gap-libs 4r8p8-3 / usr / share / gap / lib / mgmfree.gi

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##
#W  mgmfree.gi                  GAP library                     Thomas Breuer
#W                                                             & Frank Celler
##
##
#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 methods for free magmas and free magma-with-ones.
##
##  Element objects of free magmas are nonassociative words.
##  For the external representation of elements, see the file `word.gi'.
##
##  (Note that a free semigroup is not a free magma, so we must not deal
##  with objects in `IsWord' here but with objects in `IsNonassocWord'.)
##


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##
#M  IsWholeFamily( <M> )  . . . . . . . . .  is a free magma the whole family
##
##  <M> contains the whole family of its elements if and only if all
##  magma generators of the family are among the magma generators of <M>.
##
InstallMethod( IsWholeFamily,
    "for a free magma",
    [ IsMagma and IsNonassocWordCollection ],
    M -> IsSubset( MagmaGeneratorsOfFamily( ElementsFamily( FamilyObj(M) ) ),
                   GeneratorsOfMagma( M ) ) );


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##
#T  Iterator( <M> ) . . . . . . . . . . . . . . . . iterator for a free magma
##


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##
#M  Enumerator( <M> ) . . . . . . . . . . . . . . enumerator for a free magma
##
##  Let <M> be a free magma on $N$ generators $x_1, x_2, \ldots, x_N$, say.
##  Each element in <M> is uniquely determined by an element in a free
##  semigroup $S$ over $s_1, s_2, \ldots, s_N$ (which is obtained by mapping
##  $x_i$ to $s_i$) plus the ``bracketing of the element.
##  Thus we can describe each element $x$ in <M> by a quadruple $[N,l,p,q]$
##  where $l$ is the length of the corresponding associative word $s$, say,
##  $p$ is the position of $s$ among the associative words of length $l$ in
##  $S$ (so $0 \leq p < N^l$),
##  and $q$ is the position of the bracketing of $x$
##  (so $0 \leq q < C(l-1)$),
##  where the ordering of these bracketings is defined below,
##  and $C(n) = {2n \choose n} / (n+1)$ is the $n$-th *Catalan number*.
##  See the On-Line Encyclopedia of Integer Sequences for more on Catalan
##  numbers.
##  Here we use the identity
##  $C(l-1) = \sum_{i=1}^{l-2} C(i-1) \cdot C(l-i-1)$
##  to define the ordering of bracketings recursively:
##  The product of a word of length $k$ with one of length $l-k$ comes
##  before the product of a word of length $k'$ with one of length $l-k'$
##  if $k' < k$ or if $k = k'$ and either the bracketing of the first factor
##  in the first word comes before that of the first factor in the second
##  or they are equal and the bracketing of the second factor in the first
##  word comes before that of the second factor in the second.
##
##  We set $x = w([N,l,p,q])$ and assign the position
##  $\sum_{i=1}^{l-1} N^i \cdot C(i-1) + p \cdot C(l-1) + q + 1$ to it.
##  If $x_1 = w([N, l_1, p_1, q_1])$ and $x_2 = w([N, l_2, p_2, q_2])$ then
##  $x_1 x_2 = w([N, l_1 + l_2, p_1 + N^{l_1} \cdot (p_2-1),
##               \sum_{i=1}^{l_1-1} C(i-1) \cdot C(l_1+l_2-i-1)
##               + (q_1-1) \cdot C(l_2-1) + q_2])$
##  holds.
##  Conversely, the word at position $M$ is $w([N,l,p,q])$ where $l$ is given
##  by the relation
##  $\sum_{i=1}^{l-1} N^i \cdot C(i-1) < M
##      \leq \sum_{i=1}^l N^i \cdot C(i-1)$;
##  if we set $M' = M - \sum_{i=1}^{l-1} N^i \cdot C(i-1)$ then
##  $q = (M'-1) \bmod C(l-1)$ and $p = (M'-q-1 ) / C(l-1)$.
##  
BindGlobal( "SHIFTED_CATALAN", [ 1 ] );

