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I'm fiddling around with bitwise operators in JavaScript and there is one thing I find remarkable.

The bitwise or operator returns 1 as output bit if one of the two input bits are 1. So doing x | 0 always returns x, because | 0 has no effect:

  • ( 1 | 0 ) === 1
  • ( 0 | 0 ) === 0

However, when I calculated Infinity | 0, I got 0. This is surprising in my opinion, because by the above one should get Infinity. After all, ( x | 0 ) === x.

I cannot find where in the ECMAscript specification this is explicitly defined, so I was wondering what exactly implies that ( Infinity | 0 ) === 0. Is is perhaps the way Infinity is stored in memory? If so, how can it still be that doing a | 0 operation causes it to return 0 whereas | 0 should not do anything?

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How could you compute (infinity | 0)? Infinity is... infinite, it can't be computed by its very definition... :| –  Albireo Jul 11 '11 at 12:31
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@Albireo - Because a computer has to represent infinity somehow, and it's got a limited number of bits to do it with. –  Dylan Jul 11 '11 at 12:33
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This is really interesting, because Infinity appears to be a truthy value when you use it in an if-else statement, like one would expect. I just confirmed this: jsfiddle.net/LWBVd. Perhaps it has to do with the internal representation of Infinity. –  FishBasketGordo Jul 11 '11 at 12:36
    
@FishBasketGordo: Looking at the answers it appears that values are converted to an integer first. Just like 0.1 is truthy, 0.1 | 0 is falsy. –  pimvdb Jul 11 '11 at 12:39
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2 Answers 2

up vote 47 down vote accepted

Bitwise operators work on integers only.
Infinity is a floating-point value, not an integer.

The spec says that all operands of bitwise operations are converted to integers (using the ToInt32 operation) before performing the operation.

The ToInt32 operation says:

If number is NaN, +0, −0, +∞ or –∞ return +0.

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Doing math and other operations that expect integers with NaN and Infinity is usually a bad idea. How would you set/clear a bit from Infinity?

Actually, bit-wise operations are only defined for integers - and integers do not have NaN or Infinity.

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I was thinking that Infinity would represent an infinite amount of 1 bits after each other. –  pimvdb Jul 11 '11 at 12:32
    
That's more like -1 than infinity (in that this is how -1 behaves in languages like python that have arbitrary size integers - javascript only has 32 bit integers.) –  Random832 Jul 11 '11 at 13:54
    
@Random832: I guess I was thinking too simplistically. My idea was that just like 1 is 1 and 1111 is 16, 111...111 would end up to Infinity. –  pimvdb Jul 11 '11 at 14:04
    
1111 binary is 15. If you follow this line of reasoning an infinite value would occupy every bit in memory and would still not accurately portray infinity. –  dbasnett Jul 11 '11 at 14:51
    
@dbasnett: It's 15 indeed, my stupidity. I was thinking it would represent an infinite amount of ones so that Infinity | 0 === 111...111 | 0 === 111...111 === Infinity. But never mind, it's not the case :) –  pimvdb Jul 11 '11 at 18:39
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