441 lines
12 KiB
Prolog
441 lines
12 KiB
Prolog
/*
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Author: Bart Demoen, Phuong-Lan Nguyen
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E-mail: Bart.Demoen@cs.kuleuven.be, nguyen@uco.fr
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WWW: http://www.swi-prolog.org
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Copyright (C): 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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/* What is this module for ... see bottom of the file */
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:- module(actionrules,[op(1200,xfx,=>),
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op(1200,xfx,?=>),
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op(1000,xfy,:::),
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post/1,
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post_event/2,
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post_event_df/2,
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post_event_df/3,
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register_event/2
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]).
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:- use_module(library(lists)).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% the built-ins and the preds needed in the transformation %
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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register_event(event(X,_),G) :- add_attr(X,'$$event',G).
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register_event(ins(X),G) :- add_attr(X,'$$ins',G).
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register_event(generated,_). % ignore
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add_attr(X,Mod,A) :-
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(get_attr(X,Mod,Old) ->
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New = [A|Old]
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;
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New = [A]
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),
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put_attr(X,Mod,New).
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post(event(X,Mes)) :- !,
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(get_attr(X,'$$event',Gs) ->
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activate_agents_rev(Gs,Mes)
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;
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(var(X) ->
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true
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;
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throw(actionrule(event/2,illegalfirstargument))
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)
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).
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post(ins(X)) :- !,
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(get_attr(X,'$$ins',Gs) ->
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call_list_rev(Gs)
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;
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(var(X) ->
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true
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;
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throw(actionrule(ins/1,illegalfirstargument))
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)
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).
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post(Event) :-
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throw(actionrule(Event,illegalpost)).
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post_event(X,Mes) :-
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get_attr(X,'$$event',Gs), !, activate_agents_rev(Gs,Mes).
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post_event(X,_) :-
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(var(X) ->
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true
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;
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throw(actionrule(post_event/2,illegalfirstargument))
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).
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post_event_df(X,Mes) :-
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get_attr(X,'$$event',Gs), !, activate_agents1(Gs,Mes).
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post_event_df(_,_).
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post_event_df(X,Alive,Mes) :-
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get_attr(X,'$$event',Gs), !, activate_agents(Gs,Alive,Mes).
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post_event_df(_,_,_).
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'$$ins':attr_unify_hook(AttrX,Y) :-
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(var(Y) ->
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(get_attr(Y,'$$ins',AttrY) ->
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append(AttrX,AttrY,NewAttr)
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;
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NewAttr = AttrX
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),
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put_attr(Y,ins,NewAttr)
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;
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true
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),
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call_list_rev(AttrX).
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'$$event':attr_unify_hook(_,_).
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call_list_rev(Goals) :-
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reverse(Goals,Gs),
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call_list(Gs).
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call_list([]).
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call_list([G|Gs]) :-
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call(G),
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call_list(Gs).
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activate_agents_rev(Goals,M) :-
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reverse(Goals,Gs),
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activate_agents(Gs,M).
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activate_agents([],_).
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activate_agents([G|Gs],Mes) :-
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G =.. [N,_|R],
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NewG =.. [N,Mes|R],
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call(NewG),
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activate_agents(Gs,Mes).
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activate_agents([],_,_).
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activate_agents([G|Gs],Alive,Mes) :-
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(var(Alive) ->
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G =.. [N,_|R],
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NewG =.. [N,Mes|R],
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call(NewG),
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activate_agents(Gs,Alive,Mes)
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;
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true
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).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% ar_translate and helper predicates %
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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ars2p(ARs,Det,Head,Program,Errors,TailProgram,TailErrors) :-
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copyskel(Head,Skel),
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cleanheads(ARs,NewARs,Skel),
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Skel =.. [N|Args],
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makeagentname(N,AgentName),
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NewSkel =.. [AgentName,Mes,Alive|Args],
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findmess(NewARs,Mes),
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genfirstclause(NewARs,Det,NewSkel,Skel,Program,Errors,TailProgram1,TailErrors1),
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gensecondclause(NewARs,Det,NewSkel,Alive,TailProgram1,TailErrors1,TailProgram,TailErrors).
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genfirstclause(NewARs,Det,NewSkel,Skel,Program,Errors,TailProgram,TailErrors) :-
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Clause = (Skel :- (Closure = NewSkel), Body),
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makefirstbody(NewARs,Det,Closure,Body,Errors,TailErrors),
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Program = [Clause | TailProgram].
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build_conditional(det, Guard, B, (Guard -> B)).
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build_conditional(nondet, Guard, B, (Guard, B)).
