[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: flow .. Form
Maximum Flow and Minimum Cut (NETWORKS)
Maximum Flow, Minimum Cut, and Shortest Paths (GRAPHS)
Flush(F) : File ->
Associated Functions (DATABASES OF GROUPS)
Standard Functions and Forms (SMALL MODULAR CURVES)
Functions on Groups and Group Elements (NUMBER FIELDS)
AdjointLinearSystemForNodalCurve(C, d) : Crv -> LinearSys
AdjointIdealForNodalCurve(C) : Crv -> RngMPol
InstancesForDimensions(L, g, D) : AlgLieExtr, UserProgram, SetEnum[RngIntElt] -> Assoc
SearchForDecomposition(G, S) : GrpMat, [GrpMatElt] -> BoolElt
SearchForIsomorphism(F, G, m : parameters) : GrpFP, GrpFP, RngIntElt -> BoolElt, HomGrp, HomGrp
WaitForConnection(S) : IO -> IO
Definite Iteration (STATEMENTS AND EXPRESSIONS)
for G in D do ... end for;
for G in D do ... end for;
for x in S do ... end for;
for x in S do statements; end for;
for i := expr1 to expr2 by expr3 do : ->
for i := expr1 to expr2 do : ->
for random x in S do ... end for;
Definite Iteration (STATEMENTS AND EXPRESSIONS)
forall(t){ e(x) : x in E | P(x) }
forall(t){ e(x1, ..., xk): x1 in E1,..., xk in Ek | P(x1, ..., xk) }
GetForceCFP(B) : GrpBrd -> BoolElt
SetForceCFP(~B, b) : GrpBrd, BoolElt ->
Forced Coercion (INTRODUCTION TO RINGS [BASIC RINGS])
IsForest(G) : GrphUnd -> BoolElt
SpanningForest(G) : Grph -> Grph, GrphVertSet, GrphEdgeSet
SpanningForest(G) : GrphMult -> GrphMult, GrphVertSet, GrphEdgeSet
The Standard Form (LINEAR CODES OVER FINITE RINGS)
CoxeterForm(W) : GrpPermCox -> AlgMatElt
CoxeterForm(R) : RootDtm -> AlgMatElt
CoxeterForm(R) : RootSys -> AlgMatElt
DiagonalForm(f) : RngMPolElt -> RngMPolElt, ModMatRngElt
DominantDiagonalForm(X) : Mtrx[RngUPol] -> Mtrx, Mtrx, GrpMat, FldFin
E4Form(CN,N) : Crv, RngIntElt -> FldFunFracSchElt, DiffCrvElt
E6Form(CN,N) : Crv, RngIntElt -> FldFunFracSchElt, DiffCrvElt
EchelonForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt
EchelonForm(A) : Mtrx -> Mtrx, AlgMatElt
Form(L,Q) : TorLat,[RngIntElt] -> TorLatElt
FormType(G) : GrpMat -> MonStgElt
FrobeniusFormAlternating(A) : AlgMatElt -> SeqEnum
HadamardCanonicalForm(H) : AlgMatElt -> AlgMatElt, AlgMatElt, AlgMatElt
HermiteForm(X) : AlgMatElt -> AlgMatElt, AlgMatElt
HermiteForm(A) : Mtrx -> Mtrx, ModMatRngElt
HermiteForm(X) : PMat -> PMat, AlgMatElt
HessenbergForm(a) : AlgMatElt -> AlgMatElt
HessenbergForm(A) : Mtrx -> AlgMatElt
IndexFormEquation(O, k) : RngOrd, RngIntElt -> [ RngOrdElt ]
IntersectionForm(X,C) : TorVar,TorCon -> TorLatElt
InvariantFormBases(G) : GrpMat -> SeqEnum[AlgMatElt], SeqEnum[AlgMatElt], SeqEnum[AlgMatElt], SeqEnum[AlgMatElt]
IsInTwistedForm(x, c) : GrpLieElt, OneCoC -> BoolElt
JordanForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt, [ <RngUPolElt, RngIntElt ]
JordanForm(A) : Mtrx -> Mtrx, AlgMatElt, [ <RngUPolElt, RngIntElt> ]
LeftMixedCanonicalForm(u: parameters) : GrpBrdElt -> Tup, Tup
LeftNormalForm(~u: parameters) : GrpBrdElt ->
