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Subindex: OPS-create .. Orbit
Construction of Ordered Partition Stacks (PERMUTATION GROUPS)
Properties of Ordered Partition Stacks (PERMUTATION GROUPS)
Operations on Ordered Partition Stacks (PERMUTATION GROUPS)
Operations and Properties for Root and Coroot Indices (COXETER GROUPS)
Operations and Properties for Root and Coroot Indices (GROUPS OF LIE TYPE)
Operations and Properties for Root and Coroot Indices (ROOT DATA)
Operations and Properties for Roots and Coroot Indices (ROOT SYSTEMS)
ModDed_ops_arith (Example H55E4)
LINEAR PROGRAMMING
FldNum_opt-rep (Example H34E4)
RngSer_opt-rep (Example H49E8)
RngOrd_opt-rep-ord (Example H37E1)
IsOptimal(phi) : MapModAbVar -> BoolElt
OptimalEdgeColouring(G) : GrphUnd -> SeqEnum
OptimalSkewness(F) : RngMPolElt -> FldReElt, FldReElt
OptimalVertexColouring(G) : GrphUnd -> SeqEnum
OptimalEdgeColouring(G) : GrphUnd -> SeqEnum
OptimalSkewness(F) : RngMPolElt -> FldReElt, FldReElt
OptimalVertexColouring(G) : GrphUnd -> SeqEnum
OptimisedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(A) : AlgQuat -> AlgQuat, Map
OptimizedRepresentation(F) : FldAlg -> FldAlg, map
OptimizedRepresentation(F) : FldNum -> FldNum, map
OptimizedRepresentation(O) : RngOrd -> BoolElt, RngOrd, Map
OptimizedRepresentation(E) : RngSerExt -> RngSer, Map
OptimisedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(A) : AlgQuat -> AlgQuat, Map
OptimizedRepresentation(F) : FldAlg -> FldAlg, map
OptimizedRepresentation(F) : FldNum -> FldNum, map
OptimizedRepresentation(O) : RngOrd -> BoolElt, RngOrd, Map
OptimizedRepresentation(E) : RngSerExt -> RngSer, Map
Optimizing Magma Code (FINITE SOLUBLE GROUPS)
Optimized Representation (POWER, LAURENT AND PUISEUX SERIES)
OptimisedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(A) : AlgQuat -> AlgQuat, Map
OptimizedRepresentation(F) : FldAlg -> FldAlg, map
OptimizedRepresentation(F) : FldNum -> FldNum, map
OptimizedRepresentation(O) : RngOrd -> BoolElt, RngOrd, Map
OptimizedRepresentation(E) : RngSerExt -> RngSer, Map
OptimisedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(O) : AlgAssVOrd -> AlgQuat, Map
OptimizedRepresentation(A) : AlgQuat -> AlgQuat, Map
OptimizedRepresentation(F) : FldAlg -> FldAlg, map
OptimizedRepresentation(F) : FldNum -> FldNum, map
OptimizedRepresentation(O) : RngOrd -> BoolElt, RngOrd, Map
OptimizedRepresentation(E) : RngSerExt -> RngSer, Map
Print Options (UNIVARIATE POLYNOMIAL RINGS)
Special Options (FINITE FIELDS)
Special Options (ORDERS AND ALGEBRAIC FIELDS)
SetOptions(~P : parameters) : GrpFPTietzeProc ->
ShowOptions(~P : parameters) : GrpFPTietzeProc ->
