Index G

[____] [____] [_____] [____] [__] [Index] [Root]

Index G

GapNumbers

GaussianPeriods

FldCyc_GaussianPeriods (Example H55E1)

GBoverZ

GB_GBoverZ (Example H50E4)

GCD

Gcd

gcd

Common Divisors and Common Multiples (MULTIVARIATE POLYNOMIAL RINGS)
Common Divisors and Common Multiples (RING OF INTEGERS)
Common Divisors and Common Multiples (UNIVARIATE POLYNOMIAL RINGS)
RngLoc_gcd (Example H59E13)
RngPad_gcd (Example H42E11)

gcd-lcm

Common Divisors and Common Multiples (MULTIVARIATE POLYNOMIAL RINGS)
Common Divisors and Common Multiples (RING OF INTEGERS)
Common Divisors and Common Multiples (UNIVARIATE POLYNOMIAL RINGS)

ge

Comparison (OVERVIEW)
u ge v : AlgFPElt, AlgFPElt -> BoolElt
u ge v : GrpFPElt, GrpFPElt -> BoolElt
s ge t : MonStgElt, MonStgElt -> BoolElt
a ge b : RngElt, RngElt -> BoolElt
S ge T : SeqEnum, SeqEnum -> BoolElt
u ge v : SgpFPElt, SgpFPElt -> BoolElt
e ge f : SubGrpLatElt, SubGrpLatElt -> BoolElt
e ge f : SubGrpLatElt, SubGrpLatElt -> BoolElt

Gegenbauer

GegenbauerPolynomial(n, m) : RngIntElt, RngElt ->RngUPolElt

GegenbauerPolynomial

GegenbauerPolynomial(n, m) : RngIntElt, RngElt ->RngUPolElt

Genera

LocalGenera(G) : SymGen -> Lat
SpinorGenera(G) : SymGen -> [ SymGen ]

General

general

Constructing a General Matrix Algebra (MATRIX ALGEBRAS)
Construction of a General Group (GROUPS)
Construction of a General Matrix Group (MATRIX GROUPS)
Construction of a General Permutation Group (PERMUTATION GROUPS)
Construction of General Linear Codes (LINEAR CODES OVER FINITE FIELDS)
Construction of General Linear Codes (LINEAR CODES OVER FINITE RINGS)
Creation of a Matrix Group (MATRIX GROUPS)
FREE MODULES
General Factorization (RING OF INTEGERS)
General Function Field Places (ALGEBRAIC FUNCTION FIELDS)
General function fields (ALGEBRAIC FUNCTION FIELDS)
General Functions (ORDERS AND ALGEBRAIC FIELDS)
MODULES OVER A MATRIX ALGEBRA
Presentations (FINITELY PRESENTED SEMIGROUPS)

general-magma

Constructing a General Matrix Algebra (MATRIX ALGEBRAS)
Presentations (FINITELY PRESENTED SEMIGROUPS)

Generalised

[Future release] GeneralisedRowReduction( rho ) : GrpLie, Map -> Map

GeneralisedRowReduction

[Future release] GeneralisedRowReduction( rho ) : GrpLie, Map -> Map

Generalized

GeneralizedFibonacciNumber(g0, g1, n) : RngIntElt, RngIntElt, RngIntElt -> RngIntElt
GeneralizedFibonacciNumber(g0, g1, n) : RngIntElt, RngIntElt, RngIntElt -> RngIntElt
GeneralizedSrivastavaCode(A, W, Z, t, S) : [ FldFinElt ], [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code
IsGeneralizedCharacter(x) : AlgChtrElt -> BoolElt

GeneralizedFibonacciNumber

GeneralizedFibonacciNumber(g0, g1, n) : RngIntElt, RngIntElt, RngIntElt -> RngIntElt
GeneralizedFibonacciNumber(g0, g1, n) : RngIntElt, RngIntElt, RngIntElt -> RngIntElt

GeneralizedSrivastavaCode

GeneralizedSrivastavaCode(A, W, Z, t, S) : [ FldFinElt ], [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code

GeneralLinearGroup

GL(arguments)
GeneralLinearGroup(arguments)
GeneralLinearGroup(n, R) : RngIntElt, Rng -> GrpMat

GeneralOrthogonalGroup

GO(arguments)
GeneralOrthogonalGroup(arguments)

GeneralOrthogonalGroupMinus

GOMinus(arguments)
GeneralOrthogonalGroupMinus(arguments)

GeneralOrthogonalGroupPlus

GOPlus(arguments)
GeneralOrthogonalGroupPlus(arguments)

GeneralUnitaryGroup

GU(arguments)
GeneralUnitaryGroup(arguments)

Generate

GenerateGraphs(n : parameters) : RngIntElt -> File

GenerateGraphs

GenerateGraphs(n : parameters) : RngIntElt -> File

Generatep

GeneratepGroups (p, d, c : parameters) : RngIntElt, RngIntElt,RngIntElt -> [GrpPC]

GeneratepGroups

GeneratepGroups (p, d, c : parameters) : RngIntElt, RngIntElt,RngIntElt -> [GrpPC]
GrpPGp_GeneratepGroups (Example H26E2)

Generating

GeneratingWords(G, H) : GrpFP, GrpFP -> { GrpFPElt }

Generating_p_groups

GrpPGp_Generating_p_groups (Example H26E1)

GeneratingWords

GeneratingWords(G, H) : GrpFP, GrpFP -> { GrpFPElt }

Generation

ClassGroupGenerationBound(F) : FldFun -> RngIntElt
ClassGroupGenerationBound(q, g) : RngIntElt, RngIntElt -> RngIntElt

generation

Generating Graphs (GRAPHS)

