[____] [____] [_____] [____] [__] [Index] [Root]
Subindex: Mac .. makek3db
MacWilliamsTransform(n, k, K, W) : RngIntElt, RngIntElt, FldFin, RngMPol -> RngMPol
MacWilliamsTransform(n, k, q, W) : RngIntElt, RngIntElt, RngIntElt, [ <RngIntElt, RngIntElt> ] -> [ <RngIntElt, RngIntElt> ]
MacWilliamsTransform(n, k, q, W) : RngIntElt, RngIntElt, RngIntElt, [ <RngIntElt, RngIntElt> ] -> [ <RngIntElt, RngIntElt> ]
IsArithmeticallyCohenMacaulay(S) : ShfCoh -> BoolElt
IsCohenMacaulay(R) : RngInvar -> BoolElt
IsCohenMacaulay(X) : Sch -> BoolElt
CodeFld_MacWilliams (Example H152E22)
The MacWilliams Transform (ADDITIVE CODES)
The MacWilliams Transform (LINEAR CODES OVER FINITE FIELDS)
MacWilliamsTransform(n, k, K, W) : RngIntElt, RngIntElt, FldFin, RngMPol -> RngMPol
MacWilliamsTransform(n, k, q, W) : RngIntElt, RngIntElt, RngIntElt, [ <RngIntElt, RngIntElt> ] -> [ <RngIntElt, RngIntElt> ]
MacWilliamsTransform(n, k, q, W) : RngIntElt, RngIntElt, RngIntElt, [ <RngIntElt, RngIntElt> ] -> [ <RngIntElt, RngIntElt> ]
MaedaInvariants(C) : CrvHyp -> SeqEnum
MaedaInvariants(C) : CrvHyp -> SeqEnum
MagicNumber(C) : GRCrvS -> RngIntElt
MagicNumber(C) : GRCrvS -> RngIntElt
MAGMA
IsMagmaEuclideanRing(R) : Rng -> BoolElt
PrintFileMagma(F, x) : MonStgElt, Any ->
Constructing a General Matrix Algebra (MATRIX ALGEBRAS)
Construction of a Group Algebra (GROUP ALGEBRAS)
Construction of a Vector Space (VECTOR SPACES)
Construction of the Complete Matrix Algebra (MATRIX ALGEBRAS)
Construction of the General Linear Group (MATRIX GROUPS OVER GENERAL RINGS)
Construction of the Symmetric Group (PERMUTATION GROUPS)
Creation of General Algebraic Fields (ORDERS AND ALGEBRAIC FIELDS)
Creation of Number Fields (NUMBER FIELDS)
Creation of Structures (RATIONAL FIELD)
Creation of Structures (REAL AND COMPLEX FIELDS)
Creation of Structures (UNIVARIATE POLYNOMIAL RINGS)
Defining Orderings (GROUPS DEFINED BY REWRITE SYSTEMS)
Magma (CLASS FIELD THEORY)
Magma native NFS data files (RING OF INTEGERS)
Planes in Magma (FINITE PLANES)
Presentations (FINITELY PRESENTED SEMIGROUPS)
Related Structures (RATIONAL FUNCTION FIELDS)
Setting Limits (GROUPS DEFINED BY REWRITE SYSTEMS)
Specification of a Polycyclic Presentation (POLYCYCLIC GROUPS)
The General Group Constructors (GROUPS)
The Knuth-Bendix Procedure (GROUPS DEFINED BY REWRITE SYSTEMS)
MAGMA_HELP_DIR
MAGMA_LIBRARIES
MAGMA_LIBRARY_ROOT
MAGMA_MEMORY_LIMIT
MAGMA_PATH
MAGMA_STARTUP_FILE
MAGMA_SYSTEM_SPEC
MAGMA_TEMP_DIR
MAGMA_USER_SPEC
MAGMA_HELP_DIR
MAGMA_LIBRARIES
MAGMA_LIBRARY_ROOT
MAGMA_MEMORY_LIMIT
MAGMA_PATH
MAGMA_STARTUP_FILE
MAGMA_SYSTEM_SPEC
MAGMA_TEMP_DIR
MAGMA_USER_SPEC
Introduction (ALGEBRAIC SURFACES)
MakeCoprime(I, J) : RngOrdIdl, RngOrdIdl -> FldOrdElt
CoprimeRepresentative(I, J) : RngOrdIdl, RngOrdIdl -> FldOrdElt
MakeBasket(Q) : SeqEnum -> GRBskt
MakeDirected(uwg) : GrphUnd -> GrphDir
MakeProjectiveClosureMap(A, P, S) : Aff,Prj,SeqEnum ->
MakeResolutionGraph(g,s,t) : GrphDir,SeqEnum,SeqEnum -> GrphRes
MakeResolutionGraph(N) : NwtnPgon -> GrphRes
MakeSpliceDiagram(g,e,a) : GrphDir,SeqEnum,SeqEnum -> GrphSpl
MakeSpliceDiagram(e,l,a) : SeqEnum,SeqEnum,SeqEnum -> GrphSpl
MakeType(S) : MonStgElt -> Cat
CodeFld_Make12-8-4Code (Example H152E31)
MakeBasket(Q) : SeqEnum -> GRBskt
MakeCoprime(I, J) : RngOrdIdl, RngOrdIdl -> FldOrdElt
CoprimeRepresentative(I, J) : RngOrdIdl, RngOrdIdl -> FldOrdElt
Building Databases (HILBERT SERIES OF POLARISED VARIETIES)
MakeDirected(uwg) : GrphUnd -> GrphDir
Creating Many K3 Surfaces (HILBERT SERIES OF POLARISED VARIETIES)
K3 Surfaces as Records (HILBERT SERIES OF POLARISED VARIETIES)
Reading the Raw Data (HILBERT SERIES OF POLARISED VARIETIES)
The K3 Database (HILBERT SERIES OF POLARISED VARIETIES)
Writing K3 Surfaces to a File (HILBERT SERIES OF POLARISED VARIETIES)
Writing the Data and Index Files (HILBERT SERIES OF POLARISED VARIETIES)
[____] [____] [_____] [____] [__] [Index] [Root]
Version: V2.19 of
Mon Dec 17 14:40:36 EST 2012