381a3401ac
git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@2147 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
315 lines
7.7 KiB
Prolog
315 lines
7.7 KiB
Prolog
/* $Id: chr_compiler_utility.pl,v 1.4 2008-03-13 17:43:13 vsc Exp $
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Part of CHR (Constraint Handling Rules)
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Author: Tom Schrijvers
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E-mail: Tom.Schrijvers@cs.kuleuven.be
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WWW: http://www.swi-prolog.org
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Copyright (C): 2005-2006, K.U. Leuven
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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As a special exception, if you link this library with other files,
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compiled with a Free Software compiler, to produce an executable, this
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library does not by itself cause the resulting executable to be covered
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by the GNU General Public License. This exception does not however
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invalidate any other reasons why the executable file might be covered by
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the GNU General Public License.
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*/
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:- module(chr_compiler_utility,
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[ time/2
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, replicate/3
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, pair_all_with/3
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, conj2list/2
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, list2conj/2
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, disj2list/2
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, list2disj/2
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, variable_replacement/3
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, variable_replacement/4
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, identical_rules/2
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, identical_guarded_rules/2
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, copy_with_variable_replacement/3
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, my_term_copy/3
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, my_term_copy/4
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, atom_concat_list/2
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, atomic_concat/3
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, init/2
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, member2/3
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, select2/6
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, set_elems/2
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, instrument_goal/4
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, sort_by_key/3
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, arg1/3
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, wrap_in_functor/3
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, tree_set_empty/1
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, tree_set_memberchk/2
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, tree_set_add/3
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]).
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:- use_module(pairlist).
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:- use_module(library(lists), [permutation/2]).
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:- use_module(library(assoc)).
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%% SICStus begin
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%% use_module(library(terms),[term_variables/2]).
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%% SICStus end
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% time(Phase,Goal) :-
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% statistics(runtime,[T1|_]),
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% call(Goal),
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% statistics(runtime,[T2|_]),
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% T is T2 - T1,
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% format(' ~w ~46t ~D~80| ms\n',[Phase,T]),
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% deterministic(Det),
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% ( Det == true ->
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% true
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% ;
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% format('\t\tNOT DETERMINISTIC!\n',[])
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% ).
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time(_,Goal) :- call(Goal).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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replicate(N,E,L) :-
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( N =< 0 ->
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L = []
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;
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L = [E|T],
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M is N - 1,
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replicate(M,E,T)
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).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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pair_all_with([],_,[]).
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pair_all_with([X|Xs],Y,[X-Y|Rest]) :-
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pair_all_with(Xs,Y,Rest).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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conj2list(Conj,L) :- %% transform conjunctions to list
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conj2list(Conj,L,[]).
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conj2list(Var,L,T) :-
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var(Var), !,
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L = [Var|T].
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conj2list(true,L,L) :- !.
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conj2list(Conj,L,T) :-
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Conj = (G1,G2), !,
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conj2list(G1,L,T1),
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conj2list(G2,T1,T).
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conj2list(G,[G | T],T).
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disj2list(Conj,L) :- %% transform disjunctions to list
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disj2list(Conj,L,[]).
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disj2list(Conj,L,T) :-
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Conj = (fail;G2), !,
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disj2list(G2,L,T).
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disj2list(Conj,L,T) :-
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Conj = (G1;G2), !,
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disj2list(G1,L,T1),
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disj2list(G2,T1,T).
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disj2list(G,[G | T],T).
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list2conj([],true).
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list2conj([G],X) :- !, X = G.
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list2conj([G|Gs],C) :-
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( G == true -> %% remove some redundant trues
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list2conj(Gs,C)
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;
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C = (G,R),
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list2conj(Gs,R)
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).
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list2disj([],fail).
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list2disj([G],X) :- !, X = G.
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list2disj([G|Gs],C) :-
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( G == fail -> %% remove some redundant fails
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list2disj(Gs,C)
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;
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C = (G;R),
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list2disj(Gs,R)
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).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% check wether two rules are identical
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identical_guarded_rules(rule(H11,H21,G1,_),rule(H12,H22,G2,_)) :-
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G1 == G2,
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permutation(H11,P1),
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P1 == H12,
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permutation(H21,P2),
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P2 == H22.
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identical_rules(rule(H11,H21,G1,B1),rule(H12,H22,G2,B2)) :-
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G1 == G2,
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identical_bodies(B1,B2),
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permutation(H11,P1),
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P1 == H12,
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permutation(H21,P2),
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P2 == H22.
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identical_bodies(B1,B2) :-
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( B1 = (X1 = Y1),
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B2 = (X2 = Y2) ->
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( X1 == X2,
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Y1 == Y2
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; X1 == Y2,
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X2 == Y1
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),
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!
