% A Concurrent Golog Interpreter. :- set_flag(print_depth,100). :- nodbgcomp. :- dynamic(proc/2). % Compiler directives. Be sure :- set_flag(all_dynamic, on). % that you load this file first! :- op(800, xfy, [&]). % Conjunction :- op(850, xfy, [v]). % Disjunction :- op(870, xfy, [=>]). % Implication :- op(880,xfy, [<=>]). % Equivalence :- op(950, xfy, [:]). % Action sequence. :- op(960, xfy, [#]). % Nondeterministic action choice. do(E1 : E2,S,S1) :- do(E1,S,S2), do(E2,S2,S1). do(?(P),S,S) :- holds(P,S). do(E1 # E2,S,S1) :- do(E1,S,S1) ; do(E2,S,S1). do(if(P,E1,E2),S,S1) :- do((?(P) : E1) # (?(-P) : E2),S,S1). do(star(E),S,S1) :- S1 = S ; do(E : star(E),S,S1). do(while(P,E),S,S1):- do(star(?(P) : E) : ?(-P),S,S1). do(pi(V,E),S,S1) :- sub(V,_,E,E1), do(E1,S,S1). do(E,S,S1) :- proc(E,E1), do(E1,S,S1). do(C,S,do(C,S)) :- concurrentAction(C), poss(C,S). % sub(Name,New,Term1,Term2): Term2 is Term1 with Name replaced by New. sub(X1,X2,T1,T2) :- var(T1), T2 = T1. sub(X1,X2,T1,T2) :- not var(T1), T1 = X1, T2 = X2. sub(X1,X2,T1,T2) :- not T1 = X1, T1 =..[F|L1], sub_list(X1,X2,L1,L2), T2 =..[F|L2]. sub_list(X1,X2,[],[]). sub_list(X1,X2,[T1|L1],[T2|L2]) :- sub(X1,X2,T1,T2), sub_list(X1,X2,L1,L2). /* The holds predicate implements the revised Lloyd-Topor transformations on test conditions. */ holds(P & Q,S) :- holds(P,S), holds(Q,S). holds(P v Q,S) :- holds(P,S); holds(Q,S). holds(P => Q,S) :- holds(-P v Q,S). holds(P <=> Q,S) :- holds((P => Q) & (Q => P),S). holds(-(-P),S) :- holds(P,S). holds(-(P & Q),S) :- holds(-P v -Q,S). holds(-(P v Q),S) :- holds(-P & -Q,S). holds(-(P => Q),S) :- holds(-(-P v Q),S). holds(-(P <=> Q),S) :- holds(-((P => Q) & (Q => P)),S). holds(-all(V,P),S) :- holds(some(V,-P),S). holds(-some(V,P),S) :- not holds(some(V,P),S). % Negation holds(-P,S) :- isAtom(P), not holds(P,S). % by failure. holds(all(V,P),S) :- holds(-some(V,-P),S). holds(some(V,P),S) :- sub(V,_,P,P1), holds(P1,S). /* The following clause treats the holds predicate for non fluents, including Prolog system predicates. For this to work properly, the GOLOG programmer must provide, for all atoms taking a situation argument, a clause giving the result of restoring its suppressed situation argument, for example: restoreSitArg(ontable(X),S,ontable(X,S)). */ holds(A,S) :- restoreSitArg(A,S,F), F ; not restoreSitArg(A,S,F), isAtom(A), A. isAtom(A) :- not (A = -W ; A = (W1 & W2) ; A = (W1 => W2) ; A = (W1 <=> W2) ; A = (W1 v W2) ; A = some(X,W) ; A = all(X,W)). restoreSitArg(poss(A),S,poss(A,S)). concurrentAction([A | C]).