I was checking out an online game physics library today and came across the ~~ operator. I know a single ~ is a bitwise NOT, would that make ~~ a NOT of a NOT, which would give back the same value, wouldn't it?

2See also What is the “double tilde” (~~) operator in JavaScript? – Bergi Jan 20 '15 at 23:41
It removes everything after the decimal point because the bitwise operators implicitly convert their operands to signed 32bit integers. This works whether the operands are (floatingpoint) numbers or strings, and the result is a number.
In other words, it yields:
function(x) {
if(x < 0) return Math.ceil(x);
else return Math.floor(x);
}
only if x is between (2^{31}) and 2^{31}  1. Otherwise, overflow will occur and the number will "wrap around".
This may be considered useful to convert a function's string argument to a number, but both because of the possibility of overflow and that it is incorrect for use with nonintegers, I would not use it that way except for "code golf" (i.e. pointlessly trimming bytes off the source code of your program at the expense of readability and robustness). I would use +x
or Number(x)
instead.
How this is the NOT of the NOT
The number 43.2, for example is:
43.2_{10} = 11111111111111111111111111010101_{2}
as a signed (two's complement) 32bit binary number. (JavaScript ignores what is after the decimal point.) Inverting the bits gives:
NOT 43_{10} = 00000000000000000000000000101010_{2} = 42_{10}
Inverting again gives:
NOT 42_{10} = 11111111111111111111111111010101_{2} = 43_{10}
This differs from Math.floor(43.2)
in that negative numbers are rounded toward zero, not away from it. (The floor function, which would equal 44, always rounds down to the next lower integer, regardless of whether the number is positive or negative.)

6Which is to say,
~~
is a shorthand way (and possibly a good solution?) for creating a truncate function, but obviously in javascript. – ruffin May 22 '13 at 16:22 
4

1
The first ~ operator forces the operand to an integer (possibly after coercing the value to a string or a boolean), then inverts the lowest 31 bits. Officially ECMAScript numbers are all floatingpoint, but some numbers are implemented as 31bit integers in the SpiderMonkey engine.
You can use it to turn a 1element array into an integer. Floatingpoints are converted according to the C rule, ie. truncation of the fractional part.
The second ~ operator then inverts the bits back, so you know that you will have an integer. This is not the same as coercing a value to boolean in a condition statement, because an empty object {} evaluates to true, whereas ~~{} evaluates to false.
js>~~"yes"
0
js>~~3
3
js>~~"yes"
0
js>~~false
0
js>~~""
0
js>~~true
1
js>~~"3"
3
js>~~{}
0
js>~~{a:2}
0
js>~~[2]
2
js>~~[2,3]
0
js>~~{toString: function() {return 4}}
4
js>~~NaN
0
js>~~[4.5]
4
js>~~5.6
5
js>~~5.6
5

1Thanks for all of the examples here Shanti, it really helped out! – Shane Tomlinson Oct 30 '10 at 11:41

7

2

Technically you have the wrong order. The second
~
does what you described the first~
does and vice versa. The~
operator is a unary operators and is interpereted from right to left~~X
is like~(~X)
not like(~~)X
(which would be a syntax error) – yunzen Jun 15 '20 at 13:27
In ECMAScript 6, the equivalent of ~~
is Math.trunc:
Returns the integral part of a number by removing any fractional digits. It does not round any numbers.
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
The polyfill:
function trunc(x) {
return x < 0 ? Math.ceil(x) : Math.floor(x);
}

6Somewhat surprisingly, ~~ is faster than Math.trunc, jsperf.com/mathtruncvsdoublebitwisenotoperator. Though, not everything is about speed; readability too. – Gajus Dec 20 '14 at 11:10

3There is an important difference between ~~ and Math.trunc: if you pass a string, or NaN or whatever thing that's not a number, Math.trunc will return NaN, and ~~ will always return a number, in those cases, it will return 0. – Buzinas Mar 19 '16 at 6:00

Math.trunc is marginally faster than ~~ in Chrome 59+, according to jsperf.com/mathtruncvsdoublebitwisenotoperator. – Jack Steam Jul 30 '19 at 15:06
The ~
seems to do (N+1)
. So ~2 == (2 + 1) == 3
If you do it again on 3 it turns it back: ~3 == (3 + 1) == 2
It probably just converts a string to a number in a roundabout way.
See this thread: http://www.sitepoint.com/forums/showthread.php?t=663275
Also, more detailed info is available here: http://dreaminginjavascript.wordpress.com/2008/07/04/28/
Just a bit of a warning. The other answers here got me into some trouble.
The intent is to remove anything after the decimal point of a floating point number, but it has some corner cases that make it a bug hazard. I'd recommend avoiding ~~.
First, ~~ doesn't work on very large numbers.
~~1000000000000 == 727279968
As an alternative, use Math.trunc()
(as Gajus mentioned, Math.trunc()
returns the integer part of a floating point number but is only available in ECMAScript 6 compliant JavaScript). You can always make your own Math.trunc()
for nonECMAScript6 environments by doing this:
if(!Math.trunc){
Math.trunc = function(value){
return Math.sign(value) * Math.floor(Math.abs(value));
}
}
I wrote a blog post on this for reference: http://bitlords.blogspot.com/2016/08/thedoubletildextechniquein.html
Here is an example of how this operator can be used efficiently, where it makes sense to use it:
leftOffset = (~~$('html').css('paddingleft').replace('px', '') + ~~$('body').css('marginleft').replace('px', '')),
Source:
Converting Strings to Numbers
console.log(~~1); // 1
console.log(~~0); // 0
console.log(~~1); // 1
console.log(~~"1"); // 1
console.log(~~"0"); // 0
console.log(~~"1"); // 1
console.log(~~true); // 1
console.log(~~false); // 0
~1 is 0
if (~someStr.indexOf("a")) {
// Found it
} else {
// Not Found
}
Tilde(~) has an algorihm (N+1)
For examle:
~0 = (0+1) = 1
~5 = (5+1) = 6
~7 = (7+1) = 6
Double tilde is ((N+1)+1)
For example:
~~5 = ((5+1)+1) = 5
~~3 = ((3+1)+1) = 3
Triple tilde is (((N+1)+1)+1)
For example:
~~~2 = (((2+1)+1)+1) = 3
~~~3 = (((3+1)+1)+1) = 4