Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have two sets

Set1 = [stone(X),  active(X),  stone(Y),  in(app2,Y),  unlocked(app2)]
Set2 = [stone(s1), active(s1), stone(s2), in(app2,s2), unlocked(app2)]

I want my program to recognise that 1 can be a subset of 2 if X is bound to s1 and Y to s2.

The subset function from library(sets) is unable to do that, because it can't generate subsets.

I have started playing around with implementing my own subset function which would generate all possible bindings but I don't have much experience in Prolog and the function is becoming very long and clearly inefficient.

share|improve this question

2 Answers 2

up vote 1 down vote accepted

You should order the sets, using for example sort. When you do this the question remains, can the list in OrdSet1 be unified with a subsequence in OrdSet2. This is straight-forward:

is_subseq([], _).
is_subseq([X|Xs], [X|Ys]) :- is_subseq(Xs, Ys).
is_subseq([X|Xs], [Y|Ys]) :- X \= Y, is_subseq([X|Xs], Ys).

When you have this predicate, you can do:

?- S1 = [stone(X), active(X), stone(Y), in(app2,Y), unlocked(app2)],
|    sort(S1, OrdS1),
|    S2 = [stone(s1), active(s1), stone(s2), in(app2,s2), unlocked(app2)],
|    sort(S2, OrdS2),
|    is_subseq(OrdS1, OrdS2).
S1 = S2, S2 = [stone(s1), active(s1), stone(s2), in(app2, s2), unlocked(app2)],
X = s1,
Y = s2,
OrdS1 = OrdS2, OrdS2 = [active(s1), stone(s1), stone(s2), unlocked(app2), in(app2, s2)]

If you want to see the necessary bindings, you have to call it from the interactive interpreter as shown.

share|improve this answer
ended up using subsetA([], _). subsetA([H|T], S) :- member_set(H, S), subsetA(T, S). based on your answer and it seems to do the trick. Thank you! –  Nieszka Jun 10 '13 at 16:26
@Nieszka Glad I could help. However, depending on your Prolog implementation, sorting can be very efficient (implemented in C), while member needs to traverse the whole list you are checking against every time. –  Boris Jun 10 '13 at 16:30
Thanks @Boris! At the moment I'm on a tight schedule trying to finish it before the deadline but I plan to carry on after my deadline so this will definitely come in useful! –  Nieszka Jun 10 '13 at 17:06

As I understand your request, I would write:

elements([], _).
elements([E|Es], S2) :-
    select(E, S2, SR),
    elements(Es, SR).

bindings(X, Y) :-
    S1 = [stone(X),  active(X),  stone(Y),  in(app2,Y),  unlocked(app2)],
    S2 = [stone(s1), active(s1), stone(s2), in(app2,s2), unlocked(app2)],
    elements(S1, S2).


?- bindings(X,Y).
X = s1,
Y = s2 .

About subset, I crafted this mini definition (actually I needed it to solve some problem from project Euler)

subset(_, []).
subset(L, [F|T]) :-
    append(_, [F|R], L),
    subset(R, T).

but I can't see how could help for your task...

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.