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makefirstbody([ar(Head,Guard,Events,B)|R],Det,Closure,Bodys,Errors,TailErrors) :-
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(Events == [] ->
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build_conditional(Det, Guard, B, Body),
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Errors = Errors1
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;
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check_events(Events,Head,Errors,Errors1),
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mkregistergoals(Events,Register,Closure),
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(member(generated,Events) ->
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build_conditional(Det, Guard, (Register,B), Body)
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;
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build_conditional(Det, Guard, Register, Body)
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)
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),
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(R == [] ->
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Bodys = Body,
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Errors1 = TailErrors
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;
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Bodys = (Body ; MoreBody),
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makefirstbody(R,Det,Closure,MoreBody,Errors1,TailErrors)
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).
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gensecondclause(NewARs,Det,NewSkel,Alive,Program,Errors,TailProgram,Errors) :-
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Clause = (NewSkel :- (var(Alive) -> Body ; true)),
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makesecondbody(NewARs,Det,NewSkel,Body,Alive),
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Program = [Clause | TailProgram].
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makesecondbody([ar(_,Guard,Events,B)|R],Det,NewSkel,Bodys,Alive) :-
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(Events == [] ->
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build_conditional(Det, Guard, (Alive = no, B), Body)
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;
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build_conditional(Det, Guard, B, Body)
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),
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(R == [] ->
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Bodys = Body
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;
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Bodys = (Body ; MoreBody),
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makesecondbody(R,Det,NewSkel,MoreBody,Alive)
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).
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check_events([],_,E,E).
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check_events([Event|R],S,E,TailE) :-
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(nonvar(Event), okevent(Event) ->
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E = E1
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;
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E = [illegalevent(Event,S)|E1]
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),
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check_events(R,S,E1,TailE).
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okevent(ins(X)) :- !, var(X).
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okevent(event(X,M)) :- !, var(X), var(M).
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okevent(generated).
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findmess([],_).
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findmess([ar(_,_,Events,_)|R],Mes) :-
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findmess2(Events,Mes),
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findmess(R,Mes).
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findmess2([],_).
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findmess2([A|R],Mes) :-
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(A = event(_,Mes) ->
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true
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;
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true
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),
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findmess2(R,Mes).
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copyskel(T1,T2) :-
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functor(T1,N,A),
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functor(T2,N,A).
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cleanheads([],[],_).
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cleanheads([ar(Head,Conds,Events,Body)|R],[ar(NewHead,NewConds,Events,Body)|S],Skel) :-
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makenewhead(Head,NewHead,Unies),
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Skel = NewHead,
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append(Unies,Conds,LNewConds),
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conds_to_goals(LNewConds, NewConds0),
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removetrue(NewConds0, NewConds),
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cleanheads(R,S,Skel).
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conds_to_goals([], true) :- !.
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conds_to_goals(C.LNewConds, (C,NewConds0)) :- !,
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conds_to_goals(LNewConds, NewConds0).
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conds_to_goals(C,C).
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makenewhead(Head,NewHead,Unies) :-
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Head =.. [_|Args],
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functor(Head,N,A),
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functor(NewHead,N,A),
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NewHead =.. [_|NewArgs],
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makeunies(Args,NewArgs,Unies).
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makeunies([],_,[]).
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makeunies([X|R],[Y|S],Us) :-
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(var(X) ->
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X = Y,
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Us = Us2
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;
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Us = [X=Y|Us2] % this should be matching instead of unification
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),
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makeunies(R,S,Us2).
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get_arinfo(AR,ARInfo,Head) :-
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AR = (Something => Body),
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(Something = (Head,Rest) ->
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findcondevents(Rest,Conds,Events)
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;
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Something = Head, Conds = true, Events = []
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),
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ARInfo = ar(Head,Conds,Events,Body).
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get_arinfo(AR,ARInfo,Head) :-
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AR = (Something ?=> Body),
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(Something = (Head,Rest) ->
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findcondevents(Rest,Conds,Events)
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;
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Something = Head, Conds = true, Events = []
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),
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ARInfo = ar(Head,Conds,Events,Body).
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get_arinfo(AR,ARInfo,Head) :-
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AR = (Head :- Rest ::: Body),
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Conds = Rest, Events = [],
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ARInfo = ar(Head,Conds,Events,Body).
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findcondevents((A,B),(A,As),Ts) :- !,
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findcondevents(B,As,Ts).
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findcondevents({Trs},true,Ts) :- !,
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makeevents(Trs,Ts).
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findcondevents(A,A,[]).
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makeevents((A,B),[A|R]) :- !, makeevents(B,R).
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makeevents(A,[A]).
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samehead(A,B) :-
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functor(A,X,Y),
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functor(B,X,Y).
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makeagentname(N,Out) :-
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name(N,NL),
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name('$$suspended_',A),
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append(A,NL,ANL),
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name(Out,ANL).
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mkregistergoals([],true,_).
