Most of the tutorials that I've read on arrays in JavaScript (including w3schools and devguru) suggest that you can initialize an array with a certain length by passing an integer to the Array constructor using the var test = new Array(4); syntax.

After using this syntax liberally in my js files, I ran one of the files through jsLint, and it freaked out:

Error: Problem at line 1 character 22: Expected ')' and instead saw '4'.
var test = new Array(4);
Problem at line 1 character 23: Expected ';' and instead saw ')'.
var test = new Array(4);
Problem at line 1 character 23: Expected an identifier and instead saw ')'.

After reading through jsLint's explanation of its behavior, it looks like jsLint doesn't really like the new Array() syntax, and instead prefers [] when declaring arrays.

So I have a couple questions:

First, why? Am I running any risk by using the new Array() syntax instead? Are there browser incompatibilities that I should be aware of?

And second, if I switch to the square bracket syntax, is there any way to declare an array and set its length all on one line, or do I have to do something like this:

var test = [];
test.length = 4;

21 Answers 21

  • Array(5) gives you an array with length 5 but no values, hence you can't iterate over it.

  • Array.apply(null, Array(5)).map(function () {}) gives you an array with length 5 and undefined as values, now it can be iterated over.

  • Array.apply(null, Array(5)).map(function (x, i) { return i; }) gives you an array with length 5 and values 0,1,2,3,4.

  • Array(5).forEach(alert) does nothing, Array.apply(null, Array(5)).forEach(alert) gives you 5 alerts

  • ES6 gives us Array.from so now you can also use Array.from(Array(5)).forEach(alert)

  • If you want to initialize with a certain value, these are good to knows...
    Array.from('abcde'), Array.from('x'.repeat(5))
    or Array.from({length: 5}, (v, i) => i) // gives [0, 1, 2, 3, 4]

  • 27
    This is what I was looking for. I wanted to apply a map over a logical sequence; this should do it. Thank you!
    – user677526
    Commented May 20, 2015 at 18:55
  • 3
    why Array.apply() gives it undefined as value?
    – wdanxna
    Commented Jun 1, 2015 at 8:21
  • 5
    @wdanxna when Array is given multiple arguments, it iterates over the arguments object and explicitly applies each value to the new array. When you call Array.apply with an array or an object with a length property Array is going to use the length to explicitly set each value of the new array. This is why Array(5) gives an array of 5 elisions, while Array.apply(null, Array(5)) gives an array of 5 undefined's. For more information, see this answer. Commented Jul 10, 2015 at 4:40
  • 2
    is there difference between Array(5) and new Array(5)? Commented Nov 14, 2015 at 15:45
  • 6
    The Array.apply(null, Array(5)) can also be written as Array.apply(null, {length: 5}). There really is not much difference, but the latter is unambiguously clear that the intent is to create an array of length 5, and not an array containing 5 Commented Aug 10, 2016 at 9:23

With ES2015 .fill() you can now simply do:

// `n` is the size you want to initialize your array
// `0` is what the array will be filled with (can be any other value)

Which is a lot more concise than Array.apply(0, new Array(n)).map(i => value)

It is possible to drop the 0 in .fill() and run without arguments, which will fill the array with undefined. (However, this will fail in Typescript)

  • 1
    @AralRoca You could always use the Polyfill provided on the MDN page, or consider using Modernizr.
    – AP.
    Commented Jul 13, 2017 at 14:45
  • 5
    Yes, please try it before you comment
    – AP.
    Commented Nov 24, 2017 at 15:53
  • 2
    @GarretWilson and @Christian It's in the spec. When Array is called as a function rather than as a constructor, it also creates and initializes a new Array object. Thus the function call Array(…) is equivalent to the object creation expression new Array(…) with the same arguments
    – AP.
    Commented Jan 23, 2018 at 17:45
  • 1
    @AP., The zero is redundant. Do Array(n).fill()
    – Pacerier
    Commented May 19, 2018 at 17:15
  • 10
    @Pacerier I don't think the 0 was redundant. According to es6 type definition, this is the function signature: fill(value: T, start?: number, end?: number): this; Hence the fill value does not seem optional. Typescript compilation will fail as the function call is written above. Commented Jun 14, 2018 at 16:27
  1. Why do you want to initialize the length? Theoretically there is no need for this. It can even result in confusing behavior, because all tests that use the length to find out whether an array is empty or not will report that the array is not empty.
    Some tests show that setting the initial length of large arrays can be more efficient if the array is filled afterwards, but the performance gain (if any) seem to differ from browser to browser.

