So I've been trying to teach myself clojure and core.logic and decided to try and implement a solution to the sum product problem (http://en.wikipedia.org/wiki/Impossible_Puzzle).
So far I've implemented the first two steps.
(ns sum-product-problem.core (:refer-clojure :exclude [==]) (:use clojure.core.logic) (:require [clojure.core.logic.fd :as fd])) (def non-unique-factors (tabled [product] (fresh [p q x y] (fd/in p q x y (fd/interval 2 99)) (fd/>= q p) (fd/* p q product) (fd/>= y x) (fd/* x y product) (fd/distinct [p x])))) (defn inscruitable-summands [sum x] (fresh [y product] (conde [(fd/> (* 2 x) sum)] [(fd/in y (fd/interval 2 99)) (fd/+ x y sum) (fd/* x y product) (non-unique-factors product) (inscruitable-summands sum (+ x 1))]))) (defn solution  (run* [q] (fd/in q (fd/interval 17 17)) (inscruitable-summands q 2)))
This seems to give the correct answer when the domain is limited to a single number in (solution) but if I extend that domain it immediately stops working.
The results when searching over a single member domain also contains the answer multiple times. It seems to be caused by each recursion of inscruitable-summands but I'm not really sure why.
Finally, I was hoping someone could take a quick look at my non-unique-factors function. It feels like a bit of a bodge and I was wondering if anyone could suggest a better alternative?
Thanks for the help, Dean