Generator

Generator(F) : FldFin -> FldFinElt
F . 1 : FldFin, RngIntElt -> FldFinElt
R . 1 : RngGal -> RngGalElt
ActionGenerator(B, i) : AlgBas, RngIntElt -> SeqEnum
ActionGenerator(L, i) : Lat, RngIntElt -> GrpMat
ActionGenerator(M, i) : ModTupRng, RngIntElt -> AlgMatElt
AddGenerator(G) : GrpFP -> GrpFP
AddGenerator(G, w) : GrpFP, GrpFPElt -> GrpFP
AddGenerator(S) : SgpFP -> SgpFP
AddGenerator(S, w) : SgpFP, SgpFPElt -> SgpFP
AddNormalizingGenerator(~H, x) : GrpPerm, GrpPermElt ->
AddSubgroupGenerator(~P, w) : GrpFPCosetEnumProc, GrpFPElt ->
CohomologyGeneratorToChainMap(P,Q,C,n) : ModCpx, ModCpx, Tup, RngIntElt -> MapChn
CohomologyGeneratorToChainMap(P,C,n) : ModCpx, Tup, RngIntElt -> MapChn
DeleteGenerator(G, x) : GrpFP, GrpFPElt -> GrpFP
DeleteGenerator(S, y) : SgpFP, SgpFPElt -> SgpFP
Generator(F, E) : FldFin, FldFin -> FldFinElt
GeneratorMatrix(C) : Code -> ModMatFldElt
GeneratorMatrix(C) : Code -> ModMatRngElt
GeneratorNumber(w) : GrpFPElt -> RngIntElt
GeneratorPolynomial(C) : Code -> RngUPolElt
GeneratorStructure(P) : Process(pQuot) ->
KeepGeneratorAction(SQG, SQH) : SQProc, SQProc -> SeqEnum
KeepGeneratorOrder(SQG, SQH) : SQProc, SQProc -> SeqEnum
LeadingGenerator(x) : GrpGPCElt -> GrpGPCElt
LeadingGenerator(x) : GrpPCElt -> GrpPCElt
LeadingGenerator(w) : GrpFPElt -> GrpFPElt
NaturalActionGenerator(L, i) : Lat, RngIntElt -> GrpMat
ShrinkingGenerator(C1, S1, C2, S2, t) : RngUPolElt, SeqEnum, RngUPolElt,SeqEnum, RngIntElt -> SeqEnum
UnivariateEliminationIdealGenerator(I, i) : RngMPol, RngIntElt -> RngMPolElt

generator

Base and Strong Generating Set (MATRIX GROUPS)
Base and Strong Generating Set (PERMUTATION GROUPS)
Construction of a Base and Strong Generating Set (PERMUTATION GROUPS)
Finding Special Elements (ORDERS AND ALGEBRAIC FIELDS)
Generator Assignment (OVERVIEW)
Generator Assignment (STATEMENTS AND EXPRESSIONS)
Special Elements (FINITE FIELDS)
The Generator Polynomial (LINEAR CODES OVER FINITE FIELDS)
Univariate Elimination Ideal Generators (IDEAL THEORY AND GRÖBNER BASES)

generator-assignment

Generator Assignment (OVERVIEW)
Generator Assignment (STATEMENTS AND EXPRESSIONS)

generator-polynomial

The Generator Polynomial (LINEAR CODES OVER FINITE FIELDS)

generator-primitive

Finding Special Elements (ORDERS AND ALGEBRAIC FIELDS)

generator-primitive-normal

Special Elements (FINITE FIELDS)

generator_reduction

Reducing generating sets (FINITELY PRESENTED GROUPS)

GeneratorMatrix

BasisMatrix(C) : Code -> ModMatRngElt
GeneratorMatrix(C) : Code -> ModMatFldElt
GeneratorMatrix(C) : Code -> ModMatRngElt
CodeFld_GeneratorMatrix (Example H97E8)

GeneratorNaming

State_GeneratorNaming (Example H1E5)

GeneratorNamingSequence

State_GeneratorNamingSequence (Example H1E4)

GeneratorNumber

GeneratorNumber(w) : GrpFPElt -> RngIntElt

GeneratorPolynomial

GeneratorPolynomial(C) : Code -> RngUPolElt
CodeFld_GeneratorPolynomial (Example H97E10)

Generators

generators

Addition of extra generators (GROUPS WHOSE ELEMENTS ARE STRAIGHT-LINE PROGRAMS)

GeneratorsSequence

GeneratorsSequence(G) : GrpPerm -> [ GrpPermElt ]

GeneratorStructure

GeneratorStructure(P) : Process(pQuot) ->

Generic

Generic(G) : SchGrpEll -> CrvEll
Curve(G) : SchGrpEll -> CrvEll
Generic(R) : AlgMat -> AlgMat
Generic(C) : Code -> Code
Generic(C) : Code -> Code
Generic(G) : Grp -> Grp
Generic(G) : GrpMat -> GrpMat
Generic(G) : GrpPerm -> GrpPerm
Generic(V) : ModFld -> ModFld
Generic(M) : ModMPol -> ModMPol
Generic(M) : ModRng -> ModRng
Generic(I) : RngMPol -> RngMPol
GenericAbelianGroup(U: parameters) : . -> GrpAbGen

generic

Generic Element Functions and Predicates (REAL AND COMPLEX FIELDS)
Generic Ring Functions (INTRODUCTION [BASIC RINGS])
Parent and Category (ALGEBRAICALLY CLOSED FIELDS)
Parent and Category (FINITE FIELDS)
Parent and Category (GALOIS RINGS)
Parent and Category (RATIONAL FIELD)
Parent and Category (RING OF INTEGERS)
Parent and Category (RING OF INTEGERS)
Properties (LOCAL RINGS AND FIELDS)
Properties (p-ADIC RINGS AND FIELDS)
Related Structures (MULTIVARIATE POLYNOMIAL RINGS)
Related Structures (RATIONAL FIELD)
Related Structures (UNIVARIATE POLYNOMIAL RINGS)

generic_abelian

GENERIC ABELIAN GROUPS

GenericAbelianGroup

GenericAbelianGroup(U: parameters) : . -> GrpAbGen

GenericCurve

CrvEll_GenericCurve (Example H85E6)

