263 lines
5.6 KiB
Plaintext
263 lines
5.6 KiB
Plaintext
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:- module(wfs,[main/0, main/1]).
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:- use_module(library(chr)).
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:- use_module(library(lists)).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%
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% Schrijf het programma waarvan je de wellfounded semantics wil bepalen
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% hieronder onder de vorm van prog/1 feiten. Let erop dat je een conjunctie
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% in de body tussen haakjes zet zodat prog/1 geparsed wordt, ipv prog/n.
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/*
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prog(p :- p).
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prog(p :- \+ p).
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prog(p :- (q, \+ r)).
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prog(q :- (r, \+ p)).
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prog(r :- (p, \+ q)).
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prog(p :- r).
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prog(r :- q).
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prog(q :- \+ q).
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prog(p :- r).
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prog(r).
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prog(p :- p).
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prog(s :- \+ p).
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prog(y :- (s, \+ x)).
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prog(x :- y).
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*/
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prog(a :- a).
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prog(b :- b).
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prog(b :- \+ a).
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prog(c :- \+ b).
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prog(c :- c).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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:- chr_constraint true/1, false/1, undefined/1, aclause/2, pos/2, neg/2, nbulit/2, nbplit/2, nbucl/2, phase2/0, true2/1, undefined2/1, aclause2/2, pos2/2, nbplit2/2, phase1/0, witness1/0, witness2/0.
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true(At), aclause(Cl,At) \ pos(_,Cl) <=> true.
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true(At), aclause(Cl,At) \ neg(_,Cl) <=> true.
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false(At), aclause(Cl,At) \ pos(_,Cl) <=> true.
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false(At), aclause(Cl,At) \ neg(_,Cl) <=> true.
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true(At) \ nbucl(At,_) <=> true.
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true(At) \ aclause(Cl,At), nbulit(Cl,_), nbplit(Cl,_) <=> true.
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false(At) \ nbucl(At,_) <=> true.
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nbucl(At,0) <=> false(At).
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aclause(Cl,At), nbulit(Cl,0), nbplit(Cl,0) <=> true(At).
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true(At) \ pos(At,Cl), nbulit(Cl,NU), nbplit(Cl,NP)
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<=>
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NU1 is NU - 1, nbulit(Cl,NU1),
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NP1 is NP - 1, nbplit(Cl,NP1).
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false(At) \ neg(At,Cl), nbulit(Cl,NU)
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<=>
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NU1 is NU - 1, nbulit(Cl,NU1).
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true(At) \ neg(At,Cl), aclause(Cl,OAt), nbulit(Cl,_), nbplit(Cl,_), nbucl(OAt,N)
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<=>
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N1 is N - 1, nbucl(OAt,N1).
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false(At) \ pos(At,Cl), aclause(Cl,OAt), nbulit(Cl,_), nbplit(Cl,_), nbucl(OAt,N)
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<=>
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N1 is N - 1, nbucl(OAt,N1).
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witness2 \ witness2 <=> true.
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phase2, nbucl(At,_) ==> witness2, undefined2(At).
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phase2, pos(At,Cl) ==> pos2(At,Cl).
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phase2, aclause(Cl,At) ==> aclause2(Cl,At).
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phase2, nbplit(Cl,N) ==> nbplit2(Cl,N).
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phase2, witness2 # ID <=> phase1 pragma passive(ID).
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phase2 \ nbplit2(_,_) # ID <=> true pragma passive(ID).
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phase2 \ aclause2(_,_) # ID <=> true pragma passive(ID).
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phase2 <=> true.
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true2(At), aclause2(Cl,At) \ pos2(_,Cl) <=> true.
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true2(At) \ undefined2(At) <=> true.
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aclause2(Cl,At), nbplit2(Cl,0) <=> true2(At).
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true2(At) \ pos2(At,Cl), nbplit2(Cl,NP)
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<=>
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NP1 is NP - 1, nbplit2(Cl,NP1).
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witness1 \ witness1 <=> true.
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phase1, undefined2(At) # ID1 , aclause(Cl,At) # ID2 \ pos(_,Cl) # ID3 <=> true pragma passive(ID1), passive(ID2), passive(ID3).
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phase1, undefined2(At) # ID1 , aclause(Cl,At) # ID2 \ neg(_,Cl) # ID3 <=> true pragma passive(ID1), passive(ID2), passive(ID3).
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phase1, undefined2(At) # ID1 \ aclause(Cl,At) # ID2 , nbulit(Cl,_) # ID3, nbplit(Cl,_) # ID4 <=> true pragma passive(ID1), passive(ID2), passive(ID3), passive(ID4).
