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Subindex: AbsoluteCartanMatrix  ..  AbsoluteValue


AbsoluteCartanMatrix

   AbsoluteCartanMatrix(G, K) : Grp, FldFin -> AlgMatElt

AbsoluteCharacteristicPolynomial

   AbsoluteCharacteristicPolynomial(a) : FldAlgElt -> RngUPolElt
   AbsoluteCharacteristicPolynomial(a) : FldNumElt -> RngUPolElt

AbsoluteDegree

   AbsoluteDegree(A) : FldAb -> RngIntElt
   AbsoluteDegree(F) : FldFunG -> RngIntElt
   AbsoluteDegree(F) : FldNum -> RngIntElt
   AbsoluteDegree(O) : RngOrd -> RngIntElt
   AbsoluteDegree(L) : RngPad -> RngIntElt
   Degree(Q) : FldRat -> RngIntElt

AbsoluteDiscriminant

   AbsoluteDiscriminant(A) : FldAb -> RngIntElt
   AbsoluteDiscriminant(K) : FldAlg -> FldRatElt
   AbsoluteDiscriminant(K) : FldNum -> FldRatElt
   AbsoluteDiscriminant(O) : RngFunOrd -> .
   AbsoluteDiscriminant(O) : RngOrd -> RngIntElt
   Discriminant(Q) : FldRat -> RngIntElt

AbsoluteField

   AbsoluteField(F) : FldAlg -> FldAlg
   AbsoluteField(F) : FldNum -> FldNum

AbsoluteFunctionField

   AbsoluteFunctionField(F) : FldFunG -> FldFunG

AbsoluteGaloisGroup

   AbsoluteGaloisGroup(A) : FldAb -> GrpPerm, SeqEnum, GaloisData

AbsoluteInertiaDegree

   AbsoluteInertiaIndex(L) : RngPad -> RngIntElt
   AbsoluteInertiaDegree(L) : RngPad -> RngIntElt

AbsoluteInertiaIndex

   AbsoluteInertiaIndex(L) : RngPad -> RngIntElt
   AbsoluteInertiaDegree(L) : RngPad -> RngIntElt

AbsoluteInvariants

   AbsoluteInvariants(C) : CrvHyp -> SeqEnum

AbsoluteLogarithmicHeight

   AbsoluteLogarithmicHeight(a) : FldAlgElt -> FldPrElt
   AbsoluteLogarithmicHeight(a) : FldNumElt -> FldComElt

Absolutely

   AbsolutelyIrreducibleConstituents(M) : ModGrp -> [ ModGrp ]
   AbsolutelyIrreducibleModule(M) : ModRng -> ModRng
   AbsolutelyIrreducibleModulesBurnside(G, K : parameters ) : Grp, FldFin -> [ ModGrp ]
   AbsolutelyIrreducibleRepresentationProcessDelete(~P) : SolRepProc ->
   AbsolutelyIrreducibleRepresentationsInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   AbsolutelyIrreducibleRepresentationsSchur(G, k: parameters) : GrpPC, Rng -> List[Map]
   IrreducibleModules(G, K : parameters) : Grp, Fld -> SeqEnum
   IrreducibleModules(G, K : parameters) : Grp, Fld -> SeqEnum
   IsAbsolutelyIrreducible(C) : Crv -> BoolElt
   IsAbsolutelyIrreducible(G) : GrpMat -> BoolElt
   IsAbsolutelyIrreducible(M) : ModRng -> BoolElt, AlgMatElt, RngIntElt
   IsAbsolutelyIrreducible(R) : RootStr -> BoolElt

AbsolutelyIrreducibleConstituents

   AbsolutelyIrreducibleConstituents(M) : ModGrp -> [ ModGrp ]

AbsolutelyIrreducibleModule

   AbsolutelyIrreducibleModule(M) : ModRng -> ModRng

AbsolutelyIrreducibleModules

   AbsolutelyIrreducibleModules(G, K : parameters) : Grp, Fld -> SeqEnum
   IrreducibleModules(G, K : parameters) : Grp, Fld -> SeqEnum

AbsolutelyIrreducibleModulesBurnside

   AbsolutelyIrreducibleModulesBurnside(G, K : parameters ) : Grp, FldFin -> [ ModGrp ]

AbsolutelyIrreducibleModulesInit

   AbsolutelyIrreducibleModulesInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   IrreducibleRepresentationsInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   IrreducibleModulesInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   AbsolutelyIrreducibleRepresentationsInit(G, F : parameters) : GrpPC, Fld -> SolRepProc

