Documentation

lift
- Teichmüller Lifts (p-ADIC RINGS AND THEIR EXTENSIONS)
Liftable
- IsHenselLiftable(f, x) : RngUPolElt, FldXPadElt -> BoolElt, FldXPadElt
LiftCharacter
- LiftCharacter(c, f, G) : AlgChtrElt, Map, Grp -> AlgChtrElt
- LiftCharacter(c, f, G) : AlgChtrElt, Map, Grp -> AlgChtrElt
LiftCharacters
- LiftCharacters(T, f, G) : [AlgChtrElt], Map, Grp -> AlgChtrElt
- LiftCharacters(T, f, G) : [AlgChtrElt], Map, Grp -> AlgChtrElt
LiftCocycle
- LiftCocycle(M, c) : Map, UserProgram -> UserProgram
- InflationMapImage(M, c) : Map, UserProgram -> UserProgram
LiftDescendant
- TwoDescendantsOverTwoIsogenyDescendant(C) : CrvHyp -> SeqEnum[ CrvHyp ], List, MapSch
- LiftDescendant(C) : CrvHyp -> SeqEnum[ CrvHyp ], List, MapSch
Lifted
- LiftedDecode(C, u : parameters) : CodeLinRng, ModTupFldElt -> BoolElt, ModTupRngElt, ModTupFldElt
- LiftedDecode(C, Q : parameters) : CodeLinRng, [ModTupFldElt] -> SeqEnum, SeqEnum, SeqEnum
lifted_decoding
- Lifted Decoding (LINEAR CODES OVER THE INTEGER RESIDUE RING Z₄)
LiftedDecode
- LiftedDecode(C, u : parameters) : CodeLinRng, ModTupFldElt -> BoolElt, ModTupRngElt, ModTupFldElt
- LiftedDecode(C, Q : parameters) : CodeLinRng, [ModTupFldElt] -> SeqEnum, SeqEnum, SeqEnum
Lifter
- IsolatedPointsLifter(S,P) : Sch, SeqEnum -> BoolElt, Pt
LiftHomomorphism
- LiftHomomorphism(x, n) : ModAlgElt, RngIntElt -> ModMatFldElt
- LiftHomomorphism(X, N) : SeqEnum[ModAlgElt], SeqEnum[RngIntElt] -> ModMatFldElt
lifting
- Induction, Restriction and Lifting (CHARACTERS OF FINITE GROUPS)
- Induction, Restriction and Lifting (CHARACTERS OF FINITE GROUPS)
- Lifting Algorithm (FINITE SOLUBLE GROUPS)
lifting-auto-soluble-group
- Lifting Algorithm (FINITE SOLUBLE GROUPS)
LiftMap
- LiftMap(m, R) : Map, RngDiffOp -> Map
LiftPoint
- LiftPoint(P, n) : Pt, RngIntElt -> Pt
LiftToChainmap
- LiftToChainmap(P,f,d) : ModCpx, Mtrx, RngIntElt -> MapChn
like
- Z as a Number Field Order (INTEGER RESIDUE CLASS RINGS)
LIMIT
- MAGMA_MEMORY_LIMIT
Limit
- HypergeometricMotiveClearTable() : ->
- HypergeometricMotiveSaveLimit(n) : RngIntElt ->
- PrimitiveGroupDatabaseLimit() : -> RngIntElt
- SetMemoryLimit(n) : RngIntElt ->
- SmallGroupDatabaseLimit() : -> RngIntElt
- TransitiveGroupDatabaseLimit() : -> RngIntElt
limit
- Limits (FINITELY PRESENTED ALGEBRAS)
limits
- Modifying Limits (AUTOMATIC AND HYPERBOLIC GROUPS)
lin
- Linear Algebra (p-ADIC RINGS AND THEIR EXTENSIONS)
- LINEAR PROGRAMMING
lin-alg
- Linear Algebra (p-ADIC RINGS AND THEIR EXTENSIONS)
lin-opt
- LINEAR PROGRAMMING
linalg
- IsSubsystem(L,K) : LinearSys,LinearSys -> BoolElt