GenericPoint

CrvEll_GenericPoint (Example H85E11)

gens

Definition of Subgroups by Generators (FINITE SOLUBLE GROUPS)

Genus

ArithmeticGenus(C) : Crv -> RngIntElt
Genus(C) : Crv -> RngIntElt
Genus(C) : CrvHyp -> RngIntElt
Genus(X) : CrvMod -> RngIntElt
Genus(F) : FldFun -> RngIntElt
Genus(G) : GrpPSL2 -> RngIntElt
Genus(L) : Lat -> SymGen
Genus(X) : VSrfK3 -> RngIntElt
GenusContribution(g) : GrphRes -> RngIntElt
GenusRepresentatives(L) : Lat -> [ Lat ]
HyperellipticCurveOfGenus(g, h, f) : RngIntElt, RngUPolElt, RngUPolElt -> CrvHyp
IsGenus(G) : SymGen -> BoolElt
IsHyperellipticCurveOfGenus(g, [h, f]) : RngIntElt, [RngUPolElt] -> BoolElt, CrvHyp
IsSpinorGenus(G) : SymGen -> BoolElt
SpinorGenus(L) : Lat -> SymGen
Lat_Genus (Example H66E20)

genus

Genera and Spinor Genera (LATTICES)

genus_invariants

Invariants of genera and spinor genera (LATTICES)

genus_symbols

Genus constructions (LATTICES)

GenusContribution

GenusContribution(g) : GrphRes -> RngIntElt

GenusRepresentatives

SpinorRepresentatives(L) : Lat -> [ Lat ]
Representatives(G) : SymGen -> [ Lat ]
GenusRepresentatives(L) : Lat -> [ Lat ]

Geodesic

Geodesic(u, v) : GrphVert, GrphVert -> [GrphVert]

geodesic-intersection

GrpPSL2_geodesic-intersection (Example H33E7)

Geodesics

Points and geodesics (SUBGROUPS OF PSL_2(R))
GeodesicsIntersection(x,y) : [SpcHypElt],[SpcHypElt] -> SpcHypElt

GeodesicsIntersection

GeodesicsIntersection(x,y) : [SpcHypElt],[SpcHypElt] -> SpcHypElt

GeomEC

Combinatorial and Geometrical Structures (OVERVIEW)

Geometric

AlgebraicGeometricCode(S, D) : [PlcCrvElt], DivCrvElt -> Code
ArithmeticGeometricMean(x, y) : FldPrElt, FldPrElt -> FldPrElt
ArithmeticGeometricMean(x, y) : FldPrElt, FldPrElt -> FldPrElt
Genus(C) : Crv -> RngIntElt
GeometricSupport(C) : Code -> DivCrvElt
IsAlgebraicGeometric(C) : Code -> BoolElt

geometric

Algebraic Geometric Codes (LINEAR CODES OVER FINITE FIELDS)

geometrical

Combinatorial and Geometrical Structures (OVERVIEW)
Geometrical Restrictions (SCHEMES)

geometrical-restrictions

Geometrical Restrictions (SCHEMES)

GeometricGenus

GeometricGenus(C) : Crv -> RngIntElt
Genus(C) : Crv -> RngIntElt

GeometricSupport

GeometricSupport(C) : Code -> DivCrvElt

Geometry

CosetGeometry(G, S) : GrpPerm, Set -> CosetGeom
CosetGeometry(G, S, I) : GrpPerm, Set, Set -> CosetGeom
CosetGeometry(D) : IncGeom -> BoolElt, CosetGeom
IncidenceGeometry(C) : CosetGeom -> IncGeom
IncidenceGeometry(G) : GrphUnd -> IncGeom

geometry

Construction of a Coset Geometry (INCIDENCE GEOMETRY)
Construction of an Incidence Geometry (INCIDENCE GEOMETRY)
geometry (OVERVIEW)
INCIDENCE GEOMETRY

Get

GetAssertions

GetAssertions() : -> BoolElt
SetAssertions(b) : BoolElt ->

GetAttributes

GetAttributes(C) : Cat -> [ MonStgElt ]

GetAutoColumns

GetAutoColumns() : -> BoolElt
SetAutoColumns(b) : BoolElt ->

GetAutoCompact

GetAutoCompact() : -> BoolElt
SetAutoCompact(b) : BoolElt ->

GetBeep

GetBeep() : -> BoolElt
SetBeep(b) : BoolElt ->

Getc

Getc(F) : File -> MonStgElt

GetChild

GetChild(SQP, i) : SQProc, RngIntElt -> List

GetChildren

GetChildren(SQP) : SQProc -> List

GetColumns

GetColumns() : -> RngIntElt
SetColumns(n) : RngIntElt ->

GetCurrentDirectory

GetCurrentDirectory() : ->
GetCurrentDirectory() : ->

GetDefaultRealField

GetDefaultRealField() : Null -> FldPr

GetEchoInput

GetEchoInput() : ->
SetEchoInput(b) : BoolElt ->

GetHelpExternalBrowser

GetHelpExternalBrowser() : -> MonStgElt, MonStgElt

GetHelpExternalSystem

GetHelpExternalSystem() : -> MonStgElt

GetHelpUseExternal

GetHelpUseExternal() : -> BoolElt, BoolElt

GetHistorySize

GetHistorySize() : ->
SetHistorySize(n) : RngIntElt ->

GetIgnorePrompt

GetIgnorePrompt() : -> BoolElt
SetIgnorePrompt(b) : BoolElt ->

GetIgnoreSpaces

GetIgnoreSpaces() : -> BoolElt
SetIgnoreSpaces(b) : BoolElt ->

GetIndent

GetIndent() : -> RngIntElt
SetIndent(n) : RngIntElt ->

GetLibraries

GetLibraries() : -> MonStgElt
SetLibraries(s) : MonStgElt ->

GetLibraryRoot

GetLibraryRoot() : -> MonStgElt
SetLibraryRoot(s) : MonStgElt ->

GetLineEditor

GetLineEditor() : BoolElt ->
SetLineEditor(b) : BoolElt ->

GetMaximumMemoryUsage

GetMaximumMemoryUsage() : -> RngIntElt

GetMemoryLimit

GetMemoryLimit() : -> RngIntElt
SetMemoryLimit(n) : RngIntElt ->

GetMemoryUsage

GetMemoryUsage() : -> RngIntElt

GetModule

GetModule (SQP, p, i) : SQProc, RngIntElt, RngIntElt -> ModGrp
GetModules(SQP, p ) : SQProc, RngIntElt -> List

