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Spoiler alert, this is problem 5 of Project Euler.

I am attempting to learn Clojure and solved problem 5, but it is a couple orders of magnitude slower (1515 ms in Java versus 169932 ms in Clojure). I even tried using type hinting, unchecked math operations, and inlining functions all for naught.

Why is my Clojure code so much slower?

Clojure code:

(set! *unchecked-math* true)
(defn divides? [^long number ^long divisor] (zero? (mod number divisor)))

(defn has-all-divisors [divisors ^long num]
  (if (every? (fn [i] (divides? num i)) divisors) num false))

(time (prn (some (fn [^long i] (has-all-divisors (range 2 20) i)) (iterate inc 1))))

Java code:

public class Problem5 {
  public static void main(String[] args) {
    long start = System.currentTimeMillis();
    int i = 1;
    while(!hasAllDivisors(i, 2, 20)) {
    long end = System.currentTimeMillis();
    System.out.println("Elapsed time " + (end - start));

  public static boolean hasAllDivisors(int num, int startDivisor, int stopDivisor) {
    for(int divisor=startDivisor; divisor<=stopDivisor; divisor++) {
      if(!divides(num, divisor)) return false;
    return true;

  public static boolean divides(int num, int divisor) {
    return num % divisor == 0;
share|improve this question
Your java code goes to 2-18 whereas the Clojure code goes to 2-20. – Ankur Jan 2 '13 at 11:43
Sorry, I've fixed it. I had mistakenly pasted the wrong version of the code but the timings were accurate for both going up to 20. – gleenn Jan 4 '13 at 5:08
System.currentTimeMillis() as benchmark? this is not serious. look at shipilev.net/talks/devoxx-Nov2013-benchmarking.pdf – Puh Jan 13 at 17:46
I appreciate your sentiment @Puh. But I think its perfectly reasonable to find writing the naively equivalent code in Java and then in Clojure and finding Clojure to be 10x slower. My test harness sucks, it's a really small micro-benchmark, the JIT probably hasn't even fired up, but who cares. 10X is crazy. If I'm trying to learn the language and a perf issue this obvious pops up, I want to know why, even if my methods aren't scientific and are motivated by unnecessary or eager optimization. – gleenn Jan 13 at 22:28
up vote 50 down vote accepted

Some performance problems:

  • The (range 2 20) call is creating a new lazy list of numbers for every increment of i. This is expensive, and is causing lots of unnecessary GC.
  • You are doing a lot of boxing by passing through function calls. Even the (iterate inc 1) is doing boxing / unboxing at every increment.
  • You are traversing a sequence of divisors. This is slower than a straight iterative loop
  • mod is actually not a very well optimised function in Clojure at present. You are much better off using rem

You can solve the first problem by using a let statement to define the range just once:

(time (let [rng (range 2 20)]
  (prn (some (fn [^long i] (has-all-divisors rng i)) (iterate inc 1)))))
=> "Elapsed time: 48863.801522 msecs"

You can solve the second problem with loop/recur:

(time (let [rng (range 2 20)
           f (fn [^long i] (has-all-divisors rng i))]
       (prn (loop [i 1] 
              (if (f i)
                (recur (inc i)))))))
=> "Elapsed time: 32757.594957 msecs"

You can solve the third problem by using an iterative loop over the possible divisors:

(defn has-all-divisors [^long num]
  (loop [d (long 2)]
    (if (zero? (mod num d))
      (if (>= d 20) true (recur (inc d)))

 (time (prn (loop [i (long 1)] (if (has-all-divisors i) i (recur (inc i))))))
 => "Elapsed time: 13369.525651 msecs"

You can solve the final problem using rem

(defn has-all-divisors [^long num]
  (loop [d (long 2)]
    (if (== 0 (rem num d))
      (if (>= d 20) true (recur (inc d)))

 (time (prn (loop [i (long 1)] (if (has-all-divisors i) i (recur (inc i))))))
=> "Elapsed time: 2423.195407 msecs"

As you can see, it is now competitive with the Java version.

In general, you can usually make Clojure almost as fast as Java with a bit of effort. The main tricks are usually:

  • Avoid lazy functional features. They are nice, but add some overhead which can be problematic in low-level computation-intensive code.
  • Use primitive / unchecked maths
  • Use loop/recur rather than sequences
  • Ensure you are not doing any reflection on Java objects (i.e. (set! *warn-on-reflection* true) and eliminate all warnings you find)
share|improve this answer
I need to say I find this a bit sad. It seems to suggest that one must sacrifice functional features for performance. If one has to write C-style code to get performance, then the compiler needs work doesn't it ? – Hendekagon Jan 3 '13 at 0:45
Maybe it is a bit sad, but it is also a fact of life: higher level languages features often come with cost/overhead that you must pay for. I'm sure more clever work could be done on the compiler but you can't change the fact that a lazy data structure will always have more overhead than an equivalent non-lazy one, for example. – mikera Jan 3 '13 at 1:47
Another thing to point out is the fact that with Clojure you have a choice: if the performance is not a problem, then you can write your code using lazy sequences and all the high-level features you like, making your code more readable and possibly much more compact. If, however, you need the performance, then you can always go the other way and still get good results... – Daniel Gruszczyk Mar 20 '13 at 11:37
Noob question: Aren't lazy functions supposed to reduce time by only evaluating when needed? – Akash Kothawale Sep 17 '14 at 17:13
This might reduce some computation, but it also creates extra function calls and creates objects, and if you end up executing all the results anyways, it doesn't help at all. – gleenn Jan 25 at 21:34

I have not been able to reproduce the 1500 ms performance. The Clojure code seems actually twice as fast as the Java version after compilation to uberjar.

Now timing Java version
"Elapsed time: 4385.205 msecs"

Now timing Clojure version
"Elapsed time: 2511.916 msecs"

I put the java class in resources/HasAllDivisors.java

public class HasAllDivisors {

    public static long findMinimumWithAllDivisors() {
        long i = 1;
        while(!hasAllDivisors(i,2,20)) i++;
        return i;

    public static boolean hasAllDivisors(long num, int startDivisor, int stopDivisor) {
        for(int divisor = startDivisor; divisor <= stopDivisor; divisor++) {
            if(num % divisor > 0) return false;
        return true;

    public static void main(String[] args){
        long start = System.currentTimeMillis();
        long i = findMinimumWithAllDivisors();
        long end = System.currentTimeMillis();
        System.out.println("Elapsed time " + (end - start));


And in Clojure

(time (prn (HasAllDivisors/findMinimumWithAllDivisors)))

(println "Now timing Clojure version")
        (loop [i (long 1)]
            (if (has-all-divisors i)
                (recur (inc i))))))

Even on the command line the java class is not reproducing the fast speed.

$ time java HasAllDivisors
Elapsed time 4398

real   0m4.563s
user   0m4.597s
sys    0m0.029s
share|improve this answer
I wasn't using jarred code at all. Perhaps also you are using a newer version of clojure where perf has gotten better? Always good to hear things are heading in a better direction. – gleenn Apr 14 '13 at 2:32

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