find the variables connected with a variable, and all variables that may

affect each other.
This commit is contained in:
Vitor Santos Costa 2008-10-29 20:55:32 +00:00
parent fa0d580faa
commit 20e08fb549

164
CLPBN/clpbn/connected.yap Normal file
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:- module(clpbn_connected,
[clpbn_subgraphs/2,
influences/4]).
:- use_module(library(dgraphs),
[dgraph_new/1,
dgraph_add_edges/3,
dgraph_add_vertex/3,
dgraph_neighbors/3,
dgraph_edge/3]).
:- use_module(library(rbtrees),
[rb_new/1,
rb_insert/4,
rb_lookup/3]).
:- attribute component/1.
% search for connected components, that is, where we know that A influences B or B influences A.
clpbn_subgraphs(Vs, Gs) :-
mark_components(Vs, Components),
keysort(Components, Ordered),
same_key(Ordered, Gs).
% ignore variables with evidence,
% the others mark the MB.
mark_components([], []).
mark_components([V|Vs], Components) :-
clpbn:get_atts(V, [evidence(_),dist(_,Parents)]), !,
merge_parents(Parents, _),
mark_components(Vs, Components).
mark_components([V|Vs], [Mark-V|Components]) :-
mark_var(V, Mark),
mark_components(Vs, Components).
mark_var(V, Mark) :-
get_atts(V, [component(Mark)]), !,
clpbn:get_atts(V, [dist(_,Parents)]), !,
merge_parents(Parents, Mark).
mark_var(V, Mark) :-
clpbn:get_atts(V, [dist(_,Parents)]), !,
put_atts(V,[component(Mark)]),
merge_parents(Parents, Mark).
merge_parents([], _).
merge_parents([V|Parents], Mark) :-
clpbn:get_atts(V,[evidence(_)]), !,
merge_parents(Parents, Mark).
merge_parents([V|Parents], Mark) :-
get_atts(V,[component(Mark)]), !,
merge_parents(Parents, Mark).
merge_parents([V|Parents], Mark) :-
put_atts(V,[component(Mark)]),
merge_parents(Parents, Mark).
same_key([],[]).
same_key([K-El|More],[[El|Els]|Gs]) :-
same_keys(More, K, Els, Rest),
same_key(Rest,Gs).
same_keys([], _, [], []).
same_keys([K1-El|More], K, [El|Els], Rest) :-
K == K1, !,
same_keys(More, K, Els, Rest).
same_keys(Rest, _, [], Rest).
influences_more([], _, _, Is, Is, Evs, Evs, V2, V2).
influences_more([V|LV], G, RG, Is0, Is, Evs0, Evs, V0, V2) :-
rb_lookup(V, _, V0), !,
influences_more(LV, G, RG, Is0, Is, Evs0, Evs, V0, V2).
influences_more([V|LV], G, RG, Is0, Is, Evs0, Evs, V0, V2) :-
rb_insert(V0, V, _, V1),
follow_dgraph(V, G, RG, [V|Is0], Is1, [V|Evs0], Evs1, V1, V2),
influences_more(LV, G, RG, Is1, Is, Evs1, Evs, V1, V2).
% search for the set of variables that influence V
influences(_,[],[], []).
influences(Vs,[V|LV], Is, Evs) :-
dgraph_new(G0),
dgraph_new(RG0),
to_dgraph(Vs, G0, G, RG0, RG),
rb_new(V0),
rb_insert(V0, V, _, V1),
follow_dgraph(V, G, RG, [V], Is1, [V], Evs1, V1, V2),
influences_more(LV, G, RG, Is1, Is, Evs1, Evs, V2, _).
to_dgraph([], G, G, RG, RG).
to_dgraph([V|Vs], G0, G, RG0, RG) :-
clpbn:get_atts(V, [evidence(_),dist(_,Parents)]), !,
build_edges(Parents, V, Edges, REdges),
dgraph_add_edges(G0,[V-e|Edges],G1),
dgraph_add_edges(RG0,REdges,RG1),
to_dgraph(Vs, G1, G, RG1, RG).
to_dgraph([V|Vs], G0, G, RG0, RG) :-
clpbn:get_atts(V, [dist(_,Parents)]),
build_edges(Parents, V, Edges, REdges),
dgraph_add_vertex(G0,V,G1),
dgraph_add_edges(G1, Edges, G2),
dgraph_add_vertex(RG0,V,RG1),
dgraph_add_edges(RG1, REdges, RG2),
to_dgraph(Vs, G2, G, RG2, RG).
build_edges([], _, [], []).
build_edges([P|Parents], V, [P-V|Edges], [V-P|REdges]) :-
build_edges(Parents, V, Edges, REdges).
follow_dgraph(V, G, RG, Is0, IsF, Evs0, EvsF, Visited0, Visited) :-
dgraph_neighbors(V, RG, Parents),
add_parents(Parents, G, RG, Is0, IsI, Evs0, EvsI, Visited0, Visited1),
dgraph_neighbors(V, G, Kids),
add_kids(Kids, G, RG, IsI, IsF, EvsI, EvsF, Visited1, Visited).
add_parents([], _, _, Is, Is, Evs, Evs, Visited, Visited).
% been here already, can safely ignore.
add_parents([V|Vs], G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF) :-
rb_lookup(V, _, Visited0), !,
add_parents(Vs, G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF).
% evidence node,
% just say that we visited it
add_parents([V|Vs], G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF) :-
dgraph_edge(V,e,G), !, % has evidence
rb_insert(Visited0, V, _, VisitedI),
add_parents(Vs, G, RG, Is0, IsF, [V|Evs0], EvsF, VisitedI, VisitedF).
% non-evidence node,
% we will need to find its parents.
add_parents([V|Vs], G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF) :-
rb_insert(Visited0, V, _, VisitedI),
follow_dgraph(V, G, RG, [V|Is0], IsI, [V|Evs0], EvsI, VisitedI, VisitedII),
add_parents(Vs, G, RG, IsI, IsF, EvsI, EvsF, VisitedII, VisitedF).
add_kids([], _, _, Is, Is, Evs, Evs, Visited, Visited).
add_kids([V|Vs], G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF) :-
dgraph_edge(V,e,G), % has evidence
% we will go there even if it was visited
( rb_insert(Visited0, V, _, Visited1) ->
true
;
% we've been there, but were we there as a father or as a kid?
not_in(Evs0, V),
Visited1 = Visited0
),
!,
dgraph_neighbors(V, RG, Parents),
add_parents(Parents, G, RG, Is0, Is1, [V|Evs0], EvsI, Visited1, VisitedI),
(Is1 = Is0 ->
% ignore whatever we did with this node,
% it didn't lead anywhere (all parents have evidence).
add_kids(Vs, G, RG, Is0, IsF, Evs0, EvsF, Visited1, VisitedF)
;
% insert parents
add_kids(Vs, G, RG, Is1, IsF, EvsI, EvsF, VisitedI, VisitedF)
).
add_kids([_|Vs], G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF) :-
add_kids(Vs, G, RG, Is0, IsF, Evs0, EvsF, Visited0, VisitedF).
not_in([V1|_], V) :- V1 == V, !, fail.
not_in([_|Evs0], V) :-
not_in(Evs0, V).