -2.8101e+00 ──▶ -2.7696e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.8101e+00 ──▶ -2.7697e+00 Predictor: Secant ──▶ Event values: (-0.8101133767613113,) ──▶ (-0.7696640758044886,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 16 Step size = 3.4646e-02 Parameter p1 = -2.7697e+00 ──▶ -2.7219e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.7697e+00 ──▶ -2.7220e+00 Predictor: Secant ──▶ Event values: (-0.7696640758044886,) ──▶ (-0.7219699866515135,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 17 Step size = 4.0882e-02 Parameter p1 = -2.7220e+00 ──▶ -2.6657e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.7220e+00 ──▶ -2.6657e+00 Predictor: Secant ──▶ Event values: (-0.7219699866515135,) ──▶ (-0.665744179332389,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 18 Step size = 4.8240e-02 Parameter p1 = -2.6657e+00 ──▶ -2.5994e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.6657e+00 ──▶ -2.5995e+00 Predictor: Secant ──▶ Event values: (-0.665744179332389,) ──▶ (-0.5994771888264152,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 19 Step size = 5.6924e-02 Parameter p1 = -2.5995e+00 ──▶ -2.5213e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.5995e+00 ──▶ -2.5214e+00 Predictor: Secant ──▶ Event values: (-0.5994771888264152,) ──▶ (-0.5214026576247006,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 20 Step size = 6.7170e-02 Parameter p1 = -2.5214e+00 ──▶ -2.4293e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.5214e+00 ──▶ -2.4295e+00 Predictor: Secant ──▶ Event values: (-0.5214026576247006,) ──▶ (-0.42946118865407445,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 21 Step size = 7.9261e-02 Parameter p1 = -2.4295e+00 ──▶ -2.3210e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.4295e+00 ──▶ -2.3213e+00 Predictor: Secant ──▶ Event values: (-0.42946118865407445,) ──▶ (-0.3212664214828238,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 22 Step size = 9.3528e-02 Parameter p1 = -2.3213e+00 ──▶ -2.1936e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.3213e+00 ──▶ -2.1941e+00 Predictor: Secant ──▶ Event values: (-0.3212664214828238,) ──▶ (-0.19408367690357897,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 23 Step size = 1.0000e-01 Parameter p1 = -2.1941e+00 ──▶ -2.0581e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.1941e+00 ──▶ -2.0588e+00 Predictor: Secant ──▶ Event values: (-0.19408367690357897,) ──▶ (-0.05881845865952107,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 24 Step size = 1.0000e-01 Parameter p1 = -2.0588e+00 ──▶ -1.9236e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.0588e+00 ──▶ -1.9245e+00 Predictor: Secant ──▶ Event values: (-0.05881845865952107,) ──▶ (0.07549051070721369,) ──▶ Event detected before p = -1.9245094892927863 ────▶ Entering [Event], indicator of 2 last events = (1, 0) ────▶ [Bisection] initial ds = 0.1 ────▶ [Bisection] state.ds = -0.1 ──▶ eve (initial) (-0.05881845865952107,) ──▶ (0.07549051070721369,) ────▶ eve (current) (0.07549051070721369,) ──▶ (0.07549051070721369,) ────▶ 0 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -0.05, p = -1.9245094892927863, #reverse = 0 ────▶ event ∈ (-2.058818458659521, -1.9245094892927863), precision = 1.343E-01 Predictor: Secant ────▶ eve (current) (0.07549051070721369,) ──▶ (0.008492072644623372,) ────▶ 1 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -0.025, p = -1.9915079273553766, #reverse = 0 ────▶ event ∈ (-2.058818458659521, -1.9915079273553766), precision = 6.731E-02 Predictor: Secant ────▶ eve (current) (0.008492072644623372,) ──▶ (-0.025114103463261817,) ────▶ 2 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.0125, p = -2.025114103463262, #reverse = 1 ────▶ event ∈ (-2.025114103463262, -1.9915079273553766), precision = 3.361E-02 Predictor: Secant ────▶ eve (current) (-0.025114103463261817,) ──▶ (-0.008303466162076223,) ────▶ 3 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.00625, p = -2.0083034661620762, #reverse = 1 ────▶ event ∈ (-2.0083034661620762, -1.9915079273553766), precision = 1.680E-02 Predictor: Secant ────▶ eve (current) (-0.008303466162076223,) ──▶ (9.56526144793024e-5,) ────▶ 4 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -0.003125, p = -1.9999043473855207, #reverse = 2 ────▶ event ∈ (-2.0083034661620762, -1.9999043473855207), precision = 8.399E-03 Predictor: Secant ────▶ eve (current) (9.56526144793024e-5,) ──▶ (-0.004103370599878975,) ────▶ 5 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.0015625, p = -2.004103370599879, #reverse = 3 ────▶ event ∈ (-2.004103370599879, -1.9999043473855207), precision = 4.199E-03 Predictor: Secant ────▶ eve (current) (-0.004103370599878975,) ──▶ (-0.0020037272833750563,) ────▶ 6 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.00078125, p = -2.002003727283375, #reverse = 3 ────▶ event ∈ (-2.002003727283375, -1.9999043473855207), precision = 2.099E-03 Predictor: Secant ────▶ eve (current) (-0.0020037272833750563,) ──▶ (-0.0009540044314153562,) ────▶ 7 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.000390625, p = -2.0009540044314154, #reverse = 3 ────▶ event ∈ (-2.0009540044314154, -1.9999043473855207), precision = 1.050E-03 Predictor: Secant ────▶ eve (current) (-0.0009540044314153562,) ──▶ (-0.00042916779351820367,) ────▶ 8 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.0001953125, p = -2.000429167793518, #reverse = 3 ────▶ event ∈ (-2.000429167793518, -1.9999043473855207), precision = 5.248E-04 Predictor: Secant ────▶ eve (current) (-0.00042916779351820367,) ──▶ (-0.00016675567748913878,) ────▶ 9 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 9.765625e-5, p = -2.000166755677489, #reverse = 3 ────▶ event ∈ (-2.000166755677489, -1.9999043473855207), precision = 2.624E-04 Predictor: Secant ────▶ eve (current) (-0.00016675567748913878,) ──▶ (-3.5551170945780086e-5,) ────▶ 10 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 4.8828125e-5, p = -2.000035551170946, #reverse = 3 ────▶ event ∈ (-2.000035551170946, -1.9999043473855207), precision = 1.312E-04 Predictor: Secant ────▶ eve (current) (-3.5551170945780086e-5,) ──▶ (3.005069436556873e-5,) ────▶ 11 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -2.44140625e-5, p = -1.9999699493056344, #reverse = 4 ────▶ event ∈ (-2.000035551170946, -1.9999699493056344), precision = 6.560E-05 Predictor: Secant ────▶ eve (current) (3.005069436556873e-5,) ──▶ (-2.75020595363884e-6,) ────▶ 12 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 1.220703125e-5, p = -2.0000027502059536, #reverse = 5 ────▶ event ∈ (-2.0000027502059536, -1.9999699493056344), precision = 3.280E-05 Predictor: Secant ────▶ eve (current) (-2.75020595363884e-6,) ──▶ (1.3650244205853923e-5,) ────▶ 13 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -6.103515625e-6, p = -1.9999863497557941, #reverse = 6 ────▶ event ∈ (-2.0000027502059536, -1.9999863497557941), precision = 1.640E-05 Predictor: Secant ────▶ eve (current) (1.3650244205853923e-5,) ──▶ (5.450019125996519e-6,) ────▶ 14 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -3.0517578125e-6, p = -1.999994549980874, #reverse = 6 ────▶ event ∈ (-2.0000027502059536, -1.999994549980874), precision = 8.200E-06 Predictor: Secant ────▶ eve (current) (5.450019125996519e-6,) ──▶ (1.3499065860678172e-6,) ────▶ 15 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -1.52587890625e-6, p = -1.999998650093414, #reverse = 6 ────▶ event ∈ (-2.0000027502059536, -1.999998650093414), precision = 4.100E-06 Predictor: Secant ────▶ eve (current) (1.3499065860678172e-6,) ──▶ (-7.001496840075561e-7,) ────▶ 16 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 7.62939453125e-7, p = -2.000000700149684, #reverse = 7 ────▶ event ∈ (-2.000000700149684, -1.999998650093414), precision = 2.050E-06 Predictor: Secant ────▶ eve (current) (-7.001496840075561e-7,) ──▶ (3.248784510301306e-7,) ────▶ 17 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -3.814697265625e-7, p = -1.999999675121549, #reverse = 8 ────▶ event ∈ (-2.000000700149684, -1.999999675121549), precision = 1.025E-06 ────▶ Found at p = -1.999999675121549 ∈ (-2.000000700149684, -1.999999675121549), δn = 1, from p = -1.9245094892927863 ──────────────────────────────────────── ────▶ Stopping reason: ──────▶ isnothing(next) = false ──────▶ |ds| < dsmin_bisection = false ──────▶ step >= max_bisection_steps = false ──────▶ n_inversion >= n_inversion = true ──────▶ eventlocated = false ────▶ Leaving [Loc-Bif] !! Continuous user point at p ≈ -1.999999675121549 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 25 Step size = 1.0000e-01 Parameter p1 = -2.0000e+00 ──▶ -1.8656e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.0000e+00 ──▶ -1.8662e+00 Predictor: Secant ──▶ Event values: (3.248784510301306e-7,) ──▶ (0.13376907259808446,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 26 Step size = 1.0000e-01 Parameter p1 = -1.8662e+00 ──▶ -1.7325e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.8662e+00 ──▶ -1.7339e+00 Predictor: Secant ──▶ Event values: (0.13376907259808446,) ──▶ (0.2661007198163412,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 27 Step size = 1.0000e-01 Parameter p1 = -1.7339e+00 ──▶ -1.6016e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.7339e+00 ──▶ -1.6037e+00 Predictor: Secant ──▶ Event values: (0.2661007198163412,) ──▶ (0.39634082668118786,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 28 Step size = 1.0000e-01 Parameter p1 = -1.6037e+00 ──▶ -1.4735e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.6037e+00 ──▶ -1.4766e+00 Predictor: Secant ──▶ Event values: (0.39634082668118786,) ──▶ (0.5233942744616238,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 29 Step size = 1.0000e-01 Parameter p1 = -1.4766e+00 ──▶ -1.3498e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.4766e+00 ──▶ -1.3549e+00 Predictor: Secant ──▶ Event values: (0.5233942744616238,) ──▶ (0.645113120545397,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 30 Step size = 1.0000e-01 Parameter p1 = -1.3549e+00 ──▶ -1.2336e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.3549e+00 ──▶ -1.2434e+00 Predictor: Secant ──▶ Event values: (0.645113120545397,) ──▶ (0.7565581496409486,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 31 Step size = 1.0000e-01 Parameter p1 = -1.2434e+00 ──▶ -1.1330e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.2434e+00 ──▶ -1.1565e+00 Predictor: Secant ──▶ Event values: (0.7565581496409486,) ──▶ (0.843533165755711,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 32 Step size = 1.0000e-01 Parameter p1 = -1.1565e+00 ──▶ -1.0725e+00 [guess] ──▶ Step Converged in 4 Nonlinear Iteration(s) Parameter p1 = -1.1565e+00 ──▶ -1.1401e+00 Predictor: Secant ──▶ Event values: (0.843533165755711,) ──▶ (0.859856445339866,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 33 Step size = 1.0000e-01 Parameter p1 = -1.1401e+00 ──▶ -1.1261e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.1401e+00 ──▶ -1.2170e+00 Predictor: Secant ──▶ Event values: (0.859856445339866,) ──▶ (0.7830454777064411,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 34 Step size = 1.0000e-01 Parameter p1 = -1.2170e+00 ──▶ -1.2814e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.2170e+00 ──▶ -1.3157e+00 Predictor: Secant ──▶ Event values: (0.7830454777064411,) ──▶ (0.6843239057500137,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 35 Step size = 1.0000e-01 Parameter p1 = -1.3157e+00 ──▶ -1.4109e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.3157e+00 ──▶ -1.4228e+00 Predictor: Secant ──▶ Event values: (0.6843239057500137,) ──▶ (0.5771656121054785,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 36 Step size = 1.0000e-01 Parameter p1 = -1.4228e+00 ──▶ -1.5293e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -1.4228e+00 ──▶ -1.5348e+00 Predictor: Secant ──▶ Event values: (0.5771656121054785,) ──▶ (0.46516753224958163,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 37 Step size = 1.0000e-01 Parameter p1 = -1.5348e+00 ──▶ -1.6466e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -1.5348e+00 ──▶ -1.6493e+00 Predictor: Secant ──▶ Event values: (0.46516753224958163,) ──▶ (0.3506902873778335,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 38 Step size = 1.0000e-01 Parameter p1 = -1.6493e+00 ──▶ -1.7637e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -1.6493e+00 ──▶ -1.7647e+00 Predictor: Secant ──▶ Event values: (0.3506902873778335,) ──▶ (0.23529609391134554,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 39 Step size = 1.0000e-01 Parameter p1 = -1.7647e+00 ──▶ -1.8801e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -1.7647e+00 ──▶ -1.8797e+00 Predictor: Secant ──▶ Event values: (0.23529609391134554,) ──▶ (0.12028173206190695,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 40 Step size = 1.0000e-01 Parameter p1 = -1.8797e+00 ──▶ -1.9947e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -1.8797e+00 ──▶ -1.9929e+00 Predictor: Secant ──▶ Event values: (0.12028173206190695,) ──▶ (0.007072528817887669,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 41 Step size = 1.0000e-01 Parameter p1 = -1.9929e+00 ──▶ -2.1061e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.9929e+00 ──▶ -2.1023e+00 Predictor: Secant ──▶ Event values: (0.007072528817887669,) ──▶ (-0.10226139090966058,) ──▶ Event detected before p = -2.1022613909096606 ────▶ Entering [Event], indicator of 2 last events = (0, 1) ────▶ [Bisection] initial ds = 0.1 ────▶ [Bisection] state.ds = -0.1 ──▶ eve (initial) (0.007072528817887669,) ──▶ (-0.10226139090966058,) ────▶ eve (current) (-0.10226139090966058,) ──▶ (-0.10226139090966058,) ────▶ 0 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -0.05, p = -2.1022613909096606, #reverse = 0 ────▶ event ∈ (-2.1022613909096606, -1.9929274711821123), precision = 1.093E-01 Predictor: Secant ────▶ eve (current) (-0.10226139090966058,) ──▶ (-0.04833608289578972,) ────▶ 1 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -0.025, p = -2.0483360828957897, #reverse = 0 ────▶ event ∈ (-2.0483360828957897, -1.9929274711821123), precision = 5.541E-02 Predictor: Secant ────▶ eve (current) (-0.04833608289578972,) ──▶ (-0.020830735714093773,) ────▶ 2 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -0.0125, p = -2.0208307357140938, #reverse = 0 ────▶ event ∈ (-2.0208307357140938, -1.9929274711821123), precision = 2.790E-02 Predictor: Secant ────▶ eve (current) (-0.020830735714093773,) ──▶ (-0.0069715838769197624,) ────▶ 3 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -0.00625, p = -2.0069715838769198, #reverse = 0 ────▶ event ∈ (-2.0069715838769198, -1.9929274711821123), precision = 1.404E-02 Predictor: Secant ────▶ eve (current) (-0.0069715838769197624,) ──▶ (-1.7439125403306832e-5,) ────▶ 4 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -0.003125, p = -2.0000174391254033, #reverse = 0 ────▶ event ∈ (-2.0000174391254033, -1.9929274711821123), precision = 7.090E-03 Predictor: Secant ────▶ eve (current) (-1.7439125403306832e-5,) ──▶ (0.003465515391908758,) ────▶ 5 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 0.0015625, p = -1.9965344846080912, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.9965344846080912), precision = 3.483E-03 Predictor: Secant ────▶ eve (current) (0.003465515391908758,) ──▶ (0.0017235585119625974,) ────▶ 6 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 0.00078125, p = -1.9982764414880374, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.9982764414880374), precision = 1.741E-03 Predictor: Secant ────▶ eve (current) (0.0017235585119625974,) ──▶ (0.0008529423156780069,) ────▶ 7 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 0.000390625, p = -1.999147057684322, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.999147057684322), precision = 8.704E-04 Predictor: Secant ────▶ eve (current) (0.0008529423156780069,) ──▶ (0.00041772541266538177,) ────▶ 8 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 0.0001953125, p = -1.9995822745873346, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.9995822745873346), precision = 4.352E-04 Predictor: Secant ────▶ eve (current) (0.00041772541266538177,) ──▶ (0.0002001398248798747,) ────▶ 9 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 9.765625e-5, p = -1.9997998601751201, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.9997998601751201), precision = 2.176E-04 Predictor: Secant ────▶ eve (current) (0.0002001398248798747,) ──▶ (9.135275504923435e-5,) ────▶ 10 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 4.8828125e-5, p = -1.9999086472449508, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.9999086472449508), precision = 1.088E-04 Predictor: Secant ────▶ eve (current) (9.135275504923435e-5,) ──▶ (3.696065216596267e-5,) ────▶ 11 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 2.44140625e-5, p = -1.999963039347834, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.999963039347834), precision = 5.440E-05 Predictor: Secant ────▶ eve (current) (3.696065216596267e-5,) ──▶ (9.764958859515005e-6,) ────▶ 12 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 1.220703125e-5, p = -1.9999902350411405, #reverse = 1 ────▶ event ∈ (-2.0000174391254033, -1.9999902350411405), precision = 2.720E-05 Predictor: Secant ────▶ eve (current) (9.764958859515005e-6,) ──▶ (-3.832798244118862e-6,) ────▶ 13 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -6.103515625e-6, p = -2.000003832798244, #reverse = 2 ────▶ event ∈ (-2.000003832798244, -1.9999902350411405), precision = 1.360E-05 Predictor: Secant ────▶ eve (current) (-3.832798244118862e-6,) ──▶ (2.9660803073650044e-6,) ────▶ 14 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 3.0517578125e-6, p = -1.9999970339196926, #reverse = 3 ────▶ event ∈ (-2.000003832798244, -1.9999970339196926), precision = 6.799E-06 Predictor: Secant ────▶ eve (current) (2.9660803073650044e-6,) ──▶ (-4.333589682659067e-7,) ────▶ 15 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -1.52587890625e-6, p = -2.0000004333589683, #reverse = 4 ────▶ event ∈ (-2.0000004333589683, -1.9999970339196926), precision = 3.399E-06 Predictor: Secant ────▶ eve (current) (-4.333589682659067e-7,) ──▶ (1.2663606696605711e-6,) ────▶ 16 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 7.62939453125e-7, p = -1.9999987336393303, #reverse = 5 ────▶ event ∈ (-2.0000004333589683, -1.9999987336393303), precision = 1.700E-06 Predictor: Secant ────▶ eve (current) (1.2663606696605711e-6,) ──▶ (4.165008506973322e-7,) ────▶ 17 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 3.814697265625e-7, p = -1.9999995834991493, #reverse = 5 ────▶ event ∈ (-2.0000004333589683, -1.9999995834991493), precision = 8.499E-07 Predictor: Secant ────▶ eve (current) (4.165008506973322e-7,) ──▶ (-8.429058784287236e-9,) ────▶ 18 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -1.9073486328125e-7, p = -2.000000008429059, #reverse = 6 ────▶ event ∈ (-2.000000008429059, -1.9999995834991493), precision = 4.249E-07 Predictor: Secant ────▶ eve (current) (-8.429058784287236e-9,) ──▶ (2.040358959565225e-7,) ────▶ 19 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 9.5367431640625e-8, p = -1.999999795964104, #reverse = 7 ────▶ event ∈ (-2.000000008429059, -1.999999795964104), precision = 2.125E-07 Predictor: Secant ────▶ eve (current) (2.040358959565225e-7,) ──▶ (9.780341869713993e-8,) ────▶ 20 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 4.76837158203125e-8, p = -1.9999999021965813, #reverse = 7 ────▶ event ∈ (-2.000000008429059, -1.9999999021965813), precision = 1.062E-07 Predictor: Secant ────▶ eve (current) (9.780341869713993e-8,) ──▶ (4.468717995642635e-8,) ────▶ 21 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 2.384185791015625e-8, p = -1.99999995531282, #reverse = 7 ────▶ event ∈ (-2.000000008429059, -1.99999995531282), precision = 5.312E-08 Predictor: Secant ────▶ eve (current) (4.468717995642635e-8,) ──▶ (1.812906069709186e-8,) ────▶ 22 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 1.1920928955078126e-8, p = -1.9999999818709393, #reverse = 7 ────▶ event ∈ (-2.000000008429059, -1.9999999818709393), precision = 2.656E-08 Predictor: Secant ────▶ eve (current) (1.812906069709186e-8,) ──▶ (4.850001067424614e-9,) ────▶ 23 - [Bisection] (n1, n_current, n2) = (1, 1, 0) ds = 5.960464477539063e-9, p = -1.999999995149999, #reverse = 7 ────▶ event ∈ (-2.000000008429059, -1.999999995149999), precision = 1.328E-08 Predictor: Secant ────▶ eve (current) (4.850001067424614e-9,) ──▶ (-1.7895289694536132e-9,) ────▶ 24 - [Bisection] (n1, n_current, n2) = (1, 0, 0) ds = -2.9802322387695314e-9, p = -2.000000001789529, #reverse = 8 ────▶ event ∈ (-2.000000001789529, -1.999999995149999), precision = 6.640E-09 ────▶ Found at p = -2.000000001789529 ∈ (-2.000000001789529, -1.999999995149999), δn = 1, from p = -2.1022613909096606 ──────────────────────────────────────── ────▶ Stopping reason: ──────▶ isnothing(next) = false ──────▶ |ds| < dsmin_bisection = false ──────▶ step >= max_bisection_steps = false ──────▶ n_inversion >= n_inversion = true ──────▶ eventlocated = false ────▶ Leaving [Loc-Bif] !! Continuous user point at p ≈ -2.000000001789529 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 42 Step size = 1.0000e-01 Parameter p1 = -2.0000e+00 ──▶ -2.1114e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.0000e+00 ──▶ -2.1089e+00 Predictor: Secant ──▶ Event values: (-1.7895289694536132e-9,) ──▶ (-0.10890835885567185,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 43 Step size = 1.0000e-01 Parameter p1 = -2.1089e+00 ──▶ -2.2178e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.1089e+00 ──▶ -2.2098e+00 Predictor: Secant ──▶ Event values: (-0.10890835885567185,) ──▶ (-0.20978632802030273,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 44 Step size = 1.0000e-01 Parameter p1 = -2.2098e+00 ──▶ -2.3103e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.2098e+00 ──▶ -2.2925e+00 Predictor: Secant ──▶ Event values: (-0.20978632802030273,) ──▶ (-0.2924701488272867,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 45 Step size = 1.0000e-01 Parameter p1 = -2.2925e+00 ──▶ -2.3738e+00 [guess] ──▶ Step Converged in 4 Nonlinear Iteration(s) Parameter p1 = -2.2925e+00 ──▶ -2.3234e+00 Predictor: Secant ──▶ Event values: (-0.2924701488272867,) ──▶ (-0.3233667252269701,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 46 Step size = 1.0000e-01 Parameter p1 = -2.3234e+00 ──▶ -2.3516e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.3234e+00 ──▶ -2.2370e+00 Predictor: Secant ──▶ Event values: (-0.3233667252269701,) ──▶ (-0.23703871354801942,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 47 Step size = 1.0000e-01 Parameter p1 = -2.2370e+00 ──▶ -2.1710e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.2370e+00 ──▶ -2.1183e+00 Predictor: Secant ──▶ Event values: (-0.23703871354801942,) ──▶ (-0.11833171560464839,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 48 Step size = 1.0000e-01 Parameter p1 = -2.1183e+00 ──▶ -2.0095e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.1183e+00 ──▶ -1.9961e+00 Predictor: Secant ──▶ Event values: (-0.11833171560464839,) ──▶ (0.003928127321359609,) ──▶ Event detected before p = -1.9960718726786404 ────▶ Entering [Event], indicator of 2 last events = (1, 0) ────▶ [Bisection] initial ds = 0.1 ────▶ [Bisection] state.ds = -0.1 ──▶ eve (initial) (-0.11833171560464839,) ──▶ (0.003928127321359609,) ────▶ eve (current) (0.003928127321359609,) ──▶ (0.003928127321359609,) ────▶ 0 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -0.05, p = -1.9960718726786404, #reverse = 0 ────▶ event ∈ (-2.1183317156046484, -1.9960718726786404), precision = 1.223E-01 Predictor: Secant ────▶ eve (current) (0.003928127321359609,) ──▶ (-0.05726063351211952,) ────▶ 1 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.025, p = -2.0572606335121195, #reverse = 1 ────▶ event ∈ (-2.0572606335121195, -1.9960718726786404), precision = 6.119E-02 Predictor: Secant ────▶ eve (current) (-0.05726063351211952,) ──▶ (-0.026850515268071806,) ────▶ 2 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.0125, p = -2.026850515268072, #reverse = 1 ────▶ event ∈ (-2.026850515268072, -1.9960718726786404), precision = 3.078E-02 Predictor: Secant ────▶ eve (current) (-0.026850515268071806,) ──▶ (-0.011511713646775945,) ────▶ 3 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.00625, p = -2.011511713646776, #reverse = 1 ────▶ event ∈ (-2.011511713646776, -1.9960718726786404), precision = 1.544E-02 Predictor: Secant ────▶ eve (current) (-0.011511713646775945,) ──▶ (-0.0038138853701057407,) ────▶ 4 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.003125, p = -2.0038138853701057, #reverse = 1 ────▶ event ∈ (-2.0038138853701057, -1.9960718726786404), precision = 7.742E-03 Predictor: Secant ────▶ eve (current) (-0.0038138853701057407,) ──▶ (4.189180612179655e-5,) ────▶ 5 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -0.0015625, p = -1.9999581081938782, #reverse = 2 ────▶ event ∈ (-2.0038138853701057, -1.9999581081938782), precision = 3.856E-03 Predictor: Secant ────▶ eve (current) (4.189180612179655e-5,) ──▶ (-0.0018865490239239335,) ────▶ 6 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.00078125, p = -2.001886549023924, #reverse = 3 ────▶ event ∈ (-2.001886549023924, -1.9999581081938782), precision = 1.928E-03 Predictor: Secant ────▶ eve (current) (-0.0018865490239239335,) ──▶ (-0.0009224706948671724,) ────▶ 7 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.000390625, p = -2.000922470694867, #reverse = 3 ────▶ event ∈ (-2.000922470694867, -1.9999581081938782), precision = 9.644E-04 Predictor: Secant ────▶ eve (current) (-0.0009224706948671724,) ──▶ (-0.0004403250183258045,) ────▶ 8 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 0.0001953125, p = -2.000440325018326, #reverse = 3 ────▶ event ∈ (-2.000440325018326, -1.9999581081938782), precision = 4.822E-04 Predictor: Secant ────▶ eve (current) (-0.0004403250183258045,) ──▶ (-0.00019922567926533574,) ────▶ 9 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 9.765625e-5, p = -2.0001992256792653, #reverse = 3 ────▶ event ∈ (-2.0001992256792653, -1.9999581081938782), precision = 2.411E-04 Predictor: Secant ────▶ eve (current) (-0.00019922567926533574,) ──▶ (-7.866939260958716e-5,) ────▶ 10 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 4.8828125e-5, p = -2.0000786693926096, #reverse = 3 ────▶ event ∈ (-2.0000786693926096, -1.9999581081938782), precision = 1.206E-04 Predictor: Secant ────▶ eve (current) (-7.866939260958716e-5,) ──▶ (-1.8389596001977537e-5,) ────▶ 11 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 2.44140625e-5, p = -2.000018389596002, #reverse = 3 ────▶ event ∈ (-2.000018389596002, -1.9999581081938782), precision = 6.028E-05 Predictor: Secant ────▶ eve (current) (-1.8389596001977537e-5,) ──▶ (1.175071549641693e-5,) ────▶ 12 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -1.220703125e-5, p = -1.9999882492845036, #reverse = 4 ────▶ event ∈ (-2.000018389596002, -1.9999882492845036), precision = 3.014E-05 Predictor: Secant ────▶ eve (current) (1.175071549641693e-5,) ──▶ (-3.319474676022338e-6,) ────▶ 13 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 6.103515625e-6, p = -2.000003319474676, #reverse = 5 ────▶ event ∈ (-2.000003319474676, -1.9999882492845036), precision = 1.507E-05 Predictor: Secant ────▶ eve (current) (-3.319474676022338e-6,) ──▶ (4.215620410086274e-6,) ────▶ 14 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -3.0517578125e-6, p = -1.99999578437959, #reverse = 6 ────▶ event ∈ (-2.000003319474676, -1.99999578437959), precision = 7.535E-06 Predictor: Secant ────▶ eve (current) (4.215620410086274e-6,) ──▶ (4.480728670319678e-7,) ────▶ 15 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -1.52587890625e-6, p = -1.999999551927133, #reverse = 6 ────▶ event ∈ (-2.000003319474676, -1.999999551927133), precision = 3.768E-06 Predictor: Secant ────▶ eve (current) (4.480728670319678e-7,) ──▶ (-1.4357009043841629e-6,) ────▶ 16 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 7.62939453125e-7, p = -2.0000014357009044, #reverse = 7 ────▶ event ∈ (-2.0000014357009044, -1.999999551927133), precision = 1.884E-06 Predictor: Secant ────▶ eve (current) (-1.4357009043841629e-6,) ──▶ (-4.938140185650752e-7,) ────▶ 17 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 3.814697265625e-7, p = -2.0000004938140186, #reverse = 7 ────▶ event ∈ (-2.0000004938140186, -1.999999551927133), precision = 9.419E-07 Predictor: Secant ────▶ eve (current) (-4.938140185650752e-7,) ──▶ (-2.287057565553141e-8,) ────▶ 18 - [Bisection] (n1, n_current, n2) = (0, 0, 1) ds = 1.9073486328125e-7, p = -2.0000000228705757, #reverse = 7 ────▶ event ∈ (-2.0000000228705757, -1.999999551927133), precision = 4.709E-07 Predictor: Secant ────▶ eve (current) (-2.287057565553141e-8,) ──▶ (2.126011457992405e-7,) ────▶ 19 - [Bisection] (n1, n_current, n2) = (0, 1, 1) ds = -9.5367431640625e-8, p = -1.9999997873988542, #reverse = 8 ────▶ event ∈ (-2.0000000228705757, -1.9999997873988542), precision = 2.355E-07 ────▶ Found at p = -1.9999997873988542 ∈ (-2.0000000228705757, -1.9999997873988542), δn = 1, from p = -1.9960718726786404 ──────────────────────────────────────── ────▶ Stopping reason: ──────▶ isnothing(next) = false ──────▶ |ds| < dsmin_bisection = false ──────▶ step >= max_bisection_steps = false ──────▶ n_inversion >= n_inversion = true ──────▶ eventlocated = false ────▶ Leaving [Loc-Bif] !! Continuous user point at p ≈ -1.9999997873988542 ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 49 Step size = 1.0000e-01 Parameter p1 = -2.0000e+00 ──▶ -1.8765e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -2.0000e+00 ──▶ -1.8746e+00 Predictor: Secant ──▶ Event values: (2.126011457992405e-7,) ──▶ (0.12541454498532234,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 50 Step size = 1.0000e-01 Parameter p1 = -1.8746e+00 ──▶ -1.7493e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.8746e+00 ──▶ -1.7468e+00 Predictor: Secant ──▶ Event values: (0.12541454498532234,) ──▶ (0.2532050055403856,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 51 Step size = 1.0000e-01 Parameter p1 = -1.7468e+00 ──▶ -1.6193e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.7468e+00 ──▶ -1.6185e+00 Predictor: Secant ──▶ Event values: (0.2532050055403856,) ──▶ (0.3815317944448464,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 52 Step size = 1.0000e-01 Parameter p1 = -1.6185e+00 ──▶ -1.4904e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.6185e+00 ──▶ -1.4909e+00 Predictor: Secant ──▶ Event values: (0.3815317944448464,) ──▶ (0.5091366130302286,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 53 Step size = 1.0000e-01 Parameter p1 = -1.4909e+00 ──▶ -1.3635e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.4909e+00 ──▶ -1.3656e+00 Predictor: Secant ──▶ Event values: (0.5091366130302286,) ──▶ (0.6343913554035898,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 54 Step size = 1.0000e-01 Parameter p1 = -1.3656e+00 ──▶ -1.2408e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.3656e+00 ──▶ -1.2455e+00 Predictor: Secant ──▶ Event values: (0.6343913554035898,) ──▶ (0.7544753094687404,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 55 Step size = 1.0000e-01 Parameter p1 = -1.2455e+00 ──▶ -1.1263e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.2455e+00 ──▶ -1.1364e+00 Predictor: Secant ──▶ Event values: (0.7544753094687404,) ──▶ (0.8635986779685172,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 56 Step size = 1.0000e-01 Parameter p1 = -1.1364e+00 ──▶ -1.0290e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.1364e+00 ──▶ -1.0494e+00 Predictor: Secant ──▶ Event values: (0.8635986779685172,) ──▶ (0.9506084141369897,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 57 Step size = 1.0000e-01 Parameter p1 = -1.0494e+00 ──▶ -9.6554e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -1.0494e+00 ──▶ -9.9309e-01 Predictor: Secant ──▶ Event values: (0.9506084141369897,) ──▶ (1.0069144000262225,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 58 Step size = 1.0000e-01 Parameter p1 = -9.9309e-01 ──▶ -9.3932e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -9.9309e-01 ──▶ -9.5230e-01 Predictor: Secant ──▶ Event values: (1.0069144000262225,) ──▶ (1.0477009623370268,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 59 Step size = 1.0000e-01 Parameter p1 = -9.5230e-01 ──▶ -9.1236e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -9.5230e-01 ──▶ -9.0310e-01 Predictor: Secant ──▶ Event values: (1.0477009623370268,) ──▶ (1.0969013178742912,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 60 Step size = 1.0000e-01 Parameter p1 = -9.0310e-01 ──▶ -8.5462e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -9.0310e-01 ──▶ -8.3422e-01 Predictor: Secant ──▶ Event values: (1.0969013178742912,) ──▶ (1.1657841705131626,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 61 Step size = 1.0000e-01 Parameter p1 = -8.3422e-01 ──▶ -7.6674e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -8.3422e-01 ──▶ -7.4772e-01 Predictor: Secant ──▶ Event values: (1.1657841705131626,) ──▶ (1.2522822772796536,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 62 Step size = 1.0000e-01 Parameter p1 = -7.4772e-01 ──▶ -6.6271e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = -7.4772e-01 ──▶ -6.4971e-01 Predictor: Secant ──▶ Event values: (1.2522822772796536,) ──▶ (1.3502929305611229,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 63 Step size = 1.0000e-01 Parameter p1 = -6.4971e-01 ──▶ -5.5267e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -6.4971e-01 ──▶ -5.4462e-01 Predictor: Secant ──▶ Event values: (1.3502929305611229,) ──▶ (1.4553817482413955,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 64 Step size = 1.0000e-01 Parameter p1 = -5.4462e-01 ──▶ -4.4005e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -5.4462e-01 ──▶ -4.3511e-01 Predictor: Secant ──▶ Event values: (1.4553817482413955,) ──▶ (1.5648883530692472,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 65 Step size = 1.0000e-01 Parameter p1 = -4.3511e-01 ──▶ -3.2587e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -4.3511e-01 ──▶ -3.2282e-01 Predictor: Secant ──▶ Event values: (1.5648883530692472,) ──▶ (1.677183275755629,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 66 Step size = 1.0000e-01 Parameter p1 = -3.2282e-01 ──▶ -2.1065e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -3.2282e-01 ──▶ -2.0879e-01 Predictor: Secant ──▶ Event values: (1.677183275755629,) ──▶ (1.7912091849513005,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 67 Step size = 1.0000e-01 Parameter p1 = -2.0879e-01 ──▶ -9.4823e-02 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -2.0879e-01 ──▶ -9.3776e-02 Predictor: Secant ──▶ Event values: (1.7912091849513005,) ──▶ (1.9062244542808213,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 68 Step size = 1.0000e-01 Parameter p1 = -9.3776e-02 ──▶ 2.1219e-02 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = -9.3776e-02 ──▶ 2.1652e-02 Predictor: Secant ──▶ Event values: (1.9062244542808213,) ──▶ (2.0216517793398854,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 69 Step size = 1.0000e-01 Parameter p1 = 2.1652e-02 ──▶ 1.3708e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.1652e-02 ──▶ 1.3698e-01 Predictor: Secant ──▶ Event values: (2.0216517793398854,) ──▶ (2.1369780139096477,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 70 Step size = 1.0000e-01 Parameter p1 = 1.3698e-01 ──▶ 2.5230e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 1.3698e-01 ──▶ 2.5167e-01 Predictor: Secant ──▶ Event values: (2.1369780139096477,) ──▶ (2.2516729746800506,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 71 Step size = 1.0000e-01 Parameter p1 = 2.5167e-01 ──▶ 3.6636e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.5167e-01 ──▶ 3.6510e-01 Predictor: Secant ──▶ Event values: (2.2516729746800506,) ──▶ (2.3651026972002307,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 72 Step size = 1.0000e-01 Parameter p1 = 3.6510e-01 ──▶ 4.7850e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.6510e-01 ──▶ 4.7641e-01 Predictor: Secant ──▶ Event values: (2.3651026972002307,) ──▶ (2.476410232124028,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 73 Step size = 1.0000e-01 Parameter p1 = 4.7641e-01 ──▶ 5.8764e-01 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 4.7641e-01 ──▶ 5.8432e-01 Predictor: Secant ──▶ Event values: (2.476410232124028,) ──▶ (2.5843244502911666,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 74 Step size = 1.0000e-01 Parameter p1 = 5.8432e-01 ──▶ 6.9207e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 5.8432e-01 ──▶ 6.8684e-01 Predictor: Secant ──▶ Event values: (2.5843244502911666,) ──▶ (2.686836588721522,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 75 Step size = 1.0000e-01 Parameter p1 = 6.8684e-01 ──▶ 7.8903e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 6.8684e-01 ──▶ 7.8070e-01 Predictor: Secant ──▶ Event values: (2.686836588721522,) ──▶ (2.7806968185807444,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 76 Step size = 1.0000e-01 Parameter p1 = 7.8070e-01 ──▶ 8.7396e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 7.8070e-01 ──▶ 8.6100e-01 Predictor: Secant ──▶ Event values: (2.7806968185807444,) ──▶ (2.8609966965979323,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 77 Step size = 1.0000e-01 Parameter p1 = 8.6100e-01 ──▶ 9.4031e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 8.6100e-01 ──▶ 9.2260e-01 Predictor: Secant ──▶ Event values: (2.8609966965979323,) ──▶ (2.922600575438644,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 78 Step size = 1.0000e-01 Parameter p1 = 9.2260e-01 ──▶ 9.8302e-01 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 9.2260e-01 ──▶ 9.6691e-01 Predictor: Secant ──▶ Event values: (2.922600575438644,) ──▶ (2.9669107068862424,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 79 Step size = 1.0000e-01 Parameter p1 = 9.6691e-01 ──▶ 1.0104e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 9.6691e-01 ──▶ 1.0094e+00 Predictor: Secant ──▶ Event values: (2.9669107068862424,) ──▶ (3.0094192948188434,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 80 Step size = 1.0000e-01 Parameter p1 = 1.0094e+00 ──▶ 1.0513e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.0094e+00 ──▶ 1.0744e+00 Predictor: Secant ──▶ Event values: (3.0094192948188434,) ──▶ (3.0744445773076166,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 81 Step size = 1.0000e-01 Parameter p1 = 1.0744e+00 ──▶ 1.1376e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.0744e+00 ──▶ 1.1722e+00 Predictor: Secant ──▶ Event values: (3.0744445773076166,) ──▶ (3.172207127378895,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 82 Step size = 1.0000e-01 Parameter p1 = 1.1722e+00 ──▶ 1.2654e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.1722e+00 ──▶ 1.2882e+00 Predictor: Secant ──▶ Event values: (3.172207127378895,) ──▶ (3.2882375375531687,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 83 Step size = 1.0000e-01 Parameter p1 = 1.2882e+00 ──▶ 1.4009e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.2882e+00 ──▶ 1.4115e+00 Predictor: Secant ──▶ Event values: (3.2882375375531687,) ──▶ (3.4115204155053718,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 84 Step size = 1.0000e-01 Parameter p1 = 1.4115e+00 ──▶ 1.5333e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.4115e+00 ──▶ 1.5382e+00 Predictor: Secant ──▶ Event values: (3.4115204155053718,) ──▶ (3.5381942223448575,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 85 Step size = 1.0000e-01 Parameter p1 = 1.5382e+00 ──▶ 1.6642e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.5382e+00 ──▶ 1.6663e+00 Predictor: Secant ──▶ Event values: (3.5381942223448575,) ──▶ (3.6663317571389515,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 86 Step size = 1.0000e-01 Parameter p1 = 1.6663e+00 ──▶ 1.7941e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.6663e+00 ──▶ 1.7946e+00 Predictor: Secant ──▶ Event values: (3.6663317571389515,) ──▶ (3.7946030314208166,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 87 Step size = 1.0000e-01 Parameter p1 = 1.7946e+00 ──▶ 1.9226e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.7946e+00 ──▶ 1.9217e+00 Predictor: Secant ──▶ Event values: (3.7946030314208166,) ──▶ (3.921744385288159,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 88 Step size = 1.0000e-01 Parameter p1 = 1.9217e+00 ──▶ 2.0486e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.9217e+00 ──▶ 2.0460e+00 Predictor: Secant ──▶ Event values: (3.921744385288159,) ──▶ (4.046023593531713,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 89 Step size = 1.0000e-01 Parameter p1 = 2.0460e+00 ──▶ 2.1699e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.0460e+00 ──▶ 2.1641e+00 Predictor: Secant ──▶ Event values: (4.046023593531713,) ──▶ (4.164129866974651,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 90 Step size = 1.0000e-01 Parameter p1 = 2.1641e+00 ──▶ 2.2815e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.1641e+00 ──▶ 2.2674e+00 Predictor: Secant ──▶ Event values: (4.164129866974651,) ──▶ (4.267444993331688,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 91 Step size = 1.0000e-01 Parameter p1 = 2.2674e+00 ──▶ 2.3687e+00 [guess] ──▶ Step Converged in 4 Nonlinear Iteration(s) Parameter p1 = 2.2674e+00 ──▶ 2.3248e+00 Predictor: Secant ──▶ Event values: (4.267444993331688,) ──▶ (4.32483080528498,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 92 Step size = 1.0000e-01 Parameter p1 = 2.3248e+00 ──▶ 2.3768e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.3248e+00 ──▶ 2.2685e+00 Predictor: Secant ──▶ Event values: (4.32483080528498,) ──▶ (4.268512666749669,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 93 Step size = 1.0000e-01 Parameter p1 = 2.2685e+00 ──▶ 2.2254e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.2685e+00 ──▶ 2.1710e+00 Predictor: Secant ──▶ Event values: (4.268512666749669,) ──▶ (4.1709751610279655,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 94 Step