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Subindex: Clock  ..  Coboundary


Clock

   ClockCycles() : -> RngIntElt

ClockCycles

   ClockCycles() : -> RngIntElt

Close

   CloseVectors(L, w, u) : Lat, ModTupRngElt, RngElt -> [ <LatElt, RngElt> ]
   CloseVectorsMatrix(L, w, u) : Lat, ModTupRngElt, RngElt -> ModMatRngElt
   CloseVectorsProcess(L, w, u) : Lat, ModTupRngElt, RngElt -> LatEnumProc

close

   Short and Close Vectors (LATTICES)

Closed

   HasCompleteCosetTable(P) : GrpFPCosetEnumProc -> BoolElt
   HasClosedCosetTable(P) : GrpFPCosetEnumProc -> BoolElt

closed

   ALGEBRAICALLY CLOSED FIELDS

Closest

   ClosestVectors(L, w) : Lat, ModTupRngElt -> [ LatElt ], RngElt
   ClosestVectorsMatrix(L, w) : Lat, ModTupRngElt -> ModMatRngElt, RngElt
   Lat_Closest (Example H30E12)

closest

   Shortest and Closest Vectors (LATTICES)

ClosestVectors

   ClosestVectors(L, w) : Lat, ModTupRngElt -> [ LatElt ], RngElt

ClosestVectorsMatrix

   ClosestVectorsMatrix(L, w) : Lat, ModTupRngElt -> ModMatRngElt, RngElt

CloseVectors

   CloseVectors(L, w, u) : Lat, ModTupRngElt, RngElt -> [ <LatElt, RngElt> ]

CloseVectorsMatrix

   CloseVectorsMatrix(L, w, u) : Lat, ModTupRngElt, RngElt -> ModMatRngElt

CloseVectorsProcess

   CloseVectorsProcess(L, w, u) : Lat, ModTupRngElt, RngElt -> LatEnumProc

Closure

   AlgebraicClosure() : -> FldAC
   AlgebraicClosure(K) : Fld -> FldAC
   Closure(R, S) : RootDtm, SetEnum -> SetEnum
   ClosureGraph(P, G) : GrpPerm, GrphUnd -> GrphUnd
   FundamentalClosure(R, S) : RootDtm, SetEnum -> SetEnum
   GorensteinClosure(O) : AlgAssVOrd -> AlgAssVOrd
   IntegralClosure(R, F) : Rng, FldFun -> RngFunOrd
   LMGNormalClosure(G, H) : GrpMat, GrpMat -> GrpMat
   MakeProjectiveClosureMap(A, P, S) : Aff,Prj,SeqEnum ->
   NeighbourClosure(L, p) : Lat, RngIntElt -> Lat
   NormalClosureMonteCarlo (G, H ) : GrpMat, GrpMat -> GrpMat
   OrbitClosure(G, M, S) : Grp, Any, Any -> Any
   OrbitClosure(G, S) : GrpMat, { Elt } -> GSet
   OrbitClosure(G, Y, S) : GrpPerm, GSet, { Elt } -> GSet
   ProjectiveClosure(f) : MapSch -> MapSch
   ProjectiveClosure(A): Sch -> Sch
   ProjectiveClosure(C) : Sch -> Sch
   ProjectiveClosure(X) : Sch -> Sch
   ProjectiveClosureMap(A) : Aff -> MapSch
   RandomElementOfNormalClosure(G, N): Grp -> GrpElt
   RootClosure(R, S) : RootDtm, SetEnum[RngIntElt] -> SetEnum[RngIntElt]
   VarietySizeOverAlgebraicClosure(I) : RngMPol -> RngIntElt
   H ^ G : GrpFin -> GrpFin
   H ^ G : GrpFin, GrpFin -> GrpFin
   H ^ G : GrpFP, GrpFP -> GrpFP
   H ^ G : GrpGPC, GrpGPC -> GrpGPC
   H ^ G : GrpMat -> GrpMat
   H ^ G : GrpMat, GrpMat -> GrpMat
   H ^ G : GrpPC, GrpPC -> GrpPC
   H ^ G : GrpPerm, GrpPerm -> GrpPerm

closure

   Affine Patches and Projective Closure (SCHEMES)
   Maps and Closure (SCHEMES)
   Projective Closure (ALGEBRAIC CURVES)
   Projective Closure (SCHEMES)
   Projective Closure and Affine Patches (ALGEBRAIC CURVES)

closure-crvpl

   Projective Closure and Affine Patches (ALGEBRAIC CURVES)

ClosureGraph

   ClosureGraph(P, G) : GrpPerm, GrphUnd -> GrphUnd

Cluster

   Cluster(p) : Pt -> Clstr
   Cluster(X,f) : Sch,RngMPolElt -> Clstr
   IsCluster(X) : Sch -> BoolElt,Clstr
   ReduceCluster(X) : SeqEnum -> SeqEnum, Mtrx, Mtrx

cluster-degree5

   Scheme_cluster-degree5 (Example H112E15)

clusters

   Zero-dimensional Schemes (SCHEMES)

CM

   IsCM(M : parameters) : ModSym -> BoolElt, RngIntElt
   HasCM(M : parameters) : ModSym -> BoolElt, RngIntElt

cm

   CM Points (ARITHMETIC FUCHSIAN GROUPS AND SHIMURA CURVES)
   Creation and Modification of Baskets (HILBERT SERIES OF POLARISED VARIETIES)

cm-baskets

   Creation and Modification of Baskets (HILBERT SERIES OF POLARISED VARIETIES)

cmpeq

   x cmpeq y : Any, Any -> BoolElt

cmpne

   x cmpne y : Any, Any -> BoolElt

CMPoints

   CMPoints(G,mu) : GrpPSL2, AlgAssVOrdElt -> RngUPolElt, SeqEnum

CMTwists

   CMTwists(A : parameters) : ModAbVar -> SeqEnum

CO

   CO(n, q) : RngIntElt, RngIntElt -> GrpMat
   ConformalOrthogonalGroup(n, q) : RngIntElt, RngIntElt -> GrpMat

Co1

   GrpFP_1_Co1 (Example H70E66)

co_cont

   AlgSrf_co_cont (Example H116E28)

Cobles

   CoblesRadicand(p) : RngUPolElt -> FldElt

CoblesRadicand

   CoblesRadicand(p) : RngUPolElt -> FldElt

Coboundary

   CoboundaryMapImage(M, i, c) : ModCoho, RngIntElt, UserProgram -> UserProgram
   IsOneCoboundary(CM, s) : ModCoho, UserProgram -> BoolElt, UserProgram
   IsTwoCoboundary(CM, s) : ModCoho, UserProgram -> BoolElt, UserProgram

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