Package evaluation of Integrals on Julia 1.13.0-DEV.896 (efa4faf9a4*) started at 2025-07-25T16:55:09.873


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# Set-up
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Installing PkgEval dependencies (TestEnv)...

Set-up completed after 13.47s


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# Installation
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Installing Integrals...
   Resolving package versions...
   Installed CompositionsBase ──────────── v0.1.2
   Installed Rmath_jll ─────────────────── v0.5.1+0
   Installed CommonSolve ───────────────── v0.2.4
   Installed MacroTools ────────────────── v0.5.16
   Installed FillArrays ────────────────── v1.13.0
   Installed DataStructures ────────────── v0.18.22
   Installed Adapt ─────────────────────── v4.3.0
   Installed DelimitedFiles ────────────── v1.9.1
   Installed Integrals ─────────────────── v4.7.0
   Installed ConstructionBase ──────────── v1.6.0
   Installed HypergeometricFunctions ───── v0.3.28
   Installed RuntimeGeneratedFunctions ─── v0.5.15
   Installed AliasTables ───────────────── v1.1.3
   Installed MonteCarloIntegration ─────── v0.2.0
   Installed ExprTools ─────────────────── v0.1.10
   Installed OrderedCollections ────────── v1.8.1
   Installed Compat ────────────────────── v4.17.0
   Installed ArrayInterface ────────────── v7.19.0
   Installed SymbolicIndexingInterface ─── v0.3.42
   Installed StatsBase ─────────────────── v0.34.5
   Installed LatticeRules ──────────────── v0.0.1
   Installed Combinatorics ─────────────── v1.0.3
   Installed RecipesBase ───────────────── v1.3.4
   Installed IteratorInterfaceExtensions ─ v1.0.0
   Installed FunctionWrappersWrappers ──── v0.1.3
   Installed DataAPI ───────────────────── v1.16.0
   Installed Statistics ────────────────── v1.11.1
   Installed SciMLOperators ────────────── v1.4.0
   Installed DataValueInterfaces ───────── v1.0.0
   Installed ExproniconLite ────────────── v0.10.14
   Installed SciMLStructures ───────────── v1.7.0
   Installed ConcreteStructs ───────────── v0.2.3
   Installed StatsAPI ──────────────────── v1.7.1
   Installed PrecompileTools ───────────── v1.3.2
   Installed StaticArraysCore ──────────── v1.4.3
   Installed StaticArrays ──────────────── v1.9.14
   Installed GPUArraysCore ─────────────── v0.2.0
   Installed IrrationalConstants ───────── v0.2.4
   Installed QuadGK ────────────────────── v2.11.2
   Installed HCubature ─────────────────── v1.7.0
   Installed StringManipulation ────────── v0.4.1
   Installed IntegerMathUtils ──────────── v0.1.3
   Installed Requires ──────────────────── v1.3.1
   Installed FunctionWrappers ──────────── v1.1.3
   Installed OpenSpecFun_jll ───────────── v0.5.6+0
   Installed LogExpFunctions ───────────── v0.3.29
   Installed Rmath ─────────────────────── v0.8.0
   Installed StatsFuns ─────────────────── v1.5.0
   Installed Tables ────────────────────── v1.12.1
   Installed PrettyTables ──────────────── v2.4.0
   Installed PtrArrays ─────────────────── v1.3.0
   Installed EnumX ─────────────────────── v1.0.5
   Installed SciMLBase ─────────────────── v2.104.0
   Installed SpecialFunctions ──────────── v2.5.1
   Installed Distributions ─────────────── v0.25.120
   Installed InverseFunctions ──────────── v0.1.17
   Installed Sobol ─────────────────────── v1.5.0
   Installed Reexport ──────────────────── v1.2.2
   Installed Jieko ─────────────────────── v0.2.1
   Installed Missings ──────────────────── v1.2.0
   Installed JLLWrappers ───────────────── v1.7.1
   Installed TableTraits ───────────────── v1.0.1
   Installed Preferences ───────────────── v1.4.3
   Installed LaTeXStrings ──────────────── v1.4.0
   Installed SortingAlgorithms ─────────── v1.2.1
   Installed PDMats ────────────────────── v0.11.35
   Installed Primes ────────────────────── v0.5.7
   Installed Crayons ───────────────────── v4.1.1
   Installed Moshi ─────────────────────── v0.3.7
   Installed RecursiveArrayTools ───────── v3.35.0
   Installed QuasiMonteCarlo ───────────── v0.3.3
   Installed ADTypes ───────────────────── v1.15.0
   Installed DocStringExtensions ───────── v0.9.5
   Installed Accessors ─────────────────── v0.1.42
  Installing 2 artifacts
   Installed artifact Rmath       121.9 KiB
   Installed artifact OpenSpecFun 194.9 KiB
    Updating `~/.julia/environments/v1.13/Project.toml`
  [de52edbc] + Integrals v4.7.0
    Updating `~/.julia/environments/v1.13/Manifest.toml`
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Installation completed after 8.94s


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# Precompilation
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Precompiling PkgEval dependencies...
Precompiling packages...
   3280.3 ms  ✓ TestEnv
  1 dependency successfully precompiled in 4 seconds. 26 already precompiled.