size = 1.0000e-01 Parameter p1 = 2.1710e+00 ──▶ 2.0807e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.1710e+00 ──▶ 2.0653e+00 Predictor: Secant ──▶ Event values: (4.1709751610279655,) ──▶ (4.065300427118338,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 95 Step size = 1.0000e-01 Parameter p1 = 2.0653e+00 ──▶ 1.9607e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.0653e+00 ──▶ 1.9541e+00 Predictor: Secant ──▶ Event values: (4.065300427118338,) ──▶ (3.9541233264145603,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 96 Step size = 1.0000e-01 Parameter p1 = 1.9541e+00 ──▶ 1.8432e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 1.9541e+00 ──▶ 1.8400e+00 Predictor: Secant ──▶ Event values: (3.9541233264145603,) ──▶ (3.84003868168836,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 97 Step size = 1.0000e-01 Parameter p1 = 1.8400e+00 ──▶ 1.7260e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 1.8400e+00 ──▶ 1.7247e+00 Predictor: Secant ──▶ Event values: (3.84003868168836,) ──▶ (3.72473172076223,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 98 Step size = 1.0000e-01 Parameter p1 = 1.7247e+00 ──▶ 1.6094e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 1.7247e+00 ──▶ 1.6095e+00 Predictor: Secant ──▶ Event values: (3.72473172076223,) ──▶ (3.609522573980209,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 99 Step size = 1.0000e-01 Parameter p1 = 1.6095e+00 ──▶ 1.4943e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 1.6095e+00 ──▶ 1.4958e+00 Predictor: Secant ──▶ Event values: (3.609522573980209,) ──▶ (3.495772482037899,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 100 Step size = 1.0000e-01 Parameter p1 = 1.4958e+00 ──▶ 1.3820e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 1.4958e+00 ──▶ 1.3853e+00 Predictor: Secant ──▶ Event values: (3.495772482037899,) ──▶ (3.385337399046192,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 101 Step size = 1.0000e-01 Parameter p1 = 1.3853e+00 ──▶ 1.2750e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.3853e+00 ──▶ 1.2815e+00 Predictor: Secant ──▶ Event values: (3.385337399046192,) ──▶ (3.281465701189963,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 102 Step size = 1.0000e-01 Parameter p1 = 1.2815e+00 ──▶ 1.1779e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.2815e+00 ──▶ 1.1914e+00 Predictor: Secant ──▶ Event values: (3.281465701189963,) ──▶ (3.1913640781766954,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 103 Step size = 1.0000e-01 Parameter p1 = 1.1914e+00 ──▶ 1.1022e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.1914e+00 ──▶ 1.1356e+00 Predictor: Secant ──▶ Event values: (3.1913640781766954,) ──▶ (3.135597978397435,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 104 Step size = 1.0000e-01 Parameter p1 = 1.1356e+00 ──▶ 1.0823e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.1356e+00 ──▶ 1.1702e+00 Predictor: Secant ──▶ Event values: (3.135597978397435,) ──▶ (3.1701783862625046,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 105 Step size = 1.0000e-01 Parameter p1 = 1.1702e+00 ──▶ 1.1988e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.1702e+00 ──▶ 1.2776e+00 Predictor: Secant ──▶ Event values: (3.1701783862625046,) ──▶ (3.2776372880167233,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 106 Step size = 1.0000e-01 Parameter p1 = 1.2776e+00 ──▶ 1.3709e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.2776e+00 ──▶ 1.3957e+00 Predictor: Secant ──▶ Event values: (3.2776372880167233,) ──▶ (3.3957484980259682,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 107 Step size = 1.0000e-01 Parameter p1 = 1.3957e+00 ──▶ 1.5107e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.3957e+00 ──▶ 1.5202e+00 Predictor: Secant ──▶ Event values: (3.3957484980259682,) ──▶ (3.5201631136735507,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 108 Step size = 1.0000e-01 Parameter p1 = 1.5202e+00 ──▶ 1.6438e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.5202e+00 ──▶ 1.6487e+00 Predictor: Secant ──▶ Event values: (3.5201631136735507,) ──▶ (3.6486658661718128,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 109 Step size = 1.0000e-01 Parameter p1 = 1.6487e+00 ──▶ 1.7768e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.6487e+00 ──▶ 1.7798e+00 Predictor: Secant ──▶ Event values: (3.6486658661718128,) ──▶ (3.7798009519623803,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 110 Step size = 1.0000e-01 Parameter p1 = 1.7798e+00 ──▶ 1.9108e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.7798e+00 ──▶ 1.9127e+00 Predictor: Secant ──▶ Event values: (3.7798009519623803,) ──▶ (3.9127359396364834,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 111 Step size = 1.0000e-01 Parameter p1 = 1.9127e+00 ──▶ 2.0456e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 1.9127e+00 ──▶ 2.0470e+00 Predictor: Secant ──▶ Event values: (3.9127359396364834,) ──▶ (4.04696714728299,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 112 Step size = 1.0000e-01 Parameter p1 = 2.0470e+00 ──▶ 2.1811e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.0470e+00 ──▶ 2.1822e+00 Predictor: Secant ──▶ Event values: (4.04696714728299,) ──▶ (4.182171043239362,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 113 Step size = 1.0000e-01 Parameter p1 = 2.1822e+00 ──▶ 2.3173e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 2.1822e+00 ──▶ 2.3181e+00 Predictor: Secant ──▶ Event values: (4.182171043239362,) ──▶ (4.318129123462045,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 114 Step size = 1.0000e-01 Parameter p1 = 2.3181e+00 ──▶ 2.4541e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.3181e+00 ──▶ 2.4547e+00 Predictor: Secant ──▶ Event values: (4.318129123462045,) ──▶ (4.454687608927973,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 115 Step size = 1.0000e-01 Parameter p1 = 2.4547e+00 ──▶ 2.5912e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.4547e+00 ──▶ 2.5917e+00 Predictor: Secant ──▶ Event values: (4.454687608927973,) ──▶ (4.5917345298399415,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 116 Step size = 1.0000e-01 Parameter p1 = 2.5917e+00 ──▶ 2.7288e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.5917e+00 ──▶ 2.7292e+00 Predictor: Secant ──▶ Event values: (4.5917345298399415,) ──▶ (4.72918601439873,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 117 Step size = 1.0000e-01 Parameter p1 = 2.7292e+00 ──▶ 2.8666e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.7292e+00 ──▶ 2.8670e+00 Predictor: Secant ──▶ Event values: (4.72918601439873,) ──▶ (4.866977717877386,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 118 Step size = 1.0000e-01 Parameter p1 = 2.8670e+00 ──▶ 3.0048e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 2.8670e+00 ──▶ 3.0051e+00 Predictor: Secant ──▶ Event values: (4.866977717877386,) ──▶ (5.005059259802331,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 119 Step size = 1.0000e-01 Parameter p1 = 3.0051e+00 ──▶ 3.1431e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.0051e+00 ──▶ 3.1434e+00 Predictor: Secant ──▶ Event values: (5.005059259802331,) ──▶ (5.143390494716593,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 120 Step size = 1.0000e-01 Parameter p1 = 3.1434e+00 ──▶ 3.2817e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.1434e+00 ──▶ 3.2819e+00 Predictor: Secant ──▶ Event values: (5.143390494716593,) ──▶ (5.281938940897032,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 121 Step size = 1.0000e-01 Parameter p1 = 3.2819e+00 ──▶ 3.4205e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.2819e+00 ──▶ 3.4207e+00 Predictor: Secant ──▶ Event values: (5.281938940897032,) ──▶ (5.42067796338077,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 122 Step size = 1.0000e-01 Parameter p1 = 3.4207e+00 ──▶ 3.5594e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.4207e+00 ──▶ 3.5596e+00 Predictor: Secant ──▶ Event values: (5.42067796338077,) ──▶ (5.5595854619459635,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 123 Step size = 1.0000e-01 Parameter p1 = 3.5596e+00 ──▶ 3.6985e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.5596e+00 ──▶ 3.6986e+00 Predictor: Secant ──▶ Event values: (5.5595854619459635,) ──▶ (5.698642905380923,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 124 Step size = 1.0000e-01 Parameter p1 = 3.6986e+00 ──▶ 3.8377e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.6986e+00 ──▶ 3.8378e+00 Predictor: Secant ──▶ Event values: (5.698642905380923,) ──▶ (5.837834608389984,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 125 Step size = 1.0000e-01 Parameter p1 = 3.8378e+00 ──▶ 3.9770e+00 [guess] ──▶ Step Converged in 2 Nonlinear Iteration(s) Parameter p1 = 3.8378e+00 ──▶ 3.9771e+00 Predictor: Secant ──▶ Event values: (5.837834608389984,) ──▶ (5.977147181812193,) ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Continuation step 126 Step size = 1.0000e-01 Parameter p1 = 3.9771e+00 ──▶ 4.0000e+00 [guess] ──▶ Step Converged in 3 Nonlinear Iteration(s) Parameter p1 = 3.9771e+00 ──▶ 4.0000e+00 Predictor: Secant ──▶ Event values: (5.977147181812193,) ──▶ (6.0,) ┌ Warning: More than one event in `SetOfEvents` was detected. We take the first in the list to save data in the branch. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/events/EventDetection.jl:387 ┌ Warning: More than one event in `SetOfEvents` was detected. We take the first in the list to save data in the branch. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/events/EventDetection.jl:387 ┌ Warning: More than one event in `SetOfEvents` was detected. We take the first in the list to save data in the branch. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/events/EventDetection.jl:387 ┌ Warning: More than one event in `SetOfEvents` was detected. We take the first in the list to save data in the branch. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/events/EventDetection.jl:387 ┌ Warning: More than one event in `SetOfEvents` was detected. We take the first in the list to save data in the branch. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/events/EventDetection.jl:387 ┌ Error: Failure to converge with given tolerance = 1.0e-10. │ Step = 91 │ You can decrease the tolerance or pass a different norm using the argument `normC`. │ We reached the smallest value [dsmin] valid for ds, namely 0.0001. │ Stopping continuation at continuation step 91. └ @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/continuation/Contbase.jl:67 ┌─ Deflation operator with 1 root(s) ├─ eltype = Float64 ├─ power = 2 ├─ α = 1.0 ├─ dist = dot └─ autodiff = false Fold Codim 2: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:47 Got exception outside of a @test LoadError: MethodError: no method matching iterate(::BorderedArray{Vector{Float64}, Float64}) The function `iterate` exists, but no method is defined for this combination of argument types. Closest candidates are: iterate(!Matched::Base.MethodSpecializations) @ Base runtime_internals.jl:1851 iterate(!Matched::Base.MethodSpecializations, !Matched::Nothing) @ Base runtime_internals.jl:1857 iterate(!Matched::Base.MethodSpecializations, !Matched::Int64) @ Base runtime_internals.jl:1858 ... Stacktrace: [1] isempty(itr::BorderedArray{Vector{Float64}, Float64}) @ Base ./essentials.jl:1122 [2] norm(itr::BorderedArray{Vector{Float64}, Float64}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/generic.jl:727 [3] _newton(prob::BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(F_chan), BifurcationKit.var"#119#120"{typeof(F_chan)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64}, PropertyLens{:α}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{DefaultLS}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{α::Float64, β::Float64}, Nothing, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default)}, x0::BorderedArray{Vector{Float64}, Float64}, p0::@NamedTuple{α::Float64, β::Float64}, options::NewtonPar{Float64, FoldLinearSolverMinAug, DefaultEig{typeof(real)}}; normN::typeof(norm), callback::typeof(BifurcationKit.cb_default), kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Newton.jl:78 [4] solve(prob::BifurcationKit.FoldMAProblem{FoldProblemMinimallyAugmented{BifurcationProblem{BifFunction{typeof(F_chan), BifurcationKit.var"#119#120"{typeof(F_chan)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64}, PropertyLens{:α}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{Float64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{DefaultLS}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Float64}, @NamedTuple{α::Float64, β::Float64}, Nothing, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default)}, ::Newton, options::NewtonPar{Float64, FoldLinearSolverMinAug, DefaultEig{typeof(real)}}; kwargs::@Kwargs{normN::typeof(norm)}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Newton.jl:149 [5] newton_fold(prob::BifurcationProblem{BifFunction{typeof(F_chan), BifurcationKit.var"#119#120"{typeof(F_chan)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64}, PropertyLens{:α}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, foldpointguess::BorderedArray{Vector{Float64}, Float64}, par::@NamedTuple{α::Float64, β::Float64}, eigenvec::Vector{Float64}, eigenvec_ad::Vector{Float64}, options::NewtonPar{Float64, DefaultLS, DefaultEig{typeof(real)}}; normN::Function, bdlinsolver::MatrixBLS{Nothing}, usehessian::Bool, kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugFold.jl:259 [6] newton_fold(br::ContResult{BifurcationKit.EquilibriumCont, @NamedTuple{x::Float64, param::Float64, itnewton::Int64, itlinear::Int64, ds::Float64, n_unstable::Int64, n_imag::Int64, stable::Bool, step::Int64}, Vector{ComplexF64}, Matrix{ComplexF64}, SpecialPoint{Float64, @NamedTuple{x::Float64}, Vector{Float64}, Vector{Float64}}, Vector{@NamedTuple{x::Vector{Float64}, p::Float64, step::Int64}}, ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, BifurcationProblem{BifFunction{typeof(F_chan), BifurcationKit.var"#119#120"{typeof(F_chan)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64}, PropertyLens{:α}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}}, ind_fold::Int64; prob::BifurcationProblem{BifFunction{typeof(F_chan), BifurcationKit.var"#119#120"{typeof(F_chan)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64}, PropertyLens{:α}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, normN::typeof(norm), options::NewtonPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, nev::Int64, start_with_eigen::Bool, bdlinsolver::MatrixBLS{Nothing}, kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugFold.jl:295 [7] newton(br::ContResult{BifurcationKit.EquilibriumCont, @NamedTuple{x::Float64, param::Float64, itnewton::Int64, itlinear::Int64, ds::Float64, n_unstable::Int64, n_imag::Int64, stable::Bool, step::Int64}, Vector{ComplexF64}, Matrix{ComplexF64}, SpecialPoint{Float64, @NamedTuple{x::Float64}, Vector{Float64}, Vector{Float64}}, Vector{@NamedTuple{x::Vector{Float64}, p::Float64, step::Int64}}, ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, BifurcationProblem{BifFunction{typeof(F_chan), BifurcationKit.var"#119#120"{typeof(F_chan)}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64}, PropertyLens{:α}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}}, ind_bif::Int64; normN::Function, options::NewtonPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, start_with_eigen::Bool, lens2::typeof(identity), kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/codim2.jl:0 [8] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/testJacobianFoldDeflation.jl:51 [9] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [10] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [12] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:48 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [14] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:49 [inlined] [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [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:286 [19] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/testJacobianFoldDeflation.jl:51 Hopf Codim 2: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:53 Got exception outside of a @test LoadError: MethodError: no method matching iterate(::BorderedArray{Vector{Float64}, Vector{Float64}}) The function `iterate` exists, but no method is defined for this combination of argument types. Closest candidates are: iterate(!Matched::Base.MethodSpecializations) @ Base runtime_internals.jl:1851 iterate(!Matched::Base.MethodSpecializations, !Matched::Nothing) @ Base runtime_internals.jl:1857 iterate(!Matched::Base.MethodSpecializations, !Matched::Int64) @ Base runtime_internals.jl:1858 ... Stacktrace: [1] isempty(itr::BorderedArray{Vector{Float64}, Vector{Float64}}) @ Base ./essentials.jl:1122 [2] norm(itr::BorderedArray{Vector{Float64}, Vector{Float64}}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/generic.jl:727 [3] _newton(prob::BifurcationKit.HopfMAProblem{HopfProblemMinimallyAugmented{BifurcationProblem{BifFunction{BifurcationKit.var"#117#118"{typeof(Fbru!), PropertyLens{:l}}, typeof(Fbru!), Nothing, Nothing, typeof(Jbru_ana), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, PropertyLens{:l}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{ComplexF64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{DefaultLS}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Vector{Float64}}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, Nothing, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default)}, x0::BorderedArray{Vector{Float64}, Vector{Float64}}, p0::@NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, options::NewtonPar{Float64, HopfLinearSolverMinAug, DefaultEig{typeof(real)}}; normN::typeof(norm), callback::typeof(BifurcationKit.cb_default), kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Newton.jl:78 [4] solve(prob::BifurcationKit.HopfMAProblem{HopfProblemMinimallyAugmented{BifurcationProblem{BifFunction{BifurcationKit.var"#117#118"{typeof(Fbru!), PropertyLens{:l}}, typeof(Fbru!), Nothing, Nothing, typeof(Jbru_ana), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, PropertyLens{:l}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Vector{ComplexF64}, Float64, DefaultLS, DefaultLS, MatrixBLS{DefaultLS}, MatrixBLS{DefaultLS}, UniformScaling{Bool}, typeof(norm)}, Nothing, BorderedArray{Vector{Float64}, Vector{Float64}}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, Nothing, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default)}, ::Newton, options::NewtonPar{Float64, HopfLinearSolverMinAug, DefaultEig{typeof(real)}}; kwargs::@Kwargs{normN::typeof(norm)}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/Newton.jl:149 [5] newton_hopf(prob::BifurcationProblem{BifFunction{BifurcationKit.var"#117#118"{typeof(Fbru!), PropertyLens{:l}}, typeof(Fbru!), Nothing, Nothing, typeof(Jbru_ana), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, PropertyLens{:l}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, hopfpointguess::BorderedArray{Vector{Float64}, Vector{Float64}}, par::@NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, eigenvec::Vector{ComplexF64}, eigenvec_ad::Vector{ComplexF64}, options::NewtonPar{Float64, DefaultLS, DefaultEig{typeof(real)}}; normN::Function, bdlinsolver::MatrixBLS{Nothing}, usehessian::Bool, kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugHopf.jl:266 [6] newton_hopf(br::ContResult{BifurcationKit.EquilibriumCont, @NamedTuple{x::Float64, param::Float64, itnewton::Int64, itlinear::Int64, ds::Float64, n_unstable::Int64, n_imag::Int64, stable::Bool, step::Int64}, Vector{ComplexF64}, Matrix{ComplexF64}, SpecialPoint{Float64, @NamedTuple{x::Float64}, Vector{Float64}, Vector{Float64}}, Vector{@NamedTuple{x::Vector{Float64}, p::Float64, step::Int64}}, ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, BifurcationProblem{BifFunction{BifurcationKit.var"#117#118"{typeof(Fbru!), PropertyLens{:l}}, typeof(Fbru!), Nothing, Nothing, typeof(Jbru_ana), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, PropertyLens{:l}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}}, ind_hopf::Int64; prob::BifurcationProblem{BifFunction{BifurcationKit.var"#117#118"{typeof(Fbru!), PropertyLens{:l}}, typeof(Fbru!), Nothing, Nothing, typeof(Jbru_ana), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, PropertyLens{:l}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, normN::typeof(norm), options::NewtonPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, verbose::Bool, nev::Int64, start_with_eigen::Bool, kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/MinAugHopf.jl:303 [7] newton(br::ContResult{BifurcationKit.EquilibriumCont, @NamedTuple{x::Float64, param::Float64, itnewton::Int64, itlinear::Int64, ds::Float64, n_unstable::Int64, n_imag::Int64, stable::Bool, step::Int64}, Vector{ComplexF64}, Matrix{ComplexF64}, SpecialPoint{Float64, @NamedTuple{x::Float64}, Vector{Float64}, Vector{Float64}}, Vector{@NamedTuple{x::Vector{Float64}, p::Float64, step::Int64}}, ContinuationPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, BifurcationProblem{BifFunction{BifurcationKit.var"#117#118"{typeof(Fbru!), PropertyLens{:l}}, typeof(Fbru!), Nothing, Nothing, typeof(Jbru_ana), Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Vector{Float64}, @NamedTuple{α::Float64, β::Float64, D1::Float64, D2::Float64, l::Float64}, PropertyLens{:l}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, PALC{Secant, MatrixBLS{DefaultLS}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}}, ind_bif::Int64; normN::Function, options::NewtonPar{Float64, DefaultLS, DefaultEig{typeof(real)}}, start_with_eigen::Bool, lens2::typeof(identity), kwargs::@Kwargs{}) @ BifurcationKit ~/.julia/packages/BifurcationKit/I0BRP/src/codim2/codim2.jl:0 [8] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/testHopfMA.jl:84 [9] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [10] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [12] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:54 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [14] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:54 [inlined] [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [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:286 [19] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/testHopfMA.jl:84 ┌─ Trapezoid functional for periodic orbits ├─ time slices : 10 ├─ dimension : 2 ├─ jacobian : BifurcationKit.Dense() ├─ update section : 1 ├─ # unknowns without phase condition : 19 └─ inplace : false ┌ Info: (BifurcationKit.Dense(), 1, DefaultLS │ useFactorization: Bool true └ ) Periodic orbits function FD: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 Test threw exception Expression: _test_sorted(BK.eigenvals(br_po, 1)) UndefVarError: `_test_sorted` not defined in `Main` Suggestion: check for spelling errors or missing imports. Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:742 [inlined] [2] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 ┌ Info: (BifurcationKit.DenseAD(), 2, DefaultLS │ useFactorization: Bool true └ ) Periodic orbits function FD: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 Test threw exception Expression: _test_sorted(BK.eigenvals(br_po, 1)) UndefVarError: `_test_sorted` not defined in `Main` Suggestion: check for spelling errors or missing imports. Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:742 [inlined] [2] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 ┌ Info: (BifurcationKit.FullLU(), 3, DefaultLS │ useFactorization: Bool true └ ) Periodic orbits function FD: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 Test threw exception Expression: _test_sorted(BK.eigenvals(br_po, 1)) UndefVarError: `_test_sorted` not defined in `Main` Suggestion: check for spelling errors or missing imports. Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:742 [inlined] [2] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 ┌ Info: (BifurcationKit.BorderedLU(), 4, DefaultLS │ useFactorization: Bool true └ ) Periodic orbits function FD: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 Test threw exception Expression: _test_sorted(BK.eigenvals(br_po, 1)) UndefVarError: `_test_sorted` not defined in `Main` Suggestion: check for spelling errors or missing imports. Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:742 [inlined] [2] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 ┌ Info: (BifurcationKit.FullSparseInplace(), 5, DefaultLS │ useFactorization: Bool true └ ) Periodic orbits function FD: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 Test threw exception Expression: _test_sorted(BK.eigenvals(br_po, 1)) UndefVarError: `_test_sorted` not defined in `Main` Suggestion: check for spelling errors or missing imports. Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:742 [inlined] [2] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:74 ┌ Info: (BifurcationKit.BorderedSparseInplace(), 6, DefaultLS │ useFactorization: Bool true └ ) Internal error: during type inference of kwcall(NamedTuple{(:verbosity, :plot, :linear_algo, :normC), Tuple{Int64, Bool, BifurcationKit.BorderingBLS{BifurcationKit.DefaultLS, Float64}, typeof(BifurcationKit.norminf)}}, typeof(BifurcationKit.continuation), BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Array{Float64, 1}, BifurcationKit.PALC{BifurcationKit.Secant, BifurcationKit.MatrixBLS{Nothing}, Float64, BifurcationKit.DotTheta{BifurcationKit.var"#DotTheta##0#DotTheta##1", BifurcationKit.var"#DotTheta##2#DotTheta##3"}}, BifurcationKit.ContinuationPar{Float64, BifurcationKit.DefaultLS, BifurcationKit.DefaultEig{typeof(Base.real)}}) Encountered unexpected error in runtime: MethodError(f=Base.Compiler.:(⊑), args=(Base.Compiler.JLTypeLattice(), Base.Compiler.LimitedAccuracy(typ=Tuple{Int64, Any, Any}, causes=Base.IdSet{Base.Compiler.InferenceState}(list=Memory{Any}(4, 0x7ac43ba59960)[ Base.Compiler.InferenceState(linfo=var"#_#208"(BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.var"#DotTheta##2#DotTheta##3", BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Array{Float64, 1}, Array{Float64, 1}, Float64, Array{Float64, 1}, Float64, Float64, Float64) from var"#_#208"(Any, 𝒯s, Any, BifurcationKit.BorderingBLS{S, Ttol} where Ttol where S<:Union{Nothing, BifurcationKit.AbstractLinearSolver}, Any, Any, Any, 𝒯, Any, 𝒯, 𝒯ξ, 𝒯ξ) where {𝒯, 𝒯ξ<:Number, 𝒯s}, world=Base.Compiler.WorldWithRange(this=0x0000000000009b09, valid_worlds=Base.Compiler.WorldRange(min_world=0x00000000000098a7, max_world=0x0000000000009b09)), mod=BifurcationKit, sptypes=Array{Base.Compiler.VarState, 1}(dims=(3,), mem=Memory{Base.Compiler.VarState}(3, 0x7ac481597270)[Base.Compiler.VarState(typ=Core.Const(val=Float64), undef=false), Base.Compiler.VarState(typ=Core.Const(val=Float64), undef=false), Base.Compiler.VarState(typ=Core.Const(val=Nothing), undef=false)]), slottypes=Array{Any, 1}(dims=(43,), mem=Memory{Any}(43, 0x7ac43d1f36c0)[ Core.Const(val=BifurcationKit.var"#_#208"), Core.Const(val=BifurcationKit.var"#DotTheta##0#DotTheta##1"()), Core.Const(val=nothing), Core.Const(val=BifurcationKit.var"#DotTheta##2#DotTheta##3"()), BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Array{Float64, 1}, Array{Float64, 1}, Float64, Array{Float64, 1}, Float64, Float64, Float64, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}, Union{}]), src=Core.CodeInfo(code=Array{Any, 1}(dims=(265,), mem=Memory{Any}(265, 0x1bd69080)[ nothing, >, Core.SlotNumber(id=22) = 