Documentation

adj_ex
- AlgSrf_adj_ex (Example H123E23)
Adjacency
- AdjacencyMatrix(G) : Grph -> AlgMatElt
- AdjacencyMatrix(G,p) : SymGen, RngIntElt -> AlgMatElt
adjacency
- Adjacency and Degree (GRAPHS)
adjacency-degree
- Adjacency and Degree (GRAPHS)
AdjacencyMatrix
- AdjacencyMatrix(G) : Grph -> AlgMatElt
- AdjacencyMatrix(G,p) : SymGen, RngIntElt -> AlgMatElt
Adjoin
- Adjoin(O, x) : AlgAssVOrd, AlgAssVElt -> AlgAssVOrd
Adjoint
- Adjoint(a) : AlgMatElt -> AlgMatElt
- Adjoint(A) : Mtrx -> AlgMatElt
- Adjoint(L) : RngDiffOpElt -> RngDiffOpElt
- AdjointAlgebra(S : parameters) : SeqEnum -> AlgMat
- AdjointAlgebra(B) : TenSpcElt -> AlgMat
- AdjointCategory(v, s, t) : RngIntElt, RngIntElt, RngIntElt -> TenCat
- AdjointChevalleyGroup(t,r,q) : MonStgElt,RngIntElt,RngIntElt -> GrpMat
- AdjointIdeal(C) : Crv -> RngMPol
- AdjointIdealForNodalCurve(C) : Crv -> RngMPol
- AdjointLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
- AdjointMatrix(L, x) : AlgLie, AlgLieElt -> AlgMatLieElt
- AdjointRepresentation(L) : AlgLie -> Map
- AdjointRepresentation(G) : GrpLie -> Map, AlgLie
- AdjointRepresentation(G) : GrpLie -> Map, AlgLie
- AdjointRepresentationDecomposition(R) : RootDtm -> LieRepDec
- AdjointVersion(R) : RootDtm -> RootDtm, Map
- CanonicalLinearSystem(C) : Crv -> LinearSys
- IsAdjoint(G) : GrpLie -> BoolElt
- IsAdjoint(R) : RootDtm -> BoolElt
- IsWeaklyAdjoint(G) : GrpLie -> BoolElt
- IsWeaklyAdjoint(R) : RootDtm -> BoolElt
- SelfAdjointAlgebra(t, a, b) : TenSpcElt, RngIntElt, RngIntElt -> ModMatFld
adjoint
- Adjoint Algebras (ALGEBRAS WITH INVOLUTION)
AdjointAlge
- Multilinear_AdjointAlge (Example H62E74)
AdjointAlgebra
- AdjointAlgebra(S : parameters) : SeqEnum -> AlgMat
- AdjointAlgebra(B) : TenSpcElt -> AlgMat
- AlgInv_AdjointAlgebra (Example H94E2)
AdjointCategory
- LinearCategory(v, s, t) : RngIntElt, RngIntElt, RngIntElt -> TenCat
- AdjointCategory(v, s, t) : RngIntElt, RngIntElt, RngIntElt -> TenCat
AdjointChev
- GrpLie_AdjointChev (Example H110E27)
AdjointChevalleyGroup
- AdjointChevalleyGroup(t,r,q) : MonStgElt,RngIntElt,RngIntElt -> GrpMat
AdjointIdeal
- AdjointIdeal(C) : Crv -> RngMPol
AdjointIdealForNodalCurve
- AdjointLinearSystemForNodalCurve(C, d) : Crv, RngIntElt -> LinearSys
- AdjointIdealForNodalCurve(C) : Crv -> RngMPol
AdjointLinearSystem
- AdjointLinearSystem(C) : Crv -> LinearSys
- Adjoints(C,d) : Crv, RngIntElt -> LinearSys
- CanonicalLinearSystem(C) : Crv -> LinearSys
AdjointLinearSystemForNodalCurve
- AdjointLinearSystemForNodalCurve(C, d) : Crv, RngIntElt -> LinearSys
- AdjointIdealForNodalCurve(C) : Crv -> RngMPol
AdjointLinearSystemFromIdeal
- AdjointLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
AdjointMatrix
- RightAdjointMatrix(L, x) : AlgLie, AlgLieElt -> AlgMatLieElt
- AdjointMatrix(L, x) : AlgLie, AlgLieElt -> AlgMatLieElt
AdjointRepresentation
- AdjointRepresentation(L) : AlgLie -> Map
- AdjointRepresentation(G) : GrpLie -> Map, AlgLie
- AdjointRepresentation(G) : GrpLie -> Map, AlgLie
- LieReps_AdjointRepresentation (Example H111E1)
AdjointRepresentationDecomposition
- AdjointRepresentationDecomposition(R) : RootDtm -> LieRepDec
Adjoints
- AdjointLinearSystem(C) : Crv -> LinearSys
- Adjoints(C,d) : Crv, RngIntElt -> LinearSys
- CanonicalLinearSystem(C) : Crv -> LinearSys
- HomAdjoints(m,n,S) : RngIntElt, RngIntElt, Srfc -> SeqEnum
adjoints
- Adjoint Systems and Birational Invariants (ALGEBRAIC SURFACES)
AdjointVersion
- AdjointVersion(R) : RootDtm -> RootDtm, Map
Adjustment
- DeltaAdjustment(C, p) : Sch, Pt -> RngIntElt
Admissable
- AdmissableTriangleGroups() : -> SeqEnum
AdmissableTriangleGroups