- Basic Algebra of Linear Systems (SCHEMES)
- Numerical Linear Algebra (MATRICES)
Line
- IsLineRegular(D) : IncNsp -> BoolElt, RngIntElt
- IsLineTransitive(P) : Plane -> BoolElt
- Line(C,p,q) : CrvPln, Pt,Pt -> CrvPln
- Line(D, p, q) : Inc, IncPt, IncPt -> IncBlk
- LineAtInfinity(A) : Aff -> CrvPln
- LineGraph(G) : Grph -> Grph
- LineGraph(P) : Plane -> Grph
- LineGraph(P) : Plane -> GrphUnd
- LineGroup(P) : Plane -> GrpPerm, PowMap, Map
- LineOrbits(G) : GrpMat -> [ SetIndx ]
- LineSet(P) : Plane -> PlaneLnSet
- SetLineEditor(b) : BoolElt ->
- TangentLine(p) : Pt -> Crv
line
- Constructing Complements, Line Graphs; Contraction, Switching (GRAPHS)
- The Magma Line Editor (ENVIRONMENT AND OPTIONS)
- The Point-Set and Line-Set of a Plane (FINITE PLANES)
- The Set of Points and Set of Lines (FINITE PLANES)
- Using the Point-Set and Line-Set to Create Points and Lines (FINITE PLANES)
line-editor
- The Magma Line Editor (ENVIRONMENT AND OPTIONS)
Linear
- Linear Invariants of Tensors (MULTILINEAR ALGEBRA)
- AdjointCategory(v, s, t) : RngIntElt, RngIntElt, RngIntElt -> TenCat
- AdjointIdealForNodalCurve(C) : Crv -> RngMPol
- AdjointLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
- AffineGammaLinearGroup(arguments)
- AffineGeneralLinearGroup(arguments)
- AffineGeneralLinearGroup(GrpMat, n, q) : Cat, RngIntElt, RngIntElt -> GrpMat
- AffineGeneralLinearGroup(E) : GrpPerm -> GrpPerm
- AffineSigmaLinearGroup(arguments)
- AffineSpecialLinearGroup(arguments)
- AffineSpecialLinearGroup(GrpMat, n, q) : Cat, RngIntElt, RngIntElt -> GrpMat
- AllLinearRelations(q,p): SeqEnum, RngIntElt -> Lat
- BDLC(K, n, d) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
- BKLC(K, n, k) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
- BLLC(K, k, d) : FldFin, RngIntElt, RngIntElt -> Code, BoolElt
- CanonicalLinearSystem(C) : Crv -> LinearSys
- CanonicalLinearSystemFromIdeal(I, d) : RngMPol, RngIntElt -> LinearSys
- ConeQuotientByLinearSubspace(C) : TorCon -> TorCon,Map,Map
- GeneralLinearGroup(n, R) : RngIntElt, Rng -> GrpMat
- GeneralLinearGroup(n, q) : RngIntElt, RngIntElt -> GrpMat
- GilbertVarshamovLinearBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt
- HasLinearGrayMapImage(C) : Code -> BoolElt, Code
- IsAffineLinear(f) : MapSch -> BoolElt
- IsAffineLinear(P) : TorPol -> BoolElt
- IsLinear(x) : AlgChtrElt -> BoolElt
- IsLinear(f) : MapSch -> BoolElt
- IsLinear(X) : Sch -> BoolElt
- IsLinearGroup(G) : GrpMat -> BoolElt
- IsLinearSpace(D) : Inc -> BoolElt
- IsLinearSpace(C) : TorCon -> BoolElt
- IsLinearSystemNonEmpty(D) : DivSchElt -> BoolElt, DivSchElt
