2352 docstrings not included in the manual: iseichler order_via_legendre :: Union{Tuple{EllCrv{T}}, Tuple{T}} where T<:FinFieldElem fits :: Tuple{Type{Int64}, ZZRingElem} fits :: Tuple{Type{UInt64}, ZZRingElem} Hecke get_printing_mode :: Tuple{Type{FlintPadicField}} isnonpositive randseed! :: Union{Tuple{}, Tuple{Union{Nothing, Integer}}} discriminant_sign :: Tuple{NumField} issubset :: Tuple{AbstractLat, AbstractLat} issubset :: Union{Tuple{GrpAbFinGen, GrpAbFinGen}, Tuple{GrpAbFinGen, GrpAbFinGen, Hecke.RelLattice{GrpAbFinGen, ZZMatrix}}} is_torsion_unit :: Union{Tuple{NfOrdElem}, Tuple{NfOrdElem, Bool}} is_torsion_unit :: Union{Tuple{nf_elem}, Tuple{nf_elem, Bool}} closure :: Union{Tuple{T}, Tuple{T, Vector{T}}} where T<:MatElem can_solve :: Tuple{QuadBin, Union{Integer, ZZRingElem}} onei :: Tuple{CalciumField} onei :: Tuple{ComplexField} onei :: Tuple{AcbField} fqPolyRepMatrix QQMatrixSpace fmpz_laurent_series isless_root_order _iseven :: Tuple{MatElem} residual_polynomial :: Tuple{NewtonPolygon{ZZPolyRingElem}, Line} compose :: Tuple{Isogeny, Isogeny} compose :: Tuple{Vector{Isogeny}} compose :: Tuple{QuadBin{ZZRingElem}, QuadBin{ZZRingElem}} compose :: Tuple{TorQuadModuleMor, TorQuadModuleMor} is_norm :: Tuple{AnticNumberField, Integer} _is_indefinite :: Tuple{MatElem{QQFieldElem}} iseisenstein_polynomial tamagawa_numbers :: Tuple{EllCrv{nf_elem}} tamagawa_numbers :: Tuple{EllCrv{QQFieldElem}} NegInf resultant_ideal :: Union{Tuple{T}, Tuple{S}, Tuple{PolyRingElem{T}, PolyRingElem{T}}} where {S<:Union{Integer, ZZRingElem}, T<:ResElem{S}} isomorphism :: Union{Tuple{T}, Tuple{EllCrv{T}, Vector{T}}} where T isomorphism :: Tuple{EllCrv, EllCrv} sunit_group :: Union{Tuple{Vector{T}}, Tuple{T}} where T<:Integer gfp_fmpz_abs_series fpField reduce! :: Tuple{nf_elem} is_root_of_unity :: Tuple{qqbar} p_uniformizer :: Tuple{NumFieldOrdIdl} right_order :: Tuple{Hecke.AlgAssRelOrdIdl} right_order :: Tuple{Hecke.AlgAssAbsOrdIdl} divisor_lenstra :: Tuple{ZZRingElem, ZZRingElem, ZZRingElem} show_psi :: Tuple{Integer, Union{Int64, Hecke.NfFactorBase}} istotally_complex multiplicative_group :: Union{Tuple{Hecke.AbsOrdQuoRing{Hecke.AlgAssAbsOrd{S, T}, Hecke.AlgAssAbsOrdIdl{S, T}}}, Tuple{T}, Tuple{S}} where {S, T} is_ramified :: Tuple{NfAbsOrd, Union{Int64, ZZRingElem}} Nemo isregular_at equation_order :: Tuple{NfAbsOrd} sparse_row :: Tuple{Ring} sparse_row :: Union{Tuple{T}, Tuple{Ring, Vector{Int64}, AbstractVector{T}}} where T sparse_row :: Tuple{Ring, Vector{Tuple{Int64, Int64}}} sparse_row :: Union{Tuple{T}, Tuple{Ring, Array{Tuple{Int64, T}, 1}}} where T canonical_divisor :: Tuple{AbstractAlgebra.Generic.FunctionField} binary_quadratic_form :: Union{Tuple{T}, Tuple{T, T, T}} where T<:RingElem binary_quadratic_form :: Tuple{Ring, Any, Any, Any} swinnerton_dyer :: Tuple{Vector, AbstractAlgebra.Generic.Poly{<:AbstractAlgebra.Generic.RationalFunctionFieldElem}} is_cyclotomic_polynomial :: Union{Tuple{PolyRingElem{T}}, Tuple{T}} where T FqNmodMPolyRing is_unknown :: Tuple{ca} zzModMPolyRing ZLat isrational local_genera_hermitian ZZMPolyRingElem ZZFracIdl set_printing_mode :: Tuple{Type{FlintPadicField}, Symbol} modular_init :: Tuple{AnticNumberField, ZZRingElem} conductor :: Tuple{NfOrd} conductor :: Tuple{NfOrd, NfOrd} conductor :: Tuple{EllCrv{nf_elem}} conductor :: Tuple{T} where T<:Union{ClassField, Hecke.ClassField_pp} conductor :: Tuple{EllCrv{QQFieldElem}} conductor :: Union{Tuple{Hecke.AlgAssAbsOrd, Hecke.AlgAssAbsOrd}, Tuple{Hecke.AlgAssAbsOrd, Hecke.AlgAssAbsOrd, Symbol}} conductor :: Tuple{Union{Integer, ZZRingElem}} unique_integer :: Tuple{arb} unique_integer :: Tuple{acb} unique_integer :: Tuple{RealFieldElem} unique_integer :: Tuple{ComplexFieldElem} unique_integer :: Tuple{arb_poly} u