GetModules

GetModule (SQP, p, i) : SQProc, RngIntElt, RngIntElt -> ModGrp
GetModules(SQP, p ) : SQProc, RngIntElt -> List

GetParent

GetParent(SQP) : SQProc -> List

GetPath

GetPath() : -> MonStgElt
SetPath(s) : MonStgElt ->

Getpid

Getpid() : ->

GetPoly

RngInt_GetPoly (Example H40E13)

GetPreviousSize

GetPreviousSize() : -> RngIntElt

GetPrimes

GetPrimes(SQP) : SQProc -> SetEnum, BoolElt

GetPrintLevel

GetPrintLevel() : -> MonStgElt
SetPrintLevel(l) : MonStgElt ->

GetPrompt

GetPrompt() : -> MonStgElt
SetPrompt(s) : MonStgElt ->

GetQuotient

GetQuotient (SQP) : SQProc -> GrpPC, Map

GetRows

GetRows() : -> RngIntElt
SetRows(n) : RngIntElt ->

Gets

Gets(F) : File -> MonStgElt

GetSeed

GetSeed() : -> RngIntElt, RngIntElt
SetSeed(s, c) : RngIntElt ->

GetTime

IO_GetTime (Example H3E10)

GetTraceback

GetTraceback() : -> BoolElt
SetTraceback(n) : BoolElt ->

Getuid

Getuid() : ->

GetVerbose

GetVerbose(s) : MonStgElt -> RngIntElt

GetVersion

GetVersion() : -> RngIntElt, RngIntElt, RngIntElt

GetViMode

GetViMode() : -> BoolElt
SetViMode(b) : BoolElt ->

Gewirtz

ShrikhandeGraph() : -> GrphUnd
GewirtzGraph() : -> GrphUnd
ClebschGraph() : -> GrphUnd

GewirtzGraph

ShrikhandeGraph() : -> GrphUnd
GewirtzGraph() : -> GrphUnd
ClebschGraph() : -> GrphUnd

GF

GaloisField(q) : RngIntElt -> FldFin
GF(q) : RngIntElt -> FldFin
FiniteField(q) : RngIntElt -> FldFin
GF(q) : RngIntElt -> FldFin
FiniteField(p, n) : RngIntElt, RngIntElt -> FldFin
GF(p, n) : RngIntElt, RngIntElt -> FldFin

GHom

GHomOverCentralizingField(M, N) : ModGrp, ModGrp -> ModMatGrp

GHomOverCentralizingField

GHomOverCentralizingField(M, N) : ModGrp, ModGrp -> ModMatGrp

Gilbert

GilbertVarshamovAsymptoticBound(K, delta) : FldFin, FldPrElt -> FldPrElt
GilbertVarshamovBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt
GilbertVarshamovLinearBound(K, n, d) : FldFin,RngIntElt,RngIntElt -> RngIntElt

GilbertVarshamovAsymptoticBound

GilbertVarshamovAsymptoticBound(K, delta) : FldFin, FldPrElt -> FldPrElt

GilbertVarshamovBound

GilbertVarshamovBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt

GilbertVarshamovLinearBound

GilbertVarshamovLinearBound(K, n, d) : FldFin,RngIntElt,RngIntElt -> RngIntElt

Girth

Girth(G) : GrphUnd -> RngIntElt
GirthCycle(G) : GrphUnd -> [GrphVert]

GirthCycle

GirthCycle(G) : GrphUnd -> [GrphVert]

GL

GL(arguments)
GeneralLinearGroup(arguments)
GeneralLinearGroup(n, R) : RngIntElt, Rng -> GrpMat

GL2

IsGL2Equivalent(f, g, n) : RngUPolElt, RngUPolElt, RngIntElt -> BoolElt, SeqEnum

GLattice

IsGLattice(L) : Lat -> GrpMat

glex

Graded Lexicographical: glex (IDEAL THEORY AND GRÖBNER BASES)

Global

GlobalUnitGroup(F) : FldFun -> GrpAb, Map
GlobalUnitGroup(F) : FldFun -> GrpAb, Map
IsGlobal(F) : FldFun -> BoolElt
IsGlobalUnit(a) : FldFunElt -> BoolElt
IsGlobalUnit(a) : FldFunElt -> BoolElt
IsGlobalUnitWithPreimage(a) : FldFunElt -> BoolElt, GrpAbElt
IsGlobalUnitWithPreimage(a) : FldFunElt -> BoolElt, GrpAbElt
SetGlobalTCParameters(: parameters) : ->
UnsetGlobalTCParameters() : ->
RngMPol_Global (Example H45E2)

global

Global Function Field Places (ALGEBRAIC FUNCTION FIELDS)
Global Function Fields (ALGEBRAIC FUNCTION FIELDS)
Global Function Fields (ALGEBRAIC FUNCTION FIELDS)
Global Geometry (PLANE ALGEBRAIC CURVES)
Global Geometry of Schemes (SCHEMES)
Special forms of Curves (PLANE ALGEBRAIC CURVES)

global-curvepl

Global Geometry (PLANE ALGEBRAIC CURVES)

global-function-fields

FldFunG_global-function-fields (Example H57E15)

global-special

Special forms of Curves (PLANE ALGEBRAIC CURVES)

