# What is the big difference between forEach and map?

Here's something I don't understand. The `map` function, which I just learned about a few days ago, is supposed to be some amazing function that will transform the way I write code if I find uses for it. But I still don't see how it's any different than `forEach`. The only difference is that the function passed to `map` replaces the current element with the `return` value. But `forEach` can do that too, which means that `map` is just a less general version of `forEach`.

Example on MDN:

``````var numbers = [1, 4, 9];
var roots = numbers.map(Math.sqrt);
// roots is now [1, 2, 3], numbers is still [1, 4, 9]
``````

https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/map

Ok, cool, I guess?

I can do that with `forEach`:

``````var numbers = [1, 4, 9];
var roots = numbers.forEach(function(el){el=Math.sqrt(el);});
// roots is now [1, 2, 3], numbers is still [1, 4, 9]
``````

Other example:

``````var kvArray = [{key:1, value:10}, {key:2, value:20}, {key:3, value: 30}];
var reformattedArray = kvArray.map(function(obj){
var rObj = {};
rObj[obj.key] = obj.value;
return rObj;
});
// reformattedArray is now [{1:10}, {2:20}, {3:30}],
// kvArray is still [{key:1, value:10}, {key:2, value:20}, {key:3, value: 30}]
``````

I can do that with `forEach` and it looks almost identical.

What's so good about `map`? What is an example where it works super-well where `forEach` wouldn't work?

• forEach returns undefined and map does not. You can ask the same about `indexOf`. Just use forEach and remember the first index. Its just more convenient. – Cromon Apr 15 '16 at 22:35
• – Mottor Apr 15 '16 at 22:35
• `roots` does not have the result you describe. jsfiddle.net/o77z9ch1 – user1106925 Apr 15 '16 at 22:39
• @nils Type-o. Fixed now. – Subpar Web Dev Apr 15 '16 at 22:39
• Your `.forEach` example is wrong. – Barmar Apr 15 '16 at 23:07

## 2 Answers

The difference is that `forEach` "iterates over an array" and `map` "iterates over an array and returns the result"

``````var numbers = [1, 4, 9];

var roots = numbers.forEach(Math.sqrt);
// roots is undefined, numbers is still [1, 4, 9]

var roots = numbers.map(Math.sqrt);
// roots is [1, 2, 3], numbers is still [1, 4, 9]
``````

What's so good about `map`? It keeps your code small and smart because you don't need to define anonymous functions for built-in functions.

``````var numbers = [1, 4, 9];

var roots = [];
numbers.forEach(function(val){ roots.push( Math.sqrt(val) ); });
// roots is now [1, 2, 3], numbers is still [1, 4, 9]
``````

The value of returning the result (no pun intended) is proven in your existing example...

``````var kvArray = [{key:1, value:10}, {key:2, value:20}, {key:3, value: 30}];
var reformattedArray = kvArray.map(function(obj){ // <---------------- map
var rObj = {};
rObj[obj.key] = obj.value;
return rObj;
});
// reformattedArray is now [{1:10}, {2:20}, {3:30}],
// kvArray is still [{key:1, value:10}, {key:2, value:20}, {key:3, value: 30}]

var kvArray = [{key:1, value:10}, {key:2, value:20}, {key:3, value: 30}];
var reformattedArray = kvArray.forEach(function(obj){ // <---------------- forEach
var rObj = {};
rObj[obj.key] = obj.value;
return rObj;
});
// reformattedArray is now undefined,
// kvArray is still [{key:1, value:10}, {key:2, value:20}, {key:3, value: 30}]
``````

map

`map` iterates over a list and returns a new list, without changing anything else. It doesn't change the original list. It has no side effects. With `map` you can take a normal function that works with primitives and lift this function, so that it can work with lists of these primitives:

``````const map = (f, xs) => xs.map(x => f(x));
const sqr = x => x * x;

let xs = [1,2,3];
let x = 3;

sqr(x); // 9
sqr(xs); // Error
let ys = map(sqr, xs); // [1,4,9]
xs; // [1,2,3]
``````

The example illustrates how `map` lifts `sqr` in the context of `xs`, so that it can square the elements of `xs`. In this way you can reuse normal functions for arrays.

forEach

`forEach` has no result value. A function without any result value is useless, unless it has some side effects. Hence `forEach` have to apply side effects to the elements it is iterating over, in order to do something meaningful:

``````let ys = xs.forEach(sqr); // undefined
xs; // [1,2,3]
// without side effects, nothing has happened

const sqrWithSideEffect = (x, idx, arr) => arr[idx] = x * x; // ugly, isn't it?
xs.forEach(sqrWithSideEffect); //
xs; // [1,4,9]; // side effect: destructive update of xs
``````

Conclusion: `forEach` comes from imperative, `map` from functional programming. Both represent opposing paradigms. So if you really want to understand the consequences of the differences between the two functions, you have to understand the differences between the two programming paradigms.