/usr/share/gap/lib/monoid.gd is in gap-libs 4r7p5-2.
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##
#W monoid.gd GAP library Thomas Breuer
##
##
#Y Copyright (C) 1997, Lehrstuhl D für Mathematik, RWTH Aachen, Germany
#Y (C) 1998 School Math and Comp. Sci., University of St Andrews, Scotland
#Y Copyright (C) 2002 The GAP Group
##
## This file contains the declaration of operations for monoids.
##
#############################################################################
##
#P IsMonoid( <D> )
##
## <#GAPDoc Label="IsMonoid">
## <ManSection>
## <Prop Name="IsMonoid" Arg='D'/>
##
## <Description>
## A <E>monoid</E> is a magma-with-one (see <Ref Chap="Magmas"/>)
## with associative multiplication.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareSynonymAttr( "IsMonoid", IsMagmaWithOne and IsAssociative );
#############################################################################
##
#F Monoid( <gen1>, <gen2> ... )
#F Monoid( <gens> )
#F Monoid( <gens>, <id> )
##
## <#GAPDoc Label="Monoid">
## <ManSection>
## <Heading>Monoid</Heading>
## <Func Name="Monoid" Arg='gen1, gen2 ...'
## Label="for various generators"/>
## <Func Name="Monoid" Arg='gens[, id]' Label="for a list"/>
##
## <Description>
## In the first form, <Ref Func="Monoid" Label="for various generators"/>
## returns the monoid generated by the arguments <A>gen1</A>, <A>gen2</A>,
## <M>\ldots</M>,
## that is, the closure of these elements under multiplication and taking
## the 0-th power.
## In the second form, <Ref Func="Monoid" Label="for a list"/> returns
## the monoid generated by the elements in the homogeneous list <A>gens</A>;
## a square matrix as only argument is treated as one generator,
## not as a list of generators.
## In the second form, the identity element <A>id</A> may be given as the
## second argument.
## <P/>
## It is <E>not</E> checked whether the underlying multiplication is
## associative, use <Ref Func="MagmaWithOne"/> and
## <Ref Func="IsAssociative"/>
## if you want to check whether a magma-with-one is in fact a monoid.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareGlobalFunction( "Monoid" );
#############################################################################
##
#F Submonoid( <M>, <gens> ) . . . . . . submonoid of <M> generated by <gens>
#F SubmonoidNC( <M>, <gens> )
##
## <#GAPDoc Label="Submonoid">
## <ManSection>
## <Func Name="Submonoid" Arg='M, gens'/>
## <Func Name="SubmonoidNC" Arg='M, gens'/>
##
## <Description>
## are just synonyms of <Ref Func="SubmagmaWithOne"/>
## and <Ref Func="SubmagmaWithOneNC"/>, respectively.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareSynonym( "Submonoid", SubmagmaWithOne );
DeclareSynonym( "SubmonoidNC", SubmagmaWithOneNC );
#############################################################################
##
#O MonoidByGenerators( <gens>[, <one>] ) . . . . monoid generated by <gens>
##
## <#GAPDoc Label="MonoidByGenerators">
## <ManSection>
## <Oper Name="MonoidByGenerators" Arg='gens[, one]'/>
##
## <Description>
## is the underlying operation of <Ref Func="Monoid" Label="for a list"/>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareOperation( "MonoidByGenerators", [ IsCollection ] );
#############################################################################
##
#A AsMonoid( <C> ) . . . . . . . . . . . . collection <C> regarded as monoid
##
## <#GAPDoc Label="AsMonoid">
## <ManSection>
## <Attr Name="AsMonoid" Arg='C'/>
##
## <Description>
## If <A>C</A> is a collection whose elements form a monoid
## (see <Ref Func="IsMonoid"/>)
## then <Ref Func="AsMonoid"/> returns this monoid.
## Otherwise <K>fail</K> is returned.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareAttribute( "AsMonoid", IsCollection );
#############################################################################
##
#O AsSubmonoid( <D>, <C> )
