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Subindex: weight  ..  Weights


weight

   Graded Polynomial Rings (MULTIVARIATE POLYNOMIAL RINGS)
   Half-integral Weight Forms (MODULAR FORMS)
   Hamming Weight (LINEAR CODES OVER FINITE RINGS)
   The Minimum Weight (ADDITIVE CODES)
   The Minimum Weight (LINEAR CODES OVER FINITE FIELDS)
   The Weight Distribution (ADDITIVE CODES)
   The Weight Distribution (LINEAR CODES OVER FINITE FIELDS)
   The Weight Enumerator (ADDITIVE CODES)
   The Weight Enumerator (LINEAR CODES OVER FINITE FIELDS)
   Weight Distribution and Minimum Weight (QUANTUM CODES)
   Weight Distributions (LINEAR CODES OVER FINITE RINGS)
   Weight Enumerators (LINEAR CODES OVER FINITE RINGS)
   Weight Half Forms (MODULAR FORMS)
   Weight One Forms (MODULAR FORMS)
   Weight: weight (GRÖBNER BASES)
   Weights (FINITELY PRESENTED ALGEBRAS)
   Weights (FINITELY PRESENTED ALGEBRAS)

weight-dist-cyc

   CodeRng_weight-dist-cyc (Example H155E18)

weight-distribution

   The Weight Distribution (ADDITIVE CODES)
   The Weight Distribution (LINEAR CODES OVER FINITE FIELDS)
   Weight Distribution and Minimum Weight (QUANTUM CODES)
   Weight Distributions (LINEAR CODES OVER FINITE RINGS)

weight-enumerator

   The Weight Enumerator (ADDITIVE CODES)
   The Weight Enumerator (LINEAR CODES OVER FINITE FIELDS)
   Weight Enumerators (LINEAR CODES OVER FINITE RINGS)

weight-half-forms

   Weight Half Forms (MODULAR FORMS)

weight-one-forms

   Weight One Forms (MODULAR FORMS)

WeightClass

   WeightClass(x) : GrpPCElt -> RngIntElt
   PCClass(x) : GrpPCElt -> RngIntElt

WeightDistribution

   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
   CodeFld_WeightDistribution (Example H152E20)

Weighted

   WeightedDegree(f) : ModMPolElt -> RngIntElt
   Degree(f) : ModMPolElt -> RngIntElt
   Degree(f) : RngMPolElt -> RngIntElt
   IsEdgeWeighted(G) : GrphMult -> BoolElt
   IsFakeWeightedProjectiveSpace(X) : TorVar -> BoolElt
   IsGenuineWeightedDynkinDiagram( L, wd ) : AlgLie, SeqEnum -> BoolElt, SeqEnum
   IsWeighted(E) : GrphEdgeSet -> BoolElt
   IsWeightedProjectiveSpace(X) : TorVar -> BoolElt
   LeadingWeightedDegree(f) : RngMPolElt -> RngIntElt
   MinimalModelGeneralType(S) : Srfc -> Map, BoolElt
   MonomialsOfWeightedDegree(P, d) : RngMPolElt, RngIntElt -> {@ RngMPolElt @}
   MonomialsOfWeightedDegree(X, D) : Sch, [RngIntElt] -> SetIndx
   WeightedDegree(f) : FldFunRatElt -> RngIntElt
   WeightedDynkinDiagram( o ) : NilpOrbAlgLie -> SeqEnum

weighted-blowup

   Crv_weighted-blowup (Example H114E7)

WeightedDegree

   WeightedDegree(f) : ModMPolElt -> RngIntElt
   Degree(f) : ModMPolElt -> RngIntElt
   Degree(f) : RngMPolElt -> RngIntElt
   WeightedDegree(f) : FldFunRatElt -> RngIntElt

WeightedDynkinDiagram

   WeightedDynkinDiagram( o ) : NilpOrbAlgLie -> SeqEnum

weightEnum-galois-rings

   CodeRng_weightEnum-galois-rings (Example H155E21)