  2. jsLint does not like new Array() because the constructer is ambiguous.

    new Array(4);

    creates an empty array of length 4. But

    new Array('4');

    creates an array containing the value '4'.

Regarding your comment: In JS you don't need to initialize the length of the array. It grows dynamically. You can just store the length in some variable, e.g.

var data = [];
var length = 5; // user defined length

for(var i = 0; i < length; i++) {
  • 23
    The number of objects in the array is user-defined, so I was letting the user pick a number, then initializing the array with that many slots. Then I run a for loop that iterates over the length of the array and fills it. I guess there would be other ways to do this in JavaScript, so the real answer to "Why do I want to do this?" is "Because of old habits that formed while programming in other languages." :) Commented Jan 31, 2011 at 14:39
  • 208
    <blockquote>Why do you want to initialize the length? Theoretically there is no need for this. And all tests that use the length to find out whether an array is empty or not will fail.</blockquote> Um, performance perhaps? It's faster to set a pre-existing element of an array than it is to add it on the fly.
    – codehead
    Commented Mar 22, 2011 at 1:03
  • 16
    @codehead: in response to this quote: "It's faster to set a pre-existing element of an array than it is to add it on the fly.": note that new Array(10) does not create an array with 10 undefined elements. It simply creates an empty array with a length of 10. See this answer for the nasty truth: stackoverflow.com/questions/18947892/…
    – Milimetric
    Commented Apr 24, 2015 at 22:12
  • 67
    "Why do you want to ..." gets asked so many times on SO. FWIW I think when someone posts a question it is reasonable to assume that they have a legitimate use case in mind and start from there.
    – Michael
    Commented Jun 14, 2019 at 16:28
  • 11
    This another "answer" that is just arguing against the poster, and never actually answers the question. If you don't want to initialize the length of an array, then don't do so in your code. Otherwise, don't tell someone else what they can and can't do in theirs. If you can't answer the question, then just don't.
    – Mike
    Commented Apr 22, 2020 at 20:14
[...Array(6)].map(x => 0);
// [0, 0, 0, 0, 0, 0]


// [0, 0, 0, 0, 0, 0]

Note: you can't loop empty slots i.e. Array(4).forEach(() => …)


( typescript safe )

Array(6).fill(null).map((_, i) => i);
// [0, 1, 2, 3, 4, 5]


Classic method using a function ( works in any browser )

function NewArray(size) {
    var x = [];
    for (var i = 0; i < size; ++i) {
        x[i] = i;
    return x;

var a = NewArray(10);
// [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

Creating nested arrays

When creating a 2D array with the fill intuitively should create new instances. But what actually going to happen is the same array will be stored as a reference.

var a = Array(3).fill([6]);
// [  [6], [6], [6]  ]

// [  [6, 9], [6, 9], [6, 9]  ]


var a = [...Array(3)].map(x => []);

a[0].push(4, 2);
// [  [4, 2], [], []  ]

So a 3x2 Array will look something like this:

[...Array(3)].map(x => Array(2).fill(0));
// [  [0, 0], [0, 0], [0, 0]  ]

N-dimensional array

function NArray(...dimensions) {
    var index = 0;
    function NArrayRec(dims) {
        var first = dims[0], next = dims.slice().splice(1); 
        if(dims.length > 1) 
            return Array(dims[0]).fill(null).map((x, i) => NArrayRec(next ));
        return Array(dims[0]).fill(null).map((x, i) => (index++));
    return NArrayRec(dimensions);

var arr = NArray(3, 2, 4);
// [   [  [ 0,  1,  2,  3 ] , [  4,  5,  6,  7]  ],
//     [  [ 8,  9,  10, 11] , [ 12, 13, 14, 15]  ],
//     [  [ 16, 17, 18, 19] , [ 20, 21, 22, 23]  ]   ]

Initialize a chessboard

var Chessboard = [...Array(8)].map((x, j) => {
    return Array(8).fill(null).map((y, i) => {
        return `${String.fromCharCode(65 + i)}${8 - j}`;

// [ [A8, B8, C8, D8, E8, F8, G8, H8],
//   [A7, B7, C7, D7, E7, F7, G7, H7],
//   [A6, B6, C6, D6, E6, F6, G6, H6],
//   [A5, B5, C5, D5, E5, F5, G5, H5],
//   [A4, B4, C4, D4, E4, F4, G4, H4],
//   [A3, B3, C3, D3, E3, F3, G3, H3],
//   [A2, B2, C2, D2, E2, F2, G2, H2],
//   [A1, B1, C1, D1, E1, F1, G1, H1] ]

