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Subindex: hyperelliptic .. hypsplit
HYPERELLIPTIC CURVES
HYPERELLIPTIC CURVES
HyperellipticCurve(model) : ModelG1 -> CrvHyp
QuadricIntersection(model) : ModelG1 -> Crv
Curve(model) : ModelG1 -> Crv
HyperellipticCurve(E) : CrvEll -> CrvHyp, Map
HyperellipticCurve(H) : HypGeomData -> CrvHyp
HyperellipticCurve(P, f, h) : Prj, RngUPolElt, RngUPolElt -> CrvHyp
HyperellipticCurve(f, h) : RngUPolElt, RngUPolElt -> CrvHyp
HyperellipticCurveFromG2Invariants(S) : SeqEnum[FldFin] -> CrvHyp, GrpFP
HyperellipticCurveFromIgusaClebsch(S) : SeqEnum -> CrvHyp
HyperellipticPolynomialFromShiodaInvariants(JI) : SeqEnum[FldFin] -> RngUPolElt, GrpPerm
HyperellipticCurveFromShiodaInvariants(JI) : SeqEnum[FldFin] -> CrvHyp, GrpPerm
HyperellipticCurveOfGenus(g, f, h) : RngIntElt, RngUPolElt, RngUPolElt -> CrvHyp
HyperellipticPolynomial(A) : AnHcJac -> RngUPolElt
HyperellipticPolynomialFromShiodaInvariants(JI) : SeqEnum[FldFin] -> RngUPolElt, GrpPerm
HyperellipticCurveFromShiodaInvariants(JI) : SeqEnum[FldFin] -> CrvHyp, GrpPerm
HyperellipticPolynomials(E) : CrvEll -> RngUPolElt, RngUPolElt
HyperellipticPolynomials(C) : CrvHyp -> RngUPolElt, RngUPolElt
HyperellipticPolynomialsFromShiodaInvariants(JI) : SeqEnum -> SeqEnum, GrpPerm
Access Functions (HYPERGEOMETRIC MOTIVES)
Creation Functions (HYPERGEOMETRIC MOTIVES)
Examples (HYPERGEOMETRIC MOTIVES)
Functionality with L-series and Euler Factors (HYPERGEOMETRIC MOTIVES)
Identification of Hypergeometric Data as Other Objects (HYPERGEOMETRIC MOTIVES)
Utility Functions (HYPERGEOMETRIC MOTIVES)
Access Functions (HYPERGEOMETRIC MOTIVES)
Creation Functions (HYPERGEOMETRIC MOTIVES)
Examples (HYPERGEOMETRIC MOTIVES)
Identification of Hypergeometric Data as Other Objects (HYPERGEOMETRIC MOTIVES)
Functionality with L-series and Euler Factors (HYPERGEOMETRIC MOTIVES)
HypGeomMot_hypergeom-mot-first-example (Example H126E1)
HypergeometricMotiveClearTable() : Void -> Void
Utility Functions (HYPERGEOMETRIC MOTIVES)
HypergeometricData(G) : List -> HypGeomData
HypergeometricData(A, B) : SeqEnum, SeqEnum -> HypGeomData
HypergeometricData(G) : SeqEnum[RngIntElt] -> HypGeomData
HypergeometricData(F, G) : SeqEnum[RngIntElt], SeqEnum[RngIntElt] -> HypGeomData
HypergeometricData(E) : SeqEnum[SeqEnum] -> HypGeomData
HypergeometricMotiveSaveLimit(n) : RngIntElt -> Void
HypergeometricSeries(a,b,c, z) : RngElt, RngElt, RngElt, RngElt -> RngElt
HypergeometricSeries(a,b,c, z) : RngElt, RngElt, RngElt, RngElt -> RngElt
HypergeometricSeries2F1(A,B,C,z) : FldRatElt, FldRatElt, FldRatElt, FldComElt -> FldComElt
HypergeometricU(a, b, s) : FldReElt, FldReElt, FldReElt -> FldReElt
PossibleHypergeometricData(d) : RngIntElt -> SeqEnum
HYPERGEOMETRIC MOTIVES
The Hypergeometric Function (REAL AND COMPLEX FIELDS)
The Hypergeometric Series (POWER, LAURENT AND PUISEUX SERIES)
HYPERGEOMETRIC MOTIVES
GrpPSL2Shim_Hypergeometric2F1 (Example H131E8)
HypergeometricData(G) : List -> HypGeomData
HypergeometricData(A, B) : SeqEnum, SeqEnum -> HypGeomData
HypergeometricData(G) : SeqEnum[RngIntElt] -> HypGeomData
HypergeometricData(F, G) : SeqEnum[RngIntElt], SeqEnum[RngIntElt] -> HypGeomData
HypergeometricData(E) : SeqEnum[SeqEnum] -> HypGeomData
HypergeometricMotiveClearTable() : Void -> Void
HypergeometricMotiveSaveLimit(n) : RngIntElt -> Void
HypergeometricMotiveClearTable() : Void -> Void
HypergeometricMotiveSaveLimit(n) : RngIntElt -> Void
HypergeometricSeries(a,b,c, z) : RngElt, RngElt, RngElt, RngElt -> RngElt
HypergeometricSeries(a,b,c, z) : RngElt, RngElt, RngElt, RngElt -> RngElt
HypergeometricSeries2F1(A,B,C,z) : FldRatElt, FldRatElt, FldRatElt, FldComElt -> FldComElt
HypergeometricU(a, b, s) : FldReElt, FldReElt, FldReElt -> FldReElt
HyperplaneAtInfinity(X) : Sch -> Sch
HyperplaneSectionDivisor(X) : Sch -> DivSchElt
HyperplaneToPolyhedron(v,h) : TorLatElt,FldRatElt -> TorPol
IsSupportingHyperplane(v,h,P) : TorLatElt,FldRatElt,TorPol -> BoolElt,RngIntElt
HyperplaneAtInfinity(X) : Sch -> Sch
HyperplaneSectionDivisor(X) : Sch -> DivSchElt
HyperplaneToPolyhedron(v,h) : TorLatElt,FldRatElt -> TorPol
HypersurfaceSingularityExpandFunction(dat,f,prec,R): Rec, FldFunRatMElt, RngIntElt, RngMPol -> RngMPolElt, RngMPolElt
HypersurfaceSingularityExpandFurther(dat,prec,R): Rec, RngIntElt, RngMPol -> RngMPolElt
IsHypersurface(X) : Sch -> BoolElt, RngMPolElt
IsHypersurfaceDivisor(D) : DivCrvElt -> BoolElt, RngElt, RngIntElt
IsHypersurfaceSingularity(p,prec) : Pt, RngIntElt -> BoolElt, RngMPolElt, SeqEnum, Rec
ParametrizeProjectiveHypersurface(X, P2) : Srfc, Prj -> BoolElt, MapSch
HypersurfaceSingularityExpandFunction(dat,f,prec,R): Rec, FldFunRatMElt, RngIntElt, RngMPol -> RngMPolElt, RngMPolElt
HypersurfaceSingularityExpandFurther(dat,prec,R): Rec, RngIntElt, RngMPol -> RngMPolElt
FldForms_hypsplit (Example H29E5)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012