# ~~ vs parseInt? [duplicate]

Possible Duplicate:
What is the “double tilde” (~~) operator in JavaScript?

The D3 tutorial gives a function that produces a random sequence:

``````var t = 1297110663, // start time (seconds since epoch)
v = 70, // start value (subscribers)
data = d3.range(33).map(next); // starting dataset

function next() {
return {
time: ++t,
value: v = ~~Math.max(10, Math.min(90, v + 10 * (Math.random() - .5)))
};
}
``````

Note the ~~ (tilda tilda) in:

``````    value: v = ~~Math.max(10, Math.min(90, v + 10 * (Math.random() - .5)))
``````

From playing around in the javascript terminal, I see:

``````~~1
1
~~-1
-1
~~-1.3
-1
parseInt(5)
5
parseInt(-5)
-5
parseInt(-5.3)
-5
parseInt(5.3)
5
``````

Since ~~ and parseInt seem to be equivalent, whats the rationale for using parseInt?

## marked as duplicate by Jonathon Faust, Joseph, JaredMcAteer, Donal Fellows, GravitonJun 2 '12 at 2:14

They are not equivalent.

• `parseInt()` turns strings into numbers, reading up to and ignoring the first non-integer character, and also possibly performing base conversion (e.g. interpreting a string as octal, or hexadecimal).

``````console.log(

parseInt(011)           +'\n'+ // 9
parseInt('011')         +'\n'+ // 11
parseInt('42 cats')     +'\n'+ // 42
parseInt('0xcafebabe')  +'\n'+ // 3405691582

);``````

• `var x = ~~y;` is a 'trick'—similar to `var x = y << 0;`—that (ab)uses the unary bitwise NOT operator to force the result to be in the range of a signed 32-bit integer, discarding any non-integer portion.

``````console.log(

parseInt(011)                +'\n'+// 9
parseInt('011')              +'\n'+// 11
parseInt('42 cats')          +'\n'+// 42
parseInt('0xcafebabe')       +'\n'+// 3405691582

);``````

Using `~~x` is often done because:

1. It's usually faster than calling a method.
2. It's faster to type than anything else.
3. It makes power users feel cool because it's sort of inscrutable and also sort of justifiable. :)

As seen in the `cafebabe` test, numbers above 231  -1 (  2,147,483,647  ) or below  -231
(  −2,147,483,648  ) will "wrap around" due to the limits of a signed 32-bit integer.

• You might want to explain exactly what `~` is. As in bitwise not. – Endophage May 31 '12 at 21:06
• @Endophage Thanks for the suggestion. – Phrogz May 31 '12 at 21:09
• @DavidFregoli Because of octal parsing. – Phrogz Feb 24 '13 at 15:11
• @DavidFregoli If you are dead-set on using `parseInt` instead of one of the better choices then you should use `parseInt('011',10)` if you want the result `11`. – Phrogz Feb 24 '13 at 17:13
• In modern browsers, that implement ECMAscript 5, there is no octal parsing for strings with leading zero by default, so `parseInt('011');` will return 11 in them. By older browsers like IE8 still return 9, so you have to specify explicit radix to avoid ambiguity. – Ilya Streltsyn Oct 25 '14 at 17:33

`parseInt` isn't limited to signed 32 bit numbers.

``````   // Top range for a bitwise operator provides a valid result
~~((Math.pow(2,32)/2)-1); // 2147483647

// Beyond the top range provides undesired result
~~(Math.pow(2,32)/2); // -2147483648
``````

Also, with `parseInt` you can specify the radix.

• What those two lines show? – gdoron May 31 '12 at 21:09
• @gdoron They show that bitwise not clamps to 32-bit values, rolling around into signed-complement land once you hit 2^32 – Phrogz May 31 '12 at 21:11
``````~~"red" === 0

isNaN(parseInt("red"))
``````

parseInt can handle over 32 bit numbers as well

Simple: It the more readable and convinient variant.

The bitwise NOT operator is designed for some other use, but can be misused for truncating float values. In your example, `Math.floor` had also been possible.

Also, they don't behave similiar in many cases. `parseInt` is no limited to 32 bit, it can parse numbers represented in different positional notations and it also handles non-numeric values with `NaN`.