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#############################################################################
##
#W set.gi GAP library Martin Schoenert
##
#H @(#)$Id: set.gi,v 4.4 2002/04/15 10:05:22 sal Exp $
##
#Y Copyright (C) 1997, Lehrstuhl D fuer Mathematik, RWTH Aachen, Germany
#Y (C) 1998 School Math and Comp. Sci., University of St. Andrews, Scotland
#Y Copyright (C) 2002 The GAP Group
##
Revision.set_gi :=
"@(#)$Id: set.gi,v 4.4 2002/04/15 10:05:22 sal Exp $";
#############################################################################
##
#M IsEqualSet( <list1>, <list2> ) . . . . . . . . . . . . . . for two lists
##
InstallMethod( IsEqualSet,
"for two lists",
true,
[ IsList, IsList ], 0,
function( list1, list2 )
return Set( list1 ) = Set( list2 );
end );
#############################################################################
##
#M IsEqualSet( <list1>, <list2> ) . . for two internally represented lists
##
InstallMethod( IsEqualSet,
"for two internally represented lists",
true,
[ IsList and IsInternalRep, IsList and IsInternalRep ], 0,
IS_EQUAL_SET );
#############################################################################
##
#M IsSubsetSet( <list1>, <list2> ) . . . . . . . . . . . . . . for two lists
##
InstallMethod( IsSubsetSet,
"for two lists",
true,
[ IsList, IsList ], 0,
function( list1, list2 )
list1:= Set( list1 );
return ForAll( Set( list2 ), x -> x in list1 );
end );
#############################################################################
##
#M IsSubsetSet( <list1>, <list2> ) . . for two internally represented lists
##
InstallMethod( IsSubsetSet,
"for two internally represented lists",
true,
[ IsList and IsInternalRep, IsList and IsInternalRep ], 0,
IS_SUBSET_SET );
#############################################################################
##
#M AddSet( <set>, <obj> ) . . . . . . . . . . for mutable list, and object
##
InstallMethod( AddSet,
"for mutable list, and object",
true,
[ IsList and IsMutable, IsObject ], 0,
function( set, obj )
local pos, len;
if not IsSSortedList( set ) then
Error( "<set> must be a mutable proper set" );
fi;
pos:= PositionSorted( set, obj );
if set[ pos ] <> obj then
len:= Length( set );
set{ [ pos+1 .. len+1 ] }:= set{ [ pos .. len ] };
set[ pos ]:= obj;
fi;
end );
#############################################################################
##
#M AddSet( <set>, <obj> ) . . . . . for mutable int. repr. list, and object
##
InstallMethod( AddSet,
"for mutable internally represented list, and object",
true,
[ IsList and IsInternalRep and IsMutable, IsObject ], 0,
ADD_SET );
#############################################################################
##
#M RemoveSet( <set>, <obj> ) . . . . for mutable int. repr. list, and object
##
InstallMethod( RemoveSet,
"for mutable internally represented list, and object",
true,
[ IsList and IsInternalRep and IsMutable, IsObject ], 0,
REM_SET );
#############################################################################
##
#M RemoveSet( <set>, <obj> ) . . . . . . . . . for mutable list, and object
##
InstallMethod( RemoveSet,
"for mutable list, and object",
true,
[ IsList and IsMutable, IsObject ], 0,
function( set, obj )
local pos, len;
if not IsSSortedList( set ) then
Error( "<set> must be a mutable proper set" );
fi;
pos:= PositionSorted( set, obj );
len:= Length( set );
if pos <= len and set[ pos ] = obj then
set{ [ pos .. len-1 ] }:= set{ [ pos+1 .. len ] };
Unbind( set[ len ] );
fi;
end );
#############################################################################
##
#M UniteSet( <set>, <list> ) . . . . . for two internally represented lists
##
InstallMethod( UniteSet,
"for two internally represented lists, the first being mutable",
true,
[ IsList and IsInternalRep and IsMutable, IsList and IsInternalRep ], 0,
UNITE_SET );
#############################################################################
##
#M UniteSet( <set>, <list> ) . . . . . . . for two lists, the first mutable
##
InstallMethod( UniteSet,
"for two lists, the first being mutable",
true,
[ IsList and IsMutable, IsList ], 0,
function( set, list )
local obj;
if not IsSSortedList( set ) then
Error( "<set> must be a mutable proper set" );
fi;
for obj in list do
AddSet( set, obj );
od;
end );
#############################################################################
##
#M IntersectSet( <set>, <list> ) . . . for two internally represented lists
##
InstallMethod( IntersectSet,
"for two internally represented lists, the first being mutable",
true,
[ IsList and IsInternalRep and IsMutable, IsList and IsInternalRep ], 0,
INTER_SET );
#############################################################################
##
#M IntersectSet( <set>, <list> ) . . . . . for two lists, the first mutable
##
InstallMethod( IntersectSet,
"for two lists, the first being mutable",
true,
[ IsList and IsMutable, IsList ], 0,
function( set, list )
local obj,i;
if not IsSSortedList( set ) then
Error( "<set> must be a mutable proper set" );
fi;
i:= 1;
while i <= Length( set ) do
obj:= set[i];
if not obj in list then
RemoveSet( set, obj );
else
i:= i+1;
fi;
od;
end );
#############################################################################
##
#M SubtractSet( <set>, <list> ) . . . for two internally represented lists
##
InstallMethod( SubtractSet,
"for two internally represented lists, the first being mutable",
true,
[ IsList and IsInternalRep and IsMutable, IsList and IsInternalRep ], 0,
SUBTR_SET );
#############################################################################
##
#M SubtractSet( <set>, <list> ) . . . . . for two lists, the first mutable
##
InstallMethod( SubtractSet,
"for two lists, the first being mutable",
true,
[ IsList and IsMutable, IsList ], 0,
function( set, list )
local obj;
if not IsSSortedList( set ) then
Error( "<set> must be a mutable proper set" );
fi;
for obj in list do
RemoveSet( set, obj );
od;
end );
#############################################################################
##
#E
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