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I've read that there are ways of coaxing the Clojure compiler into producing code that rivals the performance of similar code in Java, at least for code that already looks a lot like the Java code you want it to turn into. That's sound reasonable to me: idiomatic, high level Clojure code might have performance in the ballpark of what I'm used from CPython or MRI, but "ugly" Java-like code runs more or less like Java. This is a tradeoff I appreciate in Haskell, for example. Low level Haskell code with mutable arrays, loops and what not runs under GHC with appropriate compiler flags about as fast as it does in C (and then some high-tech libraries can sometimes squeeze similar performance out of prettier, higher level code).

I want help learning how to get my Java-like Clojure code to run as fast as in Java. Take this example:

(defn f [x y z n]
  (+ (* 2 (+ (* x y) (+ (* y z) (* x z))))
     (* 4 (+ x y z n -2) (- n 1))))

(defmacro from [[var ini cnd] & body]
  `(loop [~var ~ini]
     (when ~cnd
       ~@body
       (recur (inc ~var)))))

(defn g [n]
  (let [c (long-array (inc n))]
    (from [x 1 (<= (f x x x 1) n)]
      (from [y x (<= (f x y y 1) n)]
        (from [z y (<= (f x y z 1) n)]
          (from [k 1 (<= (f x y z k) n)]
            (let [l (f x y z k)]
              (aset c l (inc (aget c l))))))))
    c))

(defn h [x]
  (loop [n 1000]
    (let [^longs c (g n)]
      (if-let [k (some #(when (= x (aget c %)) %)
                       (range 1 (inc n)))]
        k
        (recur (* 2 n))))))

(time (print (h 1000)))

It takes about 85 seconds using Clojure 1.6 on my (admittedly) slow machine. Equivalent code in Java runs in about 0.4 seconds. I'm not greedy, I just want to get the Clojure code to run in, say, around 2 seconds.

The first thing I did was enable *warn-on-reflection* but sadly, with that lonely type hint there are no further warnings. What am I doing wrong?

This gist contains both the Java and Clojure versions of the code.

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I haven't had time to look at the rest, but I shave off 20% by changing f. Whether this is "cheating" or not, I don't know. (defn f [x y z n] (let [t (+ x y)] (+ (* 2 (+ (* x y) (* z (+ x y)))) (* 4 (+ t z n -2) (dec n))))) –  Timothy Dean Mar 28 at 6:34
    
Following mikera's hints (using OpenJDK 7 version 7u51-2.4.4-0ubuntu0.13.10.1) changes the elapsed time from about 9 sec to about 150 msec, which is within a factor of 4 of your Clojure to Java ratio. The improvement under Sun/Oracle Java, from the duinsoft ppa, was not nearly so marked. –  Thumbnail Apr 16 at 15:25
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1 Answer 1

Unfortunately *warn-on-reflection* doesn't warn you about primitive boxing - which I think is the main problem here. You want to be using unboxed primitive arithmetic at all times for maximum speed.

The following hints should help you optimise this:

  • Do a (set! *unchecked-math* true) to get faster primitive numerical operations
  • Try initialising your loops with (long ~ini). You want to force the use of primitives this way
  • Try putting a primitive hint ^long n to the function g
  • Try type-hinting your long array ^longs c - this should hopefully make Clojure use the faster primitive aget.
  • Type hint f as a primitive function ^long [^long x ^long y ^long z ^long n] or similar. This is very important, otherwise f will return boxed numbers....

If you succeed in eliminating all the boxed numbers, then this kind of code should be nearly as fast as pure Java.

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Re primitive boxing, I have been working on a new warning for just that: dev.clojure.org/jira/browse/CLJ-1325. Still a work in progress. –  Alex Miller Mar 28 at 13:14
    
Mostly agree with all the hints here. I have also seen that combining many loops into one big loop is faster than many nested loops. YMMV. –  Alex Miller Mar 28 at 13:19
    
Thanks, those type hints brought the running time down to around 24 seconds, so it's still not close to Java but it's a big improvement. –  Omar Antolín-Camarena Mar 28 at 13:44
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