[____] [____] [_____] [____] [__] [Index] [Root]

Subindex: v  ..  Value


v

   Adding Vertices (GRAPHS)
   Adding Vertices (MULTIGRAPHS)
   Removing Vertices (GRAPHS)
   Removing Vertices (MULTIGRAPHS)

val

   Finding Valuations of Roots of Polynomials from Newton Polygons (NEWTON POLYGONS)
   Precision and Valuation (p-ADIC RINGS AND THEIR EXTENSIONS)

Valence

   Valence(G) : GrphUnd -> RngIntElt

Valency

   Valency(v) : GrphSplVert -> RngIntElt

Valid

   HasValidCosetTable(P) : GrpFPCosetEnumProc -> BoolElt
   HasValidIndex(P) : GrpFPCosetEnumProc -> BoolElt
   IsValid(P) : GrpFPHomsProc -> BoolElt
   IsValid(P) : GrpFPLixProc -> BoolElt

Validate

   ValidateCryptographicCurve(E, P, ordP, h) : CrvEll, PtEll, RngIntElt, RngIntElt -> BoolElt
   CryptographicCurve(F) : FldFin -> CrvEll, PtEll, RngIntElt, RngIntElt

ValidateCryptographicCurve

   ValidateCryptographicCurve(E, P, ordP, h) : CrvEll, PtEll, RngIntElt, RngIntElt -> BoolElt
   CryptographicCurve(F) : FldFin -> CrvEll, PtEll, RngIntElt, RngIntElt

Valuation

   Valuation(v) : RngValElt -> RngIntElt
   EuclideanNorm(v) : RngValElt -> RngIntElt
   SafeUniformizer(P) :
   ShiftValuation(f, n) : RngUPolElt, RngIntElt -> RngUPolElt
   SlopeValuation(L,s) : RngDiffOpElt, RngElt -> FldRatElt
   Valuation(a, P) : DiffCrvElt, PlcCrvElt -> RngIntElt
   Valuation(d, P) : DiffCrvElt, PlcCrvElt -> RngIntElt
   Valuation(d, P) : DiffFunElt, PlcFunElt -> RngIntElt
   Valuation(D,p) : DivCrvElt, Pt -> DivCrvElt
   Valuation(D, P) : DivFunElt, PlcFunElt -> RngIntElt
   Valuation(a, P) : FldFunElt, PlcFunElt -> RngIntElt
   Valuation(a, p) : FldNumElt, PlcNumElt -> RngElt
   Valuation(a, p) : FldNumElt, PlcNumElt -> RngElt
   Valuation(x, p) : FldRatElt, RngIntElt -> RngIntElt, FldRatElt
   Valuation(P) : PlcCrvElt -> Map
   Valuation(p) : Pt -> Map
   Valuation(f, P) : RngElt, PlcCrvElt -> RngIntElt
   Valuation(f, p) : RngElt, Pt -> RngIntElt
   Valuation(a, P) : RngElt, RngFunOrdIdl -> RngIntElt
   Valuation(x, I) : RngIntElt, RngInt -> RngIntElt
   Valuation(x, p) : RngIntElt, RngIntElt -> RngIntElt, RngIntElt
   Valuation(a) : RngLocAElt -> RngExtReElt
   Valuation(w, I) : RngOrdElt, RngOrdIdl -> RngIntElt
   Valuation(I, p) : RngOrdFracIdl , PlcNumElt -> RngElt
   Valuation(I, p) : RngOrdFracIdl , PlcNumElt -> RngElt
   Valuation(I, p) : RngOrdFracIdl, RngOrdIdl -> RngIntElt
   Valuation(x) : RngPadElt -> RngIntElt
   Valuation(s) : RngPowLazElt -> Any
   Valuation(f) : RngSerElt -> RngIntElt
   Valuation(e) : RngSerExtElt -> RngIntElt
   Valuation(p) : RngUPolElt -> RngIntElt
   Valuation(f, g) : RngUPolElt, RngUPolElt -> RngIntElt
   ValuationRing(F) : FldFun -> RngVal
   ValuationRing(F, f) : FldFun, RngUPolElt -> RngVal
   ValuationRing(F) : FldFunRat -> RngVal
   ValuationRing(F, f) : FldFunRat, RngUPolElt -> RngVal
   ValuationRing(Q, p) : FldRat, RngIntElt -> RngVal

valuation

   Slope Valuation of an Operator (DIFFERENTIAL RINGS)
   Valuation (RATIONAL FIELD)
   VALUATION RINGS

ValuationRing

   ValuationRing(F) : FldFun -> RngVal
   ValuationRing(F, f) : FldFun, RngUPolElt -> RngVal
   ValuationRing(F) : FldFunRat -> RngVal
   ValuationRing(F, f) : FldFunRat, RngUPolElt -> RngVal
   ValuationRing(Q, p) : FldRat, RngIntElt -> RngVal
   GB_ValuationRing (Example H105E10)

Valuations

   ValuationsOfRoots(f) : RngUPolElt -> SeqEnum[<FldRatElt, RngIntElt>]
   ValuationsOfRoots(f) : RngUPolElt -> [ < RngIntElt, RngIntElt > ]
   ValuationsOfRoots(f, p) : RngUPolElt, RngIntElt -> [ < RngIntElt, RngIntElt > ]

ValuationsOfRoots

   ValuationsOfRoots(f) : RngUPolElt -> SeqEnum[<FldRatElt, RngIntElt>]
   ValuationsOfRoots(f) : RngUPolElt -> [ < RngIntElt, RngIntElt > ]
   ValuationsOfRoots(f, p) : RngUPolElt, RngIntElt -> [ < RngIntElt, RngIntElt > ]

Value

   AbsoluteValue(x) : Infty -> Infty
   Abs(x) : Infty -> Infty
   Abs(z) : SpcHydElt -> FldReElt
   AbsoluteValue(q) : FldRatElt -> FldRatElt
   AbsoluteValue(r) : FldReElt-> FldReElt
   AbsoluteValue(n) : RngIntElt -> RngIntElt
   AbsoluteValue(f) : RngMPolElt -> RngMPolElt
   AbsoluteValue(p) : RngUPolElt -> RngUPolElt
   AlternatingCharacterValue(pa, pe) : SeqEnum, GrpPermElt -> RngElt
   AlternatingCharacterValue(pa, i, pe) : SeqEnum, RngIntElt, GrpPermElt -> RngElt
   CasimirValue(R, w) : RootDtm, ModTupRngElt -> FldRatElt
   CentralValue(L) : LSer -> FldComElt
   ComplexValue(z) : SpcHydElt -> FldComElt
   ComplexValue(x) : SpcHypElt -> FldComElt
   ExactValue(z) : SpcHydElt -> .
   ExactValue(z) : SpcHypElt -> .
   GetEnvironmentValue(s) : MonStgElt -> MonStgElt
   SymmetricCharacterValue(pa, pe) : SeqEnum, GrpPermElt -> RngElt
   ValueList(chi) : GrpDrchElt -> [RngElt]
   fValueProof(L, x, b) : AlgLieExtr, RngIntElt, RngIntElt ->

[____] [____] [_____] [____] [__] [Index] [Root]

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