178

A colleague of mine stumbled upon a method to floor float numbers using a bitwise or:

var a = 13.6 | 0; //a == 13

We were talking about it and wondering a few things.

  • How does it work? Our theory was that using such an operator casts the number to an integer, thus removing the fractional part
  • Does it have any advantages over doing Math.floor? Maybe it's a bit faster? (pun not intended)
  • Does it have any disadvantages? Maybe it doesn't work in some cases? Clarity is an obvious one, since we had to figure it out, and well, I'm writting this question.

Thanks.

  • 4
    Disadvantage: it only works up to 2^31−1 which is around 2 billion (10^9). The max Number value is around 10^308 btw. – Šime Vidas Sep 20 '11 at 15:51
  • 8
    Example: 3000000000.1 | 0 evaluates to -1294967296. So this method can't be applied for money calculations (especially in cases where you multiply by 100 to avoid decimal numbers). – Šime Vidas Sep 20 '11 at 16:08
  • 11
    @ŠimeVidas Floats shouldn't be used in money calculations also – George Reith Feb 20 '14 at 10:02
  • 1
    I personally like ~~ for bitwise flooring. var a = ~~13.6; // a == 13 – John Strickler Nov 19 '14 at 17:48
  • 16
    It is not flooring, it is truncating (rounding towards 0). – Bartłomiej Zalewski Dec 9 '14 at 14:40
145

How does it work? Our theory was that using such an operator casts the number to an integer, thus removing the fractional part

All bitwise operations except unsigned right shift, >>>, work on signed 32-bit integers. So using bitwise operations will convert a float to an integer.

Does it have any advantages over doing Math.floor? Maybe it's a bit faster? (pun not intended)

http://jsperf.com/or-vs-floor/2 seems slightly faster

Does it have any disadvantages? Maybe it doesn't work in some cases? Clarity is an obvious one, since we had to figure it out, and well, I'm writting this question.

  • Will not pass jsLint.
  • 32-bit signed integers only
  • Odd Comparative behavior: Math.floor(NaN) === NaN, while (NaN | 0) === 0
  • 8
    @harold indeed, because it does not in fact round, merely truncates. – Alex Turpin Apr 10 '12 at 18:46
  • 4
    Another possible disadvantage is that Math.floor(NaN) === NaN, while (NaN | 0) === 0. That difference might be important in some applications. – Ted Hopp Jan 2 '13 at 1:56
  • 4
    Your jsperf is yielding performance information for empty loops on chrome due to loop invariant code motion. A slightly better perf test would be: jsperf.com/floor-performance/2 – Sam Giles May 8 '13 at 12:04
  • 2
    This is a standard part of asm.js (where I first learned about it). It's faster if for no other reason because it's not calling a function on the Math object, a function that could at anytime be replaced as in Math.floor = function(...). – gman May 8 '17 at 4:03
  • 2
    (value | 0) === value could be used to check that a value is in fact an integer and only an integer (as in the Elm source code @dwayne-crooks linked). And foo = foo | 0 could be used to coerce any value to an integer (where 32-bit numbers are truncated and all non-numbers become 0). – David Michael Gregg Jan 3 '18 at 11:31
32

This is truncation as opposed to flooring. Howard's answer is sort of correct; But I would add that Math.floor does exactly what it is supposed to with respect to negative numbers. Mathematically, that is what a floor is.

In the case you described above, the programmer was more interested in truncation or chopping the decimal completely off. Although, the syntax they used sort of obscures the fact that they are converting the float to an int.

  • 5
    This is the correct answer, accepted one is not. Add to it that Math.floor(8589934591.1) produces expected result, 8589934591.1 | 0 DOES NOT. – Salman A Jan 19 '18 at 18:08
18

In ECMAScript 6, the equivalent of |0 is Math.trunc, kind of I should say:

Returns the integral part of a number by removing any fractional digits. It just truncate the dot and the digits behind it, no matter whether the argument is a positive number or a negative number.

Math.trunc(13.37)   // 13
Math.trunc(42.84)   // 42
Math.trunc(0.123)   //  0
Math.trunc(-0.123)  // -0
Math.trunc("-1.123")// -1
Math.trunc(NaN)     // NaN
Math.trunc("foo")   // NaN
Math.trunc()        // NaN
  • 3
    Except the fact that Math.trunc() work with number higher or equal to 2^31 and | 0 does not – Nolyurn Sep 6 '17 at 9:46
10

Your first point is correct. The number is cast to an integer and thus any decimal digits are removed. Please note, that Math.floor rounds to the next integer towards minus infinity and thus gives a different result when applied to negative numbers.

5
  • The specs say that it is converted to an integer:

    Let lnum be ToInt32(lval).

  • Performance: this has been tested at jsperf before.

note: dead link to spec removed

4

Javascript represents Number as Double Precision 64-bit Floating numbers.

Math.floor works with this in mind.

Bitwise operations work in 32bit signed integers. 32bit signed integers use first bit as negative signifier and the other 31 bits are the number. Because of this, the min and max number allowed 32bit signed numbers are -2,147,483,648 and 2147483647 (0x7FFFFFFFF), respectively.

So when you're doing | 0, you're essentially doing is & 0xFFFFFFFF. This means, any number that is represented as 0x80000000 (2147483648) or greater will return as a negative number.

For example:

 // Safe
 (2147483647.5918 & 0xFFFFFFFF) ===  2147483647
 (2147483647      & 0xFFFFFFFF) ===  2147483647
 (200.59082098    & 0xFFFFFFFF) ===  200
 (0X7FFFFFFF      & 0xFFFFFFFF) ===  0X7FFFFFFF

 // Unsafe
 (2147483648      & 0xFFFFFFFF) === -2147483648
 (-2147483649     & 0xFFFFFFFF) ===  2147483647
 (0x80000000      & 0xFFFFFFFF) === -2147483648
 (3000000000.5    & 0xFFFFFFFF) === -1294967296

Also. Bitwise operations don't "floor". They truncate, which is the same as saying, they round closest to 0. Once you go around to negative numbers, Math.floor rounds down while bitwise start rounding up.

As I said before, Math.floor is safer because it operates with 64bit floating numbers. Bitwise is faster, yes, but limited to 32bit signed scope.

To summarize:

  • Bitwise works the same if you work from 0 to 2147483647.
  • Bitwise is 1 number off if you work from -2147483647 to 0.
  • Bitwise is completely different for numbers less than -2147483648 and greater than 2147483647.

If you really want to tweak performance and use both:

function floor(n) {
    if (n >= 0 && n < 0x80000000) {
      return n & 0xFFFFFFFF;
    }
    if (n > -0x80000000 && n < 0) {
      return (n - 1) & 0xFFFFFFFF;
    }
    return Math.floor(n);
}

Just to add Math.trunc works like bitwise operations. So you can do this:

function trunc(n) {
    if (n > -0x80000000 && n < 0x80000000) {
      return n & 0xFFFFFFFF;
    }
    return Math.trunc(n);
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.