2019-03-14 02:11:50 +00:00
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:- ensure_loaded(library(lists)).
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:- ensure_loaded(library(rbtrees)).
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:- ensure_loaded(library(tries)).
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:- ensure_loaded(library(trie_sp)).
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:- ensure_loaded(library(bdd)).
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:- ensure_loaded(library(bhash)).
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:- ensure_loaded(library(nb)).
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%:- [inter].
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:- dynamic best/4.
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%:- ['../AlephUW/vsc_aleph_extensions'].
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%vsc_check_mem(on).
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:- ensure_loaded(library(dbusage)).
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graph2bdd(Query,1,bdd(D,T,Vs)) :-
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Query =.. [_,X,Y],
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!,
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retractall(best(_,_,_,_)),
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graph(X,Y, TrieList, Vs),
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bdd_new(TrieList, C),
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bdd_tree(C, BDD),
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2019-03-15 12:38:09 +00:00
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BDD = bdd(D,T,_Vs0).
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2019-03-14 02:11:50 +00:00
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:- set_problog_flag(init_method,(Q,N,Bdd,user:graph2bdd(Q,N,Bdd))).
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2019-04-02 15:32:50 +01:00
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2019-03-14 02:11:50 +00:00
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%:- leash(0), spy graph2bdd.
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cvt_to_id([E0,E1], VId*true, [Id-VId]) :-
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problog:problog_dir_edge(Id,E0,E1,_Pr),
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!.
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cvt_to_id([E0,E1],VId*true, [Id-VId]) :-
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problog:problog_dir_edge(Id,E1,E0,_Pr),
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!.
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cvt_to_id([E0,E1|Es], VId*Ids, [Id-VId|VIds]) :-
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problog:problog_dir_edge(Id,E0,E1,_Pr),
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!,
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2019-04-05 02:04:06 +01:00
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cvt_to_id([E1|Es],Ids, VIds).
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2019-03-14 02:11:50 +00:00
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cvt_to_id([E0,E1|Es], VId*Ids, [Id-VId|VIds]) :-
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problog:problog_dir_edge(Id,E1,E0,_Pr),
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!,
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cvt_to_id([E1|Es], Ids, VIds).
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export_answer(Final, FinalIDs, Vs) :-
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cvt_to_id(Final,FinalIDs, Vs).
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%writeln(FinalIDs),
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graph(X,Y,Trie_Completed_Proofs,Vs) :-
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best(X,Y,_Pr,Final),
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%writeln(_Pr),
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!,
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export_answer([Y|Final], Trie_Completed_Proofs,Vs).
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graph(X,Y,Trie_Completed_Proofs, Vs) :-
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2019-04-04 13:27:06 +01:00
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nb_heap(100000,Q),
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2019-03-14 02:11:50 +00:00
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path(X,Y,X,[X],Final, 0, _Pr, Q),
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!,
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export_answer(Final, Trie_Completed_Proofs, Vs).
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graph(_X,_Y,Trie_Completed_Proofs,Vs) :-
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export_answer([], Trie_Completed_Proofs,Vs).
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path(X,X,_,P,P,Pr,Pr,_Q).
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path(X,Y,X0,P,_,Pr0,_Pr,Q) :-
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X \= Y,
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edge(X,Z,PrD),
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absent(Z,P),
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Pr is Pr0+PrD,
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check_best(X0, Z, Pr, P),
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NPr is -Pr,
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nb_heap_add(Q,NPr,[Z|P]),
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% nb_heap_size(Q,S), S mod 10000 =:= 0, gc_heap(Q), writeln(S),
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fail.
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path(_,Y,X0,_,F,_,FPr,Q) :-
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nb_heap_del(Q,NPr,P),
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P=[Z|_],
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% b_getval(problog_threshold, LT),
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Prf is -NPr,
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% Prf >= LT,
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path(Z,Y,X0,P,F,Prf,FPr,Q).
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check_best(X, Z, _Pr, _P) :-
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best(X, Z, _Pr1, _P0),
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!,
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% Pr1 >= Pr, !,
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fail.
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check_best(X, Z, Pr, P) :-
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retract(best(X, Z,_, _)),
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!,
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assert(best(X, Z,Pr,P)).
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check_best(X, Z, Pr, P) :-
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assert(best(X, Z,Pr,P)).
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d([H|L],H,L).
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d([H|L], X, [H|Nl]) :-
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d(L,X,Nl).
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% using directed edges in both directions
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edge(X,Y,Pr) :- problog:problog_dir_edge(_,Y,X,Pr).
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edge(X,Y,Pr) :- problog:problog_dir_edge(_,X,Y,Pr).
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% checking whether node hasn't been visited before
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absent(_,[]).
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absent(X,[Y|Z]):- X \= Y, absent(X,Z).
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% get rid of garbage elements
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gc_heap(Q) :-
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heap_all(Q, [], L),
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sort(L, S),
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rebuild(S, Q),
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nb_heap_size(Q,Sz), writeln(done:Sz).
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heap_all(Q, L, L) :-
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nb_heap_empty(Q), !.
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heap_all(Q, Els, L) :-
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nb_heap_del(Q, Key, Val),
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Val = p(_,Z,_),
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heap_all(Q, f(Z,Key,Val).Els, L).
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rebuild([], _).
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rebuild([f(Z,Pr0,_), f(Z,NPr,V)|Zs], Q) :- Pr0 < NPr, !,
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rebuild([f(Z,NPr,V)|Zs], Q).
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rebuild([f(_,NPr,V)|Els], Q) :-
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nb_heap_add(Q, NPr, V),
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rebuild(Els, Q).
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