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Subindex: action  ..  Add


action

   Action of Automorphisms (GRAPHS)
   Action of Automorphisms (INCIDENCE STRUCTURES AND DESIGNS)
   Action of Frobenius (ELLIPTIC CURVES OVER FUNCTION FIELDS)
   Action of PSL2(R) on the Upper Half Plane (CONGRUENCE SUBGROUPS OF PSL2(R))
   Action on a Coset Space (FINITE SOLUBLE GROUPS)
   Action on a Coset Space (GROUPS)
   Action on a Coset Space (MATRIX GROUPS OVER GENERAL RINGS)
   Action on a Coset Space (PERMUTATION GROUPS)
   Action on a G-invariant Partition (PERMUTATION GROUPS)
   Action on a Polynomial Ring (K[G]-MODULES AND GROUP REPRESENTATIONS)
   Action on Orbits (MATRIX GROUPS OVER GENERAL RINGS)
   Action on Orbits (PERMUTATION GROUPS)
   Automorphism Groups (LINEAR CODES OVER FINITE FIELDS)
   General Action of Collineations (FINITE PLANES)
   Group Actions on Polynomials (INVARIANT THEORY)
   Matrix Action on Forms (BINARY QUADRATIC FORMS)
   Reduced Permutation Actions (PERMUTATION GROUPS)
   Root Actions (COXETER GROUPS)
   Roots, Coroots and Reflections (REFLECTION GROUPS)
   Standard Action (COXETER GROUPS)
   The Action of an Algebra Element (MODULES OVER AN ALGEBRA)

action-coset-spaces

   Action on a Coset Space (MATRIX GROUPS OVER GENERAL RINGS)

action-reductions

   Reduced Permutation Actions (PERMUTATION GROUPS)

action-root-coroot

   Root Actions (COXETER GROUPS)
   Standard Action (COXETER GROUPS)

ActionGenerator

   ActionGenerator(B, i) : AlgBas, RngIntElt -> SeqEnum
   ActionGenerator(L, i) : Lat, RngIntElt -> GrpMat
   ActionGenerator(M, i) : ModGrp, RngIntElt -> AlgMatElt
   ActionGenerator(M, i) : ModRng, RngIntElt -> AlgMatElt

ActionGenerators

   ActionGenerators(M) : ModGrp -> [ AlgMatElt ]

ActionGroup

   ActionGroup(M) : ModGrp -> GrpMat

ActionImage

   ActionImage(A, Y) : GrpPerm, GSet -> GrpPerm
   ActionImage(G, Y) : GrpPerm, GSet -> GrpPerm
   ActionImage(G, Y) : GrpPerm, GSet -> GrpPerm
   ActionImage(G, Y) : GrpPerm, GSet -> GrpPerm

ActionKernel

   ActionKernel(A, Y) : GrpPerm, GSet -> GrpPerm
   ActionKernel(G, Y) : GrpPerm, GSet -> GrpPerm
   ActionKernel(G, Y) : GrpPerm, GSet -> GrpPerm
   ActionKernel(G, Y) : GrpPerm, GSet -> GrpPerm

ActionMatrix

   ActionMatrix(A,x) : AlgBas, Mtrx -> ModMatFldElt
   ActionMatrix(M, a): ModAlg, AlgElt -> AlgMatElt

Actions

   GrpMatGen_Actions (Example H59E22)
   GrpPerm_Actions (Example H58E25)

actions

   Action on an Elementary Abelian Section (K[G]-MODULES AND GROUP REPRESENTATIONS)
   Group Actions (LINEAR CODES OVER FINITE FIELDS)
   Matrix Group Actions (MATRIX GROUPS OVER GENERAL RINGS)
   Permutation Group Actions (PERMUTATION GROUPS)

