If you read the comments at the jQuery inArray page here, there's an interesting declaration:

!!~jQuery.inArray(elm, arr) 

Now, I believe a double-exclamation point will convert the result to type boolean, with the value of true. What I don't understand is what is the use of the tilde (~) operator in all of this?

var arr = ["one", "two", "three"];
if (jQuery.inArray("one", arr) > -1) { alert("Found"); }

Refactoring the if statement:

if (!!~jQuery.inArray("one", arr)) { alert("Found"); }


jQuery.inArray("one", arr)     // 0
~jQuery.inArray("one", arr)    // -1 (why?)
!~jQuery.inArray("one", arr)   // false
!!~jQuery.inArray("one", arr)  // true

I also noticed that if I put the tilde in front, the result is -2.

~!!~jQuery.inArray("one", arr) // -2

I don't understand the purpose of the tilde here. Can someone please explain it or point me towards a resource?

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    Whoever would write code like that needs to step away from the keyboard. – Kirk Woll Feb 16 '12 at 18:11
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    @KirkWoll: Why? ~jQuery.inArray() is actually very useful - possibly even a very good reason why the search functions return -1 for failure (the only value whose two's complement is falsy). Once you've seen and understood the trick, I feel it is even more readable than != -1. – Amadan Feb 16 '12 at 18:20
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    @Amadan -- no. Just no. Seriously, I can't believe you're defending !!~ for anything. – Kirk Woll Feb 16 '12 at 18:23
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    Problem is, it's just that: A "trick". The main difference between if (x != -1) and if (~x) to me, is that the former actually expresses what you intend to do. The latter expresses you wanting to do something else entirely ("please convert my 64-bit Number to a 32-bit integer, and check if bitwise NOT of that integer is truthy"), where you just happen to get the desired result in this one case. – JimmiTh Feb 16 '12 at 18:50
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    >= 0 probably wasn't leet enough, so the more cryptic !!~ was used. – Yoshi May 14 '12 at 11:23

13 Answers 13


The tilde operator isn't actually part of jQuery at all - it's a bitwise NOT operator in JavaScript itself.

See The Great Mystery of the Tilde(~).

You are getting strange numbers in your experiments because you are performing a bitwise logical operation on an integer (which, for all I know, may be stored as two's complement or something like that...)

Two's complement explains how to represent a number in binary. I think I was right.

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    Fixed! (Changed it to another link that, bizarrely enough, was written after my original answer...) – p.g.l.hall Jun 26 '13 at 8:56

There's a specfic reason you'll sometimes see ~ applied in front of $.inArray.


~$.inArray("foo", bar)

is a shorter way to do

$.inArray("foo", bar) !== -1

$.inArray returns the index of the item in the array if the first argument is found, and it returns -1 if its not found. This means that if you're looking for a boolean of "is this value in the array?", you can't do a boolean comparison, since -1 is a truthy value, and when $.inArray returns 0 (a falsy value), it means its actually found in the first element of the array.

Applying the ~ bitwise operator causes -1 to become 0, and causes 0 to become `-1. Thus, not finding the value in the array and applying the bitwise NOT results in a falsy value (0), and all other values will return non-0 numbers, and will represent a truthy result.

if (~$.inArray("foo", ["foo",2,3])) {
    // Will run

And it'll work as intended.

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    How well supported is this in browsers (now in 2014?) Or was it supported perfectly all along? – Explosion Pills Mar 12 '14 at 22:46
  • i would be surprised if basic operations like these wouldn't be perfect. – pcarvalho May 30 '15 at 23:06

!!~expr evaluates to false when expr is -1 otherwise true.
It is same as expr != -1, only broken*

It works because JavaScript bitwise operations convert the operands to 32-bit signed integers in two's complement format. Thus !!~-1 is evaluated as follows:

   -1 = 1111 1111 1111 1111 1111 1111 1111 1111b // two's complement representation of -1
  ~-1 = 0000 0000 0000 0000 0000 0000 0000 0000b // ~ is bitwise not (invert all bits)
   !0 = true                                     // ! is logical not (true for falsy)
!true = false                                    // duh

A value other than -1 will have at least one bit set to zero; inverting it will create a truthy value; applying ! operator twice to a truthy value returns boolean true.

When used with .indexOf() and we only want to check if result is -1 or not:

!!~"abc".indexOf("d") // indexOf() returns -1, the expression evaluates to false
!!~"abc".indexOf("a") // indexOf() returns  0, the expression evaluates to true
!!~"abc".indexOf("b") // indexOf() returns  1, the expression evaluates to true

* !!~8589934591 evaluates to false so this abomination cannot be reliably used to test for -1.

