[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: symbol .. Symmetric
MODULAR SYMBOLS
Farey Symbols and Fundamental Domains (CONGRUENCE SUBGROUPS OF PSL2(R))
DefiningModularSymbolsSpace(pi) : RepLoc -> ModSym
IsAttachedToModularSymbols(A) : ModAbVar -> BoolElt
IsAttachedToModularSymbols(H) : ModAbVarHomol -> BoolElt
KodairaSymbols(E) : CrvEll -> [ <SymKod, RngIntElt> ]
KodairaSymbols(E) : CrvEll -> [ SymKod ]
ModularSymbols(E) : CrvEll -> ModSym
ModularSymbols(eps, k) : GrpDrchElt, RngIntElt -> ModSym
ModularSymbols(eps, k, sign) : GrpDrchElt, RngIntElt, RngIntElt -> ModSym
ModularSymbols(A) : ModAbVar -> SeqEnum
ModularSymbols(H) : ModAbVarHomol -> SeqEnum
ModularSymbols(M) : ModFrm -> SeqEnum
ModularSymbols(M, sign) : ModFrm, RngIntElt -> ModSym
ModularSymbols(M, N') : ModSym, RngIntElt -> ModSym
ModularSymbols(s, sign) : MonStgElt, RngIntElt -> ModSym
ModularSymbols(M : parameters) : ModSS -> ModSym
ModularSymbols(M, sign : parameters) : ModSS, RngIntElt -> ModSym
ModularSymbols(N) : RngIntElt -> ModSym
ModularSymbols(N, k) : RngIntElt, RngIntElt -> ModSym
ModularSymbols(N, k, F) : RngIntElt, RngIntElt, Fld -> ModSym
ModularSymbols(N, k, F, sign) : RngIntElt, RngIntElt, Fld, RngIntElt -> ModSym
ModularSymbols(N, k, sign) : RngIntElt, RngIntElt, RngIntElt -> ModSym
Hilbert Symbols and Embeddings (QUATERNION ALGEBRAS)
Modular Symbols (MODULAR FORMS)
Modular Symbols (MODULAR SYMBOLS)
Symmetric Group Character (SYMMETRIC FUNCTIONS)
DensityEvolutionBinarySymmetric(v, c, p) : RngIntElt, RngIntElt, FldReElt -> BoolElt
ElementarySymmetricPolynomial(P, k) : RngMPol, RngIntElt -> RngMPolElt
ElementarySymmetricPolynomial(P, k) : RngMPol, RngIntElt -> RngMPolElt
InvariantForms(G) : GrpMat -> [ AlgMatElt ]
InvariantForms(G, n) : GrpMat, RngIntElt -> [ AlgMatElt ]
IsSymmetric(a) : AlgMatElt -> BoolElt
IsSymmetric(D) : Dsgn -> BoolElt
IsSymmetric(G) : GrphUnd -> BoolElt
IsSymmetric(G) : GrpPerm -> BoolElt
IsSymmetric(A) : Mtrx -> BoolElt
IsSymmetric(A) : MtrxSprs -> BoolElt
IsSymmetric(f) : RngMPolElt -> BoolElt, RngMPolElt
IsSymmetric(f) : RngMPolElt -> BoolElt, RngMPolElt
LDPCBinarySymmetricThreshold(v, c) : RngIntElt, RngIntElt -> FldReElt
NumberOfInvariantForms(G) : GrpMat -> RngIntElt, RngIntElt
NumberOfSymmetricForms(L) : Lat -> RngIntElt
PowerSumToElementarySymmetric(I) : [] -> []
RecogniseAlternatingOrSymmetric(G, n) : Grp, RngIntElt -> BoolElt, BoolElt, UserProgram, UserProgram
RecogniseAlternatingOrSymmetric(G, n) : Grp, RngIntElt -> BoolElt, BoolElt, UserProgram, UserProgram