Math filled values

handy little method overload when working with math

function NewArray( size , method, linear )
    method = method || ( i => i ); 
    linear = linear || false;
    var x = [];
    for( var i = 0; i < size; ++i )
        x[ i ] = method( linear ? i / (size-1) : i );
    return x;

NewArray( 4 ); 
// [ 0, 1, 2, 3 ]

NewArray( 4, Math.sin ); 
// [ 0, 0.841, 0.909, 0.141 ]

NewArray( 4, Math.sin, true );
// [ 0, 0.327, 0.618, 0.841 ]

var pow2 = ( x ) => x * x;

NewArray( 4, pow2 ); 
// [ 0, 1, 4, 9 ]

NewArray( 4, pow2, true ); 
// [ 0, 0.111, 0.444, 1 ]
  • 2
    a[0].push(9); // [ [6, 9], [6], [6] ] should be a[0].push(9); // [ [6, 9], [6, 9], [6, 9] ] because each nested array is stored as a reference, so mutating one array affects the rest. You may have just mistyped it though I think :)
    – Yao
    Commented May 10, 2020 at 8:07
  • 1
    [...Array(6)].map(x => 0); is an excellent solution and was very helpful for me! With a slight modification it can be used to create an array that counts integers (just like your typescript safe example): [...Array(6)].map((x, i) => i); results in [0, 1, 2, 3, 4, 5] Commented Oct 23, 2020 at 20:56
  • 1
    Sometimes I don't use the "element/item/first parameter" in the map function because I need only index and I was looking for a best practice to name that parameter. I didn't wanna name it like "x" or "unused" etc. So, using underscore is actually awesome idea! Thanks! map((_, i) => i)
    – cyonder
    Commented Jul 14, 2021 at 19:58
  • 1
    just noticed u r the one with the shortest answer , very nice
    – Vlad
    Commented Oct 25, 2021 at 23:57
  • 2
    Array(Infinity).fill(0) create your universe! Array(Infinity).fill(Infinity) you're God!
    – ManUtopiK
    Commented Jan 21, 2022 at 21:04

The shortest:

let arr = [...Array(10)];

  • 15
    Upvoted, but one caveat, you absolutely should not start a line in JS with a [ without using a ; since it will attempt to dereference the line above. So a safe way to use this line predictably in any part of the code would be: ;[...Array(1000)]//.whateverOpsNeeded()
    – AP.
    Commented May 29, 2018 at 21:15
  • not really. try in developer tools. [...Array(5)].map((item, index) => ({ index })) try this as well: [...Array(5)]; console.log('hello'); Commented May 30, 2018 at 10:14
  • 3
    Try using it in a multi-line js file. If your first line is const a = 'a' and the next line [...Array(5)].//irrelevent. What do you think the first line would resolve to? It would be const a = 'a'[...Array(5)] which would result in: Uncaught SyntaxError: Unexpected token ...
    – AP.
    Commented Jun 1, 2018 at 18:27
  • 8
    That's true but in this case I would say that the problem is somewhere else, semicolons and linting are important nowdays. Commented Jun 1, 2018 at 20:14
  • 10
    @AP that example is exactly the reason why many style guides mandate ending every statement with a semicolon. const a = 'a' will be a Lint error in that case. Anyway, it really has nothing to do with this answer.
    – graup
    Commented Jul 17, 2018 at 10:30

ES6 introduces Array.from which lets you create an Array from any "array-like" or iterables objects:

Array.from({length: 10}, (x, i) => i);
// [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

In this case {length: 10} represents the minimal definition of an "array-like" object: an empty object with just a length property defined.

Array.from allows for a second argument to map over the resulting array.


Sparse arrays are here! 🥳 [2021]

In modern JS engines, sparse arrays are fully supported. You can use [] or new Array(len) in any way you like, even with random access. Dictionary mode seems to be a thing of the past.

