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I am trying to prove Clojure performance can be on equal footing with Java. An important use case I've found is the Quicksort. I have written an implementation as follows:

(set! *unchecked-math* true)

(defn qsort [^longs a]
  (let [qs (fn qs [^long low, ^long high]
             (when (< low high)
               (let [pivot (aget a low)
                     [i j]
                     (loop [i low, j high]
                       (let [i (loop [i i] (if (< (aget a i) pivot)
                                             (recur (inc i)) i))
                             j (loop [j j] (if (> (aget a j) pivot)
                                             (recur (dec j)) j))
                             [i j] (if (<= i j)
                                     (let [tmp (aget a i)]
                                       (aset a i (aget a j)) (aset a j tmp)
                                       [(inc i) (dec j)])
                                     [i j])]
                         (if (< i j) (recur i j) [i j])))]
                 (when (< low j) (qs low j))
                 (when (< i high) (qs i high)))))]
    (qs 0 (dec (alength a))))

Also, this helps call the Java quicksort:

(defn jqsort [^longs a] (java.util.Arrays/sort a) a))

Now, for the benchmark.

user> (def xs (let [rnd (java.util.Random.)] 
        (long-array (repeatedly 100000 #(.nextLong rnd)))))
user> (def ys (long-array xs))
user> (time (qsort ys))
"Elapsed time: 163.33 msecs"
#<long[] [J@3ae34094>
user> (def ys (long-array xs))
user> (time (jqsort ys))
"Elapsed time: 13.895 msecs"
#<long[] [J@1b2b2f7f>

Performance is worlds apart (an order of magnitude, and then some).

Is there anything I'm missing, any Clojure feature I may have used? I think the main source of performance degradation is when I need to return several values from a loop and must allocate a vector for that. Can this be avoided?

BTW running Clojure 1.4. Also note that I have run the benchmark multiple times in order to warm up the HotSpot. These are the times when they settle down.


The most terrible weakness in my code is not just the allocation of vectors, but the fact that they force boxing and break the primitive chain. Another weakness is using results of loop because they also break the chain. Yep, performance in Clojure is still a minefield.

share|improve this question
Is your implementation equivalent to Arrays.sort? – ponzao Aug 29 '12 at 12:43
@ponzao Pretty much, except for the way the pivot is chosen. But that can't possibly account for this difference. Please help yourself to the Java code in question. – Marko Topolnik Aug 29 '12 at 12:46
@ponzao Checked some more; since I'm benchmarking with a random-filled array, taking the first element for the pivot is perfectly fine. I'm not getting into the nitty-gritty of worst-case datasets here. – Marko Topolnik Aug 29 '12 at 12:54
fyi, Java SE 7 and later use TimSort for sorting arrays, which gives marginally better performance on real world data than Quicksort. See – sw1nn Aug 29 '12 at 14:26
No, @sw1nn it's still quicksort. – Marko Topolnik Aug 29 '12 at 16:10
up vote 43 down vote accepted

This version is based on @mikera's, is just as fast and doesn't require the use of ugly macros. On my machine this takes ~12ms vs ~9ms for java.util.Arrays/sort:

(set! *unchecked-math* true)
(set! *warn-on-reflection* true)

(defn swap [^longs a ^long i ^long j]
  (let [t (aget a i)]
    (aset a i (aget a j))
    (aset a j t)))

(defn ^long apartition [^longs a ^long pivot ^long i ^long j]
  (loop [i i j j]
    (if (<= i j)
      (let [v (aget a i)]
        (if (< v pivot)
          (recur (inc i) j)
            (when (< i j) 
              (aset a i (aget a j))
              (aset a j v))
            (recur i (dec j)))))

(defn qsort 
  ([^longs a]
     (qsort a 0 (long (alength a))))
  ([^longs a ^long lo ^long hi]    
         (< (inc lo) hi)
       (let [pivot (aget a lo)
             split (dec (apartition a pivot (inc lo) (dec hi)))]
         (when (> split lo)
           (swap a lo split))
         (qsort a lo split)
         (qsort a (inc split) hi)))

(defn ^longs rand-long-array []
  (let [rnd (java.util.Random.)] 
    (long-array (repeatedly 100000 #(.nextLong rnd)))))

  (dotimes [_ 10]
    (let [as (rand-long-array)]
       (dotimes [_ 1] 
         (qsort as)))))

The need for manual inlining is mostly unnecessary starting with Clojure 1.3. With a few type hints only on the function arguments the JVM will do the inlining for you. There is no need to cast index arguments to int for the the array operations - Clojure does this for you.

