# Out of local stack when applying recursion

The context, first. What I am trying to modelate with prolog are two separated graphs, both represent a group of friends, so in both of them I can put the relation `friend(X,Y)`, and, because it's doesn't have sense the friendship isn't mutual in this model, I also put the relation `friend(Y, X)`.

So this means that both graphs have bidirectional relationships between their elements.

For example:

``````friend(foo1, foo2).
friend(foo2, foo1).

friend(foo3, foo4).
friend(foo4, foo3).
``````

In which `foo1` is related with `foo2`, and the same goes for `foo3` and `foo4`, but the first two are not related with the another two ones.

Because it is a group of friends, it also doesn´t have sense that in the same group of friends, two people of the same group aren't friends, so I am using recursion to determine if one person is friend of another.

``````definitivefriend(X, Z) :- friend(X, Z).
definitivefriend(X, Z) :- friend(X, Y), definitivefriend(Y, Z).
``````

The problem I have is when I try to check if one person of one group is friend of a person of the other group. In other words, check if one element of of a graph is related with another element of the other graph.

Instead of getting false, which is the expected result, the compiler (SWI-Prolog, in this case), gives me an error of out of local stack.

I want to know how to solve this.

Edit

So thanks to CapelliC I have an approach of this problem. Because the main objective is complete, but there's a secondary problem I will describe it from now on.

These are the two graphs I am working with. Remember that I said before, both graphs are biredirectional.

Here's my program in prolog:

``````writeit :- write('Frienship').
definitivefriend(X, Z) :- friend(X, Z), friend(Z, X).
definitivefriend(X, Y) :- friend(X, Z), X @< Z, definitivefriend(Z, Y), Y \= X.
friend(amanda, ryan).       % graph1 %
friend(ryan, amanda).
friend(ryan, lisa).
friend(lisa, ryan).
friend(bryan, ryan).
friend(ryan, bryan).
friend(sara, ryan).
friend(ryan, sara).
friend(sara, simone).
friend(simone, sara).       % graph2 %
friend(sandra, jeff).
friend(jeff, sandra).
friend(betty, jeff).
friend(jeff, betty).
friend(jeff, antonia).
friend(antonia, jeff).
friend(jeff, oskar).
friend(oskar, jeff).
friend(jeff, leslie).
friend(leslie, jeff).
``````

And here is some of the outputs I got

``````?- definitivefriend(amanda, ryan).
true .                         % It's correct, both nodes are neighbours %

?- definitivefriend(amanda, simone).
true .                         % It's correct, both nodes are in the same graph %

?- definitivefriend(ryan, simone).
true .                         % It's correct, same explanation as before %

?- definitivefriend(simone, amanda).
false.                         % It's wrong, expected result is true %

?- definitivefriend(ryan, jeff).
false.                         % It's correct, nodes are in different graphs %

?- definitivefriend(amanda, leslie).
false.                         % It's correct, same explanation as before %

?- definitivefriend(sandra, oskar).
false.                         % It's wrong, expected result is true %

?- definitivefriend(oskar, sandra).
false.                         % It's wrong, expected result is true %

?- definitivefriend(betty, oskar).
true .                         % It's correct, both nodes are in the same graph %

?- definitivefriend(oskar, betty).
false.                         % It's wrong, expected result is true %
``````

As I said in the comments, even with some elements of the same graph (excepting the neighbour ones), `definitivefriend` gives me false. And are some cases when I execute `definitivefriend(X, Y)` I get true, but when I execite `definitivefriend(Y, X)` I get false.

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@CapelliC, here's the data you were asking me. –  SealCuadrado Jun 14 '13 at 17:21

## 3 Answers

I feel that you are not modelling in the right way, anyway this seems working (abusing of the suggestion by Jean-Bernard, +1)

``````definitivefriend(X, Y) :-
friend(X, Y),
friend(Y, X).

definitivefriend(X, Y) :-
friend(X, Z), X @< Z,
definitivefriend(Z, Y), Y \= X.
``````

edit: this cannot work with your model. I can't see any other way than following Daniel suggestion (+1).

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I think if not all the friendships are mutual this won't work. For instance, with `friend(sally, bob). friend(ted, bob)` neither Sally nor Ted is `@<` Bob, so the recursive method won't fire even though Sally and Ted are "definitive friends" via Bob. It's unclear to me whether in the spec inverse `friend/2` facts will always exist. –  Daniel Lyons Jun 13 '13 at 14:23
@DanielLyons: the inverse spec is key for this to work. I agree it's an unclear - and rather unusual - way to express knowledge. –  CapelliC Jun 13 '13 at 14:52
@CapelliC Your code works, but there are some cases even with all the mutual relationships of elements of the graph, when I check `definitivefriend` with some elements of the same graph, the code returns me false (expected return is true). –  SealCuadrado Jun 13 '13 at 17:47
Cristian, could you post the data ? –  CapelliC Jun 13 '13 at 19:04
@CapelliC Sure, give me a moment, I will put it in the post itself, because the explanation is a little bit large and it involves to show the graph. –  SealCuadrado Jun 14 '13 at 16:17

For your second `definitivefriend` rule, add a condition that X < Y. This will avoid cycles. Then simply add a rule for:

``````definitivefriend(X,Y) :- definitivefriend(Y,X)
``````

As it is now, you could have:

``````definitivefriend(1,2) :- friend(1,3), definitivefriend(3,2)
definitivefriend(3,2) :- friend(2,1), definitivefriend(1,2)
``````

Which leads to infinite recursion

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I don't understand what you mean with "add a condition that X < Y." –  SealCuadrado Jun 12 '13 at 23:02
You're probably going to want `@</2` instead of `</2` since it will work for atoms (arbitrary terms, really) rather than just numbers. –  Daniel Lyons Jun 13 '13 at 5:03
@DanielLyons I barely remember the answer set programming class I took, and it wasn't even prolog. You can steal from this and post your own better answer if you'd like, I have no clue how to go from here. –  Jean-Bernard Pellerin Jun 13 '13 at 5:06

The problem, basically, is cycles. Your graph is acyclic, but your code is not. Here's the question. Suppose I give the query `:- definitivefriend(foo1, foo2).`. What's to stop Prolog from expanding that like this:

``````definitivefriend(foo1, foo2)
:- friend(foo1, foo2), definitivefriend(foo2, foo2).                     % by clause 2
:- friend(foo1, foo2), friend(foo2, foo1), definitivefriend(foo1, foo2). % by clause 2

:- friend(foo1, foo2), friend(foo2, foo1), friend(foo1, foo2),
definitivefriend(foo2, foo2).                                         % by clause 2
``````

etc.

@Jean-Bernard Pellerin provides one useful way to prevent cycles, by forcing a total ordering. I don't think that's the right approach here, but I can't quite put my finger on why. However, one thing you can do is provide a visited list to check against and not re-enter nodes you've already been to. That code's going to look like this:

``````definitivefriend(X, Z) :- definitivefriend(X, Z, [X]).

definitivefriend(X, Y, Visited) :-
friend(X, Y), \+ memberchk(Y, Visited).
definitivefriend(X, Z, Visited) :-
friend(X, Y), \+ memberchk(Y, Visited),
definitivefriend(Y, Z, [Y|Visited]).
``````
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