In current Chrome (and I guess any V8 environment), Arrays can have a length of up to 2^32-1 and allocation is sparse (meaning empty chunks don't use up any memory):

enter image description here

enter image description here

However, there is a catch

On the one hand, for loops work as intended, however, Array's builtin higher order functions (such as map, filter, find, some etc.) ignore unassigned elements. They require fill (or some other method of population) first:

const a = new Array(10);
const b = new Array(10).fill(0);

a.forEach(x => console.log(x)); // does nothing
b.forEach(x => console.log(x)); // works as intended

Old Version

(I removed most of the old version.) The gist was that creating a large array using new Array(largeNumber) or random accessing an array in places that have not yet been allocated would tumble it into "dictionary mode". Meaning you are using an array with indexes, but under the hood it would use a dictionary to store the values, thus messing with performance, and also with iteration behavior. Luckily that is a thing of the past.

  • 2
    6 years later... Anyways, you were probably thinking you were in a different language when you wrote this because you don't actually use int to define an integer in JavaScript (use let, var, or const). I just want to clear things up for the next person who copies StackOverflow code and realizes it doesn't work 😉
    – sno2
    Commented Dec 29, 2020 at 2:17
  • 2
    @sno2 There was definitely a typo there. Funnily, a lot of things have changed since then, so I updated the whole thing
    – Domi
    Commented Jan 20, 2022 at 7:40
  • 3
    you could also just call .fill without an argument and then you can iterate over the array: new Array(10).fill().forEach(i => console.log(i))
    – mockingjay
    Commented Apr 21, 2022 at 15:25

This will initialize the length property to 4:

var x = [,,,,];
  • 4
    That's clever. It doesn't have the flexibility of the constructor, because you can't use a variable to set the length, but it does answer my question as I originally phrased it, so +1. Commented Jan 31, 2011 at 16:09
  • 15
    Imagine doind that for 300 items when performance would really matter! Commented Dec 18, 2012 at 22:01
  • 10
    There is problably not much performance gain when preallocating an array with such a small size. The performance difference will be better perceived when creating larger arrays. And in those cases, initialize them with commas would be a little bit overwhelming. Commented Dec 28, 2012 at 16:53
  • 7
    I think that this will yield different results in different browsers because of the final comma, sometimes 4 and sometimes 5, see stackoverflow.com/questions/7246618/…
    – jperelli
    Commented Apr 25, 2014 at 23:55
  • 3
    How about var size = 42; var myArray = eval("["+",".repeat(size)+"]"); ? (Not that serious ;)
    – xoxox
    Commented Nov 25, 2016 at 18:28

The simplest form is to use

Array.from({ length: 3 });

// gives you
[undefined, undefined, undefined]

Unlike Array(3) which will give you an array you can't iterate over. Array.from({ length }) gives you an array you can iterate easily.

Array.from({ length: 3 }).map((e, idx) => `hi ${idx}`);
// ['hi 1', 'hi 2', 'hi 3']

I'm surprised there hasn't been a functional solution suggested that allows you to set the length in one line. The following is based on UnderscoreJS:

var test = _.map(_.range(4), function () { return undefined; });

For reasons mentioned above, I'd avoid doing this unless I wanted to initialize the array to a specific value. It's interesting to note there are other libraries that implement range including Lo-dash and Lazy, which may have different performance characteristics.

  • 7
    The underscore black magic really isn't needed here. Dependencies are like sugar, it seems sweet at first, but before you know it you get diabetes. Commented Nov 11, 2019 at 14:17

Here is another solution

var arr = Array.apply( null, { length: 4 } );
arr;  // [undefined, undefined, undefined, undefined] (in Chrome)
arr.length; // 4

The first argument of apply() is a this object binding, which we don't care about here, so we set it to null.

Array.apply(..) is calling the Array(..) function and spreading out the { length: 3 } object value as its arguments.

  • 1
    I don't understand why this answer got a downvote. It's actually a nice hack. Meaning you can't use new Array(n) for initializing an array like this new Array(n).map(function(notUsed,index){...}), but with this approach, as @zangw mentioned, you can do it. +1 from me. Commented Sep 18, 2016 at 18:58
  • This is awesome and exactly what I've been looking for a whole 5 years after! kudos to you my friend. If you're wondering, I'm using this in react to render a certain number of children based on an int value that's passed in as a prop. Array.apply(null, { length: childrenLength }).map((notUsed, i) => (<div key={i} />)
    – George
    Commented Nov 11, 2020 at 17:09

Please people don't give up your old habits just yet. There is a large difference in speed between allocating memory once then working with the entries in that array (as of old), and allocating it many times as an array grows (which is inevitably what the system does under the hood with other suggested methods).

None of this matters of course, until you want to do something cool with larger arrays. Then it does.

