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Subindex: SymmetricWeightEnumerator .. Syzygy
SymmetricWeightEnumerator(C): Code -> RngMPolElt
Symmetrization(x, p) : AlgChtrElt, [ RngIntElt ] -> AlgChtrElt
Symmetrization (CHARACTERS OF FINITE GROUPS)
Symmetry and Regularity Properties of Graphs (GRAPHS)
Transitivity Properties (FINITE PLANES)
Symmetry and Regularity Properties of Graphs (GRAPHS)
Transitivity Properties (FINITE PLANES)
IsSymplecticGroup(G) : GrpMat -> BoolElt
ProjectiveSigmaSymplecticGroup(arguments)
ProjectiveSymplecticGroup(arguments)
ScalarsSymplecticForm(G) : GrpMat -> SeqEnum
SymplecticComponent(x, p) : AlgChtrElt, [ RngIntElt ] -> AlgChtrElt
SymplecticComponents(x, n) : AlgChtrElt, RngIntElt -> SetEnum
SymplecticForm(G) : GrpMat -> AlgMatElt
SymplecticGroup(arguments)
GrpMat_Symplectic (Example H18E8)
Sp(arguments)
Symplectic Groups (MATRIX GROUPS)
SymplecticComponent(x, p) : AlgChtrElt, [ RngIntElt ] -> AlgChtrElt
SymplecticComponents(x, n) : AlgChtrElt, RngIntElt -> SetEnum
SymplecticForm(G) : GrpMat -> AlgMatElt
Sp(arguments)
SymplecticGroup(arguments)
Syndrome(w, C) : ModTupFldElt, Code -> ModTupFldElt
SyndromeSpace(C) : Code -> ModTupFld
The Syndrome Space (LINEAR CODES OVER FINITE FIELDS)
The Syndrome Space (LINEAR CODES OVER FINITE FIELDS)
SyndromeSpace(C) : Code -> ModTupFld
Operators on Root Systems (ROOT SYSTEMS)
GetHelpExternalSystem() : -> MonStgElt
ImageSystem(f,S,d) : AmbProjMap,SchProj,RngIntElt -> LinSys
IrreducibleRootSystem(X, n) : MonStgElt, RngIntElt -> RootSys
LinearSystem(L,V) : LinSys,ModTupFld -> LinSys
LinearSystem(L,p) : LinSys,Pt -> LinSys
LinearSystem(L,p,m) : LinSys,Pt,RngIntElt -> LinSys
LinearSystem(L,X) : LinSys,Sch -> LinSys
LinearSystem(L,F) : LinSys,SeqEnum -> LinSys
LinearSystem(P,d) : Prj,RngIntElt -> LinSys
LinearSystem(P,F) : Prj,SeqEnum -> LinSys
LinearSystemTrace(L,X) : LinearSys,Sch -> LinearSys
RootSystem(L) : AlgLie -> [ AlgLieElt ], [ AlgLieElt ], [ AlgLieElt ], AlgMatElt
RootSystem( M ) : AlgMatElt -> RootSys
RootSystem(M) : AlgMatElt -> RootSys
RootSystem(A, B) : AlgMatElt, AlgMatElt -> RootSys
RootSystem( W ) : GrpMat -> RootDtm
RootSystem( W ) : GrpPermCox -> RootDtm
RootSystem(N) : MonStgElt -> RootSys
RootSystem( R ) : RootDtm -> RootSys
RootSystemMatrix( X, n ) : MonStgElt, RngIntElt -> AlgMatElt
SchreierSystem(G, H) : GrpFP, GrpFP -> {@ GrpFPElt @}, Map
SetHelpExternalSystem(s) : MonStgElt ->
SetHelpUseExternalSystem(b) : BoolElt ->
StandardRootSystem(X, n) : MonStgElt, RngIntElt -> RootSys
System(c)
SystemNormalizer(G) : GrpPC -> GrpPC
SystemOfEigenvalues(M, prec) : ModSym, RngIntElt -> SeqEnum
TeichmuellerSystem(R) : RngLoc -> [RngLocElt]
Constructing Root Systems (ROOT SYSTEMS)
Creating New Root Systems from Old (ROOT SYSTEMS)
GROUPS DEFINED BY REWRITE SYSTEMS
Memory Usage (INPUT AND OUTPUT)
MONOIDS GIVEN BY REWRITE SYSTEMS
Predefined System Attributes (FUNCTIONS, PROCEDURES AND PACKAGES)
Properties of Root Systems (ROOT SYSTEMS)
System Calls (INPUT AND OUTPUT)
System Features (OVERVIEW)
Memory Usage (INPUT AND OUTPUT)
System Calls (INPUT AND OUTPUT)
MAGMA_SYSTEM_SPEC
Func_SystemAttributes (Example H2E11)
SystemNormaliser(G) : GrpPC -> GrpPC
SystemNormalizer(G) : GrpPC -> GrpPC
SystemNormaliser(G) : GrpPC -> GrpPC
SystemNormalizer(G) : GrpPC -> GrpPC
SystemOfEigenvalues(M, prec) : ModSym, RngIntElt -> SeqEnum
ROOT SYSTEMS
InjectiveSyzygyModule(M, n) : ModAlg, RngIntElt -> ModAlg
MinimalSyzygyModule(M) : ModMPol -> [ ModMPolElt ]
SyzygyMatrix(Q) : [ RngMPolElt ] -> ModMatRngElt
SyzygyModule(M, n) : ModAlg, RngIntElt -> ModAlg
SyzygyModule(M) : ModMPol -> [ ModMPolElt ]
SyzygyModule(Q) : [ RngMPolElt ] -> ModTupRng
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