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mkregistergoals([X|R],Register,Skel) :-
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(X == generated ->
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mkregistergoals(R,Register,Skel)
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;
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Register = (register_event(X,Skel),S),
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mkregistergoals(R,S,Skel)
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).
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removetrue(true,true) :- !.
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removetrue((true,A),AA) :- !, removetrue(A,AA).
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removetrue((A,true),AA) :- !, removetrue(A,AA).
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removetrue((A,B),(AA,BB)) :- !, removetrue(A,AA), removetrue(B,BB).
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removetrue((A->B),(AA->BB)) :- !, removetrue(A,AA), removetrue(B,BB).
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removetrue((A;B),(AA;BB)) :- !, removetrue(A,AA), removetrue(B,BB).
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removetrue(X,X).
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ar_translate([],_,[],[]).
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ar_translate([AR|ARs],Module,Program,Errors) :-
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get_head(AR,ARHead),
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collect_ars_same_head(ARs,ARHead,ActionPredRest,RestARs),
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ars2p([AR|ActionPredRest],det,ARHead,Program,Errors,TailProgram,TailErrors),
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ar_translate(RestARs,Module,TailProgram,TailErrors).
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nondet_ar_translate([],_,Program,Program,[]).
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nondet_ar_translate([AR|ARs],Module,Program,EndProgram,Errors) :-
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get_head(AR,ARHead),
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collect_ars_same_head(ARs,ARHead,ActionPredRest,RestARs),
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ars2p([AR|ActionPredRest],nondet,ARHead,Program,Errors,TailProgram,TailErrors),
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nondet_ar_translate(RestARs,Module,TailProgram, EndProgram,TailErrors).
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collect_ars_same_head([],_,[],[]).
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collect_ars_same_head([AR1|ARs],Head,SameHeadARs,RestARs) :-
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get_head(AR1,Head1),
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(same_head(Head1,Head) ->
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SameHeadARs = [AR1|SameHeadARsRest],
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collect_ars_same_head(ARs,Head,SameHeadARsRest,RestARs)
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;
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RestARs = [AR1|RestARsRest],
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collect_ars_same_head(ARs,Head,SameHeadARs,RestARsRest)
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).
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get_head(ar(Head,_Conds,_Events,_Body),Head).
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same_head(T1,T2) :-
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functor(T1,N,A),
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functor(T2,N,A).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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ar_expand(Term, []) :-
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Term = (_ => _), !,
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prolog_load_context(file,File),
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get_arinfo(Term,ARInfo,_),
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assert(ar_term(File,ARInfo)).
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ar_expand(Term, []) :-
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Term = (_ :- _ ::: _), !,
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prolog_load_context(file,File),
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get_arinfo(Term,ARInfo,_),
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assert(ar_term(File,ARInfo)).
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ar_expand(Term, []) :-
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Term = (_ ?=> _ ), !,
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prolog_load_context(file,File),
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get_arinfo(Term,ARInfo,_),
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assert(nondet_ar_term(File,ARInfo)).
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ar_expand(end_of_file, FinalProgram) :-
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prolog_load_context(file,File),
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compile_ar(File, DetProgram),
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compile_nondet_ar(File, FinalProgram, DetProgram).
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compile_ar(File, FinalProgram) :-
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findall(T, retract(ar_term(File,T)), ARs),
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ARs \== [],
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prolog_load_context(module, Module),
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ar_translate(ARs, Module, FinalProgram, Errors),
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!, % just to make sure there are no choice points left
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(Errors == [] ->
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true
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;
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report_errors(Errors)
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).
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compile_nondet_ar(File, FinalProgram, StartProgram) :-
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findall(T, retract(nondet_ar_term(File,T)), ARs),
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ARs \== [],
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prolog_load_context(module, Module),
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nondet_ar_translate(ARs, Module, FinalProgram, StartProgram, Errors),
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!, % just to make sure there are no choice points left
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(Errors == [] ->
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true
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;
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report_errors(Errors)
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).
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report_errors(Errors) :- throw(action_rule_error(Errors)). % for now
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/*******************************
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* MUST BE LAST! *
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*******************************/
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:- multifile user:term_expansion/2.
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:- dynamic user:term_expansion/2.
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user:term_expansion(In, Out) :-
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ar_expand(In, Out).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% What this file is for .... %
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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/*
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Action Rules were defined and implemented first in the context of
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B-Prolog and the TOAM by Neng-Fa Zhou - see http://www.probp.com/
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See http://www.cs.kuleuven.be/publicaties/rapporten/cw/CW456.abs.html
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for an explanation what this file is based on.
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Use_module-ing this file will give you an implementation of Action Rules
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functionality related to the event patterns ins/1, generated/0 and
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event/2.
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It is not a fast implementation in SWI-Prolog, because there isn't any
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low-level support.
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If you need more functionality, please contact the authors.
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*/
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