One thing to watch out for is that nested loop/recur does present problems for JVM inlining since loop/recur doesn't (at this time) support returning primitives. So you have to break apart your code into separate fns. This is for the best as nested loop/recurs get very ugly in Clojure anyhow.

For a more detailed look on how to consistently achieve Java performance (when you actually need it) please examine and understand test.benchmark.

share|improve this answer
I don't think I agree with your analysis---loop/recur compiles into plain looping bytecode. I don't see anything stopping loop from returning a primitive. – Marko Topolnik Aug 29 '12 at 17:09
I changed the language. I didn't mean to imply that it was impossible for loop/recur to return primitives. Simply that it does not currently support it. – dnolen Aug 29 '12 at 17:12
Yes, this is then another issue with my code. I wouldn't necessarily mind the nesting, though, on the code style level. Performance is still a minefield in Clojure. – Marko Topolnik Aug 29 '12 at 17:23
Now that I disagree with. It's in many respects simpler and involves less voodoo than most people think. If code has many type-hints and macros, and I see this quite a bit, it's quite likely that it won't be optimal. In anycase, as I said, test.benchmark is worthy of study of the handful of techniques for >= Clojure 1.3 – dnolen Aug 29 '12 at 17:27
And just to be fair to mikera, this solution is not faster than his. He and I tested it and came to a similar conclusion. They are at least at the same speed level, mikera's possibly having an edge. – Marko Topolnik Aug 30 '12 at 5:52

This is slightly horrific because of the macros, but with this code I think you can match the Java speed (I get around 11ms for the benchmark):

(set! *unchecked-math* true)

(defmacro swap [a i j]
  `(let [a# ~a
         i# ~i
         j# ~j
         t# (aget a# i#)]
     (aset a# i# (aget a# j#))
     (aset a# j# t#)))

(defmacro apartition [a pivot i j]
  `(let [pivot# ~pivot]
     (loop [i# ~i
            j# ~j]
       (if (<= i# j#)
         (let [v# (aget ~a i#)]
           (if (< v# pivot#)
             (recur (inc i#) j#)
               (when (< i# j#) 
                 (aset ~a i# (aget ~a j#))
                 (aset ~a j# v#))
               (recur i# (dec j#)))))

(defn qsort 
  ([^longs a]
    (qsort a 0 (alength a)))
  ([^longs a ^long lo ^long hi]    
    (let [lo (int lo)
          hi (int hi)]
        (< (inc lo) hi)
        (let [pivot (aget a lo)
              split (dec (apartition a pivot (inc lo) (dec hi)))]
          (when (> split lo) (swap a lo split))
          (qsort a lo split)
          (qsort a (inc split) hi)))

The main tricks are:

  • Do everything with primitive arithmetic
  • Use ints for the array indexes (this avoids some unnecessary casts, not a big deal but every little helps....)
  • Use macros rather than functions to break up the code (avoids function call overhead and parameter boxing)
  • Use loop/recur for maximum speed in the inner loop (i.e. partitioning the subarray)
  • Avoid constructing any new objects on the heap (so avoid vectors, sequences, maps etc.)
share|improve this answer
Internally Clojure is supposed to work only with longs, according to the documentation on 1.3 Numerics. Did you really notice the difference between using (int lo) and not using it? – Marko Topolnik Aug 29 '12 at 13:59
I think Clojure does use ints as primitives within functions. See e.g. the code for clojure.lang.RT.intCast. Doesn't seem to make a noticeable difference to the timings though. I believe the restriction to longs applies mainly to primitives passed as function parameters. – mikera Aug 29 '12 at 14:04
I'm wondering... I already use primitive arithmetic; I don't have either function or macro calls; I use loop-recur everywhere. – Marko Topolnik Aug 29 '12 at 14:05
Do you base your solution off of this post (or perhaps the same code, but posted elsewhere)? – Marko Topolnik Aug 29 '12 at 14:06
@Marko - no worries, dnolen's code is definitely better from a style perspective and it would be better for most coders to emulate that answer. I still think my version is marginally faster though - I have it about 15% faster on my machine (Clojure 1.4, Java 7 in Eclipse Counterclockwise), YMMV. – mikera Aug 29 '12 at 19:34

The Joy of Clojure, Chapter 6.4 describes a lazy quicksort algorithm.The beauty of lazy sorting is that it will only do as much work as necessary to find the first x values. So if x << n this algorithm is O(n).

