# Recursive function causing a stack overflow

I am trying to write a simple sieve function to calculate prime numbers in clojure. I've seen this question about writing an efficient sieve function, but I am not to that point yet. Right now I am just trying to write a very simple (and slow) sieve. Here is what I have come up with:

``````(defn sieve [potentials primes]
(if-let [p (first potentials)]
(recur (filter #(not= (mod % p) 0) potentials) (conj primes p))
primes))
``````

For small ranges it works fine, but causes a stack overflow for large ranges:

``````user=> (sieve (range 2 30) [])
[2 3 5 7 11 13 17 19 23 29]
user=> (sieve (range 2 15000) [])
java.lang.StackOverflowError (NO_SOURCE_FILE:0)
``````

I thought that by using `recur` this would be a non-stack-consuming looping construct? What am I missing?

• +1 for having stack overflow in the title of your question – radman Jun 1 '10 at 1:12
• Funny; works for me. What version of Clojure are you using, with what JVM, on what platform? Can you run `(range 2 15000)` without overflow? – Dominic Cooney Jun 1 '10 at 1:17
• Ubuntu 9.10, Java 1.6.0_15, latest snapshot of Clojure 1.2.0 – dbyrne Jun 1 '10 at 1:30
• Yes, I get an overflow at 15000. Can you run one million without overflowing? – dbyrne Jun 1 '10 at 1:31
• The title should be "non recursive function causing stack overflow". – Petr Gladkikh Dec 29 '14 at 16:47

You're being hit by `filter`'s laziness. Change `(filter ...)` to `(doall (filter ...))` in your `recur` form and the problem should go away.

A more in-depth explanation:

The call to `filter` returns a lazy seq, which materialises actual elements of the filtered seq as required. As written, your code stacks `filter` upon `filter` upon `filter`..., adding one more level of `filter`ing at each iteration; at some point this blows up. The solution is to force the whole result at each iteration so that the next one will do its filtering on a fully realised seq and return a fully realised seq instead of adding an extra layer of lazy seq processing; that's what `doall` does.

• Thanks! This fixed my problem. Excellent explanation. – dbyrne Jun 1 '10 at 1:44
• any thoughts how to find this out? maybe something like macroexpand? – edbond Jun 5 '10 at 20:29
• Have a look at the stack trace, I'd say. A pile of `clojure.lang.LazySeq` method calls would be a good indication that the problem is laziness-related. – Michał Marczyk Jun 5 '10 at 22:23
• Brilliant answer. – Robert Grant Feb 25 '14 at 13:42

Algorithmically the problem is that you continue filtering when there's no more purpose to it. Stopping as early as possible achieves quadratic reduction in recursion depth (`sqrt(n)` vs. `n`):

``````(defn sieve [potentials primes]
(if-let [p (first potentials)]
(if (> (* p p) (last potentials))
(concat primes potentials)
(recur (filter (fn [n] (not= (mod n p) 0)) potentials)
(conj primes p)))
primes))
``````

Runs OK for 16,000 (performing just 30 iterations instead of 1862), and for 160,000 too, on ideone. Even runs 5% faster without the `doall`.