I saw some code that seems to use an operator I don't recognize, in the form of two exclamation points, like so: !!. Can someone please tell me what this operator does?

The context in which I saw this was,

this.vertical = vertical !== undefined ? !!vertical : this.vertical;
  • 816
    Remember it by "bang, bang you're boolean" – Gus Feb 15 '12 at 18:35
  • 53
    Just for the record, don't do what is quoted there. Do if(vertical !== undefined) this.vertical = Boolean(vertical); - it is much cleaner and clearer what is going on, requires no unnecessary assignment, is entirely standard, and is just as fast (on current FF and Chrome) jsperf.com/boolean-conversion-speed . – Phil H Feb 12 '14 at 9:43
  • 55
    !! is not an operator. It's just the ! operator twice. – Vivek Jul 16 '14 at 7:21
  • 5
    Just for the record, Boolean(5/0) is not the same as !!5/0 – schabluk Feb 12 '15 at 9:45
  • 48
    @schabluk, for the record, order of operations is the reason !!5/0 produces Infinity rather than true, as produced by Boolean(5/0). !!5/0 is equivalent to (!!5)/0 -- a.k.a true/0 -- due to the ! operator having a higher precedence than the / operator. If you wanted to Booleanize 5/0 using a double-bang, you'd need to use !!(5/0). – matty May 24 '15 at 13:47

35 Answers 35


!! is similar to using the Boolean constructor, or arguably more like the Boolean function.

console.log(Boolean(null)); // Preffered over the Boolean object

console.log(new Boolean(null).valueOf()); // Not recommended for coverting non-boolean values

console.log(!!null); // A hacky way to omit calling the Boolean function, but essentially does the same thing. 

// The context you saw earlier (your example)
var vertical;

function Example(vertical)
        this.vertical = vertical !== undefined ? !!vertical : 
        // Let's break it down: If vertical is strictly not undefined, return the boolean value of vertical and set it to this.vertical. If not, don't set a value for this.vertical (just ignore it and set it back to what it was before; in this case, nothing).   

        return this.vertical;

console.log( "\n---------------------" )

// vertical is currently undefined

console.log(new Example(vertical).vertical); // The falsey or truthy value of this.vertical
console.log(!!new Example(vertical).vertical); // Coerced value of this.vertical

vertical = 12.5; // set vertical to 12.5, a truthy value.
console.log(new Example(vertical).vertical); // The falsey or truthy value of this.vertical which happens to be true anyway
console.log(!!new Example(vertical).vertical); // Coerced value of this.vertical

vertical = -0; // set vertical to -0, a falsey value.
console.log(new Example(vertical).vertical); // The falsey or truthy value of this.vertical which happens to be false either way
console.log(!!new Example(vertical).vertical); // Coerced value of this.vertical

Falsey values in javascript coerce to false, and truthy values coerce to true. Falsey and truthy values can also be used in if statements and will essentially "map" to their corresponding boolean value. However, you will probably not find yourself having to use proper boolean values often, as they mostly differ in output (return values).

Although this may seem similar to casting, realistically this is likely a mere coincidence and is not 'built' or purposely made for and like a boolean cast. So let's not call it that.

Why and how it works

To be concise, it looks something like this: ! ( !null ). Whereas, null is falsey, so !null would be true. Then !true would be false and it would essentially invert back to what it was before, except this time as a proper boolean value (or even vice versa with truthy values like {} or 1).

Going back to your example

Overall, the context that you saw simply adjusts this.vertical depending on whether or not vertical is defined, and if so; it will be set to the resulting boolean value of vertical, otherwise it will not change. In other words, if vertical is defined; this.vertical will be set to the boolean value of it, otherwise, it will stay the same. I guess that in itself is an example of how you would use !!, and what it does.

Vertical I/O Example

Run this example and fiddle around with the vertical value in the input. See what the result coerces to so that you can fully understand your context's code. In the input, enter any valid javascript value. Remember to include the quotations if you are testing out a string. Don't mind the CSS and HTML code too much, simply run this snippet and play around with it. However, you might want to take a look at the non-DOM-related javascript code though (the use of the Example constructor and the vertical variable).

var vertical = document.getElementById("vertical");
var p = document.getElementById("result");

function Example(vertical)
        this.vertical = vertical !== undefined ? !!vertical : 

        return this.vertical;

document.getElementById("run").onclick = function()

  p.innerHTML = !!( new Example(eval(vertical.value)).vertical );
  text-align: center;
  width: 5em;

  margin: 15.5px;
  width: 14em;
  height: 3.4em;
  color: blue;

  color: purple;

p {
  margin: 15px;

span.comment {
  color: brown;
<!--Vertical I/O Example-->
<h4>Vertical Example</h4>
<code id="code"><var class="var">var</var> vertical = <input type="text" id="vertical" maxlength="9" />; <span class="comment">// enter any valid javascript value</span></code>
<br />
<button id="run">Run</button>
<p id="result">...</p>


Double ! evaluate a variable to it's boolean value. Eg: false 0 (zero), '' or "" (empty string), null, undefined, NaN is evaluated to false. See this post https://www.sitepoint.com/javascript-truthy-falsy/


This question has been answered quite thoroughly, but I'd like to add an answer that I hope is as simplified as possible, making the meaning of !! as simple to grasp as can be.

Because javascript has what are called "truthy" and "falsey" values, there are expressions that when evaluated in other expressions will result in a true or false condition, even though the value or expression being examined is not actually true or false.

For instance:

if (document.getElementById('myElement')) {
    // code block

If that element does in fact exist, the expression will evaluate as true, and the code block will be executed.


if (document.getElementById('myElement') == true) {
    // code block

...will NOT result in a true condition, and the code block will not be executed, even if the element does exist.

Why? Because document.getElementById() is a "truthy" expression that will evaluate as true in this if() statement, but it is not an actual boolean value of true.

The double "not" in this case is quite simple. It is simply two nots back to back.

The first one simply "inverts" the truthy or falsey value, resulting in an actual boolean type, and then the second one "inverts" it back again to it's original state, but now in an actual boolean value. That way you have consistency:

if (!!document.getElementById('myElement')) {}


if (!!document.getElementById('myElement') == true) {}

will BOTH return true, as expected.


Sometimes it is necessary to check whether we have a value in the function or not, and the amount itself is not important to us, but whether or not it matters. for example we want to check ,if user has major or not and we have a function just like:

hasMajor(){return this.major}//it return "(users major is)Science" 

but the answer is not important to us we just want to check it has a major or not and we need a boolean value(true or false) how we get it:

just like this:

hasMajor(){ return !(!this.major)}

or as the same

hasMajor(){return !!this.major)}

if this.major has a value then !this.major return false but because the value has exits and we need to return true we use ! twice to return the correct answer !(!this.major)


This is a really handy way to check for undefined, "undefined", null, "null", ""

if (!!var1 && !!var2 && !!var3 && !!var4 ){
   //... some code here
  • 9
    Not true. The double exclamation point are superfluous here. – nalply Oct 12 '12 at 20:59
  • Why? I still need to know var1 through 4 have values in them. – rob_james Oct 28 '12 at 17:22
  • 8
    Because the && operators already "convert" its operators to boolean. – nalply Oct 29 '12 at 7:31
  • 7
    I have to take back my comment. I was wrong. It's not the && operators, but the if statement which "converts". Perhaps a good StackOverflow question? – nalply Oct 30 '12 at 9:16
  • 3
    I think it is the && operator, as if you remove the surrounding if, you still get all the same behavior of the expression, which if is just testing the result of... – aikeru Aug 21 '13 at 21:18

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