(ns joy.q)

(defn sort-parts
  "Lazy, tail-recursive, incremental quicksort.  Works against
   and creates partitions based on the pivot, defined as 'work'."
   (loop [[part & parts] work]
     (if-let [[pivot & xs] (seq part)]
       (let [smaller? #(< % pivot)]
         (recur (list*
                 (filter smaller? xs)
                 (remove smaller? xs)
       (when-let [[x & parts] parts]
         (cons x (sort-parts parts)))))))

(defn qsort [xs]
    (sort-parts (list xs))) 
share|improve this answer
These kinds of things are a bad pun on the name of the algorithm. OK, if I really needed the top 3 elements from an array of thousands, this may actually be useful. But as for array sorting, useless. – Marko Topolnik Aug 29 '12 at 16:12
The idea is neat! It's not very fast overall in the general case of wanting to sort an entire array. Still, +1 for sharing an interesting implementation of quicksort. – mikera Aug 29 '12 at 19:58
@mikera The book Joy of Clojure really is a great book, full of excellent and interesting stuff, even for seasoned Clojure programmers. This sort implementation is a beautiful example of concise Clojure code. I just hesitate to call it quicksort :) – Marko Topolnik Aug 31 '12 at 18:10

By examining the main points from mikera's answer, you can see that they are mostly focused on eliminating the overhead introduced by using idiomatic (as opposed to tweaked) Clojure, which would probably not exist in an idiomatic Java implementation:

  • primitive arithmetic - slightly easier and more idiomatic in Java, you are more likely to use ints than Integers
  • ints for the array indexes - the same
  • Use macros rather than functions to break up the code (avoids functional call overhead and boxing) - fixes a problem introduced by using the language. Clojure encourages functional style, hence a function call overhead (and boxing).
  • Use loop/recur for maximum speed in the inner loop - in Java you'd idiomatically use an ordinary loop (which is what loop/recur compiles to anyway, as far as I know)

That being said, there actually is another trivial solution. Write (or find) an efficient Java implementation of Quick Sort, say something with a signature like this:

Sort.quickSort(long[] elems)

And then call it from Clojure:

(Sort/quickSort elems)


  • as efficient as in Java - yes

  • idiomatic in Clojure - arguably yes, I'd say that Java-interop is one of Clojure's core features.

  • reusable - yes, there's a good chance that you can easily find a very efficient Java implementation already written.

I'm not trying to troll, I understand what you are trying to find out with these experiments I'm just adding this answer for the sake of completeness. Let's not overlook the obvious one! :)

share|improve this answer
Well, I already include a killer qsort implementation on your terms: (defn jqsort [^longs a] (java.util.Arrays/sort a) a)). – Marko Topolnik Aug 29 '12 at 14:15
@MarkoTopolnik: Exactly! Just bear in mind that Java's Array.sort for some reason uses merge sort when arguments are objects, and qsort for primitives. In your example, it is qsort since longs are primitive. – Goran Jovic Aug 29 '12 at 14:19
It is due to the requirement for a stable sort. Java 7 has upgraded this to a new kind of sort, BTW. – Marko Topolnik Aug 29 '12 at 14:21
@MarkoTopolnik: Ah I get it. Primitives only have one dimension, so stability doesn't really matter, since you can't repeatedly sort them on different criteria anyway. Thanks! – Goran Jovic Aug 29 '12 at 14:26
Actually it's not that, but that "stable" doesn't even make sense for primitives. It is defined against objects that are all distinct, but some compare as equal according to some order. Primitive values don't have identity; they are just values. – Marko Topolnik Aug 29 '12 at 16:15

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