Optimizing array mutation in Clojure

Having read a few blog posts on the subject, I have found that mutating an array in Clojure like this:

``````(defn m [xs ys]
(dotimes [i (count xs)]
(aset #^ints ys (int i)
(int (* (int 3) (int (aget #^ints xs (int i))))))))
``````

where `(def xs (into-array Integer/TYPE (range 1000000)))` and `(def ys (into-array Integer/TYPE (range 1000000)))`

took an average of 14ms according to Criterium, whereas the Java to do the same,

``````public static int[] m(int[] x, int[] y)
{
for(int i=0; i<x.length; i++)
y[i] = 3*x[i];
return y;
}
``````

takes an average of 800us. **

Am I doing all I can to makes things go fast and Is there any further I can go down the optimization path ?

** I timed these using Criterium with `(report-result (bench (m xs ys )) :verbose)` and `(report-result (bench (. Test m xs ys)) :verbose)`

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if you are doing a lot of this kind of stuff, you should probably be looking at `core.matrix` and/or `vectorz-clj` rather than hand-coding mathematical operations on arrays. –  mikera Apr 18 at 3:26
yeh, now that they exist certainly –  Hendekagon Apr 18 at 3:57

Try this on Clojure 1.3:

``````(set! *unchecked-math* true)

(defn m [^longs xs ^longs ys]
(dotimes [i (count xs)]
(aset ys i
(* 3 (aget xs i)))))
``````
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cheers - this is the neatest –  Hendekagon Apr 16 '12 at 21:34
back on my work machine I get 2ms for the above Clojure and 1.95ms for Java using longs for everything. So they are the same. Interestingly I get 800us for Java using ints on this machine even though it's the same JVM and Linux version (no difference between ints and longs for Clojure though). –  Hendekagon Apr 17 '12 at 0:17
(set! unchecked-math true) - does that mean all math operations will be unchecked globally, or only this namespace ? How to control the scope ? –  Hendekagon Apr 17 '12 at 0:18
I believe it's per namespace. But you can just turn it off after the block of code where you want unchecked match. It's just a compiler flag. –  dnolen Apr 17 '12 at 3:02
Since it's earmuffed, I think the best way to use it is to place your critical defns inside a `(binding [*unchecked-math* true])`. But anyway, great to see Clojure coming through like this! Clojure primitive support covers only longs and doubles, so that's why it's the same with ints, I'd say. –  Marko Topolnik Apr 17 '12 at 5:24

If you want speed, you need to enter the world of primitives and not leave it until you're done. It's no use starting with a boxed `Integer i` and then converting it to a primitive at each use site. Maybe you can make `dotimes` produce ints (type-hint the declaration of `i`), but not sure. What I know works is a `loop-recur` construct with primitive initializers of loop vars: `(loop [i (int 0)] ... (recur (unchecked-inc i))`. Also, in you example you have `(int 3)`. You need to `let` that in advance so as not to repeat the unboxing in each iteration.

BTW, you can use `(int-array (range 1000000))` to create your initialized array and just `(int-array 1000000)` for the empty one.

UPDATE

As of Clojure 1.3, with its enhanced support for primitives, most of what I wrote above doesn't apply anymore. `dotimes` already uses primitive arithmetic, so all you need to write to get the full performance is

``````(dotimes [i (alength ^ints xs)]
(aset ^ints ys i (unchecked-multiply (aget ^ints xs i) 3)
``````

Basically, no `int` constructors necessary, and use `unchecked-multiply`.

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ok so I'm on a different machine now but the results so far: original is 36ms, (let [z (int 3)] (dotimes... is 37ms, (int (count xs))... is 35ms, (both previous 2) 37ms, removing type hints (int i) is also 37ms and loop-recur form is 37ms too (not surprizing as dotimes is implemented with loop-recur) –  Hendekagon Apr 16 '12 at 10:12
The issue is not whether it's implemented with `loop-recur` (of course it is) but whether the looping var is bound to a primitive or boxed number. Turns out that in Clojure 1.3 it as a primitive var, so what I proposed to implement in raw loop-recur amounts to exactly the same thing as just using plain dotimes. However, you need to use longs instead of ints. Never force clojure to coerce from long back to int. –  Marko Topolnik Apr 16 '12 at 11:05
ok changing to longs - 36ms gist.github.com/2397842 –  Hendekagon Apr 16 '12 at 11:11
I'm testing this too. I gain 25% advantage by using unchecked-multiply in place of *. RE: longs -> ints -- are you using a 64-bit VM? On my box the ints and longs performs the same, so no gain either way. –  Marko Topolnik Apr 16 '12 at 11:16
To get further with this, try to check the generated bytecode and compare with Java. I don't know whether you can check that without gen-class, but it should be possible. –  Marko Topolnik Apr 16 '12 at 11:18