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Subindex: weierstrass  ..  Weight


weierstrass

   Weierstrass Series (REAL AND COMPLEX FIELDS)

WeierstrassModel

   WeierstrassModel(E) : CrvEll -> CrvEll, Map, Map

WeierstrassPlaces

   WeierstrassPlaces(C) : Crv -> [PlcCrvElt]
   WeierstrassPlaces(D) : DivCrvElt -> SeqEnum
   WeierstrassPlaces(D) : DivFunElt -> [PlcFunElt]
   WeierstrassPlaces(F) : FldFunG -> [PlcFunElt]
   WeierstrassPlaces(F) : FldFunG -> [PlcFunElt]

WeierstrassPoints

   WeierstrassPoints(D) : DivCrvElt -> SeqEnum
   WeierstrassPlaces(D) : DivCrvElt -> SeqEnum
   ModFrm_WeierstrassPoints (Example H132E8)

WeierstrassSeries

   WeierstrassSeries(z, t) : RngSerElt, FldComElt -> RngSerElt
   WeierstrassSeries(z, F) : RngSerElt, QuadBinElt -> RngSerElt
   WeierstrassSeries(z, f) : RngSerElt, QuadBinElt -> RngSerElt
   WeierstrassSeries(z, q) : RngSerElt, RngSerElt -> RngSerElt
   WeierstrassSeries(z, L) : RngSerElt, SeqEnum -> RngSerElt