- IsNearLinearSpace(D) : Inc -> BoolElt
- IsSemiLinear(G) : GrpMat -> BoolElt
- LinearCharacters(G): Grp -> SeqEnum
- LinearCharacters(G) : GrpMat -> [ Chtr ]
- LinearCode(C, S) : Code, FldFin -> Code, Map
- LinearCode<R, n | L> : FldFin, RngIntElt, List -> Code
- LinearCode(D, K) : Inc, FldFin -> Code
- LinearCode(A) : ModMatRngElt -> Code
- LinearCode(A) : ModMatRngElt -> Code
- LinearCode(U) : ModTupRng -> Code
- LinearCode(U) : ModTupRng -> Code
- LinearCode(P, K) : Plane, FldFin -> Code
- LinearCode<R, n | L> : Rng, RngIntElt, List -> Code
- LinearCovariants(f) : RngMPolElt -> SeqEnum
- LinearElimination(S) : Sch -> Map
- LinearRelation(q: parameters) : [ FldComElt ] -> [ RngIntElt ]
- LinearRelations(f) : RngUPolElt -> Mtrx, GaloisData
- LinearRelations(f, I) : RngUPolElt, [RngSLPolElt] -> Mtrx, GaloisData
- LinearSpace(I) : Inc -> IncLsp
- LinearSpace< v | X : parameters > : RngIntElt, List -> IncLsp
- LinearSpanEquations(C) : TorCon -> SeqEnum
- LinearSpanGenerators(C) : TorCon -> SeqEnum
- LinearSubspaceGenerators(C) : TorCon -> SeqEnum
- LinearSystem(L, p) : LinearSys, Point -> LinearSys
- LinearSystem(L, p, m) : LinearSys, Point, RngIntElt -> LinearSys
- LinearSystem(L, p, m, t) : LinearSys, Point, SeqEnum, SeqEnum[SeqEnum]) -> LinearSys
- LinearSystem(L, P, M, T) : LinearSys, Points, SeqEnum[SeqEnum], SeqEnum[SeqEnum[SeqEnum]]) -> LinearSys
- LinearSystem(L, P) : LinearSys, SeqEnum[Point) -> LinearSys
- LinearSystem(L,V) : LinearSys,ModTupFld -> LinearSys
- LinearSystem(L,F) : LinearSys,SeqEnum -> LinearSys
- LinearSystem(L, X : parameters) : LinearSys, Sch -> LinearSys
- LinearSystem(P, d) : Sch, [RngIntElt] -> LinearSys
- LinearSystem(P, d) : Sch,RngIntElt -> LinearSys
- LinearSystem(P, F) : Sch,SeqEnum[RngMPolElt] -> LinearSys
- LinearSystemDivisorRestriction(S,B,ms) : Srfc, SeqEnum[RngMPolElt], SeqEnum[SeqEnum] -> SeqEnum
- LinearSystemTrace(L, X) : LinearSys, Sch -> LinearSys
- NearLinearSpace(I) : Inc -> IncNsp
- NearLinearSpace< v | X : parameters > : RngIntElt, List -> IncNsp
- ProjectiveGammaLinearGroup(arguments)
- ProjectiveGeneralLinearGroup(arguments)
- ProjectiveSigmaLinearGroup(arguments)
- ProjectiveSpecialLinearGroup(arguments)
- RandomLinearCode(K, n, k) : FldFin, RngIntElt, RngIntElt -> Code
- RandomLinearCode(R, n, k) : Rng, RngIntElt, RngIntElt -> Code
- RemoveLinearRelations(X) : Sch -> Sch, MapIsoSch
- ResolveLinearSystem(D) : DivTorElt -> TorVar
- SemiLinearGroup(G, S) : GrpMat, FldFin -> GrpMat
- SpecialLinearGroup(n, q) : RngIntElt, RngIntElt -> GrpMat

V2.28, 13 July 2023