# Clojure - tail recursive sieve of Eratosthenes

I have this implementation of the sieve of Eratosthenes in Clojure:

``````(defn sieve [n]
(loop [last-tried 2 sift (range 2 (inc n))]
(if
(or (nil? last-tried) (> last-tried n))
sift
(let [filtered (filter #(or (= % last-tried) (< 0 (rem % last-tried))) sift)]
(let [next-to-try (first (filter #(> % last-tried) filtered))]
(recur next-to-try filtered))))))
``````

For larger `n` (like 20000) it ends with stack overflow. Why doesn't tail call elimination work here? How to fix it?

-
As a side note, but this is not the sieve of Eratosthenes. SoE performs no remainder operations, just addition and "crossing out". See cs.hmc.edu/~oneill/papers/Sieve-JFP.pdf for an extended discussion (it's a great read!); for a beautiful "incremental" SoE implementation in Clojure by Christophe Grand, see clj-me.cgrand.net/2009/07/30/… (it's also the fastest version I've seen so far). –  Michał Marczyk Jun 5 '10 at 14:18
@Michał Marczyk thanks. I would say that "crossing out" is equivalent of "filtering", and "addition" in this algorithm is equivalent of "multiplication" and consequently "remainder". –  Konrad Garus Jun 5 '10 at 14:32
Not really. The result is, of course, the same, but the algorithmic complexity is wildly different. –  Michał Marczyk Jun 5 '10 at 14:33

Problem: `filter` does lazy evaluation, so each new level of filtering hangs around on the call stack.

Fix: Change `(filter ...)` to `(doall (filter ...))`.

See the explanation here.

-

If you look at the backtrace

``````(try
(sieve 200000)
(catch java.lang.StackOverflowError e
(.printStackTrace e)))
``````

it looks like this:

``````...
at clojure.lang.LazySeq.sval(LazySeq.java:42)
at clojure.lang.LazySeq.seq(LazySeq.java:56)
at clojure.lang.RT.seq(RT.java:440)
at clojure.core\$seq__4176.invoke(core.clj:103)
at clojure.core\$filter__5033\$fn__5035.invoke(core.clj:1751)
at clojure.lang.LazySeq.sval(LazySeq.java:42)
at clojure.lang.LazySeq.seq(LazySeq.java:56)
...
``````

It's too many filters that's causing the overflow, not the loop.

Unfortunately, I don't see an obvious solution for this.

-
The clue was in the LazySeq. Clojures implementation of Laziness has a few gotchas this being one of them. –  Jeremy Wall Jun 6 '10 at 4:40

I second Michal Marczyk's comment about checking out cgrande's beautiful incremental SoE. I did some really primitive benchmarks and put them up at http://clojure.roboloco.net/?p=100, for those curious about lazy prime generator performance.

-