##
## <#GAPDoc Label="AsSubmonoid">
## <ManSection>
## <Oper Name="AsSubmonoid" Arg='D, C'/>
##
## <Description>
## Let <A>D</A> be a domain and <A>C</A> a collection.
## If <A>C</A> is a subset of <A>D</A> that forms a monoid then
## <Ref Func="AsSubmonoid"/>
## returns this monoid, with parent <A>D</A>.
## Otherwise <K>fail</K> is returned.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareOperation( "AsSubmonoid", [ IsDomain, IsCollection ] );
#############################################################################
##
#A GeneratorsOfMonoid( <M> ) . . . . . . . monoid generators of monoid <M>
##
## <#GAPDoc Label="GeneratorsOfMonoid">
## <ManSection>
## <Attr Name="GeneratorsOfMonoid" Arg='M'/>
##
## <Description>
## Monoid generators of a monoid <A>M</A> are the same as
## magma-with-one generators
## (see <Ref Func="GeneratorsOfMagmaWithOne"/>).
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareSynonymAttr( "GeneratorsOfMonoid", GeneratorsOfMagmaWithOne );
#############################################################################
##
#A TrivialSubmonoid( <M> ) . . . . . . . . . trivial submonoid of monoid <M>
##
## <#GAPDoc Label="TrivialSubmonoid">
## <ManSection>
## <Attr Name="TrivialSubmonoid" Arg='M'/>
##
## <Description>
## is just a synonym for <Ref Func="TrivialSubmagmaWithOne"/>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareSynonymAttr( "TrivialSubmonoid", TrivialSubmagmaWithOne );
#############################################################################
##
#F FreeMonoid( [<wfilt>,]<rank> )
#F FreeMonoid( [<wfilt>,]<rank>, <name> )
#F FreeMonoid( [<wfilt>,]<name1>, <name2>, ... )
#F FreeMonoid( [<wfilt>,]<names> )
#F FreeMonoid( [<wfilt>,]infinity, <name>, <init> )
##
## <#GAPDoc Label="FreeMonoid">
## <ManSection>
## <Heading>FreeMonoid</Heading>
## <Func Name="FreeMonoid" Arg='[wfilt, ]rank[, name]'
## Label="for given rank"/>
## <Func Name="FreeMonoid" Arg='[wfilt, ]name1, name2, ...'
## Label="for various names"/>
## <Func Name="FreeMonoid" Arg='[wfilt, ]names'
## Label="for a list of names"/>
## <Func Name="FreeMonoid" Arg='[wfilt, ]infinity, name, init'
## Label="for infinitely many generators"/>
##
## <Description>
## Called with a positive integer <A>rank</A>,
## <Ref Func="FreeMonoid" Label="for given rank"/> returns
## a free monoid on <A>rank</A> generators.
## If the optional argument <A>name</A> is given then the generators are
## printed as <A>name</A><C>1</C>, <A>name</A><C>2</C> etc.,
## that is, each name is the concatenation of the string <A>name</A> and an
## integer from <C>1</C> to <A>range</A>.
## The default for <A>name</A> is the string <C>"m"</C>.
## <P/>
## Called in the second form,
## <Ref Func="FreeMonoid" Label="for various names"/> returns
## a free monoid on as many generators as arguments, printed as
## <A>name1</A>, <A>name2</A> etc.
## <P/>
## Called in the third form,
## <Ref Func="FreeMonoid" Label="for a list of names"/> returns
## a free monoid on as many generators as the length of the list
## <A>names</A>, the <M>i</M>-th generator being printed as
## <A>names</A><C>[</C><M>i</M><C>]</C>.
## <P/>
## Called in the fourth form,
## <Ref Func="FreeMonoid" Label="for infinitely many generators"/>
## returns a free monoid on infinitely many generators, where the first
## generators are printed by the names in the list <A>init</A>,
## and the other generators by <A>name</A> and an appended number.
## <P/>
## If the extra argument <A>wfilt</A> is given, it must be either
## <Ref Func="IsSyllableWordsFamily"/> or <Ref Func="IsLetterWordsFamily"/>
## or <Ref Func="IsWLetterWordsFamily"/> or
## <Ref Func="IsBLetterWordsFamily"/>.
## This filter then specifies the representation used for the elements of
## the free monoid
## (see <Ref Sect="Representations for Associative Words"/>).
## If no such filter is given, a letter representation is used.
## <P/>
## Also see Chapter <Ref Chap="Semigroups"/>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
DeclareGlobalFunction( "FreeMonoid" );
#############################################################################
##
#E
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