AbsolutelyIrreducibleModulesSchur

   AbsolutelyIrreducibleModulesSchur(G, k: parameters) : GrpPC, Rng -> List[GModule]
   AbsolutelyIrreducibleRepresentationsSchur(G, k: parameters) : GrpPC, Rng -> List[Map]
   IrreducibleModules(G, K : parameters) : Grp, Fld -> SeqEnum

AbsolutelyIrreducibleRepresentationProcessDelete

   AbsolutelyIrreducibleRepresentationProcessDelete(~P) : SolRepProc ->

AbsolutelyIrreducibleRepresentationsInit

   AbsolutelyIrreducibleModulesInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   IrreducibleRepresentationsInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   IrreducibleModulesInit(G, F : parameters) : GrpPC, Fld -> SolRepProc
   AbsolutelyIrreducibleRepresentationsInit(G, F : parameters) : GrpPC, Fld -> SolRepProc

AbsolutelyIrreducibleRepresentationsSchur

   AbsolutelyIrreducibleModulesSchur(G, k: parameters) : GrpPC, Rng -> List[GModule]
   AbsolutelyIrreducibleRepresentationsSchur(G, k: parameters) : GrpPC, Rng -> List[Map]

AbsoluteMinimalPolynomial

   AbsoluteMinimalPolynomial(a) : FldAlgElt -> RngUPolElt
   AbsoluteMinimalPolynomial(a) : FldFunElt -> RngUPolElt
   AbsoluteMinimalPolynomial(a) : FldNumElt -> RngUPolElt

AbsoluteModuleOverMinimalField

   AbsoluteModuleOverMinimalField(M) : ModGrp -> ModGrp
   AbsoluteModuleOverMinimalField(M, F) : ModGrp, FldFin -> ModGrp

AbsoluteModulesOverMinimalField

   AbsoluteModulesOverMinimalField(Q, F) : [ ModGrp ], FldFin -> [ ModGrp ]

AbsoluteNorm

   NormAbs(a) : FldAlgElt -> FldRatElt
   AbsoluteNorm(a) : FldAlgElt -> FldRatElt
   AbsoluteNorm(a) : FldFinElt -> FldFinElt
   AbsoluteNorm(a) : FldNumElt -> FldRatElt
   AbsoluteNorm(I) : RngOrdIdl -> RngIntElt

AbsoluteOrder

   AbsoluteOrder(O) : RngFunOrd -> RngFunOrd
   AbsoluteOrder(O) : RngOrd -> RngOrd

AbsolutePolynomial

   AbsolutePolynomial(A) : FldAC ->

AbsolutePrecision

   AbsolutePrecision(x) : RngPadElt -> RngIntElt
   AbsolutePrecision(f) : RngSerElt -> RngIntElt
   AbsolutePrecision(e) : RngSerExtElt -> RngIntElt

AbsoluteQuotientRing

   AbsoluteQuotientRing(A) : FldAC -> RngUPolRes
   AbsoluteAffineAlgebra(A) : FldAC -> RngUPolRes

AbsoluteRamificationDegree

   AbsoluteRamificationIndex(L) : RngPad -> RngIntElt
   AbsoluteRamificationDegree(L) : RngPad -> RngIntElt

AbsoluteRamificationIndex

   AbsoluteRamificationIndex(L) : RngPad -> RngIntElt
   AbsoluteRamificationDegree(L) : RngPad -> RngIntElt

AbsoluteRank

   AbsoluteRank(R) : RootDtm -> RngIntElt
   Rank(R) : RootStr -> RngIntElt

AbsoluteRationalScroll

   AbsoluteRationalScroll(k,N) : Rng,SeqEnum -> PrjScrl

AbsoluteRepresentation

   AbsoluteRepresentation(G) : GrpMat -> GrpMat, Map

AbsoluteRepresentationMatrix

   AbsoluteRepresentationMatrix(a) : FldAlgElt -> AlgMatElt
   AbsoluteRepresentationMatrix(a) : FldNumElt -> NumMatElt

AbsoluteTotallyRamifiedExtension

   AbsoluteTotallyRamifiedExtension(R) : RngPad -> RngPad, Map

AbsoluteTrace

   TraceAbs(a) : FldAlgElt -> FldRatElt
   AbsoluteTrace(a) : FldAlgElt -> FldRatElt
   AbsoluteTrace(a) : FldFinElt -> FldFinElt
   AbsoluteTrace(a) : FldNumElt -> FldRatElt

AbsoluteValue

   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

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