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I'm working in a language that translates to JavaScript. In order to avoid some stack overflows, I'm applying tail call optimization by converting certain functions to for loops. What is surprising is that the conversion is not faster than the recursive version.

http://jsperf.com/sldjf-lajf-lkajf-lkfadsj-f/5

Recursive version:

(function recur(a0,s0){
    return a0==0 ? s0 : recur(a0-1, a0+s0)
})(10000,0)

After tail call optimization:

ret3 = void 0;
a1   = 10000;
s2   = 0;
(function(){
    while (!ret3) {
        a1 == 0 
            ? ret3     = s2
            : (a1_tmp$ = a1 - 1 ,
               s2_tmp$ = a1 + s2,
               a1      = a1_tmp$,
               s2      = s2_tmp$);
     }
})();
ret3;

After some cleanup using Google Closure Compiler:

ret3 = 0;
a1   = 1E4;
for(s2 = 0; ret3 == 0;)
    0 == a1 
        ? ret3     = s2 
        : (a1_tmp$ = a1 - 1 ,
           s2_tmp$ = a1 + s2,
           a1      = a1_tmp$,
           s2      = s2_tmp$);
c=ret3;

The recursive version is faster than the "optimized" ones! How can this be possible, if the recursive version has to handle thousands of context changes?

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@JanDvorak done. –  Viclib Oct 5 '13 at 22:22
    
@JanDvorak I'm working on that right now. Edit: done. –  Viclib Oct 5 '13 at 22:22
5  
can i haz answarz naw –  Viclib Oct 5 '13 at 22:28
    
n = 10000, o=0; while(n) o += n--; –  r043v Oct 5 '13 at 22:37
    
Which browser are you running these benchmarks on? There's no telling what kinds of optimizations the Javascript engine is doing under the hood. –  Robert Harvey Oct 5 '13 at 22:51

2 Answers 2

There's more to optimising than tail-call optimisation.

For instance, I notice you're using two temporary variables, when all you need is:

s2 += a1;
a1--;

This alone practically reduces the number of operations by a third, resulting in a performance increase of 50%

In the long run, it's important to optimise what operations are being performed before trying to optimise the operations themselves.

EDIT: Here's an updated jsperf

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Interesting that even with your optimization, the recursive version is faster for me. –  icktoofay Oct 5 '13 at 22:37
    
Well that's just weird XD Maybe it depends on the browser. I'm using IE10. –  Niet the Dark Absol Oct 5 '13 at 22:38
    
But I guess I need those temporary variables for the optimization, so they hold the initial values of the passed arguments before jumping back... otherwise cases like a = a - 1; b = a + b would go bad because "b" was supposed to use the old value of a on its sum? Except if I find a way to automate what you did manually but I have to think about that~ –  Viclib Oct 5 '13 at 22:42
    
@Viclib You'll notice I switched the order, so it's b = a + b; a = a - 1; and now it works fine. –  Niet the Dark Absol Oct 5 '13 at 23:10
    
No, I mean, generally there is no way for my system to detect how to do that kind of manipulation, thus I need the extra variables (I'm not sure though). Anyway, interesting input. Also puzzled how it is still almost the same speed... –  Viclib Oct 5 '13 at 23:17

as Kolink say what your piece of code do is simply adding n to the total, reduce n by 1, and loop until n not reach 0

so just do that :

n = 10000, o = 0; while(n) o += n--;

it's more faster and lisible than the recursive version, and off course output the same result

share|improve this answer
    
Nice but generating simple code like that is not straightforward for a compiler, and the speed is still on par. I appreciate your answer but nobody is addressing the question directly: "why is the speed so similar, if the recursive version does a lot of heavy context switches"? –  Viclib Oct 6 '13 at 2:00
    
recursive code just do the minimal, the + on the total and the -- on n, your code does not, so the gain get by removing the recursion is counterbalanced by the use of your temp var. so, speed is not similar, Kolink solution is 5x faster than recursion => jsperf.com/sldjf-lajf-lkajf-lkfadsj-f/7 –  r043v Oct 6 '13 at 3:36

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