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Subindex: EuclideanWeightDistribution  ..    Exact




EuclideanWeightDistribution

   EuclideanWeightDistribution(C) : Code -> SeqEnum


EuclideanWeightEnumerator

   EuclideanWeightEnumerator(C): Code -> RngMPolElt


Euler

   EulerCharacteristic(s) : GrphSpl -> RngIntElt

   EulerFactor(J) : JacHyp -> RngUPolElt

   EulerFactor(J, K) : JacHyp, FldFin -> RngUPolElt

   EulerFactorModChar(J) : JacHyp -> RngUPolElt

   EulerGamma(R) : FldPr -> FldPrElt

   EulerPhi(n) : RngIntElt -> RngIntElt

   EulerPhiInverse(m) : RngIntElt -> RngIntElt

   FactoredEulerPhi(n) : RngIntElt -> RngIntEltFact

   FactoredEulerPhiInverse(n) : RngIntElt -> RngIntEltFact


EulerCharacteristic

   EulerCharacteristic(s) : GrphSpl -> RngIntElt


EulerFactor

   EulerFactor(J) : JacHyp -> RngUPolElt

   EulerFactor(J, K) : JacHyp, FldFin -> RngUPolElt


EulerFactorModChar

   EulerFactorModChar(J) : JacHyp -> RngUPolElt


EulerGamma

   EulerGamma(R) : FldPr -> FldPrElt


Eulerian

   [Future release] EulerianCircuit(G) : GrphUnd -> [GrphVert]

   EulerianNumber(n, r) : RngIntElt, RngIntElt -> RngIntElt

   IsEulerian(G) : Grph -> BoolElt


EulerianCircuit

   [Future release] EulerianCircuit(G) : GrphUnd -> [GrphVert]


EulerianNumber

   EulerianNumber(n, r) : RngIntElt, RngIntElt -> RngIntElt


EulerPhi

   EulerPhi(n) : RngIntElt -> RngIntElt


EulerPhiInverse

   EulerPhiInverse(m) : RngIntElt -> RngIntElt


eval

   RngLaz_eval (Example H64E9)


Evaluate

   Evaluate(f,P) : MapIsoSch, PtHyp -> PtHyp

   P @ f : PtHyp, MapIsoSch -> PtHyp

   Evaluate(a, P) : FldFunElt, PlcFunElt -> RngElt

   Evaluate(f,p) : FldFunElt,Pt -> RngElt

   Evaluate(f, v, r) : FldFunRatMElt, RngIntElt, RngElt -> FldFunRatMElt

   Evaluate(f, r) : FldFunRatUElt, RngElt -> FldFunRatUElt

   Evaluate(x,n) : GrpDrchElt, RngIntElt -> RngElt

   Evaluate(u, Q) : GrpSLPElt, [ GrpElt ] -> GrpElt

   Evaluate(a, P) : RngElt, PlcFunElt -> RngElt

   Evaluate(f,p) : RngElt,Pt -> RngElt

   Evaluate(f, i, r) : RngMPolElt, RngMPolElt, RngElt -> RngMPolElt

   Evaluate(f, s) : RngMPolElt, [ RngElt ] -> RngElt

   Evaluate(s, t) : RngPowLazElt, RngPowLazElt -> RngPowLazElt

   Evaluate(f, s) : RngSerElt, RngElt -> RngElt

   Evaluate(p, r) : RngUPolElt, RngElt -> RngElt

   Evaluate(t, a, b) : Thue, RngIntElt, RngIntElt -> RngIntElt

   EvaluateAt(L, p) : LP, Mtrx -> RngIntElt

   EvaluateByPowerSeries(m, P) : MapSch, Pt -> Pt

   EvaluatePolynomial(C, a, b, c) : CrvHyp, RngElt, RngElt, RngElt -> RngElt


evaluate

   Evaluation (RATIONAL FUNCTION FIELDS)

   Expression (OVERVIEW)


evaluate-funfld-example

   Scheme_evaluate-funfld-example (Example H87E3)


EvaluateAt

   EvaluateAt(L, p) : LP, Mtrx -> RngIntElt


EvaluateByPowerSeries

   EvaluateByPowerSeries(m, P) : MapSch, Pt -> Pt


EvaluatePolynomial

   EvaluatePolynomial(C, a, b, c) : CrvHyp, RngElt, RngElt, RngElt -> RngElt


evaluation

   Evaluation and Derivative (POWER, LAURENT AND PUISEUX SERIES)

   Evaluation in Magma (MAGMA SEMANTICS)

   Evaluation, Interpolation (MULTIVARIATE POLYNOMIAL RINGS)

   Evaluation, Interpolation (UNIVARIATE POLYNOMIAL RINGS)

   Expression (OVERVIEW)

   The Evaluation Process Revisited (MAGMA SEMANTICS)


evaluation-derivative

   Evaluation and Derivative (POWER, LAURENT AND PUISEUX SERIES)


evaluation-interpolation

   Evaluation, Interpolation (MULTIVARIATE POLYNOMIAL RINGS)


Even

   EvenWeightCode(n) : RngIntElt -> Code

   IsDoublyEven(C) : Code -> BoolElt

   IsEven(C) : Code -> BoolElt

   IsEven(x) : GrpDrchElt -> BoolElt

   IsEven(g) : GrpPermElt -> BoolElt

   IsEven(J) : JacHyp -> BoolElt

   IsEven(L) : Lat -> BoolElt

   IsEven(n) : RngIntElt -> BoolElt


EvenWeightCode

   EvenWeightCode(n) : RngIntElt -> Code


Exact

   ClassGroupExactSequence(F) : FldFun -> Map, Map, Map

   ClassGroupExactSequence(O) : RngFunOrd -> Map, Map, Map

   DegreeOfExactConstantField(m) : DivFunElt -> RngIntElt

   DegreeOfExactConstantField(m, U) : DivFunElt, GrpAb -> RngIntElt

   DimensionOfExactConstantField(F) : FldFun -> RngIntElt

   ExactConstantField(F) : FldFunG -> Rng, Map

   ExactExtension(C) : ModCpx ->   ModCpx

   ExactQuotient(n, d) : RngIntElt, RngIntElt -> RngIntElt

   ExactQuotient(f, g) : RngUPolElt, RngUPolElt -> RngUPolElt

   ExactValue(z) : SpcHypElt -> .

   IsExact(a) : DiffFunElt -> BoolElt

   IsExact(d) : DiffFunElt -> BoolElt, FldFunGElt

   IsExact(L) : Lat -> BoolElt

   IsExact(C) : ModComplex -> BoolElt

   IsExact(C, n) : ModCpx, RngIntElt -> BoolElt

   IsExact(z) : SpcHypElt -> BoolElt

   IsShortExactSequence(f, g) : MapChn, MapChn -> BoolElt

   IsShortExactSequence(C) : ModCpx -> BoolElt, RngIntElt

   LeftExactExtension(C) : ModCpx ->   ModCpx

   LongExactSequenceOnHomology(f,g) : MapChn, MapChn -> ModCpx

   RightExactExtension(C) : ModCpx ->   ModCpx

   RootsNonExact(p) : RngUPolElt -> [ FldPrElt ], [ FldPrElt ]

   SClassGroupExactSequence(S) : SetEnum[PlcFunElt] -> Map, Map, Map

   f div g : RngMPolElt, RngMPolElt -> RngMPolElt




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