Weight

   AssignCapacity(~G, e, c) : GrphMult, GrphEdge, RngIntElt ->
   AssignWeight(~G, e, w) : GrphMult, GrphEdge, RngElt ->
   AssignLabel(~G, e, l) : GrphMult, GrphEdge, . ->
   ColumnWeight(A, j) : MtrxSprs, RngIntElt -> RngIntElt
   CompleteWeightEnumerator(C): Code -> RngMPolElt
   CompleteWeightEnumerator(C): Code -> RngMPolElt
   CompleteWeightEnumerator(C, u): Code, ModTupFldElt -> RngMPolElt
   CompleteWeightEnumerator(C, u): Code, ModTupFldElt -> RngMPolElt
   CompleteWeightEnumerator(C): CodeAdd -> RngMPolElt
   DeleteLabel(~G, e) : GrphMult, GrphEdge ->
   DominantWeight(G, v) : GrpLie, . -> ModTupFldElt, GrpFPCoxElt
   DominantWeight(W, v) : GrpMat, . -> ModTupFldElt, GrpFPCoxElt
   DominantWeight(W, v) : GrpPermCox, . -> ModTupFldElt, GrpFPCoxElt
   DominantWeight(R, v) : RootDtm, . -> ModTupFldElt, GrpFPCoxElt
   DualEuclideanWeightDistribution(C) : Code -> SeqEnum
   DualLeeWeightDistribution(C) : Code -> SeqEnum
   DualWeightDistribution(C) : Code -> [ <RngIntElt, RngIntElt> ]
   DualWeightDistribution(C) : Code -> [ <RngIntElt, RngIntElt> ]
   DualWeightDistribution(C) : CodeAdd -> [ <RngIntElt, RngIntElt> ]
   EndpointWeight(p) : PathLS -> ModTupRngElt
   EuclideanWeight(v) : ModTupRngElt -> RngIntElt
   EuclideanWeight(a) : RngIntRes -> RngIntElt
   EuclideanWeightDistribution(C) : Code -> SeqEnum
   EuclideanWeightEnumerator(C): Code -> RngMPolElt
   EvenWeightCode(n) : RngIntElt -> Code
   EvenWeightSubcode(C) : Code -> Code
   ExponentSum(w, x) : GrpFPElt, GrpFPElt -> RngIntElt
   ExpurgateWeightCode(C, w) : Code, RngIntElt -> Code
   GriesmerMinimumWeightBound(K, n, k) : FldFin, RngIntElt, RngIntElt->RngIntElt
   HalfIntegralWeightForms(chi, w) : GrpDrchElt, FldRatElt -> ModFrm
   HalfIntegralWeightForms(G, w) : GrpPSL2, FldRatElt -> ModFrm
   HalfIntegralWeightForms(N, w) : RngIntElt, FldRatElt -> ModFrm
   HasNegativeWeightCycle(G) : Grph -> BoolElt
   HasNegativeWeightCycle(u : parameters) : GrphVert -> BoolElt
   HighestWeightModule(L, w) : AlgLie, SeqEnum -> ModTupAlg
   HighestWeightModule(U, w) : AlgQUE, SeqEnum -> ModTupAlg
   HighestWeightRepresentation(L, w) : AlgLie, [ ] -> UserProgram
   HighestWeightRepresentation(U, w) : AlgQUE, SeqEnum -> UserProgram
   HighestWeightRepresentation(G, v) : GrpLie, . -> Map
   HighestWeightRepresentation(G, v) : GrpLie, . -> Map
   HighestWeightVectors(ρ) : Map -> [ModTupRngElt]
   IncludeWeight(X,w) : GRK3,RngIntElt -> GRK3
   IncludeWeight(~X,w) : GRSch,RngIntElt ->
   LeeWeight(u) : ModTupRngElt -> RngIntElt
   LeeWeight(v) : ModTupRngElt -> RngIntElt
   LeeWeight(a) : RngIntRes -> RngIntElt
   LeeWeightDistribution(C) : Code -> SeqEnum
   LeeWeightEnumerator(C): Code -> RngMPolElt
   MinimumEuclideanWeight(C) : Code -> RngIntElt
   MinimumLeeWeight(C) : Code -> RngIntElt
   MinimumWeight(C) : Code -> RngIntElt
   MinimumWeight(Q) : CodeQuantum -> RngIntElt
   MinimumWeight(C: parameters) : Code -> RngIntElt
   MinimumWeight(C: parameters) : CodeAdd -> RngIntElt
   MinimumWeightBounds(C) : Code -> RngIntElt, RngIntElt
   MinimumWeightTree(u : parameters) : GrphVert -> SeqEnum
   MonomialOrderWeightVectors(P) : RngMPol -> [ [ FldRatElt ] ]
   MonomialOrderWeightVectors(R) : RngMPol -> [ [ FldRatElt ] ]
   NumberOfStandardTableauxOnWeight(n) : RngIntElt -> RngIntElt
   PCClass(x) : GrpPCElt -> RngIntElt
   PartialWeightDistribution(C, ub) : Code -> [ <RngIntElt, RngIntElt> ]
   PartitionToWeight(l) : SeqEnum -> SeqEnum
   RemoveWeight(X,w) : GRK3,RngIntElt -> GRK3
   RemoveWeight(~X,w) : GRSch,RngIntElt ->
   ResetMinimumWeightBounds(C) : Code ->
   RowWeight(A, i) : MtrxSprs, RngIntElt -> RngIntElt
   SkewWeight(t) : Tbl -> RngIntElt
   StandardTableauxOfWeight(n) : RngIntElt -> SetEnum
   SubcodeWordsOfWeight(C, S) : Code, { RngIntElt } -> Code
   SubcodeWordsOfWeight(C, w) : CodeAdd, RngIntElt -> CodeAdd
   SubcodeWordsOfWeight(C, S) : CodeAdd, { RngIntElt } -> CodeAdd
   SymmetricWeightEnumerator(C): Code -> RngMPolElt
   VerifyMinimumDistanceUpperBound(C, d) : Code, RngIntElt -> BoolElt, RngIntElt, BoolElt
   Weight(e) : GrphEdge -> RngElt
   Weight(H) : HypGeomData -> RngIntElt
   Weight(ρ, v) : Map, ModTupRngElt -> LatElt
   Weight(M) : ModFrm -> RngIntElt
   Weight(f) : ModFrmElt -> RngIntElt
   Weight(M) : ModFrmHil -> SeqEnum[RngIntElt]
   Weight(u) : ModTupFldElt -> RngIntElt
   Weight(u) : ModTupRngElt -> RngIntElt
   Weight(u) : ModTupRngElt -> RngIntElt
   Weight(u) : ModTupRngElt -> RngIntElt
   Weight(v) : ModTupRngElt -> RngIntElt
   Weight(F) : NwtnPgonFace -> RngIntElt
   Weight(P) : SeqEnum -> RngIntElt
   Weight(t) : Tbl -> RngIntElt
   WeightDistribution(C) : Code -> [ <RngIntElt, RngIntElt> ]
   WeightDistribution(C) : Code -> [ <RngIntElt, RngIntElt> ]
   WeightDistribution(C, u) : Code, ModTupFldElt -> [ <RngIntElt, RngIntElt> ]
   WeightDistribution(C) : CodeAdd -> [ <RngIntElt, RngIntElt> ]
   WeightDistribution(Q) : CodeQuantum -> SeqEnum, SeqEnum, SeqEnum
   WeightEnumerator(C): Code -> RngMPolElt
   WeightEnumerator(C): Code -> RngMPolElt
   WeightEnumerator(C, u): Code, ModTupFldElt -> RngMPolElt
   WeightEnumerator(C): CodeAdd -> RngMPolElt
   WeightLattice(G) : GrpLie -> Lat
   WeightLattice(W) : GrpMat -> Lat
   WeightLattice(W) : GrpPermCox -> Lat
   WeightLattice(R) : RootDtm -> Lat
   WeightOneHalfData(H) : ModFrm -> List
   WeightOneHalfData(M) : ModFrm -> List
   WeightOrbit(W, v) : GrpMat, . -> @ ModTupFldElt @, [GrpFPCoxElt]
   WeightOrbit(W, v) : GrpPermCox, . -> @ ModTupFldElt @, [GrpFPCoxElt]
   WeightOrbit(R, v) : RootDtm, . -> @ ModTupFldElt @, [GrpFPCoxElt]
   WeightSequence(p) : PathLS -> SeqEnum
   WeightToPartition(v) : SeqEnum -> SeqEnum
   WeightVectors(ρ) : Map -> [ModTupRngElt]
   WordsOfBoundedLeeWeight(C, l, u) : Code, RngIntElt, RngIntElt -> SetEnum
   WordsOfBoundedWeight(C, l, u: parameters) : Code, RngIntElt, RngIntElt -> { ModTupFldElt }
   WordsOfBoundedWeight(C, l, u: parameters) : Code, RngIntElt, RngIntElt -> { ModTupFldElt }
   WordsOfLeeWeight(C, w) : Code, RngIntElt -> SetEnum

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Version: V2.19 of Mon Dec 17 14:40:36 EST 2012