WeightEnumerator

   WeightEnumerator(C): Code -> RngMPolElt
   WeightEnumerator(C): Code -> RngMPolElt
   WeightEnumerator(C, u): Code, ModTupFldElt -> RngMPolElt
   WeightEnumerator(C): CodeAdd -> RngMPolElt
   CodeFld_WeightEnumerator (Example H152E21)
   CodeRng_WeightEnumerator (Example H155E22)

WeightLattice

   CoweightLattice(G) : GrpLie -> Lat
   WeightLattice(G) : GrpLie -> Lat
   WeightLattice(W) : GrpMat -> Lat
   WeightLattice(W) : GrpPermCox -> Lat
   WeightLattice(R) : RootDtm -> Lat

WeightOneHalfData

   WeightOneHalfData(H) : ModFrm -> List
   WeightOneHalfData(M) : ModFrm -> List

WeightOrbit

   WeightOrbit(W, v) : GrpMat, . -> @ ModTupFldElt @, [GrpFPCoxElt]
   WeightOrbit(W, v) : GrpPermCox, . -> @ ModTupFldElt @, [GrpFPCoxElt]
   WeightOrbit(R, v) : RootDtm, . -> @ ModTupFldElt @, [GrpFPCoxElt]

Weights

   AssignCapacities(~G, D) : GrphMult, [RngIntElt] ->
   AssignWeights(~G, D) : GrphMult, [RngElt] ->
   AssignEdgeLabels(~G, D) : GrphMult, SeqEnum ->
   AssignLabels(~G, S, D) : GrphMult, [GrphEdge], SeqEnum ->
   ColumnWeights(M) : ModMPol -> [ RngIntElt ]
   ColumnWeights(A) : MtrxSprs -> [RngIntElt]
   ColumnWeights(A) : MtrxSprs -> [RngIntElt]
   DeleteEdgeLabels(~G) : GrphMult ->
   DeleteLabels(~G, S) : GrphMult, [GrphEdge] ->
   EdgeLabels(G) : GrphMult -> SeqEnum
   FirstWeights(X) : GRSch -> SeqEnum
   FundamentalWeights(G) : GrpLie -> Mtrx
   FundamentalWeights(W) : GrpMat -> Mtrx
   FundamentalWeights(W) : GrpPermCox -> SeqEnum
   FundamentalWeights(R) : RootDtm -> Mtrx
   Grading(P) : RngMPol -> [ RngIntElt ]
   HighestWeights(ρ) : Map -> [LatElt], [ModTupRngElt]
   HighestWeightsAndVectors(V) : ModAlg -> SeqEnum, SeqEnum
   HighestWeightsAndVectors(V) : ModAlg -> SeqEnum, SeqEnum
   Labels(E) : GrphEdgeSet -> SeqEnum
   Labels(S) : [GrphEdge] -> SeqEnum
   MinimiseWeights(~X) : GRSch ->
   MonodromyWeights(M) : ModSS -> SeqEnum
   NoetherWeights(X) : GRSch -> SeqEnum
   PermuteWeights(D, pi, S) : LieRepDec, GrpPermElt, RootDtm -> LieRepDec
   RowWeights(A) : MtrxSprs -> [RngIntElt]
   SpecialWeights(G) : GrpPC -> [ <RngIntElt, RngIntElt, RngIntElt> ]
   SubWeights(D, Q, S) : LieRepDec, SeqEnum, RootDtm -> LieRepDec
   Weights(X) : GRSch -> SeqEnum
   Weights(D) : LieRepDec -> SeqEnum, SeqEnum
   Weights(ρ) : Map -> [LatElt], [ModTupRngElt]
   Weights(ρ) : Map -> [ModTupRngElt]
   Weights(A) : ModAbVar -> Set
   Weights(V) : ModAlg -> SeqEnum, SeqEnum
   Weights(V) : SSGalRep -> SeqEnum
   WeightsAndVectors(V) : ModAlg -> SeqEnum, SeqEnum
   WeightsOfFlip(X,i) : TorVar,RngIntElt -> SeqEnum
   GrpRfl_Weights (Example H99E26)
   RootDtm_Weights (Example H97E24)

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