Seeing as there still seems to be no option in JS at the moment to set the initial capacity of an array, I use the following...

var newArrayWithSize = function(size) {
  this.standard = this.standard||[];
  for (var add = size-this.standard.length; add>0; add--) {
   this.standard.push(undefined);// or whatever
  return this.standard.slice(0,size);

There are tradeoffs involved:

  • This method takes as long as the others for the first call to the function, but very little time for later calls (unless asking for a bigger array).
  • The standard array does permanently reserve as much space as the largest array you have asked for.

But if it fits with what you're doing there can be a payoff. Informal timing puts

for (var n=10000;n>0;n--) {var b = newArrayWithSize(10000);b[0]=0;}

at pretty speedy (about 50ms for the 10000 given that with n=1000000 it took about 5 seconds), and

for (var n=10000;n>0;n--) {
  var b = [];for (var add=10000;add>0;add--) {

at well over a minute (about 90 sec for the 10000 on the same chrome console, or about 2000 times slower). That won't just be the allocation, but also the 10000 pushes, for loop, etc..

  • if every time you reach to the end of the array you duplicates it, the complexity of inserting n values is still O(n) so there isn't difference in complexity (but it is slower). Commented Sep 24, 2018 at 8:43
  • Well caught @TomerWolberg, I have changed my wording. It's a matter of whether the push method has higher complexity than the initialisation/copy of an individual member by slice. AFAIK that they are both constant time, at the very least they could be so I've used the word 'speed' instead.
    – wils
    Commented Oct 26, 2018 at 1:13

(this was probably better as a comment, but got too long)

So, after reading this I was curious if pre-allocating was actually faster, because in theory it should be. However, this blog gave some tips advising against it http://www.html5rocks.com/en/tutorials/speed/v8/.

So still being unsure, I put it to the test. And as it turns out it seems to in fact be slower.

var time = Date.now();
var temp = [];
for(var i=0;i<100000;i++){

var time = Date.now();
var temp2 = new Array(100000);
for(var i=0;i<100000;i++){
    temp2[i] = i;

This code yields the following after a few casual runs:

$ node main.js 
$ node main.js 
$ node main.js 
$ node main.js 
$ node main.js 
  • 3
    Interesting, that seemed unexpected, so I made a JSPerf test. The Chrome results match your Node tests, but Firefox and IE are slightly faster when you pre-allocate space for the array. Commented Feb 26, 2014 at 15:24
  • 1
    @MichaelMartin-Smucker Wait... does this mean V8 isn't actually fully optimized and perfect?!?!? :P Commented Oct 6, 2014 at 23:38
  • 1
    @MichaelMartin-Smucker - I just ran your jsperf in Chrome Version 42.0.2311.90 (To be specific - Testing in Chrome 42.0.2311.90 32-bit on Windows Server 2008 R2 / 7 64-bit) and dynamically-sized array was 69% slower.
    – Yellen
    Commented Apr 30, 2015 at 6:45
  • 1
    Ditto. (I wrote the original node test) In chrome 42.0.2311.90 on windows dynamically sized was 81% slower :). But our original tests were over a year ago now. Time keeps on slippin, slippin....
    – j03m
    Commented Apr 30, 2015 at 13:44
  • 1
    Fascinating... from the results on jsperf it looks like pre-allocated got a huge boost in Chrome 38. The future! Commented Apr 30, 2015 at 15:37
var arr=[];
alert("length="+arr.length); // gives 6
  • 2
    Yes, however console.log(arr) gives [5: 0] this is a sparse array and probably not what is wanted.
    – dreftymac
    Commented Nov 19, 2014 at 17:07
  • To explain why you may not want a sparsed array as @dreftymac stated: A sparsed array (includes empty cells) can have unexpected behaviors. For example, if I ran the following code: js const foo = []; foo[10] = undefined; The value of foo is not [undefined, undefined undefined, ...] but [empty * 9, undefined]. If you tried to run any of the sequencial array methods (forEach, map, reduce), then you would realize that it doesn't actually iterate through the empty items. They are just dead space.
    – sno2
    Commented Dec 29, 2020 at 2:22

Assuming that Array's length is constant. In Javascript, This is what we do:

const intialArray = new Array(specify the value);


The array constructor has an ambiguous syntax, and JSLint just hurts your feelings after all.

Also, your example code is broken, the second var statement will raise a SyntaxError. You're setting the property length of the array test, so there's no need for another var.

As far as your options go, array.length is the only "clean" one. Question is, why do you need to set the size in the first place? Try to refactor your code to get rid of that dependency.