Precompiling package dependencies...

Precompilation completed after 605.14s


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# Testing
#

     Testing Integrals
      Status `/tmp/jl_1hDJ5g/Project.toml`
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     Testing Running tests...
Test Summary:     | Pass  Total     Time
Quality Assurance |   10     10  2m01.3s
121.517774 seconds (39.67 M allocations: 1.964 GiB, 2.54% gc time, 2 lock conflicts, 18.88% compilation time: <1% of which was recompilation)
┌ Warning: `IntegralProblem{iip}(f::AbstractIntegralFunction, lb::Union{Number, AbstractVector{<:Number}}, ub::Union{Number, AbstractVector{<:Number}}, p = NullParameters(); kwargs...) where iip` is deprecated, use `IntegralProblem{iip}(f, (lb, ub), p; kwargs...)` instead.
│   caller = ip:0x0
└ @ Core :-1
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1

Standard Single Dimension Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:97
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 0, Float64, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#3#4", Nothing}, Tuple{Float64, Float64}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#3#4", Nothing}, Tuple{Float64, Float64}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} where {_A, _B, _C}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:108 [inlined]
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:98
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1

Standard Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:115
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 0, Float64, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#3#4", Nothing}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#3#4", Nothing}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} where {_A, _B, _C}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:126 [inlined]
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:116
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1

In-place Standard Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:134
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 0, Array{Float64, 0}, Vector{Float64}, SciMLBase.IntegralProblem{true, SciMLBase.NullParameters, SciMLBase.IntegralFunction{true, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#11#12"{Main.var"##Interface Tests#285".var"#3#4"}, Array{Float64, 0}}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, _D, SciMLBase.IntegralProblem{true, SciMLBase.NullParameters, SciMLBase.IntegralFunction{true, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#11#12"{Main.var"##Interface Tests#285".var"#3#4"}, Array{Float64, 0}}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} where {_A, _B, _C, _D}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:145 [inlined]
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:135
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1

Standard Single Dimension Vector Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:222
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 1, Vector{Float64}, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#42#43"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Float64, Float64}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#42#43"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Float64, Float64}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} where {_A, _B, _C}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:223
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:236 [inlined]
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1

Standard Vector Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:248
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 1, Vector{Float64}, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#45#46"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, Nothing, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.IntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#45#46"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.GaussLegendre{false, Vector{Float64}, Vector{Float64}}, Nothing, Nothing} where {_A, _B, _C}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:249
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:262 [inlined]
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1

In-place Standard Vector Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:275
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 1, Vector{Float64}, Vector{Float64}, SciMLBase.IntegralProblem{true, SciMLBase.NullParameters, SciMLBase.IntegralFunction{true, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#48#49"{Int64, Main.var"##Interface Tests#285".var"#23#24"{Main.var"##Interface Tests#285".var"#15#16"}}, Vector{Float64}}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, _D, SciMLBase.IntegralProblem{true, SciMLBase.NullParameters, SciMLBase.IntegralFunction{true, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#48#49"{Int64, Main.var"##Interface Tests#285".var"#23#24"{Main.var"##Interface Tests#285".var"#15#16"}}, Vector{Float64}}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} where {_A, _B, _C, _D}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:276
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:290 [inlined]
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2

Batched Single Dimension Vector Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:303
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 1, Vector{Float64}, Vector{Float64}, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.BatchIntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#batch_f_v##0#batch_f_v##1"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Float64, Float64}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, _D, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.BatchIntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#batch_f_v##0#batch_f_v##1"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Float64, Float64}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} where {_A, _B, _C, _D}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:314 [inlined]
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:304
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2

Batched Standard Vector Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:321
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 1, Vector{Float64}, Vector{Float64}, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.BatchIntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#batch_f_v##0#batch_f_v##1"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, _D, SciMLBase.IntegralProblem{false, SciMLBase.NullParameters, SciMLBase.BatchIntegralFunction{false, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#batch_f_v##0#batch_f_v##1"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Nothing}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} where {_A, _B, _C, _D}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:335 [inlined]
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:322
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/u2Ue2/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2

