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Subindex: composition  ..  conditional


composition

   Composition (MAPPINGS)
   Composition and Chief Factors (MATRIX GROUPS OVER GENERAL RINGS)
   Composition and Chief Series (PERMUTATION GROUPS)
   Composition and Decomposition (CHARACTERS OF FINITE GROUPS)
   Composition and Reversion (POWER, LAURENT AND PUISEUX SERIES)
   Composition Series (MODULES OVER AN ALGEBRA)
   Composition Trees for Matrix Groups (MATRIX GROUPS OVER FINITE FIELDS)

composition-decomposition

   Composition and Decomposition (CHARACTERS OF FINITE GROUPS)

composition-factors

   Composition and Chief Factors (MATRIX GROUPS OVER GENERAL RINGS)

composition-reversion

   Composition and Reversion (POWER, LAURENT AND PUISEUX SERIES)

composition-series

   Composition and Chief Series (PERMUTATION GROUPS)
   Composition Series (MODULES OVER AN ALGEBRA)

composition-tree

   Composition Trees for Matrix Groups (MATRIX GROUPS OVER FINITE FIELDS)

CompositionFactors

   CompositionFactors(G) : : GrpFin -> [ <RngIntElt, RngIntElt, RngIntElt> ]
   CompositionFactors(G) : : GrpMat -> [ <RngIntElt, RngIntElt, RngIntElt> ]
   CompositionFactors(A) : AlgGen -> [ AlgGen ]
   CompositionFactors(L) : AlgLie -> [ AlgLie ]
   CompositionFactors(G) : GrpPC -> SeqEnum
   CompositionFactors(G) : GrpPerm -> [ <RngIntElt, RngIntElt, RngIntElt> ]
   CompositionFactors(M) : ModRng -> [ ModRng ]
   GrpMatGen_CompositionFactors (Example H59E25)

CompositionReversion

   RngSer_CompositionReversion (Example H49E2)

CompositionSeries

   CompositionSeries(A) : AlgGen -> [ AlgGen ], [ AlgGen ], AlgMatElt
   CompositionSeries(L) : AlgLie -> [ Alg ], [ AlgLie ], AlgMatElt
   CompositionSeries(G) : GrpAb -> [GrpAb]
   CompositionSeries(G) : GrpPC -> [GrpPC]
   CompositionSeries(G, i) : GrpPC, RngIntElt -> [GrpPC]
   CompositionSeries(G) : GrpPerm -> [ GrpPerm ]
   CompositionSeries(M) : ModRng -> [ ModRng ], [ ModRng ], AlgMatElt

CompositionTree

   CompositionTree(G : parameters) : GrpMat[FldFin] -> []

CompositionTreeCBM

   CompositionTreeCBM(G) : GrpMat[FldFin -> GrpMatElt

CompositionTreeElementToWord

   CompositionTreeElementToWord(G, g) : Grp, GrpElt -> BoolElt, GrpSLPElt

CompositionTreeFactorNumber

   CompositionTreeFactorNumber(G, g) : Grp, GrpElt -> RngIntElt

CompositionTreeFastVerification

   CompositionTreeFastVerification(G) : Grp -> BoolElt

CompositionTreeNiceGroup

   CompositionTreeNiceGroup(G) : Grp -> GrpMat[FldFin]

CompositionTreeNiceToUser

   CompositionTreeNiceToUser(G) : Grp -> Map, []

CompositionTreeOrder

   CompositionTreeOrder(G) : Grp -> RngIntElt

CompositionTreeReductionInfo

   CompositionTreeReductionInfo(G, t) : Grp, RngIntElt -> MonStgElt,Grp, Grp

CompositionTreeSeries

   CompositionTreeSeries(G) : Grp -> SeqEnum, List, List, List, BoolElt, []

CompositionTreeSLPGroup

   CompositionTreeSLPGroup(G) : Grp -> GrpSLP, Map

CompositionTreeVerify

   CompositionTreeVerify(G) : Grp -> BoolElt, []

Compositum

   Compositum(K, A) : FldAlg, FldAb -> FldAlg
   Compositum(K, L) : FldAlg, FldAlg -> FldAlg
   Compositum(K, L) : FldNum, FldNum -> FldNum
   FldNum_Compositum (Example H34E7)
   RngOrd_Compositum (Example H37E8)

CompSeries

   ModAlg_CompSeries (Example H89E6)

CompTree1

   GrpMatFF_CompTree1 (Example H60E11)

CompTree2

   GrpMatFF_CompTree2 (Example H60E12)

Computable

   HasComputableAbelianQuotient(G) : GrpFP -> BoolElt, GrpAb, Map
   HasComputableLCS(G) : GrpGPC -> BoolElt
   HasInfiniteComputableAbelianQuotient(G) : GrpFP -> BoolElt, GrpAb, Map
   IsDualComputable(A) : ModAbVar -> BoolElt, ModAbVar

computation

   Homology Computation (SIMPLICIAL HOMOLOGY)

Compute

   PrimeFactorisation(D) : DivSchElt -> SeqEnum
   ComputePrimeFactorisation(~D) : DivSchElt ->
   ComputeReducedFactorisation(~D) : DivSchElt ->

ComputePrimeFactorisation

   PrimeFactorisation(D) : DivSchElt -> SeqEnum
   ComputePrimeFactorisation(~D) : DivSchElt ->

ComputeReducedFactorisation

   ReducedFactorisation(D) : DivSchElt -> SeqEnum
   ComputeReducedFactorisation(~D) : DivSchElt ->

computing

   Computing L-values (L-FUNCTIONS)

Comultiplication

   Comultiplication(U, d) : AlgQUE, RngIntElt -> UserProgram

Concatenated

   ConcatenatedCode(O, I) : Code, Code -> Code

ConcatenatedCode

   ConcatenatedCode(O, I) : Code, Code -> Code
   CodeFld_ConcatenatedCode (Example H152E32)

concrete

   Concrete Representations of Small Groups (FINITELY PRESENTED GROUPS)

concrete-small

   Concrete Representations of Small Groups (FINITELY PRESENTED GROUPS)

Concurrent

   IsConcurrent(P, R) : Plane, { PlaneLn } -> BoolElt, PlanePt

Condensation

   CondensationMatrices(A) : AlgMat -> Tup

CondensationMatrices

   CondensationMatrices(A) : AlgMat -> Tup

Condensed

   CondensedAlgebra(A) : AlgMat -> AlgMat

CondensedAlgebra

   CondensedAlgebra(A) : AlgMat -> AlgMat
   AlgMat_CondensedAlgebra (Example H83E11)

Conditional

   ConditionalClassGroup(K) : FldAlg -> GrpAb, Map
   ConditionalClassGroup(O) : RngOrd -> GrpAb, Map

conditional

   Classes of Subgroups Satisfying a Condition (PERMUTATION GROUPS)
   Conditional Statements and Expressions (STATEMENTS AND EXPRESSIONS)
   The Simple Conditional Expression (STATEMENTS AND EXPRESSIONS)
   The Simple Conditional Statement (STATEMENTS AND EXPRESSIONS)

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Version: V2.19 of Mon Dec 17 14:40:36 EST 2012