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edge(a, b).
edge(b, d).
edge(d, c).
edge(d, e).
edge(d, f).
edge(e, g).
edge(f, g).
edge(g, h).

(assuming every edge is the same length).

For example, to get the length of the path between a and d: ?- length(a,d) should return 2*constant (a->b and b->d).

I know to do a recursive procedure, which I have started called isConnected to test if there is a connection between two nodes:

isConnected(X1, X2) :- edge(X1, X2).


isConnected(X1, X2) :- edge(X1, X), isConnected(X, X2).

But I'm not sure how to proceed from here. I know I should have a dist procedure that calls isConnected and and's that result with moving to the next edge, then adding the results with something like L is Length. But I'm not sure how to do this.

Any help would be appreciated!

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2 Answers 2

The answer from Daniel is ok, you just apply length/2 to returned list. Here a more direct way, adding unit steps after the path has been established:

isConnected(X1, X2, 1) :- edge(X1, X2).
isConnected(X1, X2, D) :- edge(X1, X), isConnected(X, X2, T), D is T + 1.
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Believe it or not, you're actually really close! You are even generating all the information you need, you're just not keeping it anywhere. I mean X in your second isConnected/2 rule: that's all you need to retain to get the rest of the way there.

isConnected(X1, X2, [X2])      :- edge(X1, X2).
isConnected(X1, X2, [X |Rest]) :- edge(X1, X),  isConnected(X, X2, Rest).

That's basically it:

?- isConnected(a,X,P).
X = b,
P = [b] ;
X = d,
P = [b, d] ;
X = c,
P = [b, d, c] ;
X = e,
P = [b, d, e] ;
X = f,
P = [b, d, f] ;
X = g,
P = [b, d, e, g] ;
X = h,
P = [b, d, e, g, h] ;
X = g,
P = [b, d, f, g] ;
X = h,
P = [b, d, f, g, h] ;
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