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Subindex: CubicFromPoint  ..    Curve




CubicFromPoint

   CubicFromPoint(E, P) : CrvEll, PtEll -> RngMPolElt, MapSch, Pt


Cubics

   AddCubics(cubic1, cubic2 : parameters) : RngMPolElt, RngMPolElt -> RngMPolElt

   AddCubics(cubic1, cubic2 : parameters) : RngMPolElt, RngMPolElt -> RngMPolElt


Cunningham

   Cunningham(b, k, c) : RngIntElt, RngIntElt, RngIntElt -> SeqEnum


curly

   Sets (OVERVIEW)


curly-bracket

   Sets (OVERVIEW)


Current

   Current(p) : Process -> Grp

   Current(p) : Process -> GrpMat

   Current(p) : Process -> GrpPerm, MonStgElt

   Current(p) : Process -> GrpPerm, MonStgElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt, RngIntElt

   GetCurrentDirectory() : ->

   GetCurrentDirectory() : ->

   PlaceEnumCurrent(R) : PlcEnum -> PlcFunElt


CurrentLabel

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt

   CurrentLabel(p) : Process -> RngIntElt, RngIntElt, RngIntElt


curv

   Creation of Subcanonical Curves (HILBERT SERIES OF POLARISED VARIETIES)


Curve

   AdjointLinearSystemForNodalCurve(C, d) : Crv -> LinearSys

   AdjointIdealForNodalCurve(C) : Crv -> RngMPol

   AssociatedEllipticCurve(qi) : Crv -> CrvEll, Map

   AssociatedEllipticCurve(f) : RngUPolElt -> CrvEll, Map

   BaseCurve(X) : CrvMod -> CrvMod, MapSch

   CryptographicCurve(F) : FldFin -> CrvEll, PtEll, RngIntElt, RngIntElt

   Curve(C) : Code -> Crv

   Curve(S) : DiffCrv -> Crv

   Curve(a) : DiffCrvElt -> Crv

   Curve(Div) : DivCrv -> Crv

   Curve(D) : DivCrvElt -> Crv

   Curve(F) : FldFunFracSch -> Crv

   Curve(d,p,m) : FldRatElt,GRPtS,FldRatElt -> GRCrvS

   Curve(A) : GrpAutCrv -> Crv

   Curve(J) : JacHyp -> CrvHyp

   Curve(model) : ModelG1 -> Crv

   Curve(P) : PlcCrv -> Crv

   Curve(P) : PlcCrvElt -> Crv

   Curve(p) : Pt -> Crv

   Curve(p) : Pt -> Crv

   Curve(X) : Sch -> Crv

   Curve(X) : Sch -> Crv

   Curve(A,I) : Sch, RngMPol -> Crv

   Curve(A,f) : Sch, RngMPolElt -> CrvPln

   Curve(A,S) : Sch, SeqEnum -> Crv

   Curve(G) : SchGrpEll -> CrvEll

   Curve(P) : SetPt -> Crv

   Curve(P) : SetPt -> Crv

   Curve(H) : SetPtEll -> CrvEll

   EllipticCurve(C, pl) : Crv, PlcCrvElt -> CrvEll, MapSch

   EllipticCurve(C, P) : Crv, Pt -> CrvEll, MapSch

   EllipticCurve(C,p) : CrvPln, Pt -> CrvEll, Map, Map

   EllipticCurve(D, S): DB, RngIntElt, MonStgElt -> CrvEll

   EllipticCurve(D, N, I, J): DB, RngIntElt, RngIntElt, RngIntElt -> CrvEll

   EllipticCurve(A) : ModAbVar ->  CrvEll

   EllipticCurve(f) : ModFrmElt -> CrvEll

   EllipticCurve(f) : RngUPolElt -> CrvEll

   EllipticCurve(C) : Sch -> CrvEll, MapSch

   EllipticCurve([a, b]) : [ RngElt ] -> CrvEll

   EllipticCurveDatabase(: parameters) : -> DB

   EllipticCurveFromjInvariant(j) : RngElt -> CrvEll

   EmbedPlaneCurveInP3(C) : Crv -> Sch, MapSch

   ExistsModularCurveDatabase(t) : MonStgElt -> BoolElt

   FunctionFieldPlace(p) : PlcCrvElt -> PlcFunElt

   HilbertPolynomialOfCurve(g,m) : RngIntElt,RngIntElt -> RngUPolElt

   HyperellipticCurve(E) : CrvEll  -> CrvHyp, Map

   HyperellipticCurve(f, h) : RngUPolElt, RngUPolElt -> CrvHyp

   HyperellipticCurveFromIgusaClebsch(S) : SeqEnum -> CrvHyp

   HyperellipticCurveOfGenus(g, f, h) : RngIntElt, RngUPolElt, RngUPolElt -> CrvHyp

   IsConstantCurve(E) : CrvEll[FldFunRat] -> BoolElt, CrvEll

   IsCurve(X) : Sch -> BoolElt,Crv

   IsCurve(X) : Sch -> BoolElt,Crv

   IsEllipticCurve(C) : CrvHyp -> BoolElt, CrvEll, MapIsoSch, MapIsoSch

   IsEllipticCurve(C) : CrvHyp -> BoolElt, CrvEll, MapIsoSch, MapIsoSch

   IsEllipticCurve([a, b]) : [ RngElt ] -> BoolElt, CrvEll

   IsHyperellipticCurve([f, h]) : [ RngUPolElt ] -> BoolElt, CrvHyp

   IsHyperellipticCurveOfGenus(g, [f, h]) : RngIntElt, [RngUPolElt] -> BoolElt, CrvHyp

   IsNodalCurve(C) : Crv-> BoolElt

   IsPlaneCurve(X) : Sch -> BoolElt, CrvPln

   IsRationalCurve(C) : Sch -> BoolElt, CrvRat

   IsRationalCurve(X) : Sch -> BoolElt,CrvRat

   IsSubcanonicalCurve(g,d,Q) : RngIntElt,RngIntElt,SeqEnum -> BoolElt,GRCrvK

   ModularCurve(D, N) : DB, RngIntElt -> CrvMod

   ModularCurve(X,t,N) : Sch, MonStgElt, RngIntElt -> CrvMod

   ModularCurveDatabase(t) : MonStgElt -> DB

   Parametrization(C) : CrvCon -> MapSch

   RandomCurveByGenus(g, K) : RngIntElt, Fld -> Crv

   RandomNodalCurve(d, g, P) : RngIntElt, RngIntElt, Prj -> CrvPln

   RandomOrdinaryPlaneCurve(d, S, P) : RngIntElt, SeqEnum, Prj -> CrvPln, RngMPol

   RationalCurve(X,f) : Prj, RngMPolElt -> CrvRat

   Scheme(P) : SetPtEll -> CrvEll

   SubcanonicalCurve(g,d,Q) : RngIntElt,RngIntElt,SeqEnum -> GRCrvK

   SupersingularEllipticCurve(K) : FldFin -> CrvEll




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