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Fix trace equivalence for infinite isometries (#1212) #4171

Fix trace equivalence for infinite isometries (#1212)

Fix trace equivalence for infinite isometries (#1212) #4171

Triggered via push September 19, 2023 06:43
Status Failure
Total duration 1h 12m 26s
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on: push
Matrix: test
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4 errors and 10 warnings
test (~1.10.0-0, ubuntu-latest)
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test (~1.10.0-0, ubuntu-latest)
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test (nightly, ubuntu-latest)
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test (nightly, ubuntu-latest)
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Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Utilities/Utilities.jl#L34
2346 docstrings not included in the manual: height_pairing :: Union{Tuple{T}, Tuple{EllCrvPt{T}, EllCrvPt{T}}, Tuple{EllCrvPt{T}, EllCrvPt{T}, Int64}} where T<:Union{QQFieldElem, nf_elem} prime_divisors :: Tuple{ZZRingElem} prime_divisors :: Tuple{Int64} fq_default_mat airy_ai :: Union{Tuple{ComplexFieldElem}, Tuple{ComplexFieldElem, Int64}} airy_ai :: Tuple{acb} airy_ai :: Union{Tuple{RealFieldElem}, Tuple{RealFieldElem, Int64}} airy_ai :: Tuple{arb} modp_reduction :: Tuple{EllCrv{nf_elem}, NfOrdIdl} factorial :: Union{Tuple{Int64, RealField}, Tuple{Int64, RealField, Int64}} factorial :: Tuple{Int64, ArbField} factorial :: Union{Tuple{RealFieldElem}, Tuple{RealFieldElem, Int64}} factorial :: Tuple{arb} factorial :: Tuple{ZZRingElem} coordinates :: Tuple{Union{Hecke.AlgAssAbsOrdElem, Hecke.AlgAssRelOrdElem}} coordinates :: Tuple{NfAbsOrdElem} coordinates :: Tuple{Hecke.NfRelOrdElem} id :: Tuple{TorQuadModule} id :: Tuple{GrpGen} local_multiplicative_group_modulo_squares :: Tuple{Vector{ZZRingElem}} formal_inverse :: Union{Tuple{EllCrv}, Tuple{EllCrv, Int64}} simplest_between :: Tuple{QQFieldElem, QQFieldElem} hnf_with_transform :: Tuple{ZZMatrix} right_kernel_basis :: Union{Tuple{MatElem{T}}, Tuple{T}} where T<:FieldElem gfp_fmpz_rel_series det_given_divisor :: Union{Tuple{ZZMatrix, ZZRingElem}, Tuple{ZZMatrix, ZZRingElem, Any}} det_given_divisor :: Union{Tuple{ZZMatrix, Integer}, Tuple{ZZMatrix, Integer, Any}} atkin_modular_polynomial NGFiniteField :: Union{Tuple{Union{Integer, ZZRingElem}, Int64}, Tuple{Union{Integer, ZZRingElem}, Int64, Union{Char, AbstractString, Symbol}}} is_exact :: Tuple{ComplexOfMorphisms} norm_equation :: Tuple{Union{fqPolyRepField, Hecke.RelFinField}, Union{fpFieldElem, fqPolyRepFieldElem}} group_algebra :: Tuple{Ring, Any} identity_isogeny :: Tuple{EllCrv} isdivisible2 FqNmodFiniteField Order :: Union{Tuple{T}, Tuple{S}, Tuple{S, Vector{T}}} where {S<:Hecke.AbsAlgAss{QQFieldElem}, T<:Hecke.AbsAlgAssElem{QQFieldElem}} Order :: Union{Tuple{S}, Tuple{S, FakeFmpqMat}} where S<:Hecke.AbsAlgAss{QQFieldElem} Order :: Union{Tuple{S}, Tuple{S, QQMatrix}} where S<:Union{NfAbsNS, AnticNumberField} Order :: Union{Tuple{S}, Tuple{S, FakeFmpqMat}} where S<:NumField{QQFieldElem} Order :: Union{Tuple{S}, Tuple{S, ZZMatrix}, Tuple{S, ZZMatrix, Bool}, Tuple{S, ZZMatrix, Bool, Bool}} where S Order :: Union{Tuple{S}, Tuple{Hecke.AbsAlgAss{S}, AbstractAlgebra.Generic.Mat{S}}} where S<:NumFieldElem Order :: Union{Tuple{T}, Tuple{S}, Tuple{S, Vector{T}}} where {S<:NumField{QQFieldElem}, T<:NumFieldElem{QQFieldElem}} Order :: Union{Tuple{T}, Tuple{S}, Tuple{Hecke.AbsAlgAss{S}, Hecke.PMat{S, T}}} where {S<:NumFieldElem, T} Order :: Union{Tuple{S}, Tuple{Hecke.AbsAlgAss{S}, Vector{<:Hecke.AbsAlgAssElem{S}}}} where S<:NumFieldElem set_printing_mode :: Tuple{Type{FlintPadicField}, Symbol} zzModRing kodaira_symbols :: Tuple{EllCrv{nf_elem}} kodaira_symbols :: Tuple{EllCrv{QQFieldElem}} upper_bound :: Tuple{Type{ZZRingElem}, arb} slope_factorization :: Union{Tuple{AbstractAlgebra.Generic.Poly{T}}, Tuple{T}} where T<:Union{padic, qadic, Hecke.LocalFieldElem} _mathnf :: Tuple{MatElem{ZZRingElem}} is_gen :: Tuple{ZZLaurentSeriesRingElem} is_gen :: Tuple{FqFieldElem} is_gen :: Tuple{FlintPuiseuxSeriesElem} is_gen :: Tuple{FqPolyRepFieldElem} is_gen :: Tuple{nf_elem} isreduced _automorphous_numbers :: Tuple{ZZGenus} rresx :: Union{Tuple{T}, Tuple{S}, Tuple{PolyRingElem{T}, PolyRingElem{T}}} where {S<:Union{Integer, ZZRingElem}, T<:ResElem{S}} rresx :: Tuple{ZZPolyRingElem, ZZPolyRingElem} isone_sided is_commutative :: Tuple{Hecke.AlgAssAbsOrd} is_commutative :: Tuple{AlgAss} is_commutative :: Tuple{AlgGrp} is_commutative :: Tuple{Hecke.AlgAssRelOrd} is_commutative :: Tuple{AlgMat} teichmuller :: Tuple{padic} teichmuller :: Tuple{qadic} resultant_ideal :: U
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `stable` and linking `stable` to `v0.21.0`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.21` and linking `v0.21` to `v0.21.0`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.20` and linking `v0.20` to `v0.20.3`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.19` and linking `v0.19` to `v0.19.13`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.18` and linking `v0.18` to `v0.18.16`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.17` and linking `v0.17` to `v0.17.5`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.16` and linking `v0.16` to `v0.16.10`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.15` and linking `v0.15` to `v0.15.8`.
Documentation: ../../../.julia/packages/Documenter/bYYzK/src/Documenter.jl#L800
removing `v0.14` and linking `v0.14` to `v0.14.13`.