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Subindex: h .. Has
Overview (OVERVIEW)
H
h
H
h
H2_G_QmodZ(G) : GrpAb -> GrpAb, Map
HadamardAutomorphismGroup(H) : AlgMatElt -> AlgMatElt
HadamardColumnDesign(H, i) : AlgMatElt, RngIntElt -> Dsgn
HadamardGraph(H: parameters) : Mtrx -> GrphUnd
HadamardNormalize(H) : AlgMatElt -> AlgMatElt
HadamardRowDesign(H, i) : AlgMatElt, RngIntElt -> Dsgn
IsHadamard(H) : AlgMatElt -> BoolElt
IsHadamardEquivalent(H, J) : AlgMatElt, AlgMatElt -> BoolElt
Hadamard Matrices and their 3--Designs (INCIDENCE STRUCTURES AND DESIGNS)
Design_hadamard (Example H104E5)
HadamardAutomorphismGroup(H) : AlgMatElt -> AlgMatElt
HadamardColumnDesign(H, i) : AlgMatElt, RngIntElt -> Dsgn
HadamardGraph(H: parameters) : Mtrx -> GrphUnd
HadamardNormalize(H) : AlgMatElt -> AlgMatElt
HadamardRowDesign(H, i) : AlgMatElt, RngIntElt -> Dsgn
UpperHalfPlaneWithCusps() : -> SpcHyp
Hall pi-Subgroups and Sylow Systems (FINITE SOLUBLE GROUPS)
HallSubgroup(G, S) : GrpPC, { RngIntElt } -> GrpPC
GrpPC_Hall (Example H19E17)
Hall pi-Subgroups and Sylow Systems (FINITE SOLUBLE GROUPS)
HallSubgroup(G, S) : GrpPC, { RngIntElt } -> GrpPC
HammingAsymptoticBound(K, delta) : FldFin, FldPrElt -> FldPrElt
HammingCode(K, r) : FldFin, RngIntElt -> Code
WeightEnumerator(C): Code -> RngMPolElt
Hamming Weight (LINEAR CODES OVER FINITE RINGS)
Hamming Weight (LINEAR CODES OVER FINITE RINGS)
HammingAsymptoticBound(K, delta) : FldFin, FldPrElt -> FldPrElt
HammingCode(K, r) : FldFin, RngIntElt -> Code
CodeFld_HammingCode (Example H107E6)
HammingWeightEnumerator(C): Code -> RngMPolElt
WeightEnumerator(C): Code -> RngMPolElt
Creation by Hand (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)
HarmonicNumber(n) : RngIntElt -> RngIntElt
HarmonicNumber(n) : RngIntElt -> RngIntElt
HasAttribute(FldPr, "Precision") : Cat, MonStgElt -> BoolElt, RngIntElt
HasAttribute(FldPr, {"OutputPrecision"}) : Cat, MonStgElt -> BoolElt, RngIntElt
HasAttribute(GrpMat, {"FirstBasicOrbitBound"}) : Cat, MonStgElt -> BoolElt, RngIntElt
HasAttribute(FldFin, {"PowerPrinting", l}) : Cat, MonStgElt, BoolElt ->
HasAttribute(ModMPol, {"MatrixPrinting", l}) : Cat, MonStgElt, BoolElt ->
HasAttribute(F, "PowerPrinting") : FldFin, MonStgElt -> BoolElt, BoolElt
HasAttribute(A, s) : GrpAuto, MonStgElt -> BoolElt, .
