And another version fix (#1156) #11
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../../../.julia/packages/Documenter/bYYzK/src/Utilities/Utilities.jl#L34
2324 docstrings not included in the manual:
is_coprime :: Tuple{NfAbsOrdIdl, NfAbsOrdIdl}
NfAbsOrdIdlSet :: Tuple{Map, NfOrdIdl}
hasalgebra
kodaira_symbol :: Tuple{EllCrv{nf_elem}, NfOrdIdl}
kodaira_symbol :: Tuple{EllCrv{QQFieldElem}, Any}
FqNmodMatSpace
find_morphism :: Union{Tuple{T}, Tuple{T, T}} where T<:FinField
FqMPolyRing
padic
islll_reduced
zero_map :: Tuple{GrpAbFinGen}
b_invars :: Tuple{EllCrv}
isnumber
fpMPolyRingElem
hilbert :: Tuple{QQMatrixSpace}
gen_mod_pk :: Union{Tuple{ZZRingElem}, Tuple{ZZRingElem, ZZRingElem}}
common_eigenspaces :: Union{Tuple{Vector{<:MatElem{T}}}, Tuple{T}} where T<:FieldElem
integral_closure :: Tuple{ZZRing, AnticNumberField}
FmpzPolyRing
isprimitive_over
polygamma :: Tuple{acb, acb}
polygamma :: Union{Tuple{ComplexFieldElem, ComplexFieldElem}, Tuple{ComplexFieldElem, ComplexFieldElem, Int64}}
FpMPolyRingElem
isimaginary
rising_factorial :: Tuple{arb, Int64}
rising_factorial :: Tuple{Int64, Int64}
rising_factorial :: Union{Tuple{QQFieldElem, Int64, RealField}, Tuple{QQFieldElem, Int64, RealField, Int64}}
rising_factorial :: Tuple{QQFieldElem, Int64, ArbField}
rising_factorial :: Tuple{ComplexFieldElem, Int64}
rising_factorial :: Tuple{ZZRingElem, ZZRingElem}
rising_factorial :: Tuple{ZZRingElem, Int64}
rising_factorial :: Union{Tuple{RealFieldElem, Int64}, Tuple{RealFieldElem, Int64, Int64}}
rising_factorial :: Tuple{acb, Int64}
solvemod :: Tuple{ZZRingElem, ZZRingElem, ZZRingElem}
factor_new :: Tuple{PolyRingElem{nf_elem}}
locally_free_class_group_with_disc_log :: Tuple{Hecke.AlgAssAbsOrd}
dual :: Tuple{GrpAbFinGen}
torsion_points :: Tuple{EllCrv{QQFieldElem}}
height_pairing :: Union{Tuple{T}, Tuple{EllCrvPt{T}, EllCrvPt{T}}, Tuple{EllCrvPt{T}, EllCrvPt{T}, Int64}} where T<:Union{QQFieldElem, nf_elem}
euler_phi_inv_fac_elem :: Tuple{ZZRingElem}
euler_phi_inv_fac_elem :: Tuple{ZZRingElem, NfOrd}
isfrom_db
rref :: Union{Tuple{SMat{T}}, Tuple{T}} where T<:FieldElement
combination :: Tuple{Hecke.MPolyFact.RootCtx}
is_invertible :: Tuple{NfAbsOrdIdl}
is_invertible :: Tuple{Hecke.AbsAlgAssElem}
infinite_place :: Tuple{Hecke.NumFieldEmb}
clrbit! :: Tuple{ZZRingElem, Int64}
narrow_picard_group :: Tuple{NfOrd}
FqFiniteField
fq_mat
spectrum :: Union{Tuple{T}, Tuple{MatElem{T}, Any}} where T<:FieldElem
spectrum :: Union{Tuple{MatElem{T}}, Tuple{T}} where T<:FieldElem
QQMatrix
genus_representatives :: Tuple{QuadLat}
O :: Tuple{FlintPadicField, Integer}
O :: Tuple{FlintQadicField, Integer}
O :: Tuple{FlintQadicField, QQFieldElem}
O :: Tuple{FlintPadicField, QQFieldElem}
O :: Tuple{FlintPadicField, ZZRingElem}
O :: Tuple{FlintQadicField, ZZRingElem}
O :: Tuple{ZZLaurentSeriesRingElem}
O :: Union{Tuple{FlintPuiseuxSeriesElem{T}}, Tuple{T}} where T<:RingElem
hyperelliptic_polynomials :: Union{Tuple{HypellCrv{T}}, Tuple{T}} where T
hyperelliptic_polynomials :: Tuple{EllCrv}
is2_normal_difficult
FqPolyRingElem
cospi :: Tuple{qqbar}
log_integral :: Tuple{acb}
log_integral :: Union{Tuple{ComplexFieldElem}, Tuple{ComplexFieldElem, Int64}}
anti_uniformizer :: Tuple{NumFieldOrdIdl}
_hensel_qf_modular_odd :: Union{Tuple{T}, Tuple{T, T, T, Any, Any}} where T<:Union{ZZModMatrix, zzModMatrix}
nmod
order_via_bsgs :: Union{Tuple{EllCrv{T}}, Tuple{T}} where T<:FinFieldElem
iszero :: Tuple{FlintPuiseuxSeriesElem}
iszero :: Tuple{acb}
iszero :: Tuple{ComplexFieldElem}
iszero :: Tuple{RealFieldElem}
iszero :: Tuple{qqbar}
iszero :: Tuple{ca}
iszero :: Tuple{ZZLaurentSeriesRingElem}
iszero :: Tuple{arb}
compose :: Tuple{Vector{Isogeny}}
compose :: Tuple{TorQuadModuleMor, TorQuadModuleMor}
compose :: Tuple{Isogeny, Isogeny}
compose :: Tuple{QuadBin{ZZRingElem}, QuadBin{ZZRingElem}}
intersect_prime :: Union{Tuple{Map, NfOrdIdl}, Tuple{Map, NfOrdIdl, NfOrd}}
Hyperellipti
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