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I'm wondering whether it is possible to get knowledge of how exactly V8 optimizes and inlines things.

I created three simple test functions which all calculate the sine of a angle in degrees. I put them all into closures so that V8 should be able to inline the local variables.


1. Using a precalculated constant Math.PI / 180, and then do Math.sin(x * constant).

I used this code:

var test1 = (function() {
  var constant = Math.PI / 180; // only calculate the constant once

  return function(x) {
    return Math.sin(x * constant);
  };
})();

2. Calculating the constant on the fly.

var test2 = (function() {
  var pi = Math.PI; // so that the compiler knows pi cannot change
                    // and it can inline it (Math.PI could change
                    // at any time, but pi cannot)

  return function(x) {
    return Math.sin(x * pi / 180);
  };
})();

3. Using literal numbers and calculating the constant on the fly.

var test3 = (function() {
  return function(x) {
    return Math.sin(x * 3.141592653589793 / 180);
  };
})();

Suprisingly, the results were as follows:

test1 - 25,090,305 ops/sec
test2 - 16,919,787 ops/sec
test3 - 16,919,787 ops/sec

It looks like pi did get inlined in test2 as test2 and test3 result in exactly the same amount of operations per second.

On the other hand, the division does not seem to be optimized (i.e. precalculated), since test1 is significantly faster.

  • Why is the constant not precalculated if you don't do so manually in this case?
  • Is it possible to see how V8 exactly optimizes functions on a certain webpage?
share|improve this question
    
I'm not sure if the concept of C style inlining caries over to JITed virtual machines. I'm just speculating, but I suspect that V8 applies run time optimization to functions that are frequently called, but it is probably hard to predict. –  mikerobi Nov 6 '11 at 18:05
1  
@mikerobi: This may be a naive question - but wouldn't it be possible to simply see what V8 is doing during compiling/optimizing/inlining, like some kind of debugging tool? –  pimvdb Nov 6 '11 at 18:12
    
It is probably possible, but I doubt anyone outside the V8 development team could tell you how. –  mikerobi Nov 6 '11 at 18:14
1  
Excellent question. If I could give you +2, I would. –  Ryan Kinal Nov 6 '11 at 18:33
4  
V8 does not perform constant propagation at the moment. Also you penalize V8 by creating functions in the loop (setup is called multiple times): try the modified test case jsperf.com/optimizing-v8/2 instead. It removes overhead introduced by multiple reoptimizations of new born instances of closures and makes the picture more clear. –  Vyacheslav Egorov Nov 6 '11 at 20:04

1 Answer 1

An educated guess at your first question:

Strictly speaking, it can't constant-fold the pi / 180 part, because you don't do pi / 180 in the second and third function. You just divide (x * pi) by 180 (the multiplication has precedence).

Now, you may be asking why it doesn't change the order of operations to wind up with something it can optimize (this process is called reassociation, by the way)... after all, the result is equivalent (a * b / c = (a * b) / c). Math says so, right?

Well, math says so, but math doesn't use floating point numbers. With floats, things are more complicated. x * pi may be rounded, and then the reordering would lead to a different result. The errors will probably be tiny, but still, the leading rule of compiler optimization is: Thou must not change the program's outcome. It's better to perform suboptimal on a few math benchmarks written in an unfortunate way than being off by a pixel (yes, that may be noticeable) in some graphics code.

share|improve this answer
    
Side note in case someone doubts my claim that the functions will give different results: Try it with x = 0.6784993546113602, for instance. I found this and many other numbers with Math.random(). –  delnan Nov 6 '11 at 18:44
    
Thanks, this is very interesting. It makes for some more research (like with a constant (a * b) * x). –  pimvdb Nov 6 '11 at 18:54
    
Using pi * 180 * x does indeed cause different results to be generated - now test1 and test3 are equal but test2 has become slower. I think this can be explained with operator precendece. I'm going to try to search for a reason for pi in test2 not to be inlined anymore. jsperf.com/optimizing-v8-2 –  pimvdb Nov 6 '11 at 19:00
    
in that case, what does x * (pi / 180) give? The compiler could theoretically pull the pi / 180 out now. –  zyklus Nov 6 '11 at 21:19
    
@cwolves: When I compare my initial test and the same one with parentheses added, there seems to be little to no improvement: jsperf.com/optimizing-v8/2 and jsperf.com/optimizing-v8/3. That would mean the floating point/operator precedence idea is actually not applicable. Mysterious... –  pimvdb Nov 6 '11 at 21:33

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