We use return statements optionally in JavaScript functions. It's a keyword. But what is the actual type of return itself. Actually I got confused, seeing the example:

function add(a, b) {
  return (
    console.log(a + b),

add(2, 2);


[2, 2]

So, we can pass comma separated expressions into the return statement. Is this a function?

And starting with this, can we take a wild guess that every keyword in JavaScript are ultimately a function?

I've written a small blog as a gist of this discussion. You may want to check it here.

  • 106
    Just when you thought you understood JavaScript, something like this turns up...
    – F.P
    Apr 18, 2016 at 9:57
  • 12
    Brackets don't mean that you're calling function, for example: var a = (2 + 2).
    – alexmac
    Apr 18, 2016 at 9:59
  • 12
    A more appropriate example is var a = (1, 2) -- this will result in a having the value 2 due to how the comma operator operates (yes, comma is a mathematical operator like + or | etc, specifically, in lambada calculus, the comma operator implements the K combinator)
    – slebetman
    Apr 18, 2016 at 10:01
  • 6
    Then the correct action is to debunk the misconception, not downvote. Apr 18, 2016 at 19:14
  • 5
    @FlorianPeschka not really, this is standard behavior in any C-flavor language.
    – djechlin
    Apr 18, 2016 at 21:19

6 Answers 6


But what is the actual type of 'return' itself.

It doesn't have a type, it isn't a value.

Attempting typeof return; will give you Unexpected token return.

So, we can pass comma separated expressions into the return statement. Is this a function?

No, while parenthesis can be used to call a function, here they are a grouping operator containing a couple of expressions seperated by a comma operator.

A more useful demonstration would be:

function add(a, b) {
  return (
    (a + b),
    (a - b)

console.log(add(2, 2));

Which outputs 0 because the result of a + b is ignored (it is on the LHS of the comma operator) and a - b is returned.

  • But, in the above example, each of the expressions are executed, one by one. I think the case you stated is different than what is stated in the original question. What I want to say is where is the precedence of Group operator is applied there.
    – Arnab Das
    Apr 18, 2016 at 10:11
  • 3
    @ArnabDas — Yes, they are executed, but return doesn't get to see them, which is what you were asking.
    – Quentin
    Apr 18, 2016 at 10:12
  • @ArnabDas — " What I want to say is where is the precedence of Group operator is applied there." — Within the grouping operator of course.
    – Quentin
    Apr 18, 2016 at 10:12
  • 11
    @ArnabDas — Yes. a + b just has no visible effect because it has no side effects and the value is discarded (well, given that it has no practical effect, it is possible that an optimising compiler might remove it, but that makes no practical difference).
    – Quentin
    Apr 18, 2016 at 10:15
  • 1
    @Roman that's correct. The only way to "skip" an expression so that it is not executed (aside from within a conditional like if) is short circuit evaluation. The comma operator doesn't short circuit, so it'll evaluate both sides. Then it'll return the last one. That is explicitly the purpose of the comma operator, to group expressions in a single statement (usually the resulting value of the entire statement is ignored), most often used for variable initialization: var i = 2, j = 3, k = 4;
    – Jason
    Apr 20, 2016 at 12:11

I'm kinda shocked that no one here has directly referenced the spec:

12.9 The return Statement Syntax ReturnStatement : return ; return [no LineTerminator here] Expression ;


An ECMAScript program is considered syntactically incorrect if it contains a return statement that is not within a FunctionBody. A return statement causes a function to cease execution and return a value to the caller. If Expression is omitted, the return value is undefined. Otherwise, the return value is the value of Expression.

A ReturnStatement is evaluated as follows:

If the Expression is not present, return (return, undefined, empty). Let exprRef be the result of evaluating Expression. Return (return, GetValue(exprRef), empty).

So, because of the spec, your example reads:

return ( GetValue(exprRef) )

where exprRef = console.log(a + b), console.log(arguments)

Which according to the spec on the comma operator...


The production Expression : Expression , AssignmentExpression is evaluated as follows:

Let lref be the result of evaluating Expression.
Call GetValue(lref).
Let rref be the result of evaluating AssignmentExpression.
Return GetValue(rref).

...means that every expression will get evaluated until the last item in the comma list, which becomes the assignment expression. So your code return (console.log(a + b) , console.log(arguments)) is going to

1.) print the result of a + b

2.) Nothing is left to execute, so execute the next expression which

3.) prints the arguments, and because console.log() doesn't specify a return statement

4.) Evaluates to undefined

5.) Which is then returned to the caller.

So the correct answer is, return doesn't have a type, it only returns the result of some expression.

For the next question:

So, we can pass comma separated expressions into the return statement. Is this a function?

