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Let's say there is a simple database of people in Prolog


I need to match the entires exactly once:

john-mary, john-john, john-susan, mary-john, mary-susan, john-susan

I tried coming up with something like this:

match:- person(X),!,person(Y),   write(X),write(-), write(Y),nl.
run:- person(X), match(X), fail.

But it's matching many times, and matches a person to him/herself, which shouldn't be.

Basically, what I need is to iterate over all Xs and make Prolog to look strictly "below" for Ys.

share|improve this question
up vote 1 down vote accepted

match :- findall(P,person(P),People), match_all(People).

match_all([_]) :- !.
match_all([P|People]) :- match_2(P,People), match_all(People).

match_2(_,[]) :- !.
match_2(P1,[P2|People]) :- format('~a-~a~n',[P1,P2]), match_2(P1,People).

?- match.
share|improve this answer
Maybe there shouldn't be "_" in the first line? – ivt Feb 25 '13 at 21:24
And on the second line the last subgoal should be match_all(People). Then everything works!. Thank you! – ivt Feb 25 '13 at 21:32
The _ in the end of recursion clause is ok, the last goal was indeed missing. – Boris Feb 26 '13 at 6:43

A quick solution would be to number your people:

person(1, john).
person(2, mary).
person(3, john).
person(4, susan).

Then you could match people like this:

match(X-Y) :-
  person(I, X), person(J, Y), I < J.

Since you have two john entries, I'm not sure any other solution is going to work. Normally you could fake an ordering using @>/2 but that would require your atoms to be unique, and since they aren't, it would prevent the john-john solution.

Edit: Since we're willing to use findall/3 to materialize the database of people, we can treat this as a list problem and find a functional solution. Let's get all the combinations in a list:

combinations([X|Rest], X, Y) :- member(Y, Rest).
combinations([_|Rest], X, Y) :- combinations(Rest, X, Y).

With this predicate in hand, we can find the solution:

combined_folks(People) :-
  findall(P, person(P), Persons),
  findall(X-Y, combinations(Persons, X, Y), People).

?- combined_folks(X).
X = [john-mary, john-john, john-susan, mary-john, mary-susan, john-susan].

That actually turned out to be pretty clean!

share|improve this answer
That would be a way out, but I'm not allowed to make any changes to the original database. Is there a way to generate a new database with unique numbers? – ivt Feb 25 '13 at 20:35
I'm sure it's possible, but at that point it might be simpler to just write something that can give you permutations of a list and use bagof/3 to get all the people and pass them as a list. – Daniel Lyons Feb 25 '13 at 20:39
I used findall/3 for that purpose. Now, when I have a list, how can I solve this problem? – ivt Feb 25 '13 at 20:46
Go over the list; start at the beginning, matching each element only with elements coming AFTER it in the list. – Boris Feb 25 '13 at 20:48
I couldn't leave the problem alone. :) – Daniel Lyons Feb 26 '13 at 16:26

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