In-Place Batched Standard Vector Integrands: Error During Test at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:343
  Got exception outside of a @test
  return type SciMLBase.IntegralSolution{Float64, 1, Vector{Float64}, Vector{Float64}, SciMLBase.IntegralProblem{true, SciMLBase.NullParameters, SciMLBase.BatchIntegralFunction{true, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#batch_iip_f_v##0#batch_iip_f_v##1"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Matrix{Float64}}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} does not match inferred return type SciMLBase.IntegralSolution{_A, _B, _C, _D, SciMLBase.IntegralProblem{true, SciMLBase.NullParameters, SciMLBase.BatchIntegralFunction{true, SciMLBase.FullSpecialize, Main.var"##Interface Tests#285".var"#batch_iip_f_v##0#batch_iip_f_v##1"{Main.var"##Interface Tests#285".var"#15#16", Int64}, Matrix{Float64}}, Tuple{Vector{Float64}, Vector{Float64}}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}, Integrals.CubatureJLp, Nothing, Nothing} where {_A, _B, _C, _D}
  Stacktrace:
    [1] error(s::String)
      @ Base ./error.jl:44
    [2] macro expansion
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:356 [inlined]
    [3] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [4] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/interface_tests.jl:344
    [5] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
    [6] top-level scope
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24
    [7] macro expansion
      @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1858 [inlined]
    [8] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:24 [inlined]
    [9] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [10] macro expansion
      @ ~/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
   [11] macro expansion
      @ ./timing.jl:645 [inlined]
   [12] top-level scope
      @ ~/.julia/packages/Integrals/SFA2j/test/runtests.jl:353
   [13] include(mapexpr::Function, mod::Module, _path::String)
      @ Base ./Base.jl:312
   [14] top-level scope
      @ none:6
   [15] eval(m::Module, e::Any)
      @ Core ./boot.jl:489
   [16] exec_options(opts::Base.JLOptions)
      @ Base ./client.jl:286
   [17] _start()
      @ Base ./client.jl:553
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/SFA2j/src/common.jl:66
Test Summary:                                 | Pass  Error  Total     Time
Interface Tests                               |  301      9    310  4m13.1s
  Standard Single Dimension Integrands        |    4      1      5     8.7s
  Standard Integrands                         |    8      1      9     6.7s
  In-place Standard Integrands                |   12      1     13     7.2s
  Batched Single Dimension Integrands         |   20            20    21.4s
  Batched Standard Integrands                 |   48            48    40.1s
  In-Place Batched Standard Integrands        |   48            48    31.3s
  Standard Single Dimension Vector Integrands |    8      1      9     2.5s
  Standard Vector Integrands                  |   16      1     17     3.3s
  In-place Standard Vector Integrands         |   24      1     25     9.5s
  Batched Single Dimension Vector Integrands  |    4      1      5     5.8s
  Batched Standard Vector Integrands          |   12      1     13     9.0s
  In-Place Batched Standard Vector Integrands |   12      1     13     9.8s
  Allowed keyword test                        |    1             1     0.4s
  Caching interface                           |   80            80  1m20.4s
  issue242                                    |    4             4     2.3s
RNG of the outermost testset: Random.Xoshiro(0x3b5f89c0d73397b2, 0x7fe444f8c3cc102a, 0x089fbbfb4654cd15, 0xab47ce0103c9e1a9, 0x9521a69a9cc4f538)
ERROR: LoadError: Some tests did not pass: 301 passed, 0 failed, 9 errored, 0 broken.
in expression starting at /home/pkgeval/.julia/packages/Integrals/SFA2j/test/runtests.jl:5

Testing failed after 387.25s

ERROR: LoadError: Package Integrals errored during testing
Stacktrace:
  [1] pkgerror(::String, ::Vararg{String})
    @ Pkg.Types /opt/julia/share/julia/stdlib/v1.13/Pkg/src/Types.jl:68
  [2] test(ctx::Pkg.Types.Context, pkgs::Vector{PackageSpec}; coverage::Bool, julia_args::Cmd, test_args::Cmd, test_fn::Nothing, force_latest_compatible_version::Bool, allow_earlier_backwards_compatible_versions::Bool, allow_reresolve::Bool)
    @ Pkg.Operations /opt/julia/share/julia/stdlib/v1.13/Pkg/src/Operations.jl:2661
  [3] test
    @ /opt/julia/share/julia/stdlib/v1.13/Pkg/src/Operations.jl:2510 [inlined]
  [4] test(ctx::Pkg.Types.Context, pkgs::Vector{PackageSpec}; coverage::Bool, test_fn::Nothing, julia_args::Cmd, test_args::Cmd, force_latest_compatible_version::Bool, allow_earlier_backwards_compatible_versions::Bool, allow_reresolve::Bool, kwargs::@Kwargs{io::IOContext{IO}})
    @ Pkg.API /opt/julia/share/julia/stdlib/v1.13/Pkg/src/API.jl:538
  [5] test(pkgs::Vector{PackageSpec}; io::IOContext{IO}, kwargs::@Kwargs{julia_args::Cmd})
    @ Pkg.API /opt/julia/share/julia/stdlib/v1.13/Pkg/src/API.jl:168
  [6] test(pkgs::Vector{String}; kwargs::@Kwargs{julia_args::Cmd})
    @ Pkg.API /opt/julia/share/julia/stdlib/v1.13/Pkg/src/API.jl:156
  [7] test
    @ /opt/julia/share/julia/stdlib/v1.13/Pkg/src/API.jl:156 [inlined]
  [8] #test#81
    @ /opt/julia/share/julia/stdlib/v1.13/Pkg/src/API.jl:155 [inlined]
  [9] top-level scope
    @ /PkgEval.jl/scripts/evaluate.jl:219
 [10] include(mod::Module, _path::String)
    @ Base ./Base.jl:311
 [11] exec_options(opts::Base.JLOptions)
    @ Base ./client.jl:320
 [12] _start()
    @ Base ./client.jl:553
in expression starting at /PkgEval.jl/scripts/evaluate.jl:210

PkgEval failed after 1050.47s: package tests unexpectedly errored