I am interested in expressing the number of occurrences of an element in a list as a relational goal in Clojure's core.logic library.
(Note that this question is not a duplicate of clojure core.logic counting elements in a set because that question was accepting non-relational goals as an answer.)
In particular, I am adapting the following Prolog code to core.logic.
count(_, , 0). count(X, [X | T], N) :- !, count(X, T, N1), N is N1 + 1. count(X, [_ | T], N) :- count(X, T, N).
Here is my attempt
(defn counto [item coll n] (l/conde ;; If the coll is empty, the count must be 0. [(l/emptyo coll) (l/== n 0)] ;; If the coll head matches the item, increment count and recur. [(l/fresh [tail n*] (l/conso item tail coll) (counto item tail n*) (fd/+ n* 1 n))] ;; If the coll head does not match the item, retain count and recur. [(l/fresh [head tail] (l/conso head tail coll) (l/!= head item) (counto item tail n))]))
This seems to work well for generating a tiny amount of inputs. e.g.
(l/run 3 [q] (l/fresh [x y z] (l/== q [x y z]) (fd/in x y z (fd/interval 0 1)) (counto 0 q 2))) ;; => ((1 0 0) (0 1 0) (0 0 1))
However, this code runs into an infinite loop when requesting for additional solutions. e.g. replacing
4 above, or even replacing
l/run*, results in an infinite loop.
Is there a mistake in my implementation? Or am I hitting a limitation of core.logic?