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Subindex: CompanionMatrix .. Complete
CompanionMatrix(L) : RngDiffOpElt -> AlgMatElt
CompanionMatrix(f) : RngUPolElt -> AlgMatElt
CompanionMatrix(p) : RngUPolElt -> AlgMatElt
GetEvaluationComparison(R) : RngSLPol -> FldFin, RngIntElt
SetEvaluationComparison(R, F, n) : RngSLPol, FldFin, RngIntElt ->
Comparison (MATRIX ALGEBRAS)
Comparison (RATIONAL FIELD)
Comparison (RING OF INTEGERS)
Comparison of and Membership (REAL AND COMPLEX FIELDS)
Comparison of Ring Elements (INTRODUCTION TO RINGS [BASIC RINGS])
Comparison of Ring Elements (RING OF INTEGERS)
Comparisons and Membership (ALGEBRAS)
IsDimensionCompatible(B) : AlgBas -> Bool
GrpPerm_CompFactors (Example H58E31)
Tamagawa Numbers and Component Groups of Neron Models (MODULAR ABELIAN VARIETIES)
Tamagawa Numbers and Orders of Component Groups (MODULAR SYMBOLS)
ModAbVar_Compgrp-Component_Groups (Example H136E120)
ModAbVar_Compgrp-Tamagawa_Numbers (Example H136E121)
CodeComplement(C, C1) : Code, Code -> Code
CodeComplement(C, S) : Code, Code -> Code
CommonComplement(V, U, W) : ModTupFld, ModTupFld, ModTupFld) -> ModTupFld
Complement(G) : Grph -> Grph
Complement(D) : Inc -> Inc
Complement(L,K) : LinearSys,LinearSys -> LinearSys
Complement(L,X) : LinearSys,Sch -> LinearSys
Complement(M) : ModSym -> ModSym
Complement(V, U) : ModTupFld, ModTupFld -> ModTupFld
Complement(A : parameters) : ModAbVar -> ModAbVar, MapModAbVar
ComplementBasis(G) : GrpPC -> [GrpPC]
ComplementOfImage(phi : parameters) : MapModAbVar -> ModAbVar, MapModAbVar
HasComplement(G, U) : GrpAb, GrpAb -> BoolElt, GrpAb
HasComplement(G, M) : GrpPerm, GrpPerm -> BoolElt, GrpPerm
HasComplement(M, S) : ModGrp, ModGrp -> BoolElt, ModGrp
OrthogonalComplement(M) : ModBrdt -> ModBrdt
OrthogonalComplement(M) : ModSS -> ModSS
OrthogonalComplement(V, X : parameters) : ModTupFld, ModTupFld -> ModTupFld
TotallySingularComplement(V, U, W) : ModTupFld, ModTupFld, ModTupFld) -> ModTupFld
Constructing Complements, Line Graphs; Contraction, Switching (GRAPHS)
Constructing Complements, Line Graphs; Contraction, Switching (GRAPHS)
ComplementaryDivisor(D,p) : DivCrvElt,Pt -> DivCrvElt
ComplementaryDivisor(D) : DivFunElt -> DivFunElt
ComplementaryErrorFunction(r) : FldReElt -> FldReElt
SelfComplementaryGraphDatabase(n) : RngIntElt -> DB
ComplementaryDivisor(D,p) : DivCrvElt,Pt -> DivCrvElt
ComplementaryDivisor(D) : DivFunElt -> DivFunElt
Erfc(r) : FldReElt -> FldReElt
ComplementaryErrorFunction(r) : FldReElt -> FldReElt
ComplementBasis(G) : GrpPC -> [GrpPC]
ComplementOfImage(phi : parameters) : MapModAbVar -> ModAbVar, MapModAbVar
Complements(G, N) : GrpPC, GrpPC -> SeqEnum
Complements(G, M) : GrpPerm, GrpPerm -> [ GrpPerm ]
Complements(G, M, N) : GrpPerm, GrpPerm, GrpPerm -> [ GrpPerm ]
Complements(M, S) : ModGrp, ModGrp -> [ ModGrp ]
NormalComplements(G, H, N) : GrpPC, GrpPC -> SeqEnum
NormalComplements(G, N) : GrpPC, GrpPC -> SeqEnum
GrpPerm_Complements (Example H58E34)
Complements and Supplements (PERMUTATION GROUPS)
Decomposability and Complements (MODULES OVER AN ALGEBRA)
Orthogonal Complements (MODULAR ABELIAN VARIETIES)
ModAbVar_Complements-Complements (Example H136E87)
ModAbVar_Complements-Complements (Example H136E88)
ModAbVar_Complements-Congruence_Computations (Example H136E94)
ModAbVar_Complements-Dual_Abelian_Variety (Example H136E89)
ModAbVar_Complements-Intersection_Pairing (Example H136E90)
ModAbVar_Complements-Left_and_Right_Inverses (Example H136E93)
ModAbVar_Complements-Projections (Example H136E91)
ModAbVar_Complements-Projections2 (Example H136E92)
Complete(~P) : GrpBrdClassProc ->
Complete(~P) : GrpFPHomsProc ->
CompleteClassGroup(O) : RngOrd ->
CompleteDigraph(n) : RngIntElt -> GrphDir
CompleteGraph(n) : RngIntElt -> GrphUnd
CompleteKArc(P, k) : Plane, RngIntElt -> SetEnum
CompleteTheSquare(model) : ModelG1 -> ModelG1
CompleteUnion(G, H) : GrphDir, GrphDir -> GrphDir
CompleteWeightEnumerator(C): Code -> RngMPolElt
CompleteWeightEnumerator(C): Code -> RngMPolElt
CompleteWeightEnumerator(C, u): Code, ModTupFldElt -> RngMPolElt
CompleteWeightEnumerator(C, u): Code, ModTupFldElt -> RngMPolElt
CompleteWeightEnumerator(C): CodeAdd -> RngMPolElt
HasClosedCosetTable(P) : GrpFPCosetEnumProc -> BoolElt
IsComplete(V) : GrpFPCos -> BoolElt
IsComplete(G) : Grph -> BoolElt
IsComplete(G) : GrphMult -> BoolElt
IsComplete(D) : Inc -> BoolElt
IsComplete(L) : LinearSys -> BoolElt
IsComplete(P, A) : Plane, { PlanePt } -> BoolElt
IsComplete(S) : SeqEnum -> BoolElt
IsComplete(F) : TorFan -> BoolElt
IsComplete(X) : TorVar -> BoolElt
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Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012