BindGlobal( "ShiftedCatalan", function( n )
    if not IsBound( SHIFTED_CATALAN[n] ) then
      SHIFTED_CATALAN[n]:= Binomial( 2*n-2, n-1 ) / n;
    fi;
    return SHIFTED_CATALAN[n];
end );

BindGlobal( "ElementNumber_FreeMagma", function( enum, nr )
    local WordFromInfo, n, l, summand, NB, q, p;

    # Create the external representation (recursively).
    WordFromInfo:= function( N, l, p, q )
      local k, NB, summand, Nk, p1, p2, q1, q2;;

      if l = 1 then
        return p + 1;
      fi;

      k:= 0;
      while 0 <= q do
        k:= k+1;
        NB:= ShiftedCatalan( l-k );
        summand:= ShiftedCatalan( k ) * NB;
        q:= q - summand;
      od;
      q:= q + summand;

      Nk:= N^k;
      p1:= p mod Nk;
      p2:= ( p - p1 ) / Nk;

      q2:= q mod NB;
      q1:= ( q - q2 ) / NB;

      return [ WordFromInfo( N, k,   p1, q1 ),
               WordFromInfo( N, l-k, p2, q2 ) ];
    end;

    n:= enum!.nrgenerators;
    l:= 0;
    nr:= nr - 1;
    while 0 <= nr do
      l:= l+1;
      NB:= ShiftedCatalan( l );
      summand:= n^l * NB;
      nr:= nr - summand;
    od;
    nr:= nr + summand;

    q:= nr mod NB;
    p:= ( nr - q ) / NB;

    return ObjByExtRep( enum!.family, WordFromInfo( n, l, p, q ) );
end );

BindGlobal( "NumberElement_FreeMagma", function( enum, elm )
    local WordInfo, n, info, pos, i;

    if not IsCollsElms( FamilyObj( enum ), FamilyObj( elm ) ) then
      return fail;
    fi;

    # Analyze the structure (recursively).
    WordInfo:= function( ngens, obj )
      local info1, info2, N;

      if IsInt( obj ) then
        return [ ngens, 1, obj-1, 0 ];
      else
        info1:= WordInfo( ngens, obj[1] );
        info2:= WordInfo( ngens, obj[2] );
        N:= info1[2] + info2[2];
        return [ ngens, N,
                 info1[3]+ ngens^info1[2] * info2[3],
                 Sum( List( [ 1 .. info1[2]-1 ],
                      i -> ShiftedCatalan( i ) * ShiftedCatalan( N-i ) ), 0 )
                 + info1[4] * ShiftedCatalan( info2[2] ) + info2[4] ];
      fi;
    end;

    # Calculate the length, the number of the corresponding assoc. word,
    # and the number of the bracketing.
    n:= enum!.nrgenerators;
    info:= WordInfo( n, ExtRepOfObj( elm ) );

    # Compute the position.
    pos:= 0;
    for i in [ 1 .. info[2]-1 ] do
      pos:= pos + n^i * ShiftedCatalan( i );
    od;
    return pos + info[3] * ShiftedCatalan( info[2] ) + info[4] + 1;
end );

InstallMethod( Enumerator,
    "for a free magma",
    [ IsWordCollection and IsWholeFamily and IsMagma ],
    function( M )

    # A free associative structure needs another method.
    if IsAssocWordCollection( M ) then
      TryNextMethod();
    fi;

    return EnumeratorByFunctions( M, rec(
               ElementNumber := ElementNumber_FreeMagma,
               NumberElement := NumberElement_FreeMagma,

               family       := ElementsFamily( FamilyObj( M ) ),
               nrgenerators := Length( ElementsFamily( 
                                           FamilyObj( M ) )!.names ) ) );
    end );


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##
#M  IsFinite( <M> ) . . . . . . . . . . . . .  for a magma of nonassoc. words
##
InstallMethod( IsFinite,
    "for a magma of nonassoc. words",
    [ IsMagma and IsNonassocWordCollection ],
    IsTrivial );


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##
#M  IsAssociative( <M> )  . . . . . . . . . .  for a magma of nonassoc. words
##
InstallMethod( IsAssociative,
    "for a magma of nonassoc. words",
    [ IsMagma and IsNonassocWordCollection ],
    IsTrivial );


