Subindex: <B><B>linear-equivalence</B> .. literal</B>

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Subindex: linear-equivalence .. literal

linear-equivalence

Linear Equivalence of Divisors (PLANE ALGEBRAIC CURVES)

linear-group

PSz(arguments)
Permutation Representations of Linear Groups (PERMUTATION GROUPS)

linear-transformation

Modules (OVERVIEW)
Operations with Linear Transformations (VECTOR SPACES)

LinearCharacters

LinearCharacters(G): Grp -> SeqEnum
LinearCharacters(G) : GrpMat -> [ Chtr ]

LinearCode

   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

LinearIndependence

CrvEll_LinearIndependence (Example H91E25)

Linearly

   IsLinearlyEquivalent(D1,D2) : DivCrvElt,DivCrvElt -> BoolElt
   IsLinearlyIndependent(P, Q) : PtEll, PtEll -> BoolElt, ModTupElt
   IsLinearlyIndependent(P, Q, n) : PtEll, PtEll, RngIntElt -> BoolElt
   IsLinearlyIndependent(S) : [ PtEll ] -> BoolElt, ModTupElt
   IsLinearlyIndependent(S, n) : [ PtEll ], RngIntElt -> BoolElt

LinearRelation

LinearRelation(q: parameters) : [ FldPrElt ] -> [ RngIntElt ]

LinearSpace

LinearSpace(I) : Inc -> IncLsp
LinearSpace< v | X : parameters > : RngIntElt, List -> IncLsp

LinearSystem

   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

LinearSystemTrace(L,X) : LinearSys,Sch -> LinearSys

LinearTrans

ModFld_LinearTrans (Example H44E14)

LineAtInfinity

LineAtInfinity(A) : Aff -> Crv

LineCount

IO_LineCount (Example H3E9)

LineGraph

   LineGraph(G) : Grph -> Grph
   LineGraph(P) : Plane -> Grph
   LineGraph(P) : Plane -> GrphUnd

LineGroup

LineGroup(P) : Plane -> GrpPerm, PowMap, Map

LineOrbits

LineOrbits(G) : GrpMat -> [ SetIndx ]

Lines

   AllPassants(P, A) : Plane, { PlanePt } -> { PlaneLn }
   ExternalLines(P, A) : Plane, { PlanePt } -> { PlaneLn }
   Lines(P) : PlaneLnSet -> { PlaneLn }
   NumberOfLines(P) : Plane -> RngIntElt

LineSet

LineSet(P) : Plane -> PlaneLnSet

Linking

   Linking(u,v) : GrphSplVert,GrphSplVert -> RngIntElt
   LinkingNumbers(s) : GrphSpl -> SeqEnum
   TotalLinking(v) : GrphSplVert -> RngIntElt

LinkingNumbers

LinkingNumbers(s) : GrphSpl -> SeqEnum

linsys

   IsSubsystem(L,K) : LinSys,LinSys -> BoolElt
   Basic Algebra of Linear Systems (SCHEMES)
   Creation of Linear Systems (SCHEMES)
   Linear Systems (SCHEMES)
   Linear Systems (SCHEMES)
   Linear Systems and Maps (SCHEMES)

linsys-construction

Scheme_linsys-construction (Example H87E39)

linsys-creation

Creation of Linear Systems (SCHEMES)

linsys-linalg

IsSubsystem(L,K) : LinSys,LinSys -> BoolElt
Basic Algebra of Linear Systems (SCHEMES)

linsys-maps

Linear Systems and Maps (SCHEMES)

Lint

VanLintBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt

List

   K3ListCodimensions(G) : GrphDir -> SeqEnum
   ListAttributes(C) : Cat ->
   ListCategories() : ->
   ListSignatures(C) : Cat ->
   ListVerbose() : ->
   SequenceToList(Q) : SeqEnum -> List
   TupleToList(T) : Tup -> List
   TupleToList(T) : Tup -> List

list

Elimination List: elim (IDEAL THEORY AND GRÖBNER BASES)
LISTS

ListAttributes

ListAttributes(C) : Cat ->

ListCategories

ListTypes() : ->
ListCategories() : ->

lists

Lists of K3 surfaces (LISTS OF GRADED RINGS)

ListSignatures

ListSignatures(C) : Cat ->

ListTypes

ListTypes() : ->
ListCategories() : ->

ListVerbose

ListVerbose() : ->

literal

Literal Sequences (SEQUENCES)
a_1a_2...a_r : RngIntElt, ..., RngIntElt -> RngIntElt

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