Subindex: <B><B>AllTangents</B> .. And</B>

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Subindex: AllTangents .. And

AllTangents

AllTangents(P, A) : Plane, { PlanePt } -> { PlaneLn }
AllTangents(P, U) : Plane, { PlanePt } -> { PlaneLn }

AllVertices

AllVertices(N) : NwtnPgon -> SeqEnum

Almost

   AlmostSimpleGroupDatabase() : -> DB
   IdentifyAlmostSimpleGroup(G) : GrpPerm -> Map, GrpPerm
   NumberOfPrimitiveGroups(d) : RngIntElt -> RngIntElt

AlmostFermat

Set_AlmostFermat (Example H7E2)

AlmostFermatIndexed

Set_AlmostFermatIndexed (Example H7E3)

AlmostSimpleGroupDatabase

AlmostSimpleGroupDatabase() : -> DB

Alpha

MurphyAlphaApproximation(F, b) : RngMPolElt, RngIntElt -> FldReElt
SimplexAlphaCodeZ4(k) : RngIntElt -> Code

Alphabet

   Alphabet(C) : Code -> Rng
   Alphabet(C) : Code -> Rng
   NumberOfTableauxOnAlphabet(P, m) : SeqEnum,RngIntElt -> RngIntElt

alphabet

Changing the Alphabet of a Code (LINEAR CODES OVER FINITE FIELDS)

Alt

   Alt(C, n) : Cat, RngIntElt -> GrpFin
   AlternatingGroup(C, n) : Cat, RngIntElt -> GrpFin
   AlternatingGroup(GrpFP, n) : Cat, RngIntElt -> GrpFP
   AlternatingGroup(GrpPerm, n) : Cat, RngIntElt -> GrpPerm

Alternant

AlternantCode(A, Y, r, S) : [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code
NonPrimitiveAlternantCode(n, m, r) : RngIntElt,RngIntElt,RngIntElt->Code

AlternantCode

AlternantCode(A, Y, r, S) : [ FldFinElt ], [ FldFinElt ], RngIntElt, FldFin -> Code
CodeFld_AlternantCode (Example H107E28)

alternate_models

Creation of Points (HYPERELLIPTIC CURVES)
Models (HYPERELLIPTIC CURVES)

Alternating

   Alt(C, n) : Cat, RngIntElt -> GrpFin
   AlternatingGroup(C, n) : Cat, RngIntElt -> GrpFin
   AlternatingGroup(GrpFP, n) : Cat, RngIntElt -> GrpFP
   AlternatingGroup(GrpPerm, n) : Cat, RngIntElt -> GrpPerm
   AlternatingSum(m, i) : Map, RngIntElt -> FldPrElt
   IsAlternating(G) : GrpPerm -> BoolElt

AlternatingGroup

   Alt(C, n) : Cat, RngIntElt -> GrpFin
   AlternatingGroup(C, n) : Cat, RngIntElt -> GrpFin
   AlternatingGroup(GrpFP, n) : Cat, RngIntElt -> GrpFP
   AlternatingGroup(GrpPerm, n) : Cat, RngIntElt -> GrpPerm

AlternatingSum

AlternatingSum(m, i) : Map, RngIntElt -> FldPrElt

Altinok

   ReidNumber(X) : VSrfK3 -> RngIntElt
   FletcherNumber(X) : VSrfK3 -> RngIntElt
   AltinokNumber(X) : VSrfK3 -> RngIntElt
   AFRNumber(X) : VSrfK3 -> RngIntElt

AltinokNumber

   ReidNumber(X) : VSrfK3 -> RngIntElt
   FletcherNumber(X) : VSrfK3 -> RngIntElt
   AltinokNumber(X) : VSrfK3 -> RngIntElt
   AFRNumber(X) : VSrfK3 -> RngIntElt

Altsym

IsAltsym(G) : GrpPerm -> BoolElt

Ambient

   AmbientSpace(L) : LinSys -> Prj
   Ambient(L) : LinSys -> Prj
   AmbientModule(M) : ModBrdt -> ModBrdt
   AmbientSpace(C) : Code -> ModTupRng
   AmbientSpace(C) : Code -> ModTupRng
   AmbientSpace(L) : Lat -> ModTupFld, Map
   AmbientSpace(C) : Sch -> Sch
   AmbientSpace(X) : Sch -> Sch
   IsAmbient(M) : ModBrdt -> BoolElt
   IsAmbientFunction(A,f) : Sch,RngElt -> BoolElt, RngElt
   IsAmbientRationalFunction(A,f) : Sch,RngElt -> BoolElt
   IsAmbientSpace(M) : ModFrm -> BoolElt
   IsAmbientSpace(M) : ModSS -> BoolElt

ambient

   Ambient Spaces (MODULAR FORMS)
   Ambient Spaces (MODULAR SYMBOLS)
   Ambient Spaces (SCHEMES)
   Ambient Spaces (SUPERSINGULAR DIVISORS ON MODULAR CURVES)
   Ambients (SCHEMES)
   Functions and Homogeneity on Ambient Spaces (SCHEMES)
   Functions of the Ambient Space (SCHEMES)
   Prelude to Points (SCHEMES)
   The Ambient Space and Alphabet (LINEAR CODES OVER FINITE FIELDS)

ambient-space

Field(C) : Code -> Rng
The Ambient Space and Alphabet (LINEAR CODES OVER FINITE FIELDS)

AmbientModule

AmbientModule(M) : ModBrdt -> ModBrdt

ambients

Ambient Spaces (PLANE ALGEBRAIC CURVES)

AmbientSpace

   AmbientSpace(L) : LinSys -> Prj
   Ambient(L) : LinSys -> Prj
   AmbientSpace(C) : Code -> ModTupRng
   AmbientSpace(C) : Code -> ModTupRng
   AmbientSpace(L) : Lat -> ModTupFld, Map
   AmbientSpace(C) : Sch -> Sch
   AmbientSpace(X) : Sch -> Sch

Ambiguous

AmbiguousForms(Q) : QuadBin -> SeqEnum

AmbiguousForms

AmbiguousForms(Q) : QuadBin -> SeqEnum

Amicable

RngInt_Amicable (Example H35E4)

AModule

AModule(B, Q) : AlgBas, SeqEnum[AlgMatElt] -> ModRng

AModules

AlgBas_AModules (Example H76E2)

Analytically

IsAnalyticallyIrreducible(p) : Crv,Pt -> BoolElt

And

   Contpp(f) : RngMPolElt -> RngIntElt, RngMPolElt
   ContentAndPrimitivePart(f) : RngMPolElt -> RngIntElt, RngMPolElt
   ContentAndPrimitivePart(p) : RngUPolElt -> RngIntElt, RngUPolElt
   FactoredMinimalAndCharacteristicPolynomials(A: parameters) : Mtrx -> [<RngUPolElt, RngIntElt>], [<RngUPolElt, RngIntElt>]
   HasSparseRep(G) : Grph -> BoolElt
   MinimalAndCharacteristicPolynomials(A: parameter) : Mtrx -> RngUPolElt, RngUPolElt
   RandomProcess(G) : GrpFin -> Process

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