:- module(clpbn_display, [clpbn_bind_vals/3]). :- use_module(library(lists), [member/2]). :- use_module(library(clpbn/dists), [get_dist_domain/2]). :- use_module(library(clpbn), [use_parfactors/1]). :- use_module(library(maplist)). :- use_module(library(atts)). :- attribute posterior/4. % % what is actually output % attribute_goal(V, G) :- clpbn:suppress_attribute_display(false), get_atts(V, [posterior(Vs,Vals,Ps,AllDiffs)]), massage_out(Vs, Vals, Ps, G, AllDiffs, V). massage_out([], _Ev, _, Out, _, _V) :- !, out_query_evidence(Out). massage_out(Vs, [D], [P], O, AllDiffs, _) :- !, gen_eqs(Vs,D,Eqs), add_alldiffs(AllDiffs,Eqs,CEqs), out_query_evidence(Out), ( Out = true -> O = (p(CEqs)=P) ; O = (p(CEqs)=P, Out) ). massage_out(Vs, [D|Ds], [P|Ps], (p(CEqs)=P,G) , AllDiffs, V) :- gen_eqs(Vs,D,Eqs), add_alldiffs(AllDiffs,Eqs,CEqs), massage_out(Vs, Ds, Ps, G, AllDiffs, V). out_query_evidence(Out) :- catch(b_getval(clpbn_query_variables, f(QVs,Evidence)), _, fail), !, foldl( process_qv(Evidence), QVs, [], OL), list_to_conj(OL, Out). out_query_evidence(true). process_qv(Evidence, V, L0, LF) :- clpbn:get_atts(V,[key(K)]), member(K=Ev, Evidence), !, pfl:skolem(K,Dom), foldl2( add_goal(V,Ev), Dom, 0, _, L0, LF ). process_qv(_Ev, _V, L, L). list_to_conj([], true). list_to_conj([O], O) :- !. list_to_conj([O|OL], (O,Out)) :- list_to_conj(OL, Out). add_goal(V, Ev, DVal, Ev, I, L, [(p(V=DVal) = 1.0)|L]) :- !, I is Ev+1. add_goal(V, _Ev, DVal, I0, I, L, [(p(V=DVal) = 0.0)|L]) :- !, I is I0+1. gen_eqs([V], [D], (V=D)) :- !. gen_eqs([V], D, (V=D)) :- !. gen_eqs([V|Vs], [D|Ds], ((V=D),Eqs)) :- gen_eqs(Vs,Ds,Eqs). add_alldiffs([],Eqs,Eqs) :- !. add_alldiffs(AllDiffs,Eqs,(Eqs/alldiff(AllDiffs))). clpbn_bind_vals([],[],_). clpbn_bind_vals([Vs|MoreVs],[Ps|MorePs],AllDiffs) :- clpbn_bind_vals2(Vs, Ps, AllDiffs), clpbn_bind_vals(MoreVs,MorePs,AllDiffs). clpbn_bind_vals2([],_,_) :- !. % simple case, we want a distribution on a single variable. clpbn_bind_vals2([V],Ps,AllDiffs) :- use_parfactors(on), !, clpbn:get_atts(V, [key(K)]), pfl:skolem(K,Vals), put_atts(V, posterior([V], Vals, Ps, AllDiffs)). % complex case, we want a joint distribution, do it on a leader. % should split on cliques ? clpbn_bind_vals2(Vs,Ps,AllDiffs) :- get_all_combs(Vs, Vals), Vs = [V|_], put_atts(V, posterior(Vs, Vals, Ps, AllDiffs)). get_all_combs(Vs, Vals) :- get_all_doms(Vs,Ds), findall(L,ms(Ds,L),Vals). get_all_doms([], []). get_all_doms([V|Vs], [D|Ds]) :- clpbn:get_atts(V, [dist(Id,_)]), !, get_dist_domain(Id,D), get_all_doms(Vs, Ds). get_all_doms([V|Vs], [D|Ds]) :- clpbn:get_atts(V, [key(K)]), pfl:skolem(K,D), get_all_doms(Vs, Ds). ms([], []). ms([H|L], [El|Els]) :- member(El,H), ms(L, Els).