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Subindex: Contraction  ..  conversion-graph-digraph


Contraction

   Contraction(D, b) : Inc, IncBlk -> Inc
   Contraction(D, p) : Inc, IncPt -> Inc
   ExtremalRayContraction(X,i) : TorVar,RngIntElt -> TorVar,TorMap
   ExtremalRayContractionDivisor(X,i) : TorVar,RngIntElt -> DivTorElt
   IsDivisiorialContraction(X,i) : TorVar,RngIntElt -> BoolElt
   TypeOfContraction(X,i) : TorVar,RngIntElt -> MonStgElt

contraction

   Constructing Complements, Line Graphs; Contraction, Switching (GRAPHS)
   Extension and Contraction of Ideals (POLYNOMIAL RING IDEAL OPERATIONS)

Contractions

   ExtremalRayContractions(X) : TorVar,RngIntElt -> SeqEnum
   ExtremalRays(X) : TorVar -> SeqEnum
   TypeOfContraction(X,i) : TorVar,RngIntElt -> MonStgElt

Contravariant

   ApplyContravariant(c, d) : MPolElt, MPolElt -> MPolElt

Contravariants

   Contravariants(model) : ModelG1 -> ModelG1, ModelG1
   ContravariantsOfCubicSurface(f) : RngMPolElt -> SeqEnum

ContravariantsOfCubicSurface

   ContravariantsOfCubicSurface(f) : RngMPolElt -> SeqEnum

Contribution

   GenusContribution(g) : GrphRes -> RngIntElt

control

   Controlling Selection of a Base (MATRIX GROUPS OVER GENERAL RINGS)

control--key

   <Ctrl>-\
   <Ctrl>-\

control-_-key

   <Ctrl>-_

control-A-key

   <Ctrl>-A

control-B-key

   <Ctrl>-B

control-C-key

   <Ctrl>-C
   <Ctrl>-C

control-D-key

   <Ctrl>-D
   quit;

control-E-key

   <Ctrl>-E

control-F-key

   <Ctrl>-F

control-H-key

   <Ctrl>-H

control-I-key

   <Ctrl>-I

control-J-key

   <Ctrl>-J

control-K-key

   <Ctrl>-K

control-L-key

   <Ctrl>-L

control-M-key

   <Ctrl>-M

control-N-key

   <Ctrl>-N

control-P-key

   <Ctrl>-P

control-space-key

   <Ctrl>- space

control-U-key

   <Ctrl>-U

control-V-key

   <Ctrl>-V<char>

control-W-key

   <Ctrl>-W

control-X-key

   <Ctrl>-X

control-Y-key

   <Ctrl>-Y

control-Z-key

   <Ctrl>-Z

ControlExtn

   GrpFP_1_ControlExtn (Example H70E15)

Controlled

   ControlledNot(e, B, k) : HilbSpcElt, RngIntElt, RngIntElt -> HilbSpcElt

ControlledNot

   ControlledNot(e, B, k) : HilbSpcElt, RngIntElt, RngIntElt -> HilbSpcElt

conv

   Converse (MULTIGRAPHS)
   Converting between Simple Graphs and Multigraphs (MULTIGRAPHS)
   Orientated Graphs (MULTIGRAPHS)
   Design_conv (Example H147E9)

Convergents

   Convergents(s) : [ RngIntElt ] -> ModMatRngElt

Converse

   Converse(G) : GrphDir -> GrphDir
   Converse(G) : GrphMultDir -> GrphMultDir

Conversion

   GrpRWS_Conversion (Example H74E10)
   MonRWS_Conversion (Example H78E12)

conversion

   Automatic Conversions (BRAID GROUPS)
   Character Conversion (INPUT AND OUTPUT)
   Construction of the Standard Presentation for a Coxeter Group (FINITELY PRESENTED GROUPS)
   Conversion between Categories (POLYCYCLIC GROUPS)
   Conversion from a Special Form of FP-Group (FINITELY PRESENTED GROUPS)
   Conversion Functions (INCIDENCE GEOMETRY)
   Conversion Functions (INCIDENCE STRUCTURES AND DESIGNS)
   Conversion Functions (MULTIGRAPHS)
   Conversion Functions (REPRESENTATIONS OF LIE GROUPS AND ALGEBRAS)
   Conversion to a Finitely Presented Group (GROUPS DEFINED BY REWRITE SYSTEMS)
   Conversion to a Finitely Presented Monoid (MONOIDS GIVEN BY REWRITE SYSTEMS)
   Conversion to a PC-Group (MATRIX GROUPS OVER GENERAL RINGS)
   Conversion to and from Dense Matrices (SPARSE MATRICES)
   Conversion to Number Fields (CLASS FIELD THEORY)
   Conversions (REAL AND COMPLEX FIELDS)
   Converting between Graphs and Digraphs (GRAPHS)
   Creation and Conversion (RING OF INTEGERS)
   Element Conversions (RING OF INTEGERS)
   Sets from Structures (SETS)

conversion-functions

   Conversion Functions (INCIDENCE GEOMETRY)

conversion-graph-digraph

   Converting between Graphs and Digraphs (GRAPHS)

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