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; B1 == B2
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).
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% replace variables in list
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copy_with_variable_replacement(X,Y,L) :-
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( var(X) ->
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( lookup_eq(L,X,Y) ->
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true
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; X = Y
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)
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; functor(X,F,A),
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functor(Y,F,A),
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X =.. [_|XArgs],
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Y =.. [_|YArgs],
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copy_with_variable_replacement_l(XArgs,YArgs,L)
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).
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copy_with_variable_replacement_l([],[],_).
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copy_with_variable_replacement_l([X|Xs],[Y|Ys],L) :-
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copy_with_variable_replacement(X,Y,L),
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copy_with_variable_replacement_l(Xs,Ys,L).
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% build variable replacement list
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variable_replacement(X,Y,L) :-
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variable_replacement(X,Y,[],L).
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variable_replacement(X,Y,L1,L2) :-
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( var(X) ->
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var(Y),
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( lookup_eq(L1,X,Z) ->
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Z == Y,
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L2 = L1
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; ( X == Y -> L2=L1 ; L2 = [X-Y,Y-X|L1])
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)
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; X =.. [F|XArgs],
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nonvar(Y),
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Y =.. [F|YArgs],
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variable_replacement_l(XArgs,YArgs,L1,L2)
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).
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variable_replacement_l([],[],L,L).
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variable_replacement_l([X|Xs],[Y|Ys],L1,L3) :-
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variable_replacement(X,Y,L1,L2),
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variable_replacement_l(Xs,Ys,L2,L3).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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my_term_copy(X,Dict,Y) :-
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my_term_copy(X,Dict,_,Y).
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my_term_copy(X,Dict1,Dict2,Y) :-
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( var(X) ->
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( lookup_eq(Dict1,X,Y) ->
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Dict2 = Dict1
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; Dict2 = [X-Y|Dict1]
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)
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; functor(X,XF,XA),
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functor(Y,XF,XA),
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X =.. [_|XArgs],
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Y =.. [_|YArgs],
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my_term_copy_list(XArgs,Dict1,Dict2,YArgs)
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).
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my_term_copy_list([],Dict,Dict,[]).
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my_term_copy_list([X|Xs],Dict1,Dict3,[Y|Ys]) :-
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my_term_copy(X,Dict1,Dict2,Y),
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my_term_copy_list(Xs,Dict2,Dict3,Ys).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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atom_concat_list([X],X) :- ! .
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atom_concat_list([X|Xs],A) :-
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atom_concat_list(Xs,B),
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atomic_concat(X,B,A).
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atomic_concat(A,B,C) :-
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make_atom(A,AA),
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make_atom(B,BB),
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atom_concat(AA,BB,C).
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make_atom(A,AA) :-
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(
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atom(A) ->
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AA = A
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;
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number(A) ->
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number_codes(A,AL),
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atom_codes(AA,AL)
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).
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set_elems([],_).
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set_elems([X|Xs],X) :-
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set_elems(Xs,X).
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init([],[]).
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init([_],[]) :- !.
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init([X|Xs],[X|R]) :-
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init(Xs,R).
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member2([X|_],[Y|_],X-Y).
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member2([_|Xs],[_|Ys],P) :-
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member2(Xs,Ys,P).
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select2(X, Y, [X|Xs], [Y|Ys], Xs, Ys).
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select2(X, Y, [X1|Xs], [Y1|Ys], [X1|NXs], [Y1|NYs]) :-
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select2(X, Y, Xs, Ys, NXs, NYs).
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instrument_goal(Goal,Pre,Post,(Pre,Goal,Post)).
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sort_by_key(List,Keys,SortedList) :-
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pairup(Keys,List,Pairs),
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sort(Pairs,SortedPairs),
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once(pairup(_,SortedList,SortedPairs)).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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arg1(Term,Index,Arg) :- arg(Index,Term,Arg).
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wrap_in_functor(Functor,X,Term) :-
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Term =.. [Functor,X].
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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tree_set_empty(TreeSet) :- empty_assoc(TreeSet).
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tree_set_memberchk(Element,TreeSet) :- get_assoc(Element,TreeSet,_).
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tree_set_add(TreeSet,Element,NTreeSet) :- put_assoc(Element,TreeSet,x,NTreeSet).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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:- dynamic
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user:goal_expansion/2.
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:- multifile
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user:goal_expansion/2.
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user:goal_expansion(arg1(Term,Index,Arg), arg(Index,Term,Arg)).
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user:goal_expansion(wrap_in_functor(Functor,In,Out), Goal) :-
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( atom(Functor), var(Out) ->
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Out =.. [Functor,In],
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Goal = true
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;
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Goal = (Out =.. [Functor,In])
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).
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