Command Line Options (ENVIRONMENT AND OPTIONS)
ENVIRONMENT AND OPTIONS
Special Options (POWER, LAURENT AND PUISEUX SERIES)
BruhatLessOrEqual(x, y) : GrpPermElt, GrpPermElt -> BoolElt
Or(S, T) : [ BoolElt ], [ BoolElt ] -> [ BoolElt ]
RecogniseAlternatingOrSymmetric(G, n) : Grp, RngIntElt -> BoolElt, BoolElt, UserProgram, UserProgram
RecogniseAlternatingOrSymmetric(G, n) : Grp, RngIntElt -> BoolElt, BoolElt, UserProgram, UserProgram
x or y: BoolElt, BoolElt -> BoolElt
BasicOrbit(G, i) : GrpMat, RngIntElt -> SetIndx
BasicOrbit(G, i) : GrpPerm, RngIntElt -> SetIndx
BasicOrbitLength(G, i) : GrpMat, RngIntElt -> RngIntElt
BasicOrbitLength(G, i) : GrpPerm, RngIntElt -> RngIntElt
BasicOrbitLengths(G) : GrpMat -> [RngIntElt]
BasicOrbitLengths(G) : GrpPerm -> [RngIntElt]
EstimateOrbit(G, v: parameters) : GrpMat, ModTupFldElt -> RngIntElt, RngIntElt, RngIntElt
ExceptionalUnitOrbit(u) : RngOrdElt -> [ RngOrdElt ]
GaloisOrbit(x) : AlgChtrElt -> { AlgChtrElt }
GammaOrbitOnRoots(R,r) : RootDtm, RngIntElt -> GSetEnum
IsMemberBasicOrbit(G, i, a) : GrpPerm, RngIntElt, Elt -> BoolElt
IsOrbit(G, S) : GrpPerm, { Elt } -> BoolElt
NilpotentOrbit( L, e ) : AlgLie, AlgLieElt -> NilpOrbAlgLie
NilpotentOrbit( L, wd ) : AlgLie, SeqEnum -> NilpOrbAlgLie
Orbit(G, M, x) : Grp, Any, Any -> Any
Orbit(A, Y, y) : GrpPerm, GSet, Elt -> GSet
Orbit(G, Y, y) : GrpPerm, GSet, Elt -> GSet
Orbit(G, Y, y) : GrpPerm, GSet, Elt -> GSet
Orbit(G, Y, y) : GrpPerm, GSet, Elt -> GSet
OrbitAction(G, T) : GrpMat, Elt -> Hom(Grp), GrpPerm, GrpMat
OrbitAction(G, T) : GrpPerm, GSet -> Hom(Grp), GrpPerm, GrpPerm
OrbitActionBounded(G, T, b) : GrpMat, Elt, RngIntElt -> BoolElt, Hom(Grp), GrpPerm, GrpMat
OrbitBounded(G, y, b) : GrpMat, Elt, RngIntElt -> BoolElt, SetEnum
OrbitClosure(G, M, S) : Grp, Any, Any -> Any
OrbitClosure(G, S) : GrpMat, { Elt } -> GSet
OrbitClosure(G, Y, S) : GrpPerm, GSet, { Elt } -> GSet
OrbitImage(G, T) : GrpMat, Set -> GrpPerm
OrbitImage(G, T) : GrpPerm, GSet -> GrpPerm
OrbitImageBounded(G, T, b) : GrpMat, Set, RngIntElt -> BoolElt, GrpPerm
OrbitKernel(G, T) : GrpMat, Set -> GrpMat
OrbitKernel(G, T) : GrpPerm, GSet -> GrpPerm
OrbitKernelBounded(G, T, b) : GrpMat, Set, RngIntElt -> BoolElt, GrpMat
OrbitRepresentatives(G) : GrpPerm -> SeqEnum
ReductionOrbit(f) : QuadBinElt -> SeqEnum[QuadBinElt]
WeightOrbit(W, v) : GrpMat, . -> @ ModTupFldElt @, [GrpFPCoxElt]
WeightOrbit(W, v) : GrpPermCox, . -> @ ModTupFldElt @, [GrpFPCoxElt]
WeightOrbit(R, v) : RootDtm, . -> @ ModTupFldElt @, [GrpFPCoxElt]
y ^ G : Elt, GrpMat -> SetEnum
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Wed Apr 24 15:09:57 EST 2013