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phase1 \ undefined2(At) # ID <=> witness1, false(At) pragma passive(ID).
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phase1 \ true2(_) # ID <=> true pragma passive(ID).
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phase1 \ aclause2(_,_) <=> true.
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phase1 \ pos2(_,_) # ID <=> true pragma passive(ID).
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phase1 \ nbplit2(_,_) # ID <=> true pragma passive(ID).
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phase1, witness1 # ID <=> phase2 pragma passive(ID).
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phase1 \ nbucl(At,_) # ID <=> undefined(At) pragma passive(ID).
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phase1 \ pos(_,_) # ID <=> true.
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phase1 \ neg(_,_) # ID <=> true pragma passive(ID).
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phase1 \ aclause(_,_) # ID <=> true pragma passive(ID).
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phase1 \ nbulit(_,_) # ID <=> true pragma passive(ID).
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phase1 \ nbplit(_,_) # ID <=> true pragma passive(ID).
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phase1 <=> true.
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/*
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p :- r.
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r.
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*/
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program1 :-
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nbucl(p,1), % aantal undefined clauses voor p
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pos(r,cl1), % positief voorkomen van r in clause cl1
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aclause(cl1,p), % clause cl1 defineert p
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nbulit(cl1,1), % aantal undefined literals in cl1
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nbplit(cl1,1), % aantal positieve undefined literals in cl1
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nbucl(r,1),
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aclause(cl2,r),
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nbulit(cl2,0),
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nbplit(cl2,0).
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/*
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p :- not r.
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r.
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*/
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program2 :-
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nbucl(p,1),
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neg(r,cl1),
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aclause(cl1,p),
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nbulit(cl1,1),
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nbplit(cl1,1),
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nbucl(r,1),
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aclause(cl2,r),
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nbulit(cl2,0),
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nbplit(cl2,0).
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/*
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p :- p.
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*/
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program3 :-
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nbucl(p,1),
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pos(p,cl1),
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aclause(cl1,p),
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nbulit(cl1,1),
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nbplit(cl1,1).
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/*
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p :- not p.
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*/
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program4 :-
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nbucl(p,1),
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neg(p,cl1),
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aclause(cl1,p),
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nbulit(cl1,1),
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nbplit(cl1,0).
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/*
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p :- q, not r.
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q :- r, not p.
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r :- p, not q.
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*/
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program5 :-
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nbucl(p,1),
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pos(p,cl3),
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neg(p,cl2),
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aclause(cl1,p),
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nbulit(cl1,2),
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nbplit(cl1,1),
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nbucl(q,1),
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pos(q,cl1),
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neg(q,cl3),
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aclause(cl2,q),
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nbulit(cl2,2),
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nbplit(cl2,1),
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nbucl(r,1),
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pos(r,cl2),
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neg(r,cl1),
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aclause(cl3,r),
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nbulit(cl3,2),
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nbplit(cl3,1).
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main :-
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main(1000).
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main(N) :-
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cputime(T1),
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loop(N),
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cputime(T2),
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T is T2 - T1,
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write(bench(wfs ,N , T,0,hprolog)),write('.'),nl.
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loop(N) :-
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( N =< 0 ->
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true
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;
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( prog, fail ; true),
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M is N - 1,
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loop(M)
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).
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prog :-
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findall(Clause,wfs:prog(Clause),Clauses),
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process(Clauses,1),
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setof(At,B^(wfs:prog(At :- B) ; wfs:prog(At), atom(At)),Ats),
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process_atoms(Ats),
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phase2.
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process([],_).
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process([C|Cs],N) :-
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( C = (HAt :- B) ->
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aclause(N,HAt),
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conj2list(B,Literals,[]),
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process_literals(Literals,N,NbULit,NbPLit),
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nbulit(N,NbULit),
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nbplit(N,NbPLit)
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;
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C = HAt,
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aclause(N,HAt),
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nbulit(N,0),
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nbplit(N,0)
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),
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N1 is N + 1,
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process(Cs,N1).
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conj2list(G,L,T) :-
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( G = (G1,G2) ->
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conj2list(G1,L,T1),
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conj2list(G2,T1,T)
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;
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L = [G|T]
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).
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process_literals([],_,0,0).
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process_literals([L|R],Cl,U,P) :-
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process_literals(R,Cl,U1,P1),
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( L = (\+ At) ->
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neg(At,Cl),
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P = P1,
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U is U1 + 1
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;
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pos(L,Cl),
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P is P1 + 1,
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U is U1 + 1
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).
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process_atoms([]).
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process_atoms([A|As]) :-
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findall(A,wfs:prog(A :- _),L),
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length(L,N),
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nbucl(A,N),
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process_atoms(As).
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