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Subindex: Resolution  ..  Restricted


Resolution

   CompactInjectiveResolution(M, n) : ModAlg, RngIntElt -> Rec
   CompactProjectiveResolution(M, n) : ModAlg, RngIntElt -> Rec
   CompactProjectiveResolutionPGroup(M, n) : ModAlgBas, RngIntElt -> Rec
   FreeResolution(M) : ModMPol -> ModCpx, ModMPolHom
   FreeResolution(R) : RngInvar -> [ ModMPol ]
   HasResolution(D) : Inc -> BoolElt, { SetEnum }, RngIntElt
   HasResolution(D, λ) : Inc, RngIntElt -> BoolElt, { SetEnum }
   InjectiveResolution(M, n) : ModAlg, RngIntElt -> ModCpx, ModMatFldElt
   IsResolution(D, P) : Inc, SetEnum[SetEnum] -> BoolElt, RngIntElt
   MakeResolutionGraph(g,s,t) : GrphDir,SeqEnum,SeqEnum -> GrphRes
   MakeResolutionGraph(N) : NwtnPgon -> GrphRes
   MinimalFreeResolution(R) : RngInvar -> [ ModMPol ]
   ProjectiveResolution(M, n) : ModAlg, RngIntElt -> ModCpx, ModMatFldElt
   ProjectiveResolution(M, n) : ModAlgBas, RngIntElt -> ModCpx, ModMatFldElt
   ProjectiveResolution(PR) : Rec -> ModCpx, ModMatFldElt
   ProjectiveResolutionPGroup(PR) : Rec -> ModCpx
   Resolution(X) : TorVar -> TorVar,TorMap
   ResolutionData(A) : AlgBasGrpP -> Rec
   ResolutionGraph(v) : GrphResVert -> GrphRes
   ResolutionGraph(P) : LinearSys -> GrphRes
   ResolutionGraph(P,a,b) : LinearSys,RngElt,RngElt -> GrphRes
   ResolutionGraph(C, p) : Sch, Pt -> GrphRes
   ResolutionGraphVertex(g,i) : GrphRes,RngIntElt -> GrphResVert
   RestrictResolution(PR, RD) : Rec, Rec -> ModCpx

resolution

   Constructing Free Resolutions (MODULES OVER MULTIVARIATE RINGS)
   Free Resolutions (MODULES OVER MULTIVARIATE RINGS)
   Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)
   Splice Diagrams from Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)

resolution-graphs

   Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)

resolution-to-splice

   Splice Diagrams from Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)

ResolutionData

   ResolutionData(A) : AlgBasGrpP -> Rec

ResolutionGraph

   ResolutionGraph(v) : GrphResVert -> GrphRes
   ResolutionGraph(P) : LinearSys -> GrphRes
   ResolutionGraph(P,a,b) : LinearSys,RngElt,RngElt -> GrphRes
   ResolutionGraph(C, p) : Sch, Pt -> GrphRes

ResolutionGraphVertex

   g ! i : GrphRes,RngIntElt -> GrphResVert
   ResolutionGraphVertex(g,i) : GrphRes,RngIntElt -> GrphResVert

Resolutions

   AllResolutions(D) : Inc -> SeqEnum
   AllResolutions(D, λ) : Inc, RngIntElt -> SeqEnum
   CompactProjectiveResolutionsOfSimpleModules(A,n) : AlgBas, RngIntElt -> SeqEnum

resolutions

   Projective Resolutions (BASIC ALGEBRAS)
   Resolutions, Parallelisms and Parallel Classes (INCIDENCE STRUCTURES AND DESIGNS)

Resolve

   ResolveAffineCurve(p) : RngMPolElt -> List, List, List, RngIntElt
   ResolveAffineMonicSurface(s) : RngUPolElt -> List, RngIntElt
   ResolveFanMap(F1,F2) : TorFan,TorFan -> TorFan
   ResolveLinearSystem(D) : DivTorElt -> TorVar
   ResolveProjectiveCurve(p) : RngMPolElt -> List, List, List, RngIntElt
   ResolveProjectiveSurface(S) : Srfc -> List, RngIntElt

ResolveAffineCurve

   ResolveAffineCurve(p) : RngMPolElt -> List, List, List, RngIntElt

ResolveAffineMonicSurface

   ResolveAffineMonicSurface(s) : RngUPolElt -> List, RngIntElt

ResolveFanMap

   ResolveFanMap(F1,F2) : TorFan,TorFan -> TorFan

ResolveLinearSystem

   ResolveLinearSystem(D) : DivTorElt -> TorVar

ResolveProjectiveCurve

   ResolveProjectiveCurve(p) : RngMPolElt -> List, List, List, RngIntElt

ResolveProjectiveSurface

   ResolveProjectiveSurface(S) : Srfc -> List, RngIntElt

restore

   restore "filename";

Restrict

   Restrict(psi, I) : GrossenChar, RngOrdIdl -> GrossenChar
   Extend(psi, I) : GrossenChar, RngOrdIdl -> GrossenChar
   Restrict(chi, D) : GrpDrchNFElt, GrpDrchNF -> GrpDrchNFElt
   RestrictDegree(a, n): AlgSymElt, RngIntElt -> AlgSymElt
   RestrictEndomorphism(phi, i) : MapModAbVar, MapModAbVar -> MapModAbVar
   RestrictEndomorphism(phi, B) : MapModAbVar, ModAbVar -> MapModAbVar
   RestrictField(G, S) : GrpMat, FldFin -> GrpMat, Map
   RestrictField(V, L) : ModTupFld, Fld -> ModTupFld, MapHom
   RestrictPartitionLength(a, n): AlgSymElt, RngIntElt -> AlgSymElt
   RestrictParts(a, n): AlgSymElt, RngIntElt -> AlgSymElt
   RestrictResolution(PR, RD) : Rec, Rec -> ModCpx
   SubfieldSubcode(C, S) : Code, FldFin -> Code, Map

Restrictable

   IsRestricted(L) : AlgLie -> BoolElt, Map
   IspLieAlgebra(L) : AlgLie -> BoolElt, Map
   IsRestrictable(L) : AlgLie -> BoolElt, Map

restrictable

   Restrictable Lie Algebras (LIE ALGEBRAS)

RestrictDegree

   RestrictDegree(a, n): AlgSymElt, RngIntElt -> AlgSymElt

Restricted

   IsRestricted(L) : AlgLie -> BoolElt, Map
   IspLieAlgebra(L) : AlgLie -> BoolElt, Map
   IsRestrictable(L) : AlgLie -> BoolElt, Map
   IsRestrictedSubalgebra(L, M) : AlgLie, AlgLie -> AlgLie
   RestrictedPartitions(n, k, M) : RngIntElt, SetEnum -> [ [ RngIntElt ] ]
   RestrictedPartitions(n, k, M) : RngIntElt, SetEnum -> [ [ RngIntElt ] ]
   RestrictedPartitions(n, M) : RngIntElt, SetEnum -> [ [ RngIntElt ] ]
   RestrictedPartitions(n, Q) : RngIntElt, SetEnum -> [ [ RngIntElt ] ]
   RestrictedSubalgebra(Q) : SetEnum[AlgLieElt] -> AlgLie

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