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## ## This file is part of GAP, a system for computational discrete algebra. ## This file's authors include Frank Celler, Alexander Hulpke. ## ## Copyright of GAP belongs to its developers, whose names are too numerous ## to list here. Please refer to the COPYRIGHT file for details. ## ## SPDX-License-Identifier: GPL-2.0-or-later ## ## This file contains the operations for the computation of complements in ## pc groups ## ############################################################################# ## #V InfoComplement ## ## <#GAPDoc Label="InfoComplement"> ## <ManSection> ## <InfoClass Name="InfoComplement"/> ## ## <Description> ## Info class for the complement routines. ## </Description> ## </ManSection> ## <#/GAPDoc> ## DeclareInfoClass("InfoComplement"); ############################################################################# ## #F COAffineBlocks( <S>,<Sgens>,<mats>,<orbs> ) ## ## <ManSection> ## <Func Name="COAffineBlocks" Arg='S,Sgens,mats,orbs'/> ## ## <Description> ## Let <A>S</A> be a group whose generators <A>Sgens</A> act via <A>mats</A> on an affine ## space. This routine calculates the orbits under this action. If <A>orbs</A> ## also orbits as sets of vectors are returned. ## </Description> ## </ManSection> ## DeclareGlobalFunction("COAffineBlocks"); ############################################################################# ## #O CONextCentralizer( <ocr>, <S>, <H> ) . . . . . . . . . . . . . . . local ## ## <ManSection> ## <Oper Name="CONextCentralizer" Arg='ocr, S, H'/> ## ## <Description> ## </Description> ## </ManSection> ## DeclareGlobalFunction("CONextCentralizer"); ############################################################################# ## #O COAffineCohomologyAction( <ocr>, <fgens>, <acts>,<B> ) ## ## <ManSection> ## <Oper Name="COAffineCohomologyAction" Arg='ocr, fgens, acts,B'/> ## ## <Description> ## calculates matrices for the affine action of a factor centralizer on the ## complements, represented by elements of the cohomology group. <A>B</A> is the ## result of <C>BaseSteinitzVectors</C> used to represent the cohomology group. ## </Description> ## </ManSection> ## DeclareGlobalFunction("COAffineCohomologyAction"); ############################################################################# ## #O CONextCocycles( <cor>, <ocr>, <S> ) . . . . . . . . . . . . . . . . local ## ## <ManSection> ## <Oper Name="CONextCocycles" Arg='cor, ocr, S'/> ## ## <Description> ## </Description> ## </ManSection> ## DeclareGlobalFunction("CONextCocycles"); ############################################################################# ## #O CONextCentral( <cor>, <ocr>, <S> ) . . . . . . . . . . . . . . . . local ## ## <ManSection> ## <Oper Name="CONextCentral" Arg='cor, ocr, S'/> ## ## <Description> ## </Description> ## </ManSection> ## DeclareGlobalFunction("CONextCentral"); ############################################################################# ## #O CONextComplements( <cor>, <S>, <K>, <M> ) . . . . . . . . . . . . . local ## ## <ManSection> ## <Oper Name="CONextComplements" Arg='cor, S, K, M'/> ## ## <Description> ## </Description> ## </ManSection> ## DeclareGlobalFunction("CONextComplements"); ############################################################################# ## #O COComplements( <cor>, <G>, <N>, <all> ) . . . . . . . . . . . . . . local ## ## <ManSection> ## <Oper Name="COComplements" Arg='cor, G, N, all'/> ## ## <Description> ## </Description> ## </ManSection> ## DeclareGlobalFunction("COComplements"); ############################################################################# ## #O COComplementsMain( <G>, <N>, <all>, <fun> ) . . . . . . . . . . . . . local ## ## <ManSection> ## <Oper Name="COComplementsMain" Arg='G, N, all, fun'/> ## ## <Description> ## </Description> ## </ManSection> ## DeclareGlobalFunction("COComplementsMain"); ############################################################################# ## #O ComplementClassesRepresentativesSolvableNC( <G>, <N> ) ## ## <ManSection> ## <Oper Name="ComplementClassesRepresentativesSolvableNC" Arg='G, N'/> ## ## <Description> ## computes a set of representatives of the complement classes of <A>N</A> in ## <A>G</A> by cohomological methods. <A>N</A> must be a solvable normal subgroup ## of <A>G</A>. ## </Description> ## </ManSection> ## DeclareOperation("ComplementClassesRepresentativesSolvableNC", [IsGroup,IsGroup]); # Basic routine for complements with solvable factor group. DeclareGlobalFunction("COSolvableFactor"); ############################################################################# ## #O ComplementClassesRepresentatives( <G>, <N> ) . . . . . . . . . . . . find all complement ## ## <#GAPDoc Label="ComplementClassesRepresentatives"> ## <ManSection> ## <Oper Name="ComplementClassesRepresentatives" Arg='G, N'/> ## ## <Description> ## Let <A>N</A> be a normal subgroup of <A>G</A>. ## This command returns a set of representatives for the conjugacy classes ## of complements of <A>N</A> in <A>G</A>. ## Complements are subgroups of <A>G</A> which intersect trivially with ## <A>N</A> and together with <A>N</A> generate <A>G</A>. ## <P/> ## At the moment methods are available only for the case that <A>N</A> or ## <A>G</A><C>/</C><A>N</A> is solvable. ## <Example><![CDATA[ ## gap> ComplementClassesRepresentatives(g,Group((1,2)(3,4),(1,3)(2,4))); ## [ Group([ (3,4), (2,4,3) ]) ] ## ]]></Example> ## </Description> ## </ManSection> ## <#/GAPDoc> ## DeclareOperation("ComplementClassesRepresentatives",[IsGroup,IsGroup]); [ Dauer der Verarbeitung: 0.6 Sekunden (vorverarbeitet) ] |
2026-03-28