GlobalUnitGroup

GlobalUnitGroup(F) : FldFun -> GrpAb, Map
GlobalUnitGroup(F) : FldFun -> GrpAb, Map

GLRootDatum

RootDtm_GLRootDatum (Example H35E4)

GLSylow

GrpMat_GLSylow (Example H21E4)

GModule

gmodule

Construction of G-modules (INVARIANT RINGS OF FINITE GROUPS)

GModuleAction

GModuleAction(M) : ModGrp -> Map(Hom)

GModulePrimes

GModulePrimes(G, A) : GrpFP, GrpFP -> SetMulti
GModulePrimes(G, A) : GrpGPC, GrpGPC -> SetMulti
GModulePrimes(G, A, B) : GrpFP, GrpFP, GrpFP -> SetMulti
GModulePrimes(G, A, B) : GrpGPC, GrpGPC, GrpGPC -> SetMulti

gmoduleprimes

GrpFP_1_gmoduleprimes (Example H22E60)
GrpGPC_gmoduleprimes (Example H24E14)

GModules1

ModAlg_GModules1 (Example H76E12)

GO

GO(arguments)
GeneralOrthogonalGroup(arguments)

Golay

GolayCode(K, extend) : FldFin, BoolElt -> Code

GolayCode

GolayCode(K, extend) : FldFin, BoolElt -> Code

GOMinus

GOMinus(arguments)
GeneralOrthogonalGroupMinus(arguments)

Good

GoodBasePoints(G: parameters) : GrpMat -> []

GoodBasePoints

GoodBasePoints(G: parameters) : GrpMat -> []

GOPlus

GOPlus(arguments)
GeneralOrthogonalGroupPlus(arguments)

Goppa

GoppaCode(L, G) : [ FldFinElt ], RngUPolElt -> Code
GoppaDesignedDistance(C) : Code -> RngIntElt

GoppaCode

GoppaCode(L, G) : [ FldFinElt ], RngUPolElt -> Code
CodeFld_GoppaCode (Example H97E27)

GoppaDesignedDistance

GoppaDesignedDistance(C) : Code -> RngIntElt

goto

The break statement (OVERVIEW)
The continue statement (OVERVIEW)

GPCGroup

GPCGroup(G) : Grp -> GrpGPC, Hom(Grp)
GPCGroup(G) : GrpPC -> GrpGPC, Map
GPCGroup(G) : GrpPerm -> GrpGPC, Map

GR

grad-ex

Newton_grad-ex (Example H58E5)

Graded

GB_Graded (Example H50E20)

graded

Creation of Graded Modules (MODULES OVER AFFINE ALGEBRAS)
Graded Polynomial Rings (IDEAL THEORY AND GRÖBNER BASES)
Graded Polynomial Rings (MULTIVARIATE POLYNOMIAL RINGS)

graded-weight

Graded Polynomial Rings (IDEAL THEORY AND GRÖBNER BASES)
Graded Polynomial Rings (MULTIVARIATE POLYNOMIAL RINGS)

Gradient

GradientVector(F) : NwtnPgonFace -> Tup

GradientVector

GradientVector(F) : NwtnPgonFace -> Tup

Gradings

Gradings(X) : Sch -> SeqEnum
NumberOfGradings(X) : Sch -> RngIntElt

Gram

OrthogonalizeGram(M) : MtrxSpcElt -> MtrxSpcElt, AlgMatElt, RngIntElt
Diagonalization(M) : MtrxSpcElt -> MtrxSpcElt, AlgMatElt, RngIntElt
GramMatrix(S) : AlgQuatOrd -> AlgMat
GramMatrix(L) : Lat -> AlgMatElt
GramMatrix(M) : ModBrdt -> AlgMatElt
GramMatrix(X) : ModMatRngElt : -> AlgMatElt
GramMatrix(f) : QuadBinElt -> AlgMatElt
LatticeWithGram(F) : AlgMatElt -> Lat
LatticeWithGram(G, F) : GrpMat, AlgMatElt -> Lat
PairReduceGram(F) : ModMatRngElt -> ModMatRngElt, AlgMatElt, RngIntElt
ReducedGramMatrix(S) : AlgQuatOrd -> AlgMat
SeysenGram(F) : ModMatRngElt -> ModMatRngElt, AlgMatElt, RngIntElt

GramMatrix

GramMatrix(S) : AlgQuatOrd -> AlgMat
GramMatrix(L) : Lat -> AlgMatElt
GramMatrix(M) : ModBrdt -> AlgMatElt
GramMatrix(X) : ModMatRngElt : -> AlgMatElt
GramMatrix(f) : QuadBinElt -> AlgMatElt

Graph

graph

A General Facility (GRAPHS)
Adjacency, Degree and Distance Functions for a Graph (GRAPHS)
Automorphism Group of a Graph or Digraph (GRAPHS)
Combinatorial and Geometrical Structures (OVERVIEW)
Connectedness, Paths and Circuits in a Graph (GRAPHS)
Constructing Complements, Line Graphs; Contraction, Switching (GRAPHS)
Construction of a General Graph (GRAPHS)
Construction of a Standard Graph (GRAPHS)
Construction of Graphs and Digraphs (GRAPHS)
Converting between Graphs and Digraphs (GRAPHS)
Generating Graphs (GRAPHS)
Graph Database and Graph Generation (GRAPHS)
GRAPHS
Incidence Structures, Graphs and Codes (INCIDENCE STRUCTURES AND DESIGNS)
Planes, Graphs and Codes (FINITE PLANES)
Strongly Regular Graphs (GRAPHS)
The Graph of a Map (MAPPINGS)

graph-code

Incidence Structures, Graphs and Codes (INCIDENCE STRUCTURES AND DESIGNS)
Planes, Graphs and Codes (FINITE PLANES)

graph-databases

Graph Database and Graph Generation (GRAPHS)

graph-digraph

Construction of Graphs and Digraphs (GRAPHS)

graph-generation

Generating Graphs (GRAPHS)

graph-stream-access

A General Facility (GRAPHS)

graph-strongly-regular

Strongly Regular Graphs (GRAPHS)