RecogniseSymmetric(G, n: parameters) : Grp, RngIntElt -> BoolElt, Map, Map, Map, Map, BoolElt
RecogniseSymmetric(G, n: parameters) : Grp, RngIntElt -> BoolElt, Map, Map, Map, Map, BoolElt
RecogniseSymmetricSquare (G) : GrpMat -> BoolElt, GrpMat
StandardSymmetricForm(n, K) : RngIntElt, Fld -> AlgMatElt
Sym(GrpPerm, n) : Cat, RngIntElt -> GrpPerm
Sym(n) : RngIntElt -> GrpPerm
Sym(X) : Set -> GrpPerm
SymmetricBilinearForm(G: parameters) : GrpMat -> BoolElt, AlgMatElt, MonStgElt [,SeqEnum]
SymmetricBilinearForm(f) : RngMPolElt -> ModMatRngElt
SymmetricCharacter(sf): AlgSymElt -> AlgChtrElt
SymmetricCharacter(pa) : SeqEnum -> AlgChtrElt
SymmetricCharacterTable(d) : RngIntElt -> SeqEnum
SymmetricCharacterValue(pa, pe) : SeqEnum, GrpPermElt -> RngElt
SymmetricComponents(x, n) : AlgChtrElt, RngIntElt -> SetEnum
SymmetricElementToWord (G, g) : Grp, GrpElt -> BoolElt, GrpSLPElt
SymmetricElementToWord (G, g) : Grp, GrpElt -> BoolElt, GrpSLPElt
SymmetricForms(L) : Lat -> [ AlgMatElt ]
SymmetricForms(L, n) : Lat, RngIntElt -> [ AlgMatElt ]
SymmetricFunctionAlgebra(R) : Rng -> AlgSym
SymmetricFunctionAlgebraElementary(R) : Rng -> AlgSym
SymmetricFunctionAlgebraHomogeneous(R) : Rng -> AlgSym
SymmetricFunctionAlgebraMonomial(R) : Rng -> AlgSym
SymmetricFunctionAlgebraPower(R) : Rng -> AlgSym
SymmetricFunctionAlgebraSchur(R) : Rng -> AlgSym
SymmetricGroup(C, n) : Cat, RngIntElt -> GrpFin
SymmetricGroup(GrpFP, n) : Cat, RngIntElt -> GrpFP
SymmetricMatrix(R, Q) : Rng, [ RngElt ] -> Mtrx
SymmetricMatrix(f) : RngMPolElt -> Mtrx
SymmetricMatrix(Q) : [ RngElt ] -> Mtrx
SymmetricNormalizer(G) : GrpPerm -> GrpPerm
SymmetricPower(a,r) : AlgMatElt, RngIntElt -> AlgMatElt
SymmetricPower(L, m) : LSer, RngIntElt -> LSer
SymmetricPower(V, n) : ModAlg, RngIntElt -> ModAlg, Map
SymmetricPower(V, n) : ModAlg, RngIntElt -> ModAlg, Map
SymmetricPower(L, m) : RngDiffOpElt, RngIntElt -> RngDiffOpElt
SymmetricPower(R, n, v) : RootDtm, RngIntElt, ModTupRngElt -> LieRepDec
SymmetricRepresentation(B) : GrpBrd -> Map
SymmetricRepresentation(pa, pe) : SeqEnum, GrpPermElt -> AlgMatElt
SymmetricRepresentationOrthogonal(pa, pe) : SeqEnum,GrpPermElt -> AlgMatElt
SymmetricRepresentationSeminormal(pa, pe) : SeqEnum,GrpPermElt -> AlgMatElt
SymmetricSquare(a) : AlgMatElt -> AlgMatElt
SymmetricSquare(L) : Lat -> Lat
SymmetricSquare(M) : ModGrp -> ModGrp
SymmetricSquarePreimage (G, g) : GrpMat, GrpMatElt -> GrpMatElt
SymmetricToQuadraticForm(J) : AlgMatElt -> AlgMatElt
SymmetricWeightEnumerator(C): Code -> RngMPolElt
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013