2350 docstrings not included in the manual: cyclotomic_polynomial :: Union{Tuple{Int64}, Tuple{T}, Tuple{Int64, PolyRing{T}}} where T fq_abs_series is_ramified :: Tuple{NfAbsOrd, Union{Int64, ZZRingElem}} ispseudo_hnf isogeny_map_psi_squared :: Tuple{Isogeny} gram_schmidt_orthogonalisation :: Tuple{QQMatrix} FqNmodFiniteField restrict :: Tuple{InfPlc, NumField} ideal_from_gens :: Union{Tuple{T}, Tuple{Hecke.AbsAlgAss, Vector{T}}, Tuple{Hecke.AbsAlgAss, Vector{T}, Symbol}} where T<:Hecke.AbsAlgAssElem identity_map :: Tuple{TorQuadModule} identity_map :: Tuple{EllCrv} local_symbols :: Tuple{ZZGenus} local_symbols :: Tuple{Any} fq_mat is_less_imag :: Tuple{qqbar, qqbar} isGLZ_conjugate is_normal :: Tuple{AnticNumberField} is_normal :: Tuple{Hecke.AlgAssAbsOrdIdl} fractional_ideal :: Tuple{NfAbsOrd, NfAbsOrdElem} fractional_ideal :: Union{Tuple{NfAbsOrd, ZZMatrix}, Tuple{NfAbsOrd, ZZMatrix, ZZRingElem}} fractional_ideal :: Tuple{NfOrd, NfAbsOrdIdl} fractional_ideal :: Tuple{NfAbsOrd, NfAbsOrdIdl} fractional_ideal :: Tuple{NfAbsOrd, NfAbsOrdIdl, ZZRingElem} fractional_ideal :: Tuple{NfAbsOrd, NumFieldElem} fractional_ideal :: Union{Tuple{U}, Tuple{S}, Tuple{T}, Tuple{Hecke.NfRelOrd{T, S, U}, Hecke.PMat{T, S}}} where {T, S, U} fractional_ideal :: Union{Tuple{U}, Tuple{S}, Tuple{T}, Tuple{Hecke.NfRelOrd{T, S, U}, AbstractAlgebra.Generic.Mat{T}}} where {T, S, U} fractional_ideal :: Tuple{NfAbsOrd, FakeFmpqMat} extend_to_cyclotomic :: Tuple{CyclotomicExt, NfToNfMor} nmod_mpoly _crt :: Tuple{Vector{ZZMatrix}, Vector{ZZRingElem}, Vector{Int64}} is_free :: Tuple{GrpAbFinGen} lll_basis :: Union{Tuple{NfOrdIdl}, Tuple{NfOrdIdl, ZZMatrix}} lll_basis :: Tuple{NfAbsOrd} iscm_field_known _convert_type :: Union{Tuple{T}, Tuple{ZZLat, MatrixElem{T}, T}} where T<:RingElem _convert_type :: Union{Tuple{T}, Tuple{MatrixElem{T}, MatrixElem{T}, T}} where T<:RingElem setbit! :: Tuple{ZZRingElem, Int64} islocally_equivalent subsets :: Union{Tuple{MSet{T}}, Tuple{T}} where T subsets :: Union{Tuple{T}, Tuple{Vector{T}, Int64}} where T subsets :: Tuple{Int64, Int64} subsets :: Union{Tuple{Set{T}}, Tuple{T}} where T evaluate :: Union{Tuple{Hecke.RealNumberFieldElem}, Tuple{Hecke.RealNumberFieldElem, Int64}} evaluate :: Tuple{ZZPolyRingElem, TorQuadModuleMor} log_sinpi :: Union{Tuple{ComplexFieldElem}, Tuple{ComplexFieldElem, Int64}} log_sinpi :: Tuple{acb} FqNmodAbsSeriesRing is_prime_power_with_data :: Tuple{Union{Integer, ZZRingElem}} exp_integral_e :: Tuple{acb, acb} exp_integral_e :: Union{Tuple{ComplexFieldElem, ComplexFieldElem}, Tuple{ComplexFieldElem, ComplexFieldElem, Int64}} isnorm atan2 :: Tuple{arb, arb} atan2 :: Union{Tuple{RealFieldElem, RealFieldElem}, Tuple{RealFieldElem, RealFieldElem, Int64}} isquaternion_algebra hasimage is_equal_imag :: Tuple{qqbar, qqbar} hom :: Tuple{GrpAbFinGen, GrpAbFinGen, Matrix{<:Map{GrpAbFinGen, GrpAbFinGen}}} hom :: Tuple{GrpAbFinGen, Vector{GrpAbFinGenElem}} hom :: Tuple{TorQuadModule, TorQuadModule, ZZMatrix} hom :: Tuple{GrpAbFinGen, GrpAbFinGen, Vector{<:Map{GrpAbFinGen, GrpAbFinGen}}} hom :: Tuple{TorQuadModule, TorQuadModule, Vector{TorQuadModuleElem}} hom :: Tuple{Vector{GrpAbFinGenElem}, Vector{GrpAbFinGenElem}} next_calkin_wilf :: Tuple{QQFieldElem} GFPFmpzAbsSeriesRing oct :: Tuple{ZZRingElem} formal_y :: Union{Tuple{EllCrv}, Tuple{EllCrv, Int64}} lll_gram_indef_ternary_hyperbolic :: Tuple{MatElem{ZZRingElem}} MSet NmodPolyRing product_of_components :: Tuple{Hecke.AbsAlgAss, Vector{Int64}} presentation :: Union{Tuple{T}, Tuple{T, T, Int64}} where T<:Union{Int64, ZZRingElem} faltings_height :: Union{Tuple{EllCrv{QQFieldElem}}, Tuple{EllCrv{QQFieldElem}, Int64}} root :: Tuple{ZZRingElem, Int64} root :: Tuple{arb, Int64} root :: Tuple{qqbar, Int64} root :: Tuple{QQFieldElem, Int64} root :: Union{T