HasAttribute(A, "GenWeights") : GrpAuto, MonStgElt -> BoolElt, [ RngIntElt ]
HasAttribute(A, {"WeightSubgroupOrders"}) : GrpAuto, MonStgElt -> BoolElt, [ RngIntElt ]
HasAttribute(G, "IsVerified") : GrpMat, MonStgElt -> BoolElt
HasAttribute(G, "Base") : GrpMat, MonStgElt -> BoolElt, Tup
HasAttribute(G, "Order") : GrpMat, MonStgElt -> RngIntElt
HasAttribute(M, "MatrixPrinting") : ModMPol, MonStgElt -> BoolElt, BoolElt
HasAttribute(S, "Precision") : RngSer, MonStgElt -> BoolElt, RngIntElt
HasCentreType(X,i) : VSrfK3,RngIntElt -> BoolElt
HasClique(G, k) : GrphUnd, RngIntEl -> BoolElt, { GrphVert }
HasClique(G, k, m: parameters) : GrphUnd, RngIntEl, BoolElt -> BoolElt, { GrphVert }
HasClique(G, k, m, f: parameters) : GrphUnd, RngIntEl, BoolElt, RngIntEl -> BoolElt, { GrphVert }
HasClosedCosetTable(P) : GrpFPCosetEnumProc -> BoolElt
HasComplement(G, M) : GrpPerm, GrpPerm -> BoolElt, GrpPerm
HasComplement(M, S) : ModGrp, ModGrp -> BoolElt, ModGrp
HasComputableAbelianQuotient(G) : GrpFP -> BoolElt, GrpAb, Map
HasComputableLCS(G) : GrpGPC -> BoolElt
HasCurve(F) : FldFun -> BoolElt
HasDefinedModuleMap(C,n) : ModCpx, RngIntElt -> BoolElt
HasDefiningMap(L) : RngPad -> BoolElt, Map
HasFiniteOrder(g) : GrpMatElt -> BoolElt, RngIntElt
HasFiniteOrder(A) : Mtrx -> BoolElt
HasGCD(R) : Rng -> BoolElt
HasGroebnerBasis(I) : RngMPol -> BoolElt
HasInfiniteComputableAbelianQuotient(G) : GrpFP -> BoolElt, GrpAb, Map
HasIrregularFibres(s) : GrphSpl -> BoolElt
HasKnownInverse(m) : Map -> BoolElt
HasLeviSubalgebra(L) : AlgLie -> BoolElt
HasLinearGrayMapImage(C) : Code -> BoolElt, Code
HasNonsingularPoint(X) : Sch -> BoolElt,Pt
HasOddDegreeModel(C) : CrvHyp -> BoolElt, CrvHyp, MapIsoSch
HasOrder(P, n) : JacHypPt, RngIntElt -> BoolElt
HasOutputFile() : -> BoolElt
HasParallelClass(D) : Inc -> BoolElt, { IncBlk }
HasParallelism(D: parameters) : Inc, RngIntElt -> BoolElt, { SetEnum }
HasPlace(F, m) : FldFun, RngIntElt -> BoolElt, PlcFunElt
HasPlace(F, m) : FldFun, RngIntElt -> PlcFunElt
HasPointsOverExtension(X) : Sch -> BoolElt
HasPolynomial(N) : NwtnPgon -> BoolElt
HasPolynomialFactorization(R) : Rng -> BoolElt
HasPreimage(x, f) : Any, Map -> BoolElt, Any
HasRationalPoint(C) : CrvCon -> BoolElt, Pt
HasResolution(D) : Inc -> BoolElt, { SetEnum }, RngIntElt
HasResolution(D, lambda) : Inc, RngIntElt -> BoolElt, { SetEnum }
HasRoot(p) : RngUPolElt -> BoolElt, RngElt
HasRoot(f) : RngUPolElt -> BoolElt, RngLocElt
HasRoot(f) : RngUPolElt -> BoolElt, RngSerElt
HasRoot(p, S) : RngUPolElt, Rng -> BoolElt, RngElt
HasSingularPointsOverExtension(C) : Sch -> BoolElt
HasSolubilityCertificate(C) : CrvCon -> BoolElt, SeqEnum
HasSolubilityCertificate(S) : SeqEnum[RngIntElt] -> BoolElt, SeqEnum
HasSparseRep(G) : Grph -> BoolElt
HasSupplement(G, M) : GrpPerm, GrpPerm -> BoolElt, GrpPerm
HasValidCosetTable(P) : GrpFPCosetEnumProc -> BoolElt
HasValidIndex(P) : GrpFPCosetEnumProc -> BoolElt
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