0, BifurcationKit.var"#BEC0#209", Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=2)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=3)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=5)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=6)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=7)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=8)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=9)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=12)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=13)), Expr(:call, Core.apply_type, SSAValue(4), SSAValue(5), SSAValue(6), SSAValue(7), SSAValue(8), SSAValue(9), SSAValue(10), SSAValue(11), SSAValue(12), SSAValue(13)), Core.SlotNumber(id=21) = Expr(:new, SSAValue(14), Core.SlotNumber(id=2), Core.SlotNumber(id=3), Core.SlotNumber(id=5), Core.SlotNumber(id=6), Core.SlotNumber(id=7), Core.SlotNumber(id=8), Core.SlotNumber(id=9), Core.SlotNumber(id=12), Core.SlotNumber(id=13)), BifurcationKit.var"#res_bec#210", Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=2)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=3)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=5)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=6)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=7)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=8)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=9)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=10)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=11)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=12)), Expr(:call, Core._typeof_captured_variable, Core.SlotNumber(id=13)), Expr(:call, Core.apply_type, SSAValue(16), SSAValue(17), SSAValue(18), SSAValue(19), SSAValue(20), SSAValue(21), SSAValue(22), SSAValue(23), SSAValue(24), SSAValue(25), SSAValue(26), SSAValue(27)), Core.SlotNumber(id=20) = Expr(:new, SSAValue(28), Core.SlotNumber(id=2), Core.SlotNumber(id=3), Core.SlotNumber(id=5), Core.SlotNumber(id=6), Core.SlotNumber(id=7), Core.SlotNumber(id=8), Core.SlotNumber(id=9), Core.SlotNumber(id=10), Core.SlotNumber(id=11), Core.SlotNumber(id=12), Core.SlotNumber(id=13)), Core.SlotNumber(id=21), Expr(:call, SSAValue(30), Core.SlotNumber(id=10), Core.SlotNumber(id=11)), Expr(:call, Base.indexed_iterate, SSAValue(31), 1), Core.SlotNumber(id=19) = Expr(:call, Core.getfield, SSAValue(32), 1), Core.SlotNumber(id=14) = Expr(:call, Core.getfield, SSAValue(32), 2), Core.SlotNumber(id=14), Expr(:call, Base.indexed_iterate, SSAValue(31), 2, SSAValue(35)), Core.SlotNumber(id=18) = Expr(:call, Core.getfield, SSAValue(36), 1), Core.SlotNumber(id=14) = Expr(:call, Core.getfield, SSAValue(36), 2), Core.SlotNumber(id=14), Expr(:call, Base.indexed_iterate, SSAValue(31), 3, SSAValue(39)), Core.SlotNumber(id=17) = Expr(:call, Core.getfield, SSAValue(40), 1), Core.SlotNumber(id=14) = Expr(:call, Core.getfield, SSAValue(40), 2), Core.SlotNumber(id=14), Expr(:call, Base.indexed_iterate, SSAValue(31), 4, SSAValue(43)), Core.SlotNumber(id=16) = Expr(:call, Core.getfield, SSAValue(44), 1), Core.SlotNumber(id=40) = true, Core.SlotNumber(id=40), BifurcationKit.Bool, Expr(:call, Core.isa, SSAValue(47), SSAValue(48)), Core.GotoIfNot(cond=SSAValue(49), dest=52), goto 57, BifurcationKit.Bool, Core.SlotNumber(id=40), Expr(:call, Base.convert, SSAValue(52), SSAValue(53)), BifurcationKit.Bool, Core.SlotNumber(id=40) = Expr(:call, Core.typeassert, SSAValue(54), SSAValue(55)), Core.SlotNumber(id=40), Core.SlotNumber(id=15) = SSAValue(57), Expr(:call, Base.getproperty, Core.SlotNumber(id=5), :(:check_precision)), Core.GotoIfNot(cond=SSAValue(59), dest=260), BifurcationKit.:(<), Core.SlotNumber(id=22), Expr(:call, Base.getproperty, Core.SlotNumber(id=5), :(:k)), Expr(:call, SSAValue(61), SSAValue(62), SSAValue(63)), Core.GotoIfNot(cond=SSAValue(64), dest=260), Core.SlotNumber(id=15), Core.GotoIfNot(cond=SSAValue(66), dest=260), >, >, >, Core.SlotNumber(id=20), Core.SlotNumber(id=19), Core.SlotNumber(id=18), Expr(:call, SSAValue(71), SSAValue(72), SSAValue(73)), Expr(:call, Base.indexed_iterate, SSAValue(74), 1), Core.SlotNumber(id=28) = Expr(:call, Core.getfield, SSAValue(75), 1), Core.SlotNumber(id=24) = Expr(:call, Core.getfield, SSAValue(75), 2), Core.SlotNumber(id=24), Expr(:call, Base.indexed_iterate, SSAValue(74), 2, SSAValue(78)), Core.SlotNumber(id=27) = Expr(:call, Core.getfield, SSAValue(79), 1), BifurcationKit.:(>), BifurcationKit.norm, Core.SlotNumber(id=28), Expr(:call, SSAValue(82), SSAValue(83)), Expr(:call, Base.getproperty, Core.SlotNumber(id=5), :(:tol)), Expr(:call, SSAValue(81), SSAValue(84), SSAValue(85)), Core.GotoIfNot(cond=SSAValue(86), dest=90), Core.SlotNumber(id=42) = SSAValue(86), goto 96, BifurcationKit.:(>), BifurcationKit.abs, Core.SlotNumber(id=27), Expr(:call, SSAValue(91), SSAValue(92)), Expr(:call, Base.getproperty, Core.SlotNumber(id=5), :(:tol)), Core.SlotNumber(id=42) = Expr(:call, SSAValue(90), SSAValue(93), SSAValue(94)), Core.SlotNumber(id=42), Core.SlotNumber(id=41) = SSAValue(96), Core.SlotNumber(id=41), BifurcationKit.Bool, Expr(:call, Core.isa, SSAValue(98), SSAValue(99)), Core.GotoIfNot(cond=SSAValue(100), dest=103), goto 108, BifurcationKit.Bool, Core.SlotNumber(id=41), Expr(:call, Base.convert, SSAValue(103), SSAValue(104)), BifurcationKit.Bool, Core.SlotNumber(id=41) = Expr(:call, Core.typeassert, SSAValue(105), SSAValue(106)), Core.SlotNumber(id=41), Core.SlotNumber(id=15) = SSAValue(108), >, >, >, >, >, >, >, >, Core.SlotNumber(id=38) = Base.CoreLogging.Debug, Core.SlotNumber(id=38), Core.SlotNumber(id=37) = SSAValue(119), Base.CoreLogging.:(>=), Core.SlotNumber(id=37), Expr(:call, Base.getproperty, SSAValue(122), :(:level)), Expr(:call, Base.getindex, Base.Threads.Atomic{Int32}(value=Int32(-1000))), Expr(:call, SSAValue(121), SSAValue(123), SSAValue(124)), Core.GotoIfNot(cond=SSAValue(125), dest=227), Core.SlotNumber(id=36) = :(:LinearBorderSolver), Core.SlotNumber(id=35) = BifurcationKit, Core.SlotNumber(id=37), Core.SlotNumber(id=36), Core.SlotNumber(id=35), Core.SlotNumber(id=34) = Expr(:call, Base.CoreLogging.current_logger_for_env, SSAValue(129), SSAValue(130), SSAValue(131)), Base.CoreLogging.:(!), Base.CoreLogging.:(===), Core.SlotNumber(id=34), Base.CoreLogging.nothing, Expr(:call, SSAValue(134), SSAValue(135), SSAValue(136)), Expr(:call, SSAValue(133), SSAValue(137)), Core.GotoIfNot(cond=SSAValue(138), dest=227), Core.SlotNumber(id=33) = :(:BifurcationKit_a560c337), Base.CoreLogging.invokelatest, Core.SlotNumber(id=34), Core.SlotNumber(id=38), Core.SlotNumber(id=35), Core.SlotNumber(id=36), Core.SlotNumber(id=33), Expr(:call, SSAValue(141), Base.CoreLogging.shouldlog, SSAValue(142), SSAValue(143), SSAValue(144), SSAValue(145), SSAValue(146)), Core.GotoIfNot(cond=SSAValue(147), dest=227), Core.SlotNumber(id=32) = "/home/pkgeval/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl", Base.CoreLogging.isa, Core.SlotNumber(id=32), Base.CoreLogging.String, Expr(:call, SSAValue(150), SSAValue(151), SSAValue(152)), Core.GotoIfNot(cond=SSAValue(153), dest=159), Base.CoreLogging.Base, Expr(:call, Base.getproperty, SSAValue(155), :(:fixup_stdlib_path)), Core.SlotNumber(id=32), Core.SlotNumber(id=32) = Expr(:call, SSAValue(156), SSAValue(157)), Core.SlotNumber(id=31) = 106, Core.EnterNode(catch_dest=173, scope=#), Core.SlotNumber(id=22), BifurcationKit.norm, Core.SlotNumber(id=28), Expr(:call, SSAValue(162), SSAValue(163)), BifurcationKit.abs, Core.SlotNumber(id=27), Expr(:call, SSAValue(165), SSAValue(166)), Core.SlotNumber(id=30) = Expr(:call, Core.tuple, SSAValue(161), SSAValue(164), SSAValue(167)), Core.SlotNumber(id=29) = Expr(:call, Core.NamedTuple), Core.SlotNumber(id=43) = true, Expr(:leave, SSAValue(160)), goto 186, Core.SlotNumber(id=39) = Expr(:the_exception), Base.invokelatest, Core.SlotNumber(id=34), Core.SlotNumber(id=38), Core.SlotNumber(id=35), Core.SlotNumber(id=36), Core.SlotNumber(id=33), Core.SlotNumber(id=32), Core.SlotNumber(id=31), Core.SlotNumber(id=39), Expr(:call, SSAValue(174), Base.CoreLogging.logging_error, SSAValue(175), SSAValue(176), SSAValue(177), SSAValue(178), SSAValue(179), SSAValue(180), SSAValue(181), SSAValue(182), true), Core.SlotNumber(id=43) = false, Expr(:pop_exception, SSAValue(160)), Core.SlotNumber(id=43), Core.GotoIfNot(cond=SSAValue(186), dest=227), Expr(:isdefined, Core.SlotNumber(id=30)), Core.GotoIfNot(cond=SSAValue(188), dest=191), goto 195, Base.throw, Base.AssertionError, Expr(:call, SSAValue(192), "Assertion to tell the compiler about the definedness of this variable"), Expr(:call, SSAValue(191), SSAValue(193)), Expr(:isdefined, Core.SlotNumber(id=29)), Core.GotoIfNot(cond=SSAValue(195), dest=198), goto 202, Base.throw, Base.AssertionError, Expr(:call, SSAValue(199), "Assertion to tell the compiler about the definedness of this variable"), Expr(:call, SSAValue(198), SSAValue(200)), Base.CoreLogging.handle_message_nothrow, Expr(:call, Base.NamedTuple), Core.SlotNumber(id=29), Expr(:call, Base.merge, SSAValue(203), SSAValue(204)), Expr(:call, Base.isempty, SSAValue(205)), Core.GotoIfNot(cond=SSAValue(206), dest=218), Core.SlotNumber(id=34), Core.SlotNumber(id=38), Core.SlotNumber(id=30), Core.SlotNumber(id=35), Core.SlotNumber(id=36), Core.SlotNumber(id=33), Core.SlotNumber(id=32), Core.SlotNumber(id=31), Expr(:call, SSAValue(202), SSAValue(208), SSAValue(209), SSAValue(210), SSAValue(211), SSAValue(212), SSAValue(213), SSAValue(214), SSAValue(215)), goto 227, Core.SlotNumber(id=34), Core.SlotNumber(id=38), Core.SlotNumber(id=30), Core.SlotNumber(id=35), Core.SlotNumber(id=36), Core.SlotNumber(id=33), Core.SlotNumber(id=32), Core.SlotNumber(id=31), Expr(:call, Core.kwcall, SSAValue(205), SSAValue(202), SSAValue(218), SSAValue(219), SSAValue(220), SSAValue(221), SSAValue(222), SSAValue(223), SSAValue(224), SSAValue(225)), Base.CoreLogging.nothing, Core.SlotNumber(id=15), Core.GotoIfNot(cond=SSAValue(228), dest=259), Core.SlotNumber(id=21), Core.SlotNumber(id=28), Core.SlotNumber(id=27), Expr(:call, SSAValue(230), SSAValue(231), SSAValue(232)), Expr(:call, Base.indexed_iterate, SSAValue(233), 1), Core.SlotNumber(id=26) = Expr(:call, Core.getfield, SSAValue(234), 1), Core.SlotNumber(id=23) = Expr(:call, Core.getfield, SSAValue(234), 2), Core.SlotNumber(id=23), Expr(:call, Base.indexed_iterate, SSAValue(233), 2, SSAValue(237)), Core.SlotNumber(id=25) = Expr(:call, Core.getfield, SSAValue(238), 1), Core.SlotNumber(id=23) = Expr(:call, Core.getfield, SSAValue(238), 2), Core.SlotNumber(id=23), Expr(:call, Base.indexed_iterate, SSAValue(233), 3, SSAValue(241)), Core.SlotNumber(id=17) = Expr(:call, Core.getfield, SSAValue(242), 1), Core.SlotNumber(id=23) = Expr(:call, Core.getfield, SSAValue(242), 2), Core.SlotNumber(id=23), Expr(:call, Base.indexed_iterate, SSAValue(233), 4, SSAValue(245)), Core.SlotNumber(id=16) = Expr(:call, Core.getfield, SSAValue(246), 1), BifurcationKit.axpy!, Core.SlotNumber(id=26), Core.SlotNumber(id=19), Expr(:call, SSAValue(248), 1, SSAValue(249), SSAValue(250)), BifurcationKit.:(+), Core.SlotNumber(id=18), Core.SlotNumber(id=25), Core.SlotNumber(id=18) = Expr(:call, SSAValue(252), SSAValue(253), SSAValue(254)), BifurcationKit.:(+), Core.SlotNumber(id=22), Core.SlotNumber(id=22) = Expr(:call, SSAValue(256), SSAValue(257), 1), goto 59, Core.SlotNumber(id=19), Core.SlotNumber(id=18), Core.SlotNumber(id=17), Core.SlotNumber(id=16), Expr(:call, Core.tuple, SSAValue(260), SSAValue(261), SSAValue(262), SSAValue(263)), Core.ReturnNode(val=SSAValue(264))]), debuginfo=Core.DebugInfo(def=:var"/home/pkgeval/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl", linetable=nothing, edges=svec(Core.DebugInfo(def=:var"logging/logging.jl", linetable=nothing, edges=svec(), codelocs="\x80\x01\x00\x00(\x00\x00\x00\x00\x00\x00\x00\x00\x0c\x0d\x0f\x10\x11\x12\x13\x14\x15\x18\x19\x1a\x1b\x1d\x01\x02\x03\x04\x06\x07 !\")")), 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ssavaluetypes=Array{Any, 1}(dims=(265,), mem=Memory{Any}(265, 0x1289d340)[ Core.Const(val=nothing), Any, Core.Const(val=0), Core.Const(val=BifurcationKit.var"#BEC0#209"{dotp, shift, lbs, J, dR, dzu, dzp, ξu, ξp} where ξp where ξu where dzp where dzu where dR where J where lbs where shift where dotp), Core.Const(val=BifurcationKit.var"#DotTheta##0#DotTheta##1"), Core.Const(val=Nothing), Core.Const(val=BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}), Type{BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Core.Const(val=Array{Float64, 1}), Core.Const(val=Array{Float64, 1}), Core.Const(val=Float64), Core.Const(val=Float64), Core.Const(val=Float64), Type{BifurcationKit.var"#BEC0#209"{BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Float64, Float64}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), BifurcationKit.var"#BEC0#209"{BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Float64, Float64} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Core.Const(val=BifurcationKit.var"#res_bec#210"{dotp, shift, lbs, J, dR, dzu, dzp, R, n, ξu, ξp} where ξp where ξu where n where R where dzp where dzu where dR where J where lbs where shift where dotp), Core.Const(val=BifurcationKit.var"#DotTheta##0#DotTheta##1"), Core.Const(val=Nothing), Core.Const(val=BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}), Type{BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Core.Const(val=Array{Float64, 1}), Core.Const(val=Array{Float64, 1}), Core.Const(val=Float64), Core.Const(val=Array{Float64, 1}), Core.Const(val=Float64), Core.Const(val=Float64), Core.Const(val=Float64), Type{BifurcationKit.var"#res_bec#210"{BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Array{Float64, 1}, Float64, Float64, Float64}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), BifurcationKit.var"#res_bec#210"{BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Array{Float64, 1}, Float64, Float64, Float64} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), BifurcationKit.var"#BEC0#209"{BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Float64, Float64} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Core.PartialStruct(typ=Tuple{Any, Any, Bool, Tuple{Int64, Int64}}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(4,), mem=Memory{Union{Nothing, Bool}}(4, 0x7ac49186c720)[false, false, false, false]), fields=Array{Any, 1}(dims=(4,), mem=Memory{Any}(4, 0x7ac4840bfae0)[ Any, Any, Core.Const(val=true), Core.Const(val=(2, 2))])), Core.PartialStruct(typ=Tuple{Any, Int64}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(2,), mem=Memory{Union{Nothing, Bool}}(2, 0x7ac4918cc0a0)[false, false]), fields=Array{Any, 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BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Array{Float64, 