- AdmissableTriangleGroups() : -> SeqEnum
Admissible
- AdmissiblePair(pi) : RepLoc -> RngPad, Map
AdmissiblePair
- AdmissiblePair(pi) : RepLoc -> RngPad, Map
Advance
- Advance(~p) : Process ->
- Advance(~p) : Process ->
- Advance(~p) : Process ->
- Advance(~p) : Process ->
- Advance(X, L, P, h) : StkPtnOrd, seqEnum[RngIntElt], StkPtnOrd, RngIntElt ->
Advanced
- Par_Advanced (Example H5E31)
advanced
- A Pair of Twisted Cubics (SCHEMES)
- Advanced Examples (SCHEMES)
- Advanced Usage (FINITELY PRESENTED GROUPS)
- Curves in Space (SCHEMES)
advanced-usage
- Advanced Usage (FINITELY PRESENTED GROUPS)
AdvancedVariationOne
- Par_AdvancedVariationOne (Example H5E32)
AdvancedVariationTwo
- Par_AdvancedVariationTwo (Example H5E33)
aff_crv_res
- AlgSrf_aff_crv_res (Example H123E19)
aff_res
- AlgSrf_aff_res (Example H123E21)
Affine
- AbsoluteQuotientRing(A) : FldAC -> RngUPolRes
- AbsoluteAffineAlgebra(A) : FldAC -> RngUPolRes
- AffineAction(G) : GrpPerm -> Hom, GrpPerm, GrpPerm
- AffineAlgebra< R, X | L > : Fld, List, List -> RngMPolRes
- AffineAlgebra(A) : FldAC -> RngMPolRes
- AffineAlgebraMapKernel(phi) : Map -> MPol
- AffineDecomposition(f) : MapSch -> MapSch,MapSch
- AffineDecomposition(P) : Prj -> [MapSch],Pt
- AffineGammaLinearGroup(arguments)
- AffineGeneralLinearGroup(arguments)
- AffineGeneralLinearGroup(GrpMat, n, q) : Cat, RngIntElt, RngIntElt -> GrpMat
- AffineGeneralLinearGroup(E) : GrpPerm -> GrpPerm
- AffineGroup(M) : GrpMat[FldFin] -> GrpPerm, { at ModTupFldElt atbrace
- AffineGroup(N) : Nfd -> GrpMat
- AffineImage(G) : GrpPerm -> GrpPerm
- AffineKernel(G) : GrpPerm -> GrpPerm
- AffineLieAlgebra(C, F) : AlgMatElt, Fld -> AlgKac
- AffineLieAlgebra(N, F) : MonStgElt, Fld -> AlgKac
- AffineNormalForm(P) : TorPol -> SeqEnum, GrpPermElt
- AffinePatch(C,i) : Crv,RngIntElt -> SeqEnum
- AffinePatch(X,p) : Sch,Pt -> Sch,Pt
- AffinePatch(X,i) : Sch,RngIntElt -> Sch
- AffineSigmaLinearGroup(arguments)
- AffineSigmaSymplecticGroup(arguments)
- AffineSpace(k,n) : Rng, RngIntElt -> Aff
- AffineSpace(k,n) : Rng,RngIntElt -> Aff
- AffineSpace(R) : RngMPol -> Aff
- AffineSpecialLinearGroup(arguments)
- AffineSpecialLinearGroup(GrpMat, n, q) : Cat, RngIntElt, RngIntElt -> GrpMat
- AffineSplitExtension(M: parameters) : ModGrp -> Grp, Map, Map, Map
- AffineSymplecticGroup(arguments)
- CentredAffinePatch(S, p) : Sch, Pt -> Sch, MapSch
- FanOfAffineSpace(n) : RngIntElt -> TorFac
- FiniteAffinePlane(D) : Inc -> Plane, PlanePtSet, PlaneLnSet
- FiniteAffinePlane(W) : ModFld -> PlaneAff
- FiniteAffinePlane< v | X : parameters > : RngIntElt, List -> PlaneAff
- FiniteAffinePlane(P, l) : PlaneProj, PlaneLn -> PlaneAff, PlanePtSet, PlaneLnSet, Map
- HasAffinePatch(X, i) : Sch, RngIntElt -> BoolElt
- IsAffine(W) : GrpFPCox -> BoolElt
- IsAffine(G) : GrpPerm -> BoolElt, GrpPerm
- IsAffine(X) : Sch -> BoolElt
- IsAffine(X) : Sch -> BoolElt
- IsAffineLinear(f) : MapSch -> BoolElt
- IsAffineLinear(P) : TorPol -> BoolElt
- IsCoxeterAffine(M) : AlgMatElt -> BoolElt
- IsStandardAffinePatch(A) : Aff -> BoolElt, RngIntElt
- NumberOfAffinePatches(X) : Sch -> BoolElt
- NumberOfPrimitiveGroups(d) : RngIntElt -> RngIntElt
- ResolveAffineCurve(p) : RngMPolElt -> List, List, List, RngIntElt
- ResolveAffineMonicSurface(s) : RngUPolElt -> List, RngIntElt
- ToricAffinePatch(X,i) : TorVar,RngIntElt -> TorVar,TorMap
- ToricAffinePatch(X,S) : TorVar,[RngIntElt] -> TorVar,TorMap
- WeightedAffinePatch(P, i) : Prj, RngIntElt -> Sch, MapIsoSch

V2.28, 13 July 2023

Magma is maintained and distributed by the Computational Algebra Group, School of Mathematics and Statistics, University of Sydney.