No. The comma in JavaScript is an operator, defined to allow you to combine multiple expressions into a single line, and is defined by the spec to return the evaluated expression of whatever is last in your list.

You still don't believe me?

function foo(){
    var foo = undefined + undefined;
    return undefined, console.log(1), 4;

Play with that code here and mess with the last value in the list. It will always return the last value in the list, in your case it just happens to be undefined.

For your final question,

And starting with this, can we take a wild guess that every keyword in JavaScript are ultimately a function?

Again, no. Functions have a very specific definition in the language. I won't reprint it here because this answer is already getting extremely long.


Testing what happens when you return parenthesiesed values:

function foo() {
    return (1, 2);


Gives the answer 2, so it appears that a comma separated list of values evaluates to the last element in the list.

Really, the parenthesis are irrelevant here, they're grouping operations instead of signifying a function call. What's possibly surprising, though, is that the comma is legal here. I found an interesting blog post on how the comma is deal with here:


  • I guess then, something like return ([1, 2]) should print both values?
    – cst1992
    Apr 20, 2016 at 13:01
  • 1
    That would be returning an array. Apr 20, 2016 at 13:16
  • console.log((1, 2)) Apr 21, 2016 at 20:43

return is not a function. It's the continuation of the function in which it occurs.

Think about the statement alert (2 * foo(bar)); where foo is the name of a function. When you're evaluating it, you see that you have to set aside the rest of the statement for a moment to concentrate on evaluating foo(bar). You could visualize the part you set aside as something like alert (2 * _), with a blank to fill in. When you know what the value of foo(bar) is, you pick it up again.

The thing you set aside was the continuation of the call foo(bar).

Calling return feeds a value to that continuation.

When you evaluate a function inside foo, the rest of foo waits for that function to reduce to a value, and then foo picks up again. You still have a goal to evaluate foo(bar), it's just paused.

When you evaluate return inside foo, no part of foo waits around for a value. return doesn't reduce to a value at the place inside foo where you used it. Instead, it causes the entire call foo(bar) to reduce to a value, and the goal "evaluate foo(bar)" is deemed complete and blown away.

People don't usually tell you about continuations when you're new to programming. They think of it as an advanced topic, just because there are some very advanced things that people eventually do with continuations. But the truth is, you're using them all along, every time you call a function.

  • This sort of thinking is common with functional languages, like LISP and Haskell, but I've never seen it used in procedural languages like javascript. One typically does not think of them as continuations because most procedural languages treat them as a special case. For example, you can't save off the continuation of alert(2 * _) for later use in Javascript (there's a different notation to do that sort of thing).
    – Cort Ammon
    Apr 19, 2016 at 1:36
  • 1
    @CortAmmon While I sort of agree with you, note that Javascript does have quite a strong functional background (it was originally intended as an implementation of a Scheme subset with a C-like syntax), and while it doesn't have any standard functions for manipulating continuations (e.g. call/cc) it is common practice to use continuation passing style in many javascript libraries, so understanding the concept at an early stage is quite useful for JS programmers.
    – Jules
    Apr 19, 2016 at 2:34
  • It's true that Javascript doesn't do first-class continuations. The return from inside foo isn't a value; you couldn't pack it up in a data structure, assign it to a variable, wait a while and then feed something to it later -- and you especially couldn't feed it more than once. But, like I said, advanced topics. Apr 20, 2016 at 16:28
  • Likewise, implementing a new control structure using continuations: advanced. But trying to implement a my_if function that behaves just like built-in if()then{}else{}, and failing to do so even if you allow yourself to use the built-in inside it -- not terribly advanced, and enormously instructive, especially if you're going to end up in code that passes around callbacks. Apr 20, 2016 at 16:48

the return here is a red herring. Perhaps interesting ist the following variation:

function add(a, b) {
  return (
    console.log(a + b),

console.log(add(2, 2));

which outputs as the last line


as the function does not actually return anything. (It would return the return value of the second console.log, if it had one).

As it is, the code is exactly identical to

function add(a, b) {
    console.log(a + b);

console.log(add(2, 2));

An interesting way to understand the return statement is through the void operator Take a look at this code

var console = {
    log: function(s) {
      document.getElementById("console").innerHTML += s + "<br/>"

function funReturnUndefined(x,y) {
   return ( void(x+y) );

function funReturnResult(x,y) {
   return ( (x+y) );

console.log( funReturnUndefined(2,3) );
console.log( funReturnResult(2,3) );
<div id="console" />

Since the return statement takes one argument that is [[expression]] and return this to the caller on the stack i.e. arguments.callee.caller it will then execute void(expression) and then return undefined that is the evaluation of the void operator.

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