LeftNormalForm(u: parameters) : GrpBrdElt -> GrpBrdElt
MinimalGeneratorForm(A) : AlgBas -> Rec
MinimalGeneratorFormAlgebra(A) : AlgBas -> AlgBas
ModularForm(E) : CrvEll -> ModFrm
ModularForm(E) : CrvEll -> ModFrmElt
NormalForm(f, I) : AlgFrElt, AlgFr -> AlgFrElt
NormalForm(f, S) : AlgFrElt, [ AlgFrElt ] -> AlgFrElt
NormalForm(f, S) : ModMPolElt, ModMPol -> ModMPolElt
NormalForm(f, I) : RngMPolElt, RngMPol -> RngMPolElt
NormalForm(f, S) : RngMPolElt, [ RngMPolElt ] -> RngMPolElt, [ RngMPolElt ]
NormalForm(f, I) : RngMPolLocElt, RngMPolLoc -> RngMPolLocElt
PositiveDefiniteForm(G) : GrpMat -> Mtrx
PositiveDefiniteForm(L) : Lat -> AlgMatElt
PrimaryRationalForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt, [ <RngUPolElt, RngIntElt ]
PrimaryRationalForm(A) : Mtrx -> AlgMatElt, AlgMatElt, [ <RngUPolElt, RngIntElt ]
PrimeForm(Q, p) : QuadBin, RngIntElt -> QuadBinElt
QuadraticForm(G): GrpMat -> BoolElt, AlgMatElt, MonStgElt [,SeqEnum]
QuadraticForm(L) : Lat -> RngMPolElt
QuadraticForm(L) : Lat -> RngMPolElt
QuadraticForm(M) : Mtrx -> RngMPolElt
QuadraticForm(I) : RngQuadFracIdl -> QuadBinElt
QuadraticForm(S) : { PlanePt } -> RngMPolElt
QuadraticFormMatrix(V) : ModTupRng -> ModAlgElt
QuadraticFormPolynomial(V) : ModTupRng -> RngPolElt
RationalForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt, [ RngUPolElt ]
RationalForm(A) : Mtrx -> Mtrx, AlgMatElt, [ RngUPolElt ]
Reduction(f) : QuadBinElt -> QuadBinElt, Mtrx
RightMixedCanonicalForm(u: parameters) : GrpBrdElt -> Tup, Tup
RightNormalForm(~u: parameters) : GrpBrdElt ->
RightNormalForm(u: parameters) : GrpBrdElt -> GrpBrdElt
SmithForm(a) : AlgMatElt -> AlgMatElt, AlgMatElt, AlgMatElt
SmithForm(A) : ModMatRngElt -> ModMatRngElt, ModMatRngElt, ModMatRngElt
StandardAlternatingForm(n,R) : RngIntElt, Rng -> AlgMatElt
StandardForm(A) : AlgQuat -> RngElt, RngElt, AlgQuat, Map
StandardForm(C) : Code -> Code, Map
StandardForm(C) : Code -> Code, Map
StandardFormConjugationMatrices(A) : AlgMat -> Tup
StandardHermitianForm(n,K) : RngIntElt, Fld -> AlgMatElt, Map
StandardPseudoAlternatingForm(n,K) : RngIntElt, Fld -> AlgMatElt
StandardQuadraticForm(n, K : parameters) : RngIntElt, Fld -> AlgMatElt
StandardSymmetricForm(n, K) : RngIntElt, Fld -> AlgMatElt
SteinitzForm(M) : ModDed -> ModDed
SymmetricBilinearForm(G: parameters) : GrpMat -> BoolElt, AlgMatElt, MonStgElt [,SeqEnum]
SymmetricBilinearForm(f) : RngMPolElt -> ModMatRngElt
SymmetricToQuadraticForm(J) : AlgMatElt -> AlgMatElt
SymplecticForm(G: parameters) : GrpMat -> BoolElt, AlgMatElt [,SeqEnum]
ThetaSeriesModularForm(L) : Lat -> ModFrmElt
ThetaSeriesModularFormSpace(L) : Lat -> ModFrm
TransformForm(form, type) : AlgMatElt, MonStgElt -> GrpMatElt
TransformForm(G) : GrpMat -> GrpMatElt
UnitaryForm(G) : GrpMat -> BoolElt, AlgMatElt [,SeqEnum]
WallForm(V, f) : ModTupFld, Mtrx -> ModTupFld, Map
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013