[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: FrobeniusActionOnReducibleFiber .. Full
FrobeniusActionOnReducibleFiber(L) : < Tup > -> AlgMatElt
FrobeniusActionOnTrivialLattice(E) : CrvEll -> AlgMatElt
FrobeniusAutomorphism(A, p) : FldAb, RngOrdIdl -> Map
FrobeniusAutomorphism(L) : RngLocA -> Map
FrobeniusAutomorphisms(G) : GrpMat -> SeqEnum
FrobeniusElement(K, p) : FldNum, RngIntElt -> GrpPermElt
FrobeniusFormAlternating(A) : AlgMatElt -> SeqEnum
FrobeniusImage(A, e) : Mtrx, RngIntElt -> Mtrx
FrobeniusImage(e) : RngWittElt -> RngWittElt
FrobeniusMap(E) : CrvEll -> Map
FrobeniusMap(E, i) : CrvEll, RngIntElt -> Map
FrobeniusMap(G,q) : GrpLie, RngIntElt -> GrpLieAutoElt
FrobeniusMap(W) : RngWitt -> Map
FrobeniusMatrix(D) : PhiMod -> AlgMatElt
FrobeniusPolynomial(A, P) : ModAbVar, RngOrdIdl -> RngUPolElt
FrobeniusPolynomial(A : parameters) : ModAbVar -> RngUPolElt
FrobeniusPolynomial(A, p : parameters) : ModAbVar, RngIntElt -> RngUPolElt
FrobeniusTraceDirect(E, p) : CrvEll, RngIntElt -> RngIntElt
FrobeniusTracesToWeilPolynomials(tr, q, i, deg) : SeqEnum, RngIntElt, RngIntElt, RngIntElt -> SeqEnum
AdditivePolynomialFromRoots(x, P) : RngElt, PlcFunElt -> RngUPolTwstElt
AdjointLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
BuildHomomorphismFromGradedCap(A, B, phi) : AlgBas, AlgBas, ModMatFldElt -> ModMatFldElt
CanonicalLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
CharacteristicPolynomialFromTraces(traces) : [ Fld ] -> RngUPolElt
CharacteristicPolynomialFromTraces(traces, d, q, i) : [ Fld ], RngIntElt, RngIntElt, RngIntElt -> RngUPolElt, RngUPolElt
ClassRepresentativeFromInvariants(G, p, h, t) : GrpMat, SeqEnum, SeqEnum, FldFinElt -> GrpMatElt
ConvertFromManinSymbol(M, x) : ModSym, Tup -> ModSymElt
CubicFromPoint(E, P) : CrvEll, PtEll -> RngMPolElt, MapSch, Pt
CubicSurfaceFromClebschSalmon(inv) : SeqEnum -> RngMPolElt
DiscriminantFromShiodaInvariants(JI) : SeqEnum -> RngElt
EllipticCurveFromPeriods(om: parameters) : [ FldComElt ] -> CrvEll
FromAnalyticJacobian(z, A) : Mtrx, AnHcJac -> SeqEnum
FromLiE(R, p) : RootDtm, MonStgElt -> LieRepDec
GSetFromIndexed(G, Y) : GrpPerm, SetIndx -> GSet
GeometricAutomorphismGroupFromShiodaInvariants(JI) : SeqEnum -> GrpPerm
HadamardMatrixFromInteger(x, n) : RngIntElt, RngIntElt -> AlgMatElt
HyperellipticCurveFromG2Invariants(S) : SeqEnum[FldFin] -> CrvHyp, GrpFP
HyperellipticCurveFromIgusaClebsch(S) : SeqEnum -> CrvHyp
HyperellipticCurveFromShiodaInvariants(JI) : SeqEnum[FldFin] -> CrvHyp, GrpPerm
HyperellipticPolynomialsFromShiodaInvariants(JI) : SeqEnum -> SeqEnum, GrpPerm
IsogenyFromKernel(E, psi) : CrvEll, RngUPolElt -> CrvEll, Map
IsogenyFromKernel(G) : SchGrpEll -> CrvEll, Map
IsogenyFromKernelFactored(E, psi) : SchGrpEll -> CrvEll, Map
IsogenyFromKernelFactored(G) : SchGrpEll -> CrvEll, Map
ProjectionFromNonsingularPoint(X,p) : Sch,Pt -> Sch,MapSch,Sch
SubalgebraFromBasis(A, V) : AlgBas, SeqEnum -> AlgBas, Map
Z4CodeFromBinaryChain(C1, C2) : Code, Code -> Code
Constructing New Codes from Old (LINEAR CODES OVER FINITE RINGS)
Creation from Curve Singularities (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)
Creation from Pencils (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)
Transfer from GrpPC (FINITE SOLUBLE GROUPS)
Transition Matrices from Monomial Basis (SYMMETRIC FUNCTIONS)
Transition Matrices from Elementary Basis (SYMMETRIC FUNCTIONS)
Transition Matrices from Homogeneous Basis (SYMMETRIC FUNCTIONS)
Transition Matrices from Power Sum Basis (SYMMETRIC FUNCTIONS)
Transition Matrices from Schur Basis (SYMMETRIC FUNCTIONS)
Transfer from GrpPC (FINITE SOLUBLE GROUPS)
FromAnalyticJacobian(z, A) : Mtrx, AnHcJac -> SeqEnum
EllipticCurveWithjInvariant(j) : RngElt -> CrvEll
EllipticCurveFromjInvariant(j) : RngElt -> CrvEll
FromLiE(R, p) : RootDtm, MonStgElt -> LieRepDec
BoundedFSubspace(epsilon, k, degrees) : GrpDrchElt, RngIntElt, [RngIntElt] -> [ ModSym ]
IsFTGeometry(C) : CosetGeom -> BoolElt
IsFTGeometry(D) : IncGeom -> BoolElt
FuchsianGroup(A) : AlgQuat -> GrpPSL2
FuchsianGroup(A, N) : AlgQuat, RngOrdIdl -> GrpPSL2
FuchsianGroup(O) : AlgQuatOrd -> GrpPSL2
FuchsianMatrixRepresentation(A) : AlgQuat -> Map
IsFuchsianOperator(L) : RngDiffOpElt -> BoolElt, SetEnum
FuchsianGroup(A) : AlgQuat -> GrpPSL2
FuchsianGroup(A, N) : AlgQuat, RngOrdIdl -> GrpPSL2
FuchsianGroup(O) : AlgQuatOrd -> GrpPSL2
FuchsianMatrixRepresentation(A) : AlgQuat -> Map
FullCone(L): TorLat -> TorCon
FullDirichletGroup(N) : RngIntElt -> GrpDrch
FullModule(S) : ShfCoh -> ModMPol
FullRootLattice(R) : RootDtm -> Lat, Map
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013