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Subindex: GapNumbers  ..    General




GapNumbers

   GapNumbers(D) : DivCrvElt -> SeqEnum

   GapNumbers(D) : DivFunElt -> SeqEnum[RngIntElt]

   GapNumbers(D, P) : DivFunElt, PlcFunElt -> SeqEnum[RngIntElt]

   GapNumbers(F) : FldFunG -> SeqEnum[RngIntElt]

   GapNumbers(F, P) : FldFunG, PlcFunElt -> SeqEnum[RngIntElt]

   GapNumbers(p) : Pt -> SeqEnum


GaussianPeriods

   FldCyc_GaussianPeriods (Example H53E2)


GBoverZ

   GB_GBoverZ (Example H47E4)


GCD

   Gcd(D1, D2) : DivCrvElt, DivCrvElt -> DivCrvElt

   GreatestCommonDivisor(D1, D2) : DivCrvElt, DivCrvElt -> DivCrvElt

   GCD(D1, D2) : DivCrvElt, DivCrvElt -> DivCrvElt

   GCD(D1, D2) : DivFunElt, DivFunElt -> DivFunElt

   GCD(I, J) : RngOrdFracIdl, RngOrdFracIdl -> RngOrdFracIdl

   GCD(Q) : [ RngMPolElt ] -> RngMPolElt

   Gcd(m, n) : RngIntElt, RngIntElt -> RngIntElt

   Gcd(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt

   GreatestCommonDivisor(a, b) : RngIntResElt, RngIntResElt -> RngIntResElt

   GreatestCommonDivisor(f, g) : RngMPolElt, RngMPolElt -> RngMPolElt

   GreatestCommonDivisor(f, g) : RngUPolElt, RngUPolElt -> RngUPolElt

   GreatestCommonDivisor(f, g) : RngUPolElt, RngUPolElt -> RngUPolElt

   GreatestCommonDivisor(v, w) : RngValElt, RngValElt -> RngValElt

   GreatestCommonDivisor(s) : [RngIntElt] -> RngIntElt

   GreatestCommonDivisor(Q) : [RngIntResElt] -> RngIntResElt

   HasGCD(R) : Rng -> BoolElt

   LeftGCD(u, v: parameters) : GrpBrdElt, GrpBrdElt -> GrpBrdElt

   LeftGCD(S: parameters) : Setq -> GrpBrdElt

   RightGCD(u, v: parameters) : GrpBrdElt, GrpBrdElt -> GrpBrdElt

   RightGCD(S: parameters) : Setq -> GrpBrdElt


Gcd

   Gcd(D1, D2) : DivCrvElt, DivCrvElt -> DivCrvElt

   GreatestCommonDivisor(D1, D2) : DivCrvElt, DivCrvElt -> DivCrvElt

   GCD(D1, D2) : DivCrvElt, DivCrvElt -> DivCrvElt

   GCD(D1, D2) : DivFunElt, DivFunElt -> DivFunElt

   GCD(I, J) : RngOrdFracIdl, RngOrdFracIdl -> RngOrdFracIdl

   Gcd(I, J) : RngFunOrdIdl, RngFunOrdIdl -> RngFunOrdIdl

   Gcd(m, n) : RngIntElt, RngIntElt -> RngIntElt

   Gcd(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt

   GreatestCommonDivisor(a, b) : RngIntResElt, RngIntResElt -> RngIntResElt

   GreatestCommonDivisor(f, g) : RngMPolElt, RngMPolElt -> RngMPolElt

   GreatestCommonDivisor(f, g) : RngUPolElt, RngUPolElt -> RngUPolElt

   GreatestCommonDivisor(f, g) : RngUPolElt, RngUPolElt -> RngUPolElt

   GreatestCommonDivisor(v, w) : RngValElt, RngValElt -> RngValElt

   GreatestCommonDivisor(s) : [RngIntElt] -> RngIntElt

   GreatestCommonDivisor(Q) : [RngIntResElt] -> RngIntResElt

   LeftGCD(u, v: parameters) : GrpBrdElt, GrpBrdElt -> GrpBrdElt

   LeftGCD(S: parameters) : Setq -> GrpBrdElt

   RightGCD(u, v: parameters) : GrpBrdElt, GrpBrdElt -> GrpBrdElt

   RightGCD(S: parameters) : Setq -> GrpBrdElt


gcd

   Common Divisors and Common Multiples (MULTIVARIATE POLYNOMIAL RINGS)

   Common Divisors and Common Multiples (RING OF INTEGERS)

   Common Divisors and Common Multiples (UNIVARIATE POLYNOMIAL RINGS)

   RngLoc_gcd (Example H61E15)


gcd-lcm

   Common Divisors and Common Multiples (MULTIVARIATE POLYNOMIAL RINGS)

   Common Divisors and Common Multiples (RING OF INTEGERS)

   Common Divisors and Common Multiples (UNIVARIATE POLYNOMIAL RINGS)


GE

   IsGE(u, v: parameters) : GrpBrdElt, GrpBrdElt -> BoolElt

   IsGe(u, v: parameters) : GrpBrdElt, GrpBrdElt -> BoolElt

   u >= v : GrpBrdElt, GrpBrdElt -> BoolElt


Ge

   IsGE(u, v: parameters) : GrpBrdElt, GrpBrdElt -> BoolElt

   IsGe(u, v: parameters) : GrpBrdElt, GrpBrdElt -> BoolElt

   u >= v : GrpBrdElt, GrpBrdElt -> BoolElt


ge

   Comparison (OVERVIEW)

   u ge v : AlgFPElt, AlgFPElt -> BoolElt

   u >= v : GrpBrdElt, GrpBrdElt -> BoolElt

   u ge v : GrpFPElt, GrpFPElt -> BoolElt

   s ge t : MonStgElt, MonStgElt -> BoolElt

   a ge b : RngElt, RngElt -> BoolElt

   S ge T : SeqEnum, SeqEnum -> BoolElt

   u ge v : SgpFPElt, SgpFPElt -> BoolElt

   e ge f : SubGrpLatElt, SubGrpLatElt -> BoolElt

   e ge f : SubGrpLatElt, SubGrpLatElt -> BoolElt


Gegenbauer

   GegenbauerPolynomial(n, m) : RngIntElt, RngElt ->RngUPolElt


GegenbauerPolynomial

   GegenbauerPolynomial(n, m) : RngIntElt, RngElt ->RngUPolElt


gen

   General Vertex and Edge Connectivity in Graphs and Digraphs (GRAPHS)


gen-connectivity

   General Vertex and Edge Connectivity in Graphs and Digraphs (GRAPHS)


Genera

   LocalGenera(G) : SymGen -> Lat

   SpinorGenera(G) : SymGen -> [ SymGen ]


General

   AGL(arguments)

   AffineGeneralLinearGroup(arguments)

   AffineGeneralLinearGroup(arguments)

   AffineGeneralLinearGroup(arguments)

   AffineGeneralLinearGroup(arguments)

   AffineGeneralLinearGroup(arguments)

   AffineGeneralLinearGroup(arguments)

   GeneralLinearGroup(arguments)

   GeneralLinearGroup(n, R) : RngIntElt, Rng -> GrpMat

   GeneralOrthogonalGroup(arguments)

   GeneralOrthogonalGroupMinus(arguments)

   GeneralOrthogonalGroupPlus(arguments)

   GeneralUnitaryGroup(arguments)

   PGO(arguments)

   PGOMinus(arguments)

   PGOPlus(arguments)

   ProjectiveGeneralLinearGroup(arguments)

   ProjectiveGeneralUnitaryGroup(arguments)




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