# Why is Math.pow() (sometimes) not equal to ** in JavaScript?

I've just discovered the ECMAScript 7 feature `a**b` as an alternative for `Math.pow(a,b)` (MDN Reference) and came across a discussion in that post, in which they apparently behave differently. I've tested it in Chrome 55 and can confirm that the results differ.

`Math.pow(99,99)` returns `3.697296376497263e+197`

whereas

`99**99` returns `3.697296376497268e+197`

So logging the difference `Math.pow(99,99) - 99**99` results in `-5.311379928167671e+182`.

So far it could be said, that it's simply another implementation, but wrapping it in a function behaves different again:

``````function diff(x) {
return Math.pow(x,x) - x**x;
}
``````

calling `diff(99)` returns `0`.

Why is that happening?

As xszaboj pointed out, this can be narrowed down to this problem:

``````var x = 99;
x**x - 99**99; // Returns -5.311379928167671e+182
``````
• It sounds like someone rewrote the algorithm they used, and a floating point error was found. Numbers are hard... – krillgar Jan 16 '17 at 15:01
• @krillgar sounds reasonable, but why isn't that same error happening in a function then? – Thomas Altmann Jan 16 '17 at 15:02
• @AndersonPimentel The MDN link points to a compatibility table. – Álvaro González Jan 16 '17 at 15:08
• difference is between this two: var x = 99; x * * x ; and 99 * * 99. Or function diff(x) { return 99 * * 99 - (x * * x); }; diff(99). Sorry for spacing, Comment filters two stars :( – xszaboj Jan 16 '17 at 15:16
• @xszaboj put code into backticks ``likethis`` to make it readable and also avoid the bold/italic problem – phuclv Jan 17 '17 at 2:39

`99**99` is evaluated at compile time ("constant folding"), and the compiler's `pow` routine is different from the runtime one. When evaluating `**` at run time, results are identical with `Math.pow` — no wonder since `**` is actually compiled to a `Math.pow` call:

``````console.log(99**99);           // 3.697296376497268e+197
a = 99, b = 99;
console.log(a**b);             // 3.697296376497263e+197
console.log(Math.pow(99, 99)); // 3.697296376497263e+197``````

Actually

9999=369729637649726772657187905628805440595668764281741102430259972423552570455277523421410650010128232727940978889548326540119429996769494359451621570193644014418071060667659301384999779999159200499899

so the first result is a better approximation, still such a discrepancy between constant- and dynamic expressions shouldn't take place.

This behavior looks like a bug in V8. It has been reported and will hopefully get fixed soon.

• So it's basically JS trying to improve performance with computing `99**99` beforehand? Could this be considered a bug, since `Math.pow` creates the same output for numbers and variables and `**` doesn't? – Thomas Altmann Jan 16 '17 at 15:26
• citation needed... – Alnitak Jan 16 '17 at 15:28
• @ThomasAltmann: `Math.row` is always runtime, const folding can only be done for operators. Yes, it's definitely a bug. – georg Jan 16 '17 at 15:37
• A bug has been logged, by the looks of things by the OP here. – James Thorpe Jan 16 '17 at 16:28
• I'm using MS Edge, and all 3 results are the same: `3.697296376497263e+197`, `3.697296376497263e+197`, and `3.697296376497263e+197` respectively. It's most definitely a Chrome bug. – Nolonar Jan 16 '17 at 20:33