GraphGeneralAccess

Graph_GraphGeneralAccess (Example H93E20)

GraphGeneration

Graph_GraphGeneration (Example H93E19)

Graphics

GrpPSL2_Graphics (Example H33E10)
GrpPSL2_Graphics (Example H33E8)

graphics

Graphical output (SUBGROUPS OF PSL_2(R))

GraphIsomorphim

Graph_GraphIsomorphim (Example H93E15)

Graphs

ChangGraphs() : -> [GrpUnd, GrpUnd, GrpUnd]
GenerateGraphs(n : parameters) : RngIntElt -> File
Graphs(D, S) : DB, SeqEnum -> SeqEnum
NumberOfGraphs(D) : DB -> RngIntElt
NumberOfGraphs(D, S) : DB, SeqEnum -> RngIntElt
StronglyRegularGraphsDatabase() : -> DB

graphs

Resolution Graphs (RESOLUTION GRAPHS AND SPLICE DIAGRAMS)
Design_graphs (Example H94E13)

Gray

GrayMap(C) : Code -> Map
GrayMapImage(C) : Code -> [ ModTupRngElt ]
HasLinearGrayMapImage(C) : Code -> BoolElt, Code

gray

The Gray Map (LINEAR CODES OVER FINITE RINGS)

gray-map

The Gray Map (LINEAR CODES OVER FINITE RINGS)

GrayMap

GrayMap(C) : Code -> Map
CodeRng_GrayMap (Example H98E9)

GrayMapImage

GrayMapImage(C) : Code -> [ ModTupRngElt ]

greater

Comparison (OVERVIEW)

Greatest

greatest

LCM(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt
LeastCommonMultiple(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt
Greatest Common Divisors (QUADRATIC FIELDS)

greatest-common-divisor

LCM(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt
LeastCommonMultiple(a, b) : RngQuadElt, RngQuadElt -> RngQuadElt
Greatest Common Divisors (QUADRATIC FIELDS)

GreatestCommonDivisor

grevlex

Graded Reverse Lexicographical: grevlex (IDEAL THEORY AND GRÖBNER BASES)

Griesmer

GriesmerBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt
GriesmerLengthBound(K, k, d) : FldFin,RngIntEt,RngIntElt -> RngIntElt
GriesmerMinimumWeightBound(K, n, k) : FldFin,RngIntElt,RngIntElt->RngIntElt

GriesmerBound

GriesmerBound(K, n, d) : FldFin, RngIntElt, RngIntElt -> RngIntElt

GriesmerLengthBound

GriesmerLengthBound(K, k, d) : FldFin,RngIntEt,RngIntElt -> RngIntElt

GriesmerMinimumWeightBound

GriesmerMinimumWeightBound(K, n, k) : FldFin,RngIntElt,RngIntElt->RngIntElt

Groebner

Groebner(M) : ModMPol ->
Groebner(I: parameters) : RngMPol ->
GroebnerBasis(I: parameters) : RngMPol -> RngMPolElt
GroebnerBasis(S, d : parameters) : [ RngMPol ], RngInt -> RngMPolElt
GroebnerBasis(S, d: parameters) : [ RngMPol ], RngInt -> RngMPolElt
GroebnerBasis(S: parameters) : [ RngMPolElt ] -> [ RngMPolElt ]
GroebnerBasis(X) : Sch -> SeqEnum
GroebnerBasisUnreduced(S: parameters) : [ RngMPolElt ] -> [ RngMPolElt ]
HasGroebnerBasis(I) : RngMPol -> BoolElt
HilbertGroebnerBasis(S, H) : [ RngMPolElt ], FldFunRatUElt -> BoolElt, [ RngMPolElt ]
IsGroebner(S) : { RngMPolElt } -> BoolElt
MarkGroebner(I) : RngMPol ->
ReduceGroebnerBasis(S) : [ RngMPolElt ] -> [ RngMPolElt ]

groebner

Gröbner Bases (IDEAL THEORY AND GRÖBNER BASES)
Hilbert-driven Gröbner Basis Construction (IDEAL THEORY AND GRÖBNER BASES)
IDEAL THEORY AND GRÖBNER BASES

GroebnerBasis

GroebnerBasis(I: parameters) : RngMPol -> RngMPolElt
GroebnerBasis(S, d : parameters) : [ RngMPol ], RngInt -> RngMPolElt
GroebnerBasis(S, d: parameters) : [ RngMPol ], RngInt -> RngMPolElt
GroebnerBasis(S: parameters) : [ RngMPolElt ] -> [ RngMPolElt ]
GroebnerBasis(X) : Sch -> SeqEnum

GroebnerBasisUnreduced

GroebnerBasisUnreduced(S: parameters) : [ RngMPolElt ] -> [ RngMPolElt ]

Grotzch

Graph_Grotzch (Example H93E11)

Ground

BaseField(F) : FldAlg -> Fld
CoefficientField(F) : FldAlg -> Fld
GroundField(F) : FldAlg -> Fld
GroundField(F) : FldFin -> FldFin

GroundField

BaseField(F) : FldAlg -> Fld
CoefficientField(F) : FldAlg -> Fld
GroundField(F) : FldAlg -> Fld
GroundField(F) : FldFin -> FldFin