Adams

   AdamsOperator(R, n, v) : RootDtm, RngIntElt, ModTupRngElt -> LieRepDec

AdamsOperator

   AdamsOperator(R, n, v) : RootDtm, RngIntElt, ModTupRngElt -> LieRepDec

Add

   AddVertex(~G) : Grph ->
   AddVertices(~G, n) : Grph, RngIntElt ->
   G +:= n : Grph, RngIntElt ->
   G +:= n : GrphMult, RngIntElt ->
   AddAttribute(C, F) : Cat, MonStgElt -> ;
   AddColumn(~a, u, i, j) : AlgMatElt, RngElt, RngIntElt, RngIntElt ->
   AddColumn(A, c, i, j) : Mtrx, RngElt, RngIntElt, RngIntElt -> Mtrx
   AddColumn(A, c, i, j) : MtrxSprs, RngElt, RngIntElt, RngIntElt -> MtrxSprs
   AddConstraints(L, lhs, rhs) : LP, Mtrx, Mtrx ->
   AddCubics(cubic1, cubic2 : parameters) : RngMPolElt, RngMPolElt -> RngMPolElt
   AddCubics(cubic1, cubic2 : parameters) : RngMPolElt, RngMPolElt -> RngMPolElt
   AddEdge(~G, u, v) : Grph, GrphVert, GrphVert ->
   AddEdge(G, u, v) : Grph, GrphVert, GrphVert -> Grph, GrphEdge
   AddEdge(G, u, v, l) : Grph, GrphVert, GrphVert, . -> Grph, GrphEdge
   AddEdge(~G, u, v) : GrphMult, GrphVert, GrphVert ->
   AddEdge(G, u, v) : GrphMult, GrphVert, GrphVert -> GrphMult, GrphEdge
   AddEdge(G, u, v, l) : GrphMultUnd, GrphVert, GrphVert, . -> GrphMult, GrphEdge
   AddEdge(~N, u, v, c) : GrphNet, GrphVert, GrphVert, RngIntElt ->
   AddEdge(N, u, v, c) : GrphNet, GrphVert, GrphVert, RngIntElt -> GrphNet, GrphEdge
   AddEdge(G, u, v, c, l) : GrphNet, GrphVert, GrphVert, RngIntElt, . -> GrphNet, GrphEdge
   AddEdge(G, u, v, c) : GrphNet, GrphVert, RngIntElt, . -> GrphNet, GrphEdge
   AddEdge(N, u, v, c, l) : GrphNet,GrphVert, GrphVert, RngIntElt, . -> GrphNet, GrphEdge
   AddEdges(G, S, L) : Grph, SeqEnum, SeqEnum -> Grph
   AddEdges(G, S, L) : GrphMult, SeqEnum, SeqEnum -> GrphMult
   AddEdges(~G, S) : GrphMultUnd, { { GrphVert, GrphVert } } ->
   AddEdges(G, S) : GrphMultUnd, { { GrphVert, GrphVert } } -> GrphMultUnd
   AddEdges(N, S) : GrphNet, { < [ GrphVert, GrphVert ], RngIntElt > } -> GrphNet
   AddEdges(~G, S) : GrphUnd, { { GrphVert, GrphVert } } ->
   AddEdges(G, S) : GrphUnd, { { GrphVert, GrphVert } } -> GrphUnd
   AddGenerator(G) : GrpFP -> GrpFP
   AddGenerator(G, x) : GrpFP, . -> BoolElt, GrpFP, Map
   AddGenerator(G, w) : GrpFP, GrpFPElt -> GrpFP
   AddGenerator(S) : SgpFP -> SgpFP
   AddGenerator(S, w) : SgpFP, SgpFPElt -> SgpFP
   AddNormalizingGenerator(~H, x) : GrpPerm, GrpPermElt ->
   AddRedundantGenerators(G, Q) : GrpSLP, [ GrpSLPElt ] -> GrpSLP
   AddRelation(G, g) : GrpFP, GrpFPElt -> GrpFP
   AddRelation(G, g, i) : GrpFP, GrpFPElt, RngIntElt -> GrpFP
   AddRelation(G, r) : GrpFP, RelElt -> GrpFP
   AddRelation(G, r, i) : GrpFP, RelElt, RngIntElt -> GrpFP
   AddRelation(E) : RngOrdElt -> BoolElt
   AddRelation(S, r) : SgpFP, Rel -> SgpFP
   AddRelator(~P, w) : GrpFPCosetEnumProc, GrpFPElt ->
   AddRepresentation(~D, E, c) : LieRepDec, LieRepDec, RngIntElt ->
   AddRepresentation(~D, v, c) : LieRepDec, ModTupRngElt, RngIntElt ->
   AddRow(~a, u, i, j) : AlgMatElt, RngElt, RngIntElt, RngIntElt ->
   AddRow(A, c, i, j) : Mtrx, RngElt, RngIntElt, RngIntElt -> Mtrx
   AddRow(A, c, i, j) : MtrxSprs, RngElt, RngIntElt, RngIntElt -> MtrxSprs
   AddScaledMatrix(~A, s, B) : Mtrx, RngElt, Mtrx ->
   AddScaledMatrix(A, s, B) : Mtrx, RngElt, Mtrx -> Mtrx
   AddSimplex(X, s) : SmpCpx, SetEnum -> SmpCpx
   AddSubgroupGenerator(~P, w) : GrpFPCosetEnumProc, GrpFPElt ->
   AddVectorToLattice(v) : TorLatElt -> TorLat,TorLatMap
   AddVertex(~G, l) : Grph, . ->
   AddVertex(~G, l) : GrphMult, . ->
   AddVertices(~G, n, L) : Grph, RngIntElt, SeqEnum ->
   AddVertices(~G, n, L) : GrphMult, RngIntElt, SeqEnum ->
   PseudoAdd(P1, P2, P3) : SrfKumPt, SrfKumPt, SrfKumPt -> SrfKumPt
   PseudoAddMultiple(P1, P2, P3, n) : SrfKumPt, SrfKumPt, SrfKumPt, RngIntElt -> SrfKumPt

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Version: V2.19 of Wed Apr 24 15:09:57 EST 2013