I have been trying to understand es6 arrow function. I read some articles introducing it. But I'am still not getting it fully.

For example I have this code:

sortedArticles(): Article[] {
    return this.articles.sort((a: Article, b: Article) => b.votes -  a.votes);

It sorts the below array:

  new Article('Angular 2', 'http://angular.io', 3),
  new Article('Fullstack', 'http://fullstack.io', 2),
  new Article('Angular Homepage', 'http://angular.io', 1),

How would the same code look in plain old js? I am not able to fully get it.

  • In general ES5: function(a, b) { return a + b} translates to ES6 (a, b) => a + b;. So to fast transform between the two 1. remove function but preserve the brackets with parameters (aside from if you have a single parameter - you can omit the brackets, then). 2. remove the return keyword, if the function is on one line. Keep it otherwise. 3. Remove the { and } brackets if on one line. Keep them otherwise. 4. Done. That's a good rule of thumb to follow most of the time, unless you want to use this`. – vlaz Oct 31 '16 at 12:15
up vote 7 down vote accepted

It would look like this if you just converted the arrow function to a function function:

sortedArticles(): Article[] {
    return this.articles.sort(function(a: Article, b: Article) { return b.votes -  a.votes;});
// ---------------------------^^^^^^^^------------------------^^^-------------------------^^

...but note that there's more going on there than ES2015 ("ES6"). The : Article[] part is saying that sortedArticles returns an array of Article. (And similarly the : Article qualifiers on a and b.) That's not JavaScript at all. It looks like TypeScript.

The pure JavaScript version would just drop those type annotations:

sortedArticles() {
    return this.articles.sort(function(a, b) { return b.votes -  a.votes;});

But TypeScript's "fat arrow" functions work largely the same way ES2015's arrow functions do, so let's continue on the basis that we're talking about ES2015 arrow functions:

There are four fundamental differences1 between arrow functions and function functions:

  1. They close over this, super, and several other things,2 they don't have their own versions of those like function functions do. (A consequence of this is that they can use super if they're defined in a context that can use super, which function functions cannot.)

  2. They can have a concise body rather than a verbose one (but they can have a verbose body as well).

  3. They cannot be used as constructors. E.g., you can't use new with an arrow function. A consequence of this is that arrow functions don't have a prototype property on them (since it's only used if the function is used with new).

  4. There is no generator syntax for arrow functions. E.g., there is no arrow equivalent to function *foo() { ... }.

These three functions are all effectively the same, since they don't use this or arguments:

// A `function` function
var f1 = function(x) {
    return x * 2;

// An arrow function with a verbose body
var f2 = x => {
    return x * 2;

// An arrow function with a concise body
var f3 = x => x * 2;

(If they used this or arguments, they would not be the same.)

Note that the concise body doesn't have a { after the => and must contain a single top-level expression (which can of course have subexpressions), which is used as the return value.

1 You'll find people telling you there's a fifth: That arrow functions cannot have a name. That's a myth. Arrow functions can have names; the arrow functions above have true names, f2 and f3 respectively. It's not just the variables that have names, the functions do as well.

2 Specifically, they close over this, super, arguments (the automatic pseudo-array of runtime arguments), and new.target.

A huge thank you to CodingIntrigue for pointing out several errors and omissions in the earlier versions of this answer.

  • 1
    Yes, it's typescript. The code is from Angular2 project am tinkering with. Your explanation really broke it down to me. I hope this helps others who are facing similar confusions. – esafwan Oct 31 '16 at 17:18

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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