1}, Float64, Float64, Float64} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Any, Any, Tuple{Any, Any}, Core.PartialStruct(typ=Tuple{Any, Int64}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(2,), mem=Memory{Union{Nothing, Bool}}(2, 0x7ac4919fd660)[false, false]), fields=Array{Any, 1}(dims=(2,), mem=Memory{Any}(2, 0x7ac47f6d8bc0)[ Any, Core.Const(val=2)])), Any, Core.Const(val=2), Core.Const(val=2), Core.PartialStruct(typ=Tuple{Any, Int64}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(2,), mem=Memory{Union{Nothing, Bool}}(2, 0x7ac4919fe480)[false, false]), fields=Array{Any, 1}(dims=(2,), mem=Memory{Any}(2, 0x7ac47f6d96a0)[ Any, Core.Const(val=3)])), Any, Core.Const(val=Base.:(>)), Core.Const(val=LinearAlgebra.norm), Any, Any, Float64, Any, Any, Any, Any, Core.Const(val=Base.:(>)), Core.Const(val=Base.abs), Any, Any, Float64, Any, Any, Any, Any, Core.Const(val=Bool), Base.Compiler.Conditional(slot=41, thentype=Bool, elsetype=Any, isdefined=false), Any, Any, Core.Const(val=Bool), Any, Any, Core.Const(val=Bool), Bool, Bool, Bool, Any, Any, Any, Any, Any, Any, Any, Any, Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=Base.:(>=)), Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=Int32(-1000)), Int32, Bool, Any, Core.Const(val=:LinearBorderSolver), Core.Const(val=BifurcationKit), Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=:LinearBorderSolver), Core.Const(val=BifurcationKit), Union{Nothing, Base.CoreLogging.AbstractLogger}, Core.Const(val=Base.:(!)), Core.Const(val=var"==="), Union{Nothing, Base.CoreLogging.AbstractLogger}, Core.Const(val=nothing), Base.Compiler.Conditional(slot=34, thentype=Core.Const(val=nothing), elsetype=Base.CoreLogging.AbstractLogger, isdefined=false), Base.Compiler.Conditional(slot=34, thentype=Base.CoreLogging.AbstractLogger, elsetype=Core.Const(val=nothing), isdefined=false), Any, Core.Const(val=:BifurcationKit_a560c337), Core.Const(val=Core.invokelatest), Base.CoreLogging.AbstractLogger, Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=BifurcationKit), Core.Const(val=:LinearBorderSolver), Core.Const(val=:BifurcationKit_a560c337), Any, Any, Core.Const(val="/home/pkgeval/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl"), Core.Const(val=isa), Core.Const(val="/home/pkgeval/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl"), Core.Const(val=String), Base.Compiler.Conditional(slot=32, thentype=Core.Const(val="/home/pkgeval/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl"), elsetype=Union{}, isdefined=false), Any, Core.Const(val=Base), Core.Const(val=Base.fixup_stdlib_path), Core.Const(val="/home/pkgeval/.julia/packages/BifurcationKit/I0BRP/src/LinearBorderSolver.jl"), String, Core.Const(val=106), Any, Core.Const(val=0), Core.Const(val=LinearAlgebra.norm), Any, Any, Core.Const(val=Base.abs), Any, Any, Core.PartialStruct(typ=Tuple{Int64, Any, Any}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(3,), mem=Memory{Union{Nothing, Bool}}(3, 0x7ac491a06480)[false, false, false]), fields=Array{Any, 1}(dims=(3,), mem=Memory{Any}(3, 0x7ac47f6ee060)[ Core.Const(val=0), Any, Any])), Core.Const(val=NamedTuple()), Core.Const(val=true), Any, Any, Any, Core.Const(val=Core.invokelatest), Base.CoreLogging.AbstractLogger, Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.Const(val=BifurcationKit), Core.Const(val=:LinearBorderSolver), Core.Const(val=:BifurcationKit_a560c337), String, Core.Const(val=106), Any, Any, Core.Const(val=false), Core.Const(val=nothing), Bool, Any, Base.Compiler.Conditional(slot=30, thentype=Core.PartialStruct(typ=Tuple{Int64, Any, Any}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(3,), mem=Memory{Union{Nothing, Bool}}(3, 0x7ac491a06480)[false, false, false]), fields=Array{Any, 1}(dims=(3,), mem=Memory{Any}(3, 0x7ac47f6ee060)[ Core.Const(val=0), Any, Any])), elsetype=Core.PartialStruct(typ=Tuple{Int64, Any, Any}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(3,), mem=Memory{Union{Nothing, Bool}}(3, 0x7ac491a06480)[false, false, false]), fields=Array{Any, 1}(dims=(3,), mem=Memory{Any}(3, 0x7ac47f6ee060)[ Core.Const(val=0), Any, Any])), isdefined=true), Any, Any, Core.Const(val=throw), Core.Const(val=AssertionError), Core.Const(val=AssertionError(msg="Assertion to tell the compiler about the definedness of this variable")), Union{}, Base.Compiler.Conditional(slot=29, thentype=Core.Const(val=NamedTuple()), elsetype=Core.Const(val=NamedTuple()), isdefined=true), Any, Any, Core.Const(val=throw), Core.Const(val=AssertionError), Core.Const(val=AssertionError(msg="Assertion to tell the compiler about the definedness of this variable")), Union{}, Core.Const(val=Base.CoreLogging.handle_message_nothrow), Core.Const(val=NamedTuple()), Core.Const(val=NamedTuple()), Core.Const(val=NamedTuple()), Core.Const(val=true), Any, Base.CoreLogging.AbstractLogger, Core.Const(val=Base.CoreLogging.LogLevel(level=Int32(-1000))), Core.PartialStruct(typ=Tuple{Int64, Any, Any}, undefs=Array{Union{Nothing, Bool}, 1}(dims=(3,), mem=Memory{Union{Nothing, Bool}}(3, 0x7ac491a06480)[false, false, false]), fields=Array{Any, 1}(dims=(3,), mem=Memory{Any}(3, 0x7ac47f6ee060)[ Core.Const(val=0), Any, Any])), Core.Const(val=BifurcationKit), Core.Const(val=:LinearBorderSolver), Core.Const(val=:BifurcationKit_a560c337), String, Core.Const(val=106), Any, Any, Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Core.Const(val=nothing), Bool, Any, BifurcationKit.var"#BEC0#209"{BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}}, Array{Float64, 1}, Array{Float64, 1}, Float64, Float64, Float64} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Any, Any, Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound(), Base.Compiler.NotFound()]), ssaflags=Array{UInt32, 1}(dims=(265,), mem=Memory{UInt32}(265, 0x7ac483d8d9a0)[0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000]), slotnames=Array{Symbol, 1}(dims=(43,), mem=Memory{Symbol}(43, 0x7ac43d1f3550)[ :var"#_#208", :dotp, :shift, :applyξu!, :lbs, :J, :dR, :dzu, :dzp, :R, :n, :ξu, :ξp, :var"", :failBLS, :itlinear, :cv, :dl, :dX, :res_bec, :BEC0, :k, :var"", :var"", :dl1, :dX1, :δl, :δX, :kwargs, :msg, :line, :file, :id, :logger, :_module, :group, :std_level, :level, :err, :var"", :var"", :var"", :var""]), slotflags=Array{UInt8, 1}(dims=(43,), mem=Memory{UInt8}(43, 0x7ac4815971d0)[0x00, 0x08, 0x08, 0x00, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x18, 0x58, 0x58, 0x08, 0x08, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x08, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x08, 0x08, 0x00, 0x00]), slottypes=nothing, rettype=Any, parent=var"#_#208"(BifurcationKit.var"#DotTheta##0#DotTheta##1", Nothing, BifurcationKit.var"#DotTheta##2#DotTheta##3", BifurcationKit.BorderingBLS{BifurcationKit.FloquetWrapperLS{BifurcationKit.PeriodicOrbitTrapBLS{BifurcationKit.BorderingBLS{BifurcationKit.AγLinearSolver{BifurcationKit.DefaultLS}, Float64}}}, Float64}, BifurcationKit.FloquetWrapper{BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}, Tjacpb, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}} where Tjacpb<:(BifurcationKit.POTrapJacobianBordered{Array{Float64, 1}, Tag} where Tag<:(BifurcationKit.AγOperatorSparseInplace{_A, _B, _C, BifurcationKit.PeriodicOrbitTrapProblem{BifurcationKit.BifurcationProblem{BifurcationKit.BifFunction{typeof(Main.Fsl), BifurcationKit.var"#119#120"{typeof(Main.Fsl)}, Nothing, Nothing, Main.var"#229#230", Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Float64, Nothing}, Array{Float64, 1}, NamedTuple{(:r, :μ, :ν, :c3), NTuple{4, Float64}}, Accessors.PropertyLens{:r}, typeof(BifurcationKit.plot_default), typeof(BifurcationKit.record_sol_default), typeof(BifurcationKit.save_solution_default), typeof(BifurcationKit.update_default)}, Array{Float64, 1}, BifurcationKit.DefaultLS, Int64, Nothing, BifurcationKit.BorderedSparseInplace}} where _C where _B where _A)), Array{Float64, 1}, Array{Float64, 1}, Float64, Array{Float64, 1}, Float64, Float64, Float64) from var"#_#208"(Any, 𝒯s, Any, BifurcationKit.BorderingBLS{S, Ttol} where Ttol where S<:Union{Nothing, BifurcationKit.AbstractLinearSolver}, Any, Any, Any, 𝒯, Any, 𝒯, 𝒯ξ, 𝒯ξ) where {𝒯, 𝒯ξ<:Number, 𝒯s}, edges=svec(), min_world=0x0000000000000001, max_world=0xffffffffffffffff, method_for_inference_limit_heuristics=nothing, nargs=0x000000000000000d, propagate_inbounds=false, has_fcall=false, has_image_globalref=true, nospecializeinfer=false, isva=false, inlining=0x00, constprop=0x00, purity=0x0000, inlining_cost=0xffff), cfg=Base.Compiler.CFG(blocks=Array{Base.Compiler.BasicBlock, 1}(dims=(37,), mem=Memory{Base.Compiler.BasicBlock}(37, 0x7ac43be44500)[Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=1, stop=50), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f68a0)[0, 2203335065600, 1, 134984687937552, 134985736519688, 134985736519688, 134985802749056, 134985010866224]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6960)[3, 2, 5, 2, 6, 7, 1, 8])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=51, stop=51), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f69c0)[1, -1, 0, 134985802406000, 134985806173360, 1, 134984687937936, 3671]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6a80)[4, -1, 134985890603520, 134985802406000, 134985815634672, 1, 134984687938640, 3759])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=52, stop=56), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6900)[1, 134985736552576, 0, 0, 0, 0, 0, 0]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6ae0)[4, 4311810048, 1, 134985736519688, 134985736519688, 134985736519688, 134985803636784, 134985010866800])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=57, stop=58), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6a20)[2, 3, 1, 134985736519688, 134985736519688, 134985736519688, 134985802891776, 134985010866608]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6ba0)[5, 0, 0, 0, 0, 0, 0, 0])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=59, stop=60), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6b40)[4, 36, 0, 0, 0, 0, 0, 0]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6c60)[37, 6, 1, 134984687939792, 134985736519688, 134985736519688, 134984687939184, 134985010867184])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=61, stop=65), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6cc0)[5, -1, 0, 134985802406000, 134985196238224, 1, 134984687940144, 26409]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6d80)[37, 7, 134985803388160, 134985736519688, 134985736519688, 134985736519688, 134985812148224, 134985010867376])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=66, stop=67), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6de0)[6, -1, 134983245163520, 134985802406000, 134984391719952, 134985736519681, 134984687940560, 671]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6e40)[37, 8, 1, 134984687942640, 134985736519688, 134985736519688, 134985802749056, 134985010867664])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=68, stop=87), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6ea0)[7, -1, 134985834105088, 134985802406000, 134984405141136, 134985936653569, 134985030500624, 31702]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f6f60)[10, 9, 134985890603520, 134985802406000, 134985723186640, 1, 134984687943120, 39079])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=88, stop=89), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6fc0)[8, 282578783305985, 0, 134985736519688, 134985736519688, 134985736519688, 134985335322976, 134985010868048]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7080)[11, 283678294933505, 1, 134985736519688, 134985736519688, 134985736519688, 134985335319936, 134985010868240])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=90, stop=95), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f6f00)[8, 15, 1, 134985028053104, 134985736519688, 134985736519688, 134985840664608, 134985010867856]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f70e0)[11, -1, 134985890613248, 134985802406000, 134985214580432, 134985315633665, 134984687960464, 39079])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=96, stop=101), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7020)[9, 10, 134983245163520, 134985802406000, 134985214580432, 134985889929473, 134984687960080, 39079]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f71a0)[13, 12, 134985890613248, 134985802406000, 134985805160640, 1, 134984687961008, 3673])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=102, stop=102), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7200)[11, 4311810048, 1, 134985736519688, 134985736519688, 134985736519688, 134985825770032, 134985010868624]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f72c0)[14, 4311810048, 134985803388161, 134985736519688, 134984687961680, 134985736519688, 134985816808480, 134985010868816])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=103, stop=107), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7140)[11, 283678294933505, 1, 134985736519688, 134985736519688, 134985736519688, 134985335319936, 134985010868432]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7320)[14, 0, 0, 0, 0, 0, 0, 0])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=108, stop=126), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7260)[12, 13, 134984681613312, 134985802406000, 134985807351216, 1, 134984687961520, 3687]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f73e0)[34, 15, 0, 134985802406000, 134984457190864, 1, 134984687962768, 410])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=127, stop=139), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7440)[14, 4311810048, 134985736525569, 134984687965008, 134985736519688, 134985736519688, 134984687962192, 134985010869200]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f74a0)[34, 16, 1, 134985030510640, 134985736519688, 134985736519688, 134985802749056, 134985010869296])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=140, stop=148), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7500)[15, 