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##
#M  Size( <M> ) . . . . . . . . . . . . . . . . . . . .  size of a free magma
##
InstallMethod( Size,
    "for a free magma",
    [ IsMagma and IsNonassocWordCollection ],
    function( M )
    if IsTrivial( M ) then
      return 1;
    else
      return infinity;
    fi;
    end );


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##
#M  Random( <S> ) . . . . . . . . . . . . . .  random element of a free magma
##
#T use better method for the whole family
##
InstallMethod( Random,
    "for a free magma",
    [ IsMagma and IsNonassocWordCollection ],
    function( M )
    local len, result, gens, i;

    # Get a random length for the word.
    len:= Random( Integers );
    if 0 <= len then
      len:= 2 * len;
    else
      len:= -2 * len - 1;
    fi;

    # Multiply $'len' + 1$ random generators.
    gens:= GeneratorsOfMagma( M );
    result:= Random( gens );
    for i in [ 1 .. len ] do
      if Random( [ 0, 1 ] ) = 0 then
        result:= result * Random( gens );
      else
        result:= Random( gens ) * result;
      fi;
    od;

    # Return the result.
    return result;
    end );


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##
#M  MagmaGeneratorsOfFamily( <F> )  . . . . for family of free magma elements
##
InstallMethod( MagmaGeneratorsOfFamily,
    "for a family of free magma elements",
    [ IsNonassocWordFamily ],
    F -> List( [ 1 .. Length( F!.names ) ], i -> ObjByExtRep( F, i ) ) );


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##
#F  FreeMagma( <rank> )
#F  FreeMagma( <rank>, <name> )
#F  FreeMagma( <name1>, <name2>, ... )
#F  FreeMagma( <names> )
#F  FreeMagma( infinity, <name>, <init> )
##
InstallGlobalFunction( FreeMagma,
    function( arg )
    local   names,      # list of generators names
            F,          # family of free magma element objects
            M;          # free magma, result

    # Get and check the argument list, and construct names if necessary.
    if   Length( arg ) = 1 and arg[1] = infinity then
      names:= InfiniteListOfNames( "x" );
    elif Length( arg ) = 2 and arg[1] = infinity then
      names:= InfiniteListOfNames( arg[2] );
    elif Length( arg ) = 3 and arg[1] = infinity then
      names:= InfiniteListOfNames( arg[2], arg[3] );
    elif Length( arg ) = 1 and IsInt( arg[1] ) and 0 < arg[1] then
      names:= List( [ 1 .. arg[1] ],
                    i -> Concatenation( "x", String(i) ) );
      MakeImmutable( names );
    elif Length( arg ) = 2 and IsInt( arg[1] ) and 0 < arg[1] then
      names:= List( [ 1 .. arg[1] ],
                    i -> Concatenation( arg[2], String(i) ) );
      MakeImmutable( names );
    elif 1 <= Length( arg ) and ForAll( arg, IsString ) then
      names:= arg;
    elif Length( arg ) = 1 and IsList( arg[1] )
                           and not IsEmpty( arg[1] )
                           and ForAll( arg[1], IsString ) then
      names:= arg[1];
    else
      Error("usage: FreeMagma(<name1>,<name2>..),FreeMagma(<rank>)");
    fi;

    # Construct the family of element objects of our magma.
    F:= NewFamily( "FreeMagmaElementsFamily", IsNonassocWord );

    # Store the names and the default type.
    F!.names:= names;
    F!.defaultType:= NewType( F, IsNonassocWord and IsBracketRep );

    # Make the magma.
    if IsFinite( names ) then
      M:= MagmaByGenerators( MagmaGeneratorsOfFamily( F ) );
    else
      M:= MagmaByGenerators( InfiniteListOfGenerators( F ) );
    fi;

    SetIsWholeFamily( M, true );
    SetIsTrivial( M, false );
    return M;
end );


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##
#F  FreeMagmaWithOne( <rank> )
#F  FreeMagmaWithOne( <rank>, <name> )
#F  FreeMagmaWithOne( <name1>, <name2>, ... )
#F  FreeMagmaWithOne( <names> )
#F  FreeMagmaWithOne( infinity, <name>, <init> )
##
InstallGlobalFunction( FreeMagmaWithOne,
    function( arg )
    local   names,      # list of generators names
            F,          # family of free magma element objects
            M;          # free magma, result