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    In a stable library, I see no issue with using ~foo.indexOf(bar), it's not significant savings on characters or performance, but it is a relatively common shorthand in the same way that foo = foo || {} is. – zzzzBov May 14 '12 at 13:18
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    It is is not an issue... not at least until someone else is asked to continue with your code. – Salman A May 14 '12 at 15:32
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    @ahsteele, I'm well aware of that rule, however bitwise operators are a part of every programming language that I can think of. I try to program in a way that is readable to someone who can read code. I don't stop using features of a language simply because someone else doesn't understand it, otherwise I wouldn't even be able to use !!. – zzzzBov May 14 '12 at 16:18
  • Strictly speaking, >= 0 doesn't have the same behavior as !!~. !== -1 is closer. – Peter Olson Aug 22 '12 at 23:27

~foo.indexOf(bar) is a common shorthand to represent foo.contains(bar) because the contains function doesn't exist.

Typically the cast to boolean is unnecessary due to JavaScript's concept of "falsy" values. In this case it's used to force the output of the function to be true or false.

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    +1 This answer explains the "why" better than the accepted answer. – nalply Oct 12 '12 at 21:02

jQuery.inArray() returns -1 for "not found", whose complement (~) is 0. Thus, ~jQuery.inArray() returns a falsy value (0) for "not found", and a truthy value (a negative integer) for "found". !! will then formalise the falsy/truthy into real boolean false/true. So, !!~jQuery.inArray() will give true for "found" and false for "not found".


The ~ for all 4 bytes int is equal to this formula -(N+1)


~0   = -(0+1)   // -1
~35  = -(35+1)  // -36 
~-35 = -(-35+1) //34 
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    This isn't always true, since (for example) ~2147483648 != -(2147483648 + 1). – Frxstrem May 30 '15 at 23:14

The ~ operator is the bitwise complement operator. The integer result from inArray() is either -1, when the element is not found, or some non-negative integer. The bitwise complement of -1 (represented in binary as all 1 bits) is zero. The bitwise-complement of any non-negative integer is always non-zero.

Thus, !!~i will be true when integer "i" is a non-negative integer, and false when "i" is exactly -1.

Note that ~ always coerces its operand to integer; that is, it forces non-integer floating point values to integer, as well as non-numeric values.


Tilde is bitwise NOT - it inverts each bit of the value. As a general rule of thumb, if you use ~ on a number, its sign will be inverted, then 1 will be subtracted.

Thus, when you do ~0, you get -1 (0 inverted is -0, subtract 1 is -1).

It's essentially an elaborate, super-micro-optimised way of getting a value that's always Boolean.


You're right: This code will return false when the indexOf call returns -1; otherwise true.

As you say, it would be much more sensible to use something like

return this.modifiedPaths.indexOf(path) !== -1;
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    But that's 3 more bytes to send to the client! edit: (just joking by the way, posted my comment and realized it wasn't obvious (which is both sad and silly)) – Wesley Murch May 14 '12 at 11:26
  • @Wesley: That's true, but it only has to be sent to each client once, assuming the client will cache the .js. Having said that, they could use >=0 rather than !==-1 - no extra bytes to send and still more readable than the bit-twiddling version. – LukeH May 14 '12 at 11:30
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    Who's trolling who here? ;) I guess I took it for granted that writing readable code is better than cryptic pre-optimized code that generates these kind of questions. Just minify later and write readable, understandable code now. – Wesley Murch May 14 '12 at 11:31
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    Personally I'd say that > -1 is even more readable, but that's probably very subjective. – Yoshi May 14 '12 at 11:36

The ~ operator is the bitwise NOT operator. What this means is that it takes a number in binary form and turns all zeroes into ones and ones into zeroes.

For instance, the number 0 in binary is 0000000, while -1 is 11111111. Likewise, 1 is 00000001 in binary, while -2 is 11111110.


My guess is that it is there because it's a few characters shorter (which library authors are always after). It also uses operations that only take a few machine cycles when compiled into the native code (as opposed to the comparison to a number.)

I agree with another answer that it's an overkill but perhaps might make sense in a tight loop (requires performance gain estimation, though, otherwise may turn out to be premature optimization.)


I assume, since it is a bitwise operation, it is the fastest (computationally cheap) way to check whether path appears in modifiedPaths.


As (~(-1)) === 0, so:

!!(~(-1)) === Boolean(~(-1)) === Boolean(0) === false
  • 1
    This maybe accurate, but is it a useful explanation for the questioner? Not at all. If I didn't understand it to start with, a terse answer like this wouldn't help. – Spudley May 14 '12 at 17:37
  • I think this answer makes sense. If you have a mathematic brain, you can clearly see which parts are changing at each step. Is it the best answer to this question? No. But it is useful, I think so! +1 – Taylor Lopez Oct 6 '15 at 15:07

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