Canonical question If you find a question about issues after replacing a function declaration / expression with an arrow function, please close it as duplicate of this one.

Arrow functions in ES2015 provide a more concise syntax. Can I replace all my function declarations / expressions with arrow functions now? What do I have to look out for?

Examples:

Constructor function

function User(name) {
  this.name = name;
}

// vs

const User = name => {
  this.name = name;
};

Prototype methods

User.prototype.getName = function() {
  return this.name;
};

// vs

User.prototype.getName = () => this.name;

Object (literal) methods

const obj = {
  getName: function() {
    // ...
  }
};

// vs

const obj = {
  getName: () => {
    // ...
  }
};

Callbacks

setTimeout(function() {
  // ...
}, 500);

// vs

setTimeout(() => {
  // ...
}, 500);

Variadic functions

function sum() {
  let args = [].slice(arguments);
  // ...
}

// vs
const sum = () => {
  let args = [].slice(arguments);
  // ...
};
  • 3
    Similar questions about arrow functions have come up more and more with ES2015 becoming more popular. I didn't feel like there was a good canonical question/answer for this issue so I created this one. If you think that there already is a good one, please let me know and I will close this one as duplicate or delete it. Feel free to improve the examples or add new ones. – Felix Kling Dec 18 '15 at 17:59
  • 2
    What about JavaScript ecma6 change normal function to arrow function? Of course, a normal question can never be as good and generic as one specifically written to be a canonical. – Bergi Dec 18 '15 at 23:53
up vote 387 down vote accepted

tl;dr: No! Arrow functions and function declarations / expressions are not equivalent and cannot be replaced blindly.
If the function you want to replace does not use this, arguments and is not called with new, then yes.


As so often: it depends. Arrow functions have different behavior than function declarations / expressions, so lets have a look at the differences first:

1. Lexical this and arguments

Arrow functions don't have their own this or arguments binding. Instead, those identifiers are resolved in the lexical scope like any other variable. That means that inside an arrow function, this and arguments refer to the values of this and arguments in the environment the arrow function is defined in (i.e. "outside" the arrow function):

// Example using a function expression
function createObject() {
  console.log('Inside `createObject`:', this.foo);
  return {
    foo: 42,
    bar: function() {
      console.log('Inside `bar`:', this.foo);
    },
  };
}

createObject.call({foo: 21}).bar(); // override `this` inside createObject

// Example using a arrow function
function createObject() {
  console.log('Inside `createObject`:', this.foo);
  return {
    foo: 42,
    bar: () => console.log('Inside `bar`:', this.foo),
  };
}

createObject.call({foo: 21}).bar(); // override `this` inside createObject

In the function expression case, this refers to the object that was created inside the createObject. In the arrow function case, this refers to this of createObject itself.

This makes arrow functions useful if you need to access the this of the current environment:

// currently common pattern
var that = this;
getData(function(data) {
  that.data = data;
});

// better alternative with arrow functions
getData(data => {
  this.data = data;
});

Note that this also means that is not possible to set an arrow function's this with .bind or .call.

If you are not very familiar with this, consider reading

2. Arrow functions cannot be called with new

ES2015 distinguishes between functions that are callable and functions that are constructable. If a function is constructable, it can be called with new, i.e. new User(). If a function is callable, it can be called without new (i.e. normal function call).

Functions created through function declarations / expressions are both constructable and callable.
Arrow functions (and methods) are only callable. class constructors are only constructable.

If you are trying to call a non-callable function or to construct a non-constructable function, you will get a runtime error.


Knowing this, we can state the following.

Replaceable:

  • Functions that don't use this or arguments.
  • Functions that are used with .bind(this)

Not replaceable:

  • Constructor functions
  • Function / methods added to a prototype (because they usually use this)
  • Variadic functions (if they use arguments (see below))

Lets have a closer look at this using your examples:

Constructor function

This won't work because arrow functions cannot be called with new. Keep using a function declaration / expression or use class.

Prototype methods

Most likely not, because prototype methods usually use this to access the instance. If they don't use this, then you can replace it. However, if you primarily care for concise syntax, use class with its concise method syntax:

class User {
  constructor(name) {
    this.name = name;
  }

  getName() {
    return this.name;
  }
}

Object methods

Similarly for methods in an object literal. If the method wants to reference the object itself via this, keep using function expressions, or use the new method syntax:

const obj = {
  getName() {
    // ...
  },
};

Callbacks

It depends. You should definitely replace it if you you are aliasing the outer this or are using .bind(this):

// old
setTimeout(function() {
  // ...
}.bind(this), 500);

// new
setTimeout(() => {
  // ...
}, 500);

But: If the code which calls the callback explicitly sets this to a specific value, as is often the case with event handlers, especially with jQuery, and the callback uses this (or arguments), you cannot use an arrow function!

Variadic functions

Since arrow functions don't have their own arguments, you cannot simply replace them with an arrow function. However, ES2015 introduces an alternative to using arguments: the rest parameter.

// old
function sum() {
  let args = [].slice.call(arguments);
  // ...
}

// new
const sum = (...args) => {
  // ...
};

Related question:

Further resources:

  • 3
    Possibly worth mentioning that the lexical this also affects super and that they have no .prototype. – loganfsmyth Dec 18 '15 at 22:13
  • 1
    It would also be good to mention that they aren't syntactically interchangeable -- an arrow function (AssignmentExpression) can't just be dropped in everywhere a function expression (PrimaryExpression) can and it trips people up fairly frequently (especially since there've been parsing errors in major JS implementations). – JMM Apr 1 '16 at 22:49
  • @JMM: "it trips people up fairly frequently" can you provide a concrete example? Skimming over the spec, it seems that the places where you can put a FE but not an AF would result in runtime errors anyway... – Felix Kling Apr 1 '16 at 22:54
  • Sure, I mean stuff like trying to immediately invoke an arrow function like a function expression (() => {}()) or do something like x || () => {}. That's what I mean: runtime (parse) errors. (And even though that's the case, fairly frequently people think the error is in error.) Are you just trying to cover logic errors that would go unnoticed because they don't necessarily error when parsed or executed? new'ing one is a runtime error right? – JMM Apr 1 '16 at 23:27
  • Here are some links of it coming up in the wild: substack/node-browserify#1499, babel/babel-eslint#245 (this is an async arrow, but I think it's the same basic issue), and a bunch of issues on Babel that are hard to find now, but here's one T2847. – JMM Apr 1 '16 at 23:27

Look at this Plnkr example

The variable this is very different timesCalled increments only by 1 each time the button is called. Which answers my personal question:

.click( () => { } )

and

.click(function() { })

both create the same number of functions when used in a loop as you can see from the Guid count in the Plnkr.

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.