Group

group

Invariants(G) : GrpMat -> [ RngIntElt ]
Abelian Group Functions (MATRIX GROUPS)
Abstract Group Predicates (GROUPS)
Abstract Group Predicates (MATRIX GROUPS)
Abstract Properties of a Group (PERMUTATION GROUPS)
Action of PSL_2(R) on the upper half plane (SUBGROUPS OF PSL_2(R))
Automatic Group Predicates (AUTOMATIC GROUPS)
Automorphism Group (FINITE SOLUBLE GROUPS)
Automorphism Group (LINEAR CODES OVER FINITE FIELDS)
Automorphism Group Algorithm (p-GROUPS)
Automorphism Group of a Graph or Digraph (GRAPHS)
Automorphism Groups (LINEAR CODES OVER FINITE FIELDS)
Basic Group Properties (FINITE SOLUBLE GROUPS)
Class Group (BINARY QUADRATIC FORMS)
Construction from a Finite Permutation or Matrix Group (FINITELY PRESENTED GROUPS)
Construction of a General Matrix Group (MATRIX GROUPS)
Construction of an FP-Group (FINITELY PRESENTED GROUPS)
Construction of Graphs from Groups, Codes and Designs (GRAPHS)
Construction of Standard Groups (POLYCYCLIC GROUPS)
Construction of the Standard Presentation for a Coxeter Group (FINITELY PRESENTED GROUPS)
Conversion from a Special Form of FP-Group (FINITELY PRESENTED GROUPS)
Counting p-groups (p-GROUPS)
Creation of a Matrix Group (MATRIX GROUPS)
Database of Galois Group Polynomials (OVERVIEW)
Databases of Structure Definitions (OVERVIEW)
Divisor Group (PLANE ALGEBRAIC CURVES)
Functions related to Divisor Class Groups of Global Function Fields (ALGEBRAIC FUNCTION FIELDS)
General Group Properties (ABELIAN GROUPS)
General Group Properties (POLYCYCLIC GROUPS)
Generating p-groups (p-GROUPS)
Generators and Relations (PERMUTATION GROUPS)
Graphs Constructed from Groups (GRAPHS)
Group Actions (LINEAR CODES OVER FINITE FIELDS)
Group Actions on Polynomials (INVARIANT RINGS OF FINITE GROUPS)
Group Order (MATRIX GROUPS)
Group Order (PERMUTATION GROUPS)
GROUPS
Groups (OVERVIEW)
Ideal Class Group (QUADRATIC FIELDS)
Ideal Class Groups (ORDERS AND ALGEBRAIC FIELDS)
Linear Equivalence and Class Group (PLANE ALGEBRAIC CURVES)
Mordell--Weil Group (ELLIPTIC CURVES)
p-group Functions (MATRIX GROUPS)
Permutation Representations of Linear Groups (PERMUTATION GROUPS)
Permutations as Words (PERMUTATION GROUPS)
Power Groups (POLYCYCLIC GROUPS)
PowerGroup (FINITE SOLUBLE GROUPS)
Ray Class Group (ORDERS AND ALGEBRAIC FIELDS)
Rewrite Group Predicates (GROUPS DEFINED BY REWRITE SYSTEMS)
Soluble Matrix Groups (MATRIX GROUPS)
Standard Groups and Extensions (GROUPS)
Structure Operations (FINITE SOLUBLE GROUPS)
The 2-Selmer Group (HYPERELLIPTIC CURVES)
The Automorphism Group of an Incidence Structure (INCIDENCE STRUCTURES AND DESIGNS)
The Collineation Group of a Plane (FINITE PLANES)
The FP-Group Constructor (FINITELY PRESENTED GROUPS)
The Quotient Group Constructor (FINITELY PRESENTED GROUPS)
Unit Groups (ORDERS AND ALGEBRAIC FIELDS)
Units and Unit Groups (QUATERNION ALGEBRAS)

group-action

Action of PSL_2(R) on the upper half plane (SUBGROUPS OF PSL_2(R))
Automorphism Groups (LINEAR CODES OVER FINITE FIELDS)
Group Actions on Polynomials (INVARIANT RINGS OF FINITE GROUPS)

group-actions

Group Actions (LINEAR CODES OVER FINITE FIELDS)

group-Boolean

General Group Properties (ABELIAN GROUPS)

group-boolean

General Group Properties (POLYCYCLIC GROUPS)

group-code-design

Construction of Graphs from Groups, Codes and Designs (GRAPHS)

group-order

Group Order (MATRIX GROUPS)
Group Order (PERMUTATION GROUPS)

group-overview

GROUPS

group-properties

Basic Group Properties (FINITE SOLUBLE GROUPS)

group-props

GrpPC_group-props (Example H25E4)

GroupActions

RngInvar_GroupActions (Example H78E1)

GroupAlgebra

GroupAlgebra(S) : AlgGrpSub -> AlgGrp
GroupAlgebra( R, G: parameters ) : Rng, Grp -> AlgGrp
GroupAlgebra(R, G) : Rng, Grp -> AlgGrp

GroupComputation

GrpAbGen_GroupComputation (Example H27E3)

GroupConstructors

Grp_GroupConstructors (Example H19E3)

GroupData

GroupData(D, i): DB, RngIntElt -> Rec

GroupOfLieType

GroupOfLieType( C, R ) : AlgMatElt, Rng -> AlgMatElt
GroupOfLieType( W, R ) : GrpCox, Rng -> AlgMatElt
GroupOfLieType( n, R ) : MonStgElt, Rng -> AlgMatElt
GroupOfLieType( RD, R ) : RootDtm, Rng -> AlgMatElt
GroupOfLieType( RD, k ) : RootDtm, Rng -> GrpLie
GroupOfLieType( W, R ) : RootDtm, Rng -> GrpLie

