Replace more uses of isFOO by is_foo #4313
Triggered via pull request
November 1, 2023 16:55
Status
Failure
Total duration
1h 30m 4s
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CI.yml
on: pull_request
Documentation
12m 16s
Matrix: test
Annotations
4 errors and 1 warning
test (~1.10.0-0, ubuntu-latest)
The runner has received a shutdown signal. This can happen when the runner service is stopped, or a manually started runner is canceled.
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test (~1.10.0-0, ubuntu-latest)
Process completed with exit code 143.
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test (nightly, ubuntu-latest)
The runner has received a shutdown signal. This can happen when the runner service is stopped, or a manually started runner is canceled.
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test (nightly, ubuntu-latest)
Process completed with exit code 143.
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Documentation:
../../../.julia/packages/Documenter/bYYzK/src/Utilities/Utilities.jl#L34
2351 docstrings not included in the manual:
coefficient_ring :: Tuple{Hecke.ModAlgAss}
isregular_at
issplit
islocal_square
FqNmodPolyRing
canonical_projections :: Tuple{GrpAbFinGen}
isin
FmpzMPolyRing
issublattice
size :: Tuple{ZZRingElem}
isdiagonalisable
completion_easy :: Tuple{AnticNumberField, NfOrdIdl}
rational_canonical_form :: Union{Tuple{MatElem{T}}, Tuple{T}} where T<:FieldElem
prime_field :: Tuple{FqField}
overlaps :: Tuple{acb, acb}
overlaps :: Tuple{ComplexPoly, ComplexPoly}
overlaps :: Tuple{arb_mat, arb_mat}
overlaps :: Tuple{ComplexFieldElem, ComplexFieldElem}
overlaps :: Tuple{acb_poly, acb_poly}
overlaps :: Tuple{arb_poly, arb_poly}
overlaps :: Tuple{RealMat, RealMat}
overlaps :: Tuple{acb_mat, acb_mat}
overlaps :: Tuple{RealFieldElem, RealFieldElem}
overlaps :: Tuple{ComplexMat, ComplexMat}
overlaps :: Tuple{arb, arb}
overlaps :: Tuple{RealPoly, RealPoly}
_iseven :: Tuple{MatElem}
const_log2 :: Union{Tuple{RealField}, Tuple{RealField, Int64}}
const_log2 :: Tuple{ArbField}
lazy_factor :: Tuple{PolyRingElem}
order_via_exhaustive_search :: Union{Tuple{EllCrv{T}}, Tuple{T}} where T<:FinFieldElem
primary_decomposition :: Union{Tuple{Hecke.AlgAssAbsOrdIdl}, Tuple{Hecke.AlgAssAbsOrdIdl, Hecke.AlgAssAbsOrd}}
islocally_isomorphic_with_isomophism
FlintPadicField :: Tuple{Integer, Int64}
FlintPadicField
fmpq_abs_series
fq_default_poly
divisor_sigma :: Tuple{ZZRingElem, Int64}
angle :: Tuple{ca}
isequal_abs
absolute_tr :: Tuple{T} where T<:NumFieldElem
get_verbose_level
fq_nmod_rel_series
formal_y :: Union{Tuple{EllCrv}, Tuple{EllCrv, Int64}}
is2_normal_difficult
fq_poly
is_undefined :: Tuple{ca}
ischaracteristic
genera
fmpz_mpoly
isreduced
quotient :: Tuple{GrpGen, GrpGen, GrpGenToGrpGenMor}
representation_matrix :: Union{Tuple{T}, Tuple{S}, Tuple{NfAbsOrdElem{S, T}, S}} where {S, T}
representation_matrix :: Union{Tuple{Hecke.AlgAssAbsOrdElem}, Tuple{Hecke.AlgAssAbsOrdElem, Symbol}}
representation_matrix :: Union{Tuple{AlgGrpElem}, Tuple{AlgGrpElem, Symbol}}
representation_matrix :: Union{Tuple{Hecke.AlgAssRelOrdElem}, Tuple{Hecke.AlgAssRelOrdElem, Symbol}}
roots :: Union{Tuple{QQMPolyRingElem}, Tuple{QQMPolyRingElem, Int64}}
root :: Tuple{Hecke.MPolyFact.RootCtx, Int64, Int64}
isnorm
continued_fraction_with_matrix :: Tuple{arb}
iscommutative
composition_series :: Union{Tuple{Hecke.ModAlgAss{S, T, V}}, Tuple{V}, Tuple{T}, Tuple{S}} where {S, T, V}
zero_map :: Tuple{GrpAbFinGen}
isundefined
next_calkin_wilf :: Tuple{QQFieldElem}
root :: Union{Tuple{RealFieldElem, Int64}, Tuple{RealFieldElem, Int64, Int64}}
root :: Tuple{ZZRingElem, Int64}
root :: Tuple{QQFieldElem, Int64}
root :: Tuple{arb, Int64}
root :: Tuple{qqbar, Int64}
left_kernel :: Union{Tuple{SMat{T}}, Tuple{T}} where T<:FieldElement
NumberField
GFPPolyRing
zeros :: Tuple{ZZPolyRingElem}
algebra :: Tuple{Hecke.AbsAlgAssIdl}
algebra :: Tuple{Hecke.AlgAssRelOrdIdl}
algebra :: Tuple{Hecke.AlgAssAbsOrd}
algebra :: Tuple{Hecke.AlgAssRelOrd}
algebra :: Tuple{Hecke.AlgAssAbsOrdIdl}
docstring :: Tuple{Symbol, Symbol}
fibonacci :: Tuple{ZZRingElem, ArbField}
fibonacci :: Union{Tuple{ZZRingElem, RealField}, Tuple{ZZRingElem, RealField, Int64}}
fibonacci :: Tuple{ZZRingElem}
fibonacci :: Union{Tuple{Int64, RealField}, Tuple{Int64, RealField, Int64}}
fibonacci :: Tuple{Int64}
fibonacci :: Tuple{Int64, ArbField}
SMatSpace
annihilator :: Union{Tuple{ResElem{T}}, Tuple{T}} where T<:Union{Integer, ZZRingElem}
const_euler :: Union{Tuple{RealField}, Tuple{RealField, Int64}}
const_euler :: Tuple{CalciumField}
const_euler :: Tuple{ArbField}
contains_negative :: Tuple{arb}
contains_negative :: Tuple{RealFieldElem}
divides :: Tuple{NfOrdIdl, NfOrdIdl}
divides :: Union{Tuple{T}, Tuple{OrdLocElem{T}, OrdL
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