465, 0, 7, 30064771072, 0, 8, 134982232178688]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7560)[34, 17, 134984681613312, 134985802406000, 134984391719952, 1, 134984687965520, 671])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=149, stop=154), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f75c0)[16, 2203335065600, 1, 134984687967600, 134985736519688, 134985736519688, 134985802749056, 134985010869584]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7680)[19, 18, 1, 134985736519688, 134985736519688, 134985736519688, 134985803147408, 134985010869776])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=155, stop=158), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f76e0)[17, -1, 0, 134985802406000, 134985189055760, 1, 134984687968048, 22325]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7740)[19, 4311810048, 40097814684673, 134985736519688, 134984687968208, 134985736519688, 134985812148224, 134985010869968])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=159, stop=159), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7620)[17, 18, 134985290401280, 134985802406000, 134985731463952, 1, 134985030511120, 39063]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7800)[20, 282574488338689, 0, 134985736519688, 134985736519688, 134985736519688, 134985816818240, 134985010870160])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=160, stop=160), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f77a0)[19, -1, 134984387909632, 134985802406000, 134985828336800, 1, 134984687968944, 16034]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f78c0)[23, 21, 0, 0, 0, 0, 0, 0])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=161, stop=171), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7920)[20, -1, 134985736525056, 134985802406000, 134984457030608, 1, 134984687969680, 410]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f79e0)[22, -1, 134985890603264, 134985802406000, 134985827239168, 134985889929473, 134984687970352, 26409])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=172, stop=172), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7980)[21, 4311810048, 1, 134984687969904, 134985736519688, 134985736519688, 134984687969360, 134985010870544]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7aa0)[24, -1, 134985736526080, 134985802406000, 134984355526736, 134985852247553, 134984687970800, 4863])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=173, stop=185), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7860)[20, 0, 0, 0, 0, 0, 0, 0]), succs=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7b00)[24, 2203335000065, 1, 134985736519688, 134985736519688, 134985736519688, 134985805240176, 134985010870928])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=186, stop=187), preds=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7a40)[22, 23, 134985243677952, 134985736519688, 134985736519688, 134985736519688, 134985812148224, 134985010870736]), succs=Array{Int64, 1}(dims=(2,), mem=Memory{Int64}(8, 0x7ac4a59f7b60)[34, 25, 134984681613312, 134985802406000, 134984391719952, 1, 134984687971984, 671])), Base.Compiler.BasicBlock(stmts=Base.Compiler.StmtRange(start=188, stop=189), preds=Array{Int64, 1}(dims=(1,), mem=Memory{Int64}(8, 0x7ac4a59f7bc0)[24, 2203335065600, 134985027660033, 134984687974160, 134985736519688, 134985736519688, 134985802749056, 134985010871120]), succs=Array{Int64, 1}(dims=(2,), mem=Int64 Periodic orbits function FD: Error During Test at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:59 Got exception outside of a @test LoadError: StackOverflowError: Stacktrace: [1] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:64 [2] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [3] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [4] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [5] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:60 [inlined] [6] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [7] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:61 [inlined] [8] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [9] top-level scope @ none:6 [10] eval(m::Module, e::Any) @ Core ./boot.jl:489 [11] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [12] _start() @ Base ./client.jl:553 in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:56 caused by: MethodError: no method matching ⊑(::Compiler.JLTypeLattice, ::Compiler.LimitedAccuracy, ::Compiler.LimitedAccuracy) The function `⊑` exists, but no method is defined for this combination of argument types. Closest candidates are: ⊑(!Matched::Compiler.ConstsLattice, ::Any, ::Any) @ Base /opt/julia/share/julia/Compiler/src/typelattice.jl:501 ⊑(!Matched::Compiler.InferenceLattice, ::Any, ::Any) @ Base /opt/julia/share/julia/Compiler/src/typelattice.jl:364 ⊑(!Matched::Compiler.PartialsLattice, ::Any, ::Any) @ Base /opt/julia/share/julia/Compiler/src/typelattice.jl:423 ... Stacktrace: [1] ⊑ @ ./../usr/share/julia/Compiler/src/typelattice.jl:520 [inlined] [2] ⊑(lattice::Compiler.PartialsLattice{Compiler.ConstsLattice}, a::Any, b::Any) @ Compiler ./../usr/share/julia/Compiler/src/typelattice.jl:498 [3] ⊑(lattice::Compiler.ConditionalsLattice{Compiler.PartialsLattice{Compiler.ConstsLattice}}, a::Any, b::Any) @ Compiler ./../usr/share/julia/Compiler/src/typelattice.jl:407 [4] _issubconditional(𝕃::Compiler.ConditionalsLattice{Compiler.PartialsLattice{Compiler.ConstsLattice}}, a::Compiler.Conditional, b::Compiler.Conditional, check_isdefined::Bool) @ Compiler ./../usr/share/julia/Compiler/src/typelattice.jl:257 [5] issubconditional(𝕃::Compiler.ConditionalsLattice{Compiler.PartialsLattice{Compiler.ConstsLattice}}, a::Compiler.Conditional, b::Compiler.Conditional) @ Compiler ./../usr/share/julia/Compiler/src/typelattice.jl:251 [6] ⊑ @ ./../usr/share/julia/Compiler/src/typelattice.jl:392 [inlined] [7] is_lattice_equal(lattice::Compiler.ConditionalsLattice{Compiler.PartialsLattice{Compiler.ConstsLattice}}, a::Any, b::Any) @ Compiler ./../usr/share/julia/Compiler/src/typelattice.jl:539 [8] is_lattice_equal @ ./../usr/share/julia/Compiler/src/typelattice.jl:532 [inlined] [9] record_ssa_assign!(𝕃ᵢ::Compiler.InferenceLattice{Compiler.ConditionalsLattice{Compiler.PartialsLattice{Compiler.ConstsLattice}}}, ssa_id::Int64, new::Any, frame::Compiler.InferenceState) @ Compiler ./../usr/share/julia/Compiler/src/inferencestate.jl:792 [10] typeinf_local(interp::Compiler.NativeInterpreter, frame::Compiler.InferenceState, nextresult::Compiler.CurrentState) @ Compiler ./../usr/share/julia/Compiler/src/abstractinterpretation.jl:4351 [11] typeinf(interp::Compiler.NativeInterpreter, frame::Compiler.InferenceState) @ Compiler ./../usr/share/julia/Compiler/src/abstractinterpretation.jl:4469 [12] typeinf_ext(interp::Compiler.NativeInterpreter, mi::Core.MethodInstance, source_mode::UInt8) @ Compiler ./../usr/share/julia/Compiler/src/typeinfer.jl:1378 [13] typeinf_ext_toplevel @ ./../usr/share/julia/Compiler/src/typeinfer.jl:1561 [inlined] [14] typeinf_ext_toplevel(mi::Core.MethodInstance, world::UInt64, source_mode::UInt8, trim_mode::UInt8) @ Compiler ./../usr/share/julia/Compiler/src/typeinfer.jl:1570 [15] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/stuartLandauTrap.jl:64 [16] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [17] top-level scope @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:8 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [19] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:60 [inlined] [20] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1859 [inlined] [21] macro expansion @ ~/.julia/packages/BifurcationKit/I0BRP/test/runtests.jl:61 [inlined] [22] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [23] top-level scope @ none:6 [24] eval(m::Module, e::Any) @ Core ./boot.jl:489 [25] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [26] _start() @ Base ./client.jl:553 ┌ Warning: The supplied DiffCache was too small and was enlarged. This incurs allocations │ on the first call to `get_tmp`. If few calls to `get_tmp` occur and optimal performance is essential, │ consider changing 'N'/chunk size of this DiffCache to 12. └ @ PreallocationTools ~/.julia/packages/PreallocationTools/Mt9n8/src/PreallocationTools.jl:207 Precompiling packages... 1815.9 ms ✓ DifferentiationInterface → DifferentiationInterfaceSparseMatrixColoringsExt 4379.6 ms ✓ SciMLBase → SciMLBaseChainRulesCoreExt 9621.3 ms ✓ SciMLJacobianOperators 7046.7 ms ✓ LineSearches 3786.2 ms ✓ RecursiveArrayTools → RecursiveArrayToolsFastBroadcastExt 20876.7 ms ✓ LinearSolve 12063.5 ms ✓ LineSearch 17067.3 ms ✓ NonlinearSolveBase 8642.5 ms ✓ DiffEqBase 12011.5 ms ✓ LinearSolve → LinearSolveSparseArraysExt 10656.2 ms ✓ LinearSolve → LinearSolveForwardDiffExt 7288.7 ms ✓ LinearSolve → LinearSolveEnzymeExt 5272.9 ms ✓ LineSearch → LineSearchLineSearchesExt 5127.9 ms ✓ NonlinearSolveBase → NonlinearSolveBaseSparseMatrixColoringsExt 4807.8 ms ✓ NonlinearSolveBase → NonlinearSolveBaseSparseArraysExt 10076.2 ms ✓ NonlinearSolveBase → NonlinearSolveBaseLinearSolveExt 4155.7 ms ✓ NonlinearSolveBase → NonlinearSolveBaseLineSearchExt ====================================================================================== Information request received. A stacktrace will print followed by a 1.0 second profile ====================================================================================== cmd: /opt/julia/bin/julia 321 running 0 of 1 signal (10): User defined signal 1 epoll_pwait at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) uv__io_poll at /workspace/srcdir/libuv/src/unix/linux.c:1404 uv_run at /workspace/srcdir/libuv/src/unix/core.c:430 ijl_task_get_next at /source/src/scheduler.c:457 wait at ./task.jl:1192 wait_forever at ./task.jl:1129 jfptr_wait_forever_62428.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:4015 [inlined] ijl_apply_generic at /source/src/gf.c:4212 jl_apply at /source/src/julia.h:2350 [inlined] start_task at /source/src/task.c:1249 unknown function (ip: (nil)) at (unknown file) ============================================================== Profile collected. A report will print at the next yield point ============================================================== ====================================================================================== Information request received. A stacktrace will print followed by a 1.0 second profile ====================================================================================== cmd: /opt/julia/bin/julia 1 running 0 of 1 signal (10): User defined signal 1 epoll_pwait at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) uv__io_poll at /workspace/srcdir/libuv/src/unix/linux.c:1404 uv_run at /workspace/srcdir/libuv/src/unix/core.c:430 ijl_task_get_next at /source/src/scheduler.c:457 wait at ./task.jl:1192 wait_forever at ./task.jl:1129 jfptr_wait_forever_62428.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:4015 [inlined] ijl_apply_generic at /source/src/gf.c:4212 jl_apply at /source/src/julia.h:2350 [inlined] start_task at /source/src/task.c:1249 unknown function (ip: (nil)) at (unknown file) ============================================================== Profile collected. A report will print at the next yield point ============================================================== ┌ Warning: There were no samples collected in one or more groups. │ This may be due to idle threads, or you may need to run your │ program longer (perhaps by running it multiple times), │ or adjust the delay between samples with `Profile.init()`. └ @ Profile /opt/julia/share/julia/stdlib/v1.13/Profile/src/Profile.jl:1362 Overhead ╎ [+additional indent] Count File:Line Function ========================================================= Thread 1 (default) Task 0x00007b77150f5c30 Total snapshots: 447. Utilization: 0% ╎447 @Base/task.jl:1129 wait_forever() 446╎ 447 @Base/task.jl:1192 wait() ┌ Warning: There were no samples collected in one or more groups. │ This may be due to idle threads, or you may need to run your │ program longer (perhaps by running it multiple times), │ or adjust the delay between samples with `Profile.init()`. └ @ Profile /opt/julia/share/julia/stdlib/v1.13/Profile/src/Profile.jl:1362 21966.7 msOverhead ╎ [+additional indent] Count File:Line Function ========================================================= Thread 1 (default) Task 0x00007ac483452680 Total snapshots: 820. Utilization: 0% ╎820 @Base/task.jl:1129 wait_forever() 819╎ 820 @Base/task.jl:1192 wait() ✓ NonlinearSolveBase → NonlinearSolveBaseForwardDiffExt [321] signal 15: Terminated in expression starting at /home/pkgeval/.julia/packages/BifurcationKit/I0BRP/test/freire.jl:22 epoll_pwait at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) uv__io_poll at /workspace/srcdir/libuv/src/unix/linux.c:1404 uv_run at /workspace/srcdir/libuv/src/unix/core.c:430 ijl_task_get_next at /source/src/scheduler.c:457 wait at ./task.jl:1192 [1] signal 15: Terminated in expression starting at /PkgEval.jl/scripts/evaluate.jl:210 epoll_pwait at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) uv__io_poll at /workspace/srcdir/libuv/src/unix/linux.c:1404 uv_run at /workspace/srcdir/libuv/src/unix/core.c:430 ijl_task_get_next at /source/src/scheduler.c:457 wait at ./task.jl:1192 wait_forever at ./task.jl:1129 jfptr_wait_forever_62428.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:4015 [inlined] ijl_apply_generic at /source/src/gf.c:4212 jl_apply at /source/src/julia.h:2350 [inlined] start_task at /source/src/task.c:1249 unknown function (ip: (nil)) at (unknown file) Allocations: 25832569 (Pool: 25831858; Big: 711); GC: 25 wait_forever at ./task.jl:1129 jfptr_wait_forever_62428.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:4015 [inlined] ijl_apply_generic at /source/src/gf.c:4212 jl_apply at /source/src/julia.h:2350 [inlined] start_task at /source/src/task.c:1249 unknown function (ip: (nil)) at (unknown file) Allocations: 884017229 (Pool: 884008200; Big: 9029); GC: 284 PkgEval terminated after 2744.27s: test duration exceeded the time limit