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)))) 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/xs user> (def ys (long-array xs)) #'user/ys 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.