Groups

NumberOfGroups(D) : DB -> RngIntElt
NumberOfLattices(D) : DB -> RngIntElt
# D : DB -> RngIntElt
# D : DB -> RngIntElt
# D : DB -> RngIntElt
GeneratepGroups (p, d, c : parameters) : RngIntElt, RngIntElt,RngIntElt -> [GrpPC]
IsolGroupsOfDegreeFieldSatisfying(d,{p, f}) : RngIntElt, RngIntElt, Predicate -> SeqEnum
IsolGroupsOfDegreeSatisfying(d, f) : RngIntElt, Predicate -> SeqEnum
IsolGroupsSatisfying(f) : Predicate -> SeqEnum
NumberOfGroups(D, d) : DB, RngIntElt -> RngIntElt
NumberOfGroups(D, d) : DB, RngIntElt -> RngIntElt
NumberOfGroups(D, o) : DB, RngIntElt -> RngIntElt
NumberOfSmallGroups(o) : RngIntElt -> RngIntElt
NumberOfTransitiveGroups(d) : RngIntElt -> RngIntElt
SmallGroups(o: parameters) : RngIntElt -> [* Grp *]
SmallGroups(o, f: parameters) : RngIntElt, Program -> [* Grp *]
SmallGroups(S: parameters) : [RngIntElt] -> [* Grp *]
SmallGroups(S, f: parameters) : [RngIntElt], Program -> [* Grp *]
TransitiveGroups(d: parameters) : RngIntElt -> [GrpPerm]
TransitiveGroups(S: parameters) : [RngIntElt] -> [GrpPerm]
TransitiveGroups(d, f) : RngIntElt, Program -> [GrpPerm]
TransitiveGroups(S, f) : [RngIntElt], Program -> [GrpPerm]

groups

Building Permutation Groups (PERMUTATION GROUPS)
COXETER GROUPS
Groups (OVERVIEW)
GROUPS OF LIE TYPE
Imprimitive Unitary Reflection Groups (REFLECTION GROUPS)
Introduction (POLYCYCLIC GROUPS)
p-GROUPS
Polycyclic Groups and Polycyclic Presentations (POLYCYCLIC GROUPS)
Primitive Unitary Reflection Groups (REFLECTION GROUPS)
Structure of congruence subgroups (SUBGROUPS OF PSL_2(R))

groups-lie-type

GROUPS OF LIE TYPE

Growth

GrowthFunction(G) : GrpAtc -> FldFunRatElt

GrowthFunction

GrowthFunction(G) : GrpAtc -> FldFunRatElt
GrpAtc_GrowthFunction (Example H31E8)

grp

AUTOMORPHISM GROUPS OF GROUPS
Operations on Group Algebras (GROUP ALGEBRAS)
Operations on Group Algebras and their Subalgebras (GROUP ALGEBRAS)
Transfer from GrpPC (FINITE SOLUBLE GROUPS)
Transfer to GrpPC (FINITE SOLUBLE GROUPS)

grp-alg-ops

Operations on Group Algebras (GROUP ALGEBRAS)
Operations on Group Algebras and their Subalgebras (GROUP ALGEBRAS)

grp-auto-overview

AUTOMORPHISM GROUPS OF GROUPS

grp_alg

ALGEBRAS
ASSOCIATIVE ALGEBRAS
LIE ALGEBRAS
STRUCTURE CONSTANT ALGEBRAS

GrpAb

Groups (OVERVIEW)

GrpAbGen

Groups (OVERVIEW)

GrpFP_1

Groups (OVERVIEW)

GrpFP_2

Groups (OVERVIEW)

GrphDir

Combinatorial and Geometrical Structures (OVERVIEW)

GrphUnd

Combinatorial and Geometrical Structures (OVERVIEW)

GrpLie

Groups (OVERVIEW)

GrpLieEltArith

GrpLie_GrpLieEltArith (Example H37E5)

GrpLieEltProduct

GrpLie_GrpLieEltProduct (Example H37E4)

GrpMat

Groups (OVERVIEW)

GrpPC

Groups (OVERVIEW)

GrpPerm

Groups (OVERVIEW)

GrpPSL2

SUBGROUPS OF PSL_2(R)

GrpPsl2

Basic Attributes (SUBGROUPS OF PSL_2(R))
Creation of Subgroups of PSL_2(R) (SUBGROUPS OF PSL_2(R))
Relations (SUBGROUPS OF PSL_2(R))

GrpPSL2Elt

Basic Functions (SUBGROUPS OF PSL_2(R))
Elements of PSL_2(R) (SUBGROUPS OF PSL_2(R))
Membership and Equality testing (SUBGROUPS OF PSL_2(R))

GrpPsl2Elt

Creation (SUBGROUPS OF PSL_2(R))

GrpSLP

Groups (OVERVIEW)

GRSCode

GRSCode(A, V, k) : [ FldFinElt ], [ FldFinElt ], RngIntElt -> Code
CodeFld_GRSCode (Example H97E30)

GSet

GSet(G) : GrpPerm -> GSet
GSet(G) : GrpPerm -> GSet
GSet(G, X, Y) : GrpPerm, GSet, SetEnum -> GSet
GSet(G, Y, f) : GrpPerm, Set, Map -> GSet
GSetFromIndexed(G, Y) : GrpPerm, SetIndx -> GSet
RootGSet( W ) : GrpCox -> GSet

GSetFromIndexed

GSetFromIndexed(G, Y) : GrpPerm, SetIndx -> GSet

GSets

GrpCox_GSets (Example H36E9)
GrpPerm_GSets (Example H20E18)

gt

Comparison (OVERVIEW)
u gt v : AlgFPElt, AlgFPElt -> BoolElt
u gt v : GrpFPElt, GrpFPElt -> BoolElt
M1 gt M2 : ModBrdt, ModBrdt -> BoolElt
s gt t : MonStgElt, MonStgElt -> BoolElt
a gt b : RngElt, RngElt -> BoolElt
S gt T : SeqEnum, SeqEnum -> BoolElt
u gt v : SgpFPElt, SgpFPElt -> BoolElt

GU

GU(arguments)
GeneralUnitaryGroup(arguments)

Guardian

IsolGuardian(n, p, i) : RngIntElt, RngIntElt, RngIntElt -> GrpMat

[____] [____] [_____] [____] [__] [Index] [Root]