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Subindex: Replace .. Representation
ReplaceRelation(G, s, r) : GrpFP, RelElt, RelElt -> GrpFP
ReplaceRelation(G, i, g) : GrpFP, RngIntElt, GrpFPElt -> GrpFP
ReplaceRelation(G, i, r) : GrpFP, RngIntElt, RelElt -> GrpFP
ReplaceRelation(S, r1, r2) : SgpFP, Rel, Rel -> SgpFP
ReplaceRelation(S, i, r) : SgpFP, RngIntElt, Rel -> SgpFP
GrpFP_2_Replace (Example H71E1)
ReplaceRelation(G, s, r) : GrpFP, RelElt, RelElt -> GrpFP
ReplaceRelation(G, i, g) : GrpFP, RngIntElt, GrpFPElt -> GrpFP
ReplaceRelation(G, i, r) : GrpFP, RngIntElt, RelElt -> GrpFP
ReplaceRelation(S, r1, r2) : SgpFP, Rel, Rel -> SgpFP
ReplaceRelation(S, i, r) : SgpFP, RngIntElt, Rel -> SgpFP
ReplicationNumber(D) : Dsgn -> RngIntElt
ReplicationNumber(D) : Dsgn -> RngIntElt
HTML Reports (THE MAGMA PROFILER)
Internal Reports (THE MAGMA PROFILER)
FldQuad_Represent (Example H35E6)
ProductRepresentation(D, E) : LieRepDec, LieRepDec -> LieRepDec
D * E : LieRepDec, LieRepDec -> LieRepDec
AbsoluteRepresentation(G) : GrpMat -> GrpMat, Map
AbsoluteRepresentationMatrix(a) : FldAlgElt -> AlgMatElt
AbsoluteRepresentationMatrix(a) : FldNumElt -> NumMatElt
AbsolutelyIrreducibleRepresentationProcessDelete(~P) : SolRepProc ->
AddRepresentation(~D, E, c) : LieRepDec, LieRepDec, RngIntElt ->
AddRepresentation(~D, v, c) : LieRepDec, ModTupRngElt, RngIntElt ->
AdjointRepresentation(L) : AlgLie -> Map
AdjointRepresentation(G) : GrpLie -> Map, AlgLie
AdjointRepresentation(G) : GrpLie -> Map, AlgLie
AdjointRepresentationDecomposition(R) : RootDtm -> LieRepDec
ArtinRepresentation(ch) : GrpDrchElt -> ArtRep
ArtinRepresentation(H, t) : HypGeomData, FldRatElt -> ArtRep
BurauRepresentation(B) : GrpBrd -> Map
BurauRepresentation(B, p) : GrpBrd, RngIntElt -> Map
CanonicalFactorRepresentation(u: parameters) : GrpBrdElt -> Tup
CartierRepresentation(C) : Crv -> AlgMatElt, SeqEnum[DiffCrvElt]
CartierRepresentation(F) : FldFunG -> AlgMatElt, SeqEnum[DiffFunElt]
ChangeRepresentationType(A, Rep) : AlgGrp, MonStgElt -> AlgGrp, Map
CosetTableToRepresentation(G, T): GrpFP, Map -> Map, GrpPerm, Grp
FuchsianMatrixRepresentation(A) : AlgQuat -> Map
GaloisRepresentation(pi) : RepLoc -> GrpPerm, Map, RngPad, ModGrp
HighestWeightRepresentation(L, w) : AlgLie, [ ] -> UserProgram
HighestWeightRepresentation(U, w) : AlgQUE, SeqEnum -> UserProgram
HighestWeightRepresentation(G, v) : GrpLie, . -> Map
HighestWeightRepresentation(G, v) : GrpLie, . -> Map
IsInArtinSchreierRepresentation(K) : FldFun -> BoolElt, FldFunElt
IsInKummerRepresentation(K) : FldFun -> BoolElt, FldFunElt
LeftRepresentationMatrix(e) : AlgAssVOrdElt -> AlgMatElt
LieRepresentationDecomposition(R, v) : RootDtm, ModTupRngElt -> LieRepDec
LieRepresentationDecomposition(R, Wt, Mp) : RootDtm, SeqEnum, SeqEnum -> LieRepDec
MatrixRepresentation(A) : AlgQuat -> Map
MatrixRepresentation(A) : GrpAutCrv -> Grpmat, Map, SeqEnum
NextRepresentation(P) : SolRepProc -> BoolElt, Map
OptimizedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(A) : AlgQuat -> AlgQuat, Map
OptimizedRepresentation(F) : FldAlg -> FldAlg, map
OptimizedRepresentation(F) : FldNum -> FldNum, map
OptimizedRepresentation(O) : RngOrd -> BoolElt, RngOrd, Map
OptimizedRepresentation(E) : RngSerExt -> RngSer, Map
