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?

Excellentquestion. If I could give you +2, I would. – Ryan Kinal Nov 6 '11 at 18:33notperform 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