    # Get and check the argument list, and construct names if necessary.
    if   Length( arg ) = 1 and arg[1] = infinity then
      names:= InfiniteListOfNames( "x" );
    elif Length( arg ) = 2 and arg[1] = infinity then
      names:= InfiniteListOfNames( arg[2] );
    elif Length( arg ) = 3 and arg[1] = infinity then
      names:= InfiniteListOfNames( arg[2], arg[3] );
    elif Length( arg ) = 1 and IsInt( arg[1] ) and 0 < arg[1] then
      names:= List( [ 1 .. arg[1] ],
                    i -> Concatenation( "x", String(i) ) );
      MakeImmutable( names );
    elif Length( arg ) = 2 and IsInt( arg[1] ) and 0 < arg[1] then
      names:= List( [ 1 .. arg[1] ],
                    i -> Concatenation( arg[2], String(i) ) );
      MakeImmutable( names );
    elif 1 <= Length( arg ) and ForAll( arg, IsString ) then
      names:= arg;
    elif Length( arg ) = 1 and IsList( arg[1] )
                           and not IsEmpty( arg[1])
                           and ForAll( arg[1], IsString ) then
      names:= arg[1];
    else
      Error( "usage: FreeMagmaWithOne(<name1>,<name2>..),",
             "FreeMagmaWithOne(<rank>)" );
    fi;

    # Handle the trivial case.
    if IsEmpty( names ) then
      return FreeGroup( 0 );
    fi;

    # Construct the family of element objects of our magma-with-one.
    F:= NewFamily( "FreeMagmaWithOneElementsFamily", IsNonassocWordWithOne );

    # Store the names and the default type.
    F!.names:= names;
    F!.defaultType:= NewType( F, IsNonassocWordWithOne and IsBracketRep );

    # Make the magma.
    if IsFinite( names ) then
      M:= MagmaWithOneByGenerators( MagmaGeneratorsOfFamily( F ) );
    else
      M:= MagmaWithOneByGenerators( InfiniteListOfGenerators( F ) );
    fi;

    SetIsWholeFamily( M, true );
    SetIsTrivial( M, false );
    return M;
end );


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##
#M  ViewObj( <M> )  . . . . . . . . . . . . . . . . . . . .  for a free magma
##
InstallMethod( ViewObj,
    "for a free magma containing the whole family",
    [ IsMagma and IsWordCollection and IsWholeFamily ],
    function( M )
    if GAPInfo.ViewLength * 10 < Length( GeneratorsOfMagma( M ) ) then
      Print( "<free magma with ", Length( GeneratorsOfMagma( M ) ),
             " generators>" );
    else
      Print( "<free magma on the generators ", GeneratorsOfMagma( M ), ">" );
    fi;
end );


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##
#M  ViewObj( <M> )  . . . . . . . . . . . . . . . . for a free magma-with-one
##
InstallMethod( ViewObj,
    "for a free magma-with-one containing the whole family",
    [ IsMagmaWithOne and IsWordCollection and IsWholeFamily ],
    function( M )
    if GAPInfo.ViewLength * 10 < Length( GeneratorsOfMagmaWithOne( M ) ) then
      Print( "<free magma-with-one with ",
             Length( GeneratorsOfMagmaWithOne( M ) ), " generators>" );
    else
      Print( "<free magma-with-one on the generators ",
             GeneratorsOfMagmaWithOne( M ), ">" );
    fi;
end );


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##                                               
#M  \.( <F>, <n> )  . . . . . . . . . .  access to generators of a free magma
#M  \.( <F>, <n> )  . . . . . . access to generators of a free magma-with-one
##                                            
InstallAccessToGenerators( IsMagma and IsWordCollection and IsWholeFamily,
                           "free magma containing the whole family",
                           GeneratorsOfMagma );

InstallAccessToGenerators( IsMagmaWithOne and IsWordCollection
                                          and IsWholeFamily,
                           "free magma-with-one containing the whole family",
                           GeneratorsOfMagmaWithOne );


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##
#E