PermutationRepresentation(A) : GrpAutCrv -> GrpPerm, Map
PermutationRepresentation(A) : GrpAuto -> Map, GrpPerm, SetIndx
PermutationRepresentation(D, i: parameters): DB, RngIntElt -> Hom(Grp), GrpFP, GrpPerm
PrimePowerRepresentation(x, k, a) : FldFunGElt, RngIntElt, FldFunGElt -> SeqEnum
ProductRepresentation(a) : FldFunGElt -> [FldFunGElt], [RngIntElt]
ProductRepresentation(a) : FldNumElt -> [ FldNumElt ], [ RngIntElt ]
ProductRepresentation(D, E, R) : LieRepDec, LieRepDec, RootDtm -> LieRepDec
ProductRepresentation(a) : RngOrdElt -> [ RngOrdElt ], [ RngIntElt ]
ProductRepresentation(P, E) : [ FldAlgElt ], [ RngIntElt ] -> FldAlgElt
ProductRepresentation(P, E) : [ FldNumElt ], [ RngIntElt ] -> FldNumElt
ProductRepresentation(Q, S) : [FldFunGElt], [RngIntElt] -> FldFunGElt
QuotientRepresentation(L) : RngLocA -> RngUPolRes
RamifiedRepresentation(L) : RngLocA -> FldPad, Map
RationalExtensionRepresentation(F) : FldFunG -> FldFun
ReeIrreducibleRepresentation(F, twists : parameters) : FldFin, SeqEnum[RngIntElt] -> GrpMat
RegularRepresentation(v) : AlgBasElt -> AlgMatElt
RegularRepresentation(A : parameters) : AlgAss -> AlgMat, Map
Representation(F) : FldInvar -> Mtrx
Representation(g) : GrpAbGenElt -> [RngIntElt]
Representation(M) : ModGrp -> Map(Hom)
Representation(R) : RngInvar -> Mtrx
Representation(S, g) : SeqEnum, GrpAbGenElt -> [RngIntElt], RngIntElt
RepresentationDimension(D) : LieRepDec -> RngIntElt
RepresentationDimension(R, v) : RootDtm, SeqEnum -> RngIntElt
RepresentationMatrix(a) : AlgAssVOrdElt -> AlgMatElt
RepresentationMatrix(f) : AlgFPElt -> AlgMatElt
RepresentationMatrix(a) : FldAlgElt -> AlgMatElt
RepresentationMatrix(a) : FldFunGElt -> AlgMatElt
RepresentationMatrix(a, R) : FldFunGElt, Rng -> AlgMatElt
RepresentationMatrix(a) : FldNumElt -> NumMatElt
RepresentationMatrix(a, M : parameters) : AlgAssElt, AlgAss -> AlgMatElt
RepresentationMatrix(a) : RngLocAElt -> AlgMatElt
RepresentationMatrix(f) : RngMPolResElt -> AlgMatElt
RepresentationNumber(f, n) : QuadBinElt, RngIntElt -> RngIntElt
RepresentationType(A) : AlgGrp -> MonStgElt
SSGaloisRepresentation(E,K,w,P) : FldFin, RngSerLaur, SeqEnum, SeqEnum -> SSGalRep
SSGaloisRepresentation(D) : PhiMod -> SSGalRep
SSGaloisRepresentation(D) : PhiMod -> SSGalRep
StandardRepresentation(L) : AlgLie -> Map
StandardRepresentation(G) : GrpLie -> Map
StandardRepresentation(G) : GrpLie -> Map
SubfieldRepresentationCode(C, K) : Code, FldFin -> Code
SubfieldRepresentationParityCode(C, K) : Code, FldFin -> Code
SuzukiIrreducibleRepresentation(F, twists : parameters) : FldFin, SeqEnum[RngIntElt] -> GrpMat
SymmetricRepresentation(B) : GrpBrd -> Map
SymmetricRepresentation(pa, pe) : SeqEnum, GrpPermElt -> AlgMatElt
SymmetricRepresentationOrthogonal(pa, pe) : SeqEnum,GrpPermElt -> AlgMatElt
SymmetricRepresentationSeminormal(pa, pe) : SeqEnum,GrpPermElt -> AlgMatElt
TrivialLieRepresentationDecomposition(R) : RootDtm -> LieRepDec
TrivialRepresentation(L) : AlgLie -> Map
TrivialRepresentation(G) : GrpLie -> Map
UserRepresentation(g) : GrpAbGenElt -> [RngIntElt]
WriteRepresentationOver(R, K) : Map, FldAlg -> Map
ModGrp_Representation (Example H90E8)
ModSym_Representation (Example H133E8)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013