  • Woops, good eye on that second var test. That was some sloppy copy-and pasting on my part. Commented Jan 31, 2011 at 20:03
  • @IvoWetzel, you want to set the size to improve performance. JS arrays are dynamic arrays. If you don't set the size (or rather, it's capacity), JS will allocate a an array of default size. If you then add more elements than can fit, it will have to grow the array, which means that it internally will allocate a new array and then copy all elements.
    – Domi
    Commented Jan 4, 2014 at 12:01

In addition to the answers of others, another clever way is to use Float32Array to create an array and iterate on it.

For this purpose, create an instance from Float32Array with your desired length like this:

new Float32Array(5)

This code returns an array-like that you can convert it to an array with Array.from():

Array.from(new Float32Array(5)) // [0, 0, 0, 0, 0]

You can also use fill() to change the value of items:

Array.from(new Float32Array(5).fill(2)) // [2, 2, 2, 2, 2]

And of course you can iterate on it:

Array.from(new Float32Array(5)).map(item => /* ... */ )

Defining JavaScript Arrays and Array Entries

1. JavaScript Array Entries

JavaScript pretty much has 2 types of array entries, namely mappable and unmappable.

Both entry types are iterable, meaning they both work with the for-of loop.

2. JavaScript Arrays

A JavaScript array can contain both mappable and unmappable array entries.

To prove this I present the following code sample:

const a = (Array(1)).concat([...Array(1)]).concat(['literal']).concat(Array(1));

console.log('a:', a.length, a);
a: 4 [ <1 empty item>, undefined, 'literal', <1 empty item> ]

The same mostly works with the .push() method:

const b = (Array(1));


console.log('b:', b.length, b);
b: 4 [ <1 empty item>, undefined, 'literal', undefined ]

It also mostly works with the .unshift() method:

const c = (Array(1));


console.log('c:', c.length, c);
c: 4 [ undefined, 'literal', undefined, <1 empty item> ]

NOTE that spreading (...) an unmappable array produces a tuple of undefined entries, which is why I've said that the above mostly works the same as with the .concat() method.

Defining arrays initialized with unmappable array entries:

Empty-Item-Filled Arrays ( Length = Given ):

const myArray = Array(LENGTH);


const myArray = new Array(LENGTH);

console.log('myArray:', myArray.length, myArray);
myArray: LENGTH [ <LENGTH empty items> ]

Empty-Item here refers to the inherently unmappable type of entry that the Array() builtin fills arrays with.

NOTE that Array() and new Array() do the exact same thing in JavaScript. So, there really isn't a good reason to use the new keyword with the Array builtin.

Defining arrays initialized with mappable array entries:

1. Undefined-Filled Arrays ( Length = Given ):

const myArray = Array(LENGTH).fill();


const myArray = Array.from({ length: LENGTH });


const myArray = [...Array(LENGTH)];


const myArray = [...(new Array(LENGTH))];

console.log('myArray: ', myArray.length, myArray);
myArray: LENGTH [ undefined, undefined, ___ ]

The new Array() version is just mentioned here for completeness sake.

2. Surrogate-Filled Arrays ( Length = Given ):

const myArray = Array(LENGTH).fill(SURROGATE_VALUE);

console.log('myArray:', myArray.length, myArray);

The SURROGATE_VALUE is often chosen as 0 for mathematical use, but it can really be anything.

WARNING: As noted in earlier asnwers, the .fill() method doesn't copy the result passed to it. So, reference data types, like Object and Array, should NOT be used as SURROGATE_VALUEs.

If you need a deeply nested array, initialized with reference data types, like Object and Array, as entries, then it's best to start with a mappable array initialized with undefined entries and to .map() each undefined entry to a new instance of the needed reference data type.

3. Meaningfully-Filled Arrays ( Lenght = Implicit ):

const myArray = [SOME_VALUE_A, SOME_VALUE_B, ___];

console.log('myArray:', myArray.length, myArray);

Here the length of the array is implicit since it is equal to the number of meaningful entries you've initialized it with.

Defining Empty Arrays ( Lenght = 0 ):

const myArray = [];


const myArray = Array();


const myArray = new Array();

console.log('myArray: ', myArray.length, myArray);
myArray: 0 []

These arrays contain neither mappable nor unmappable entries since they are empty. So, they are classified separately to make it clear that it doesn't matter how you initialize an empty array.

Mapping Unmappable and Mappable Entries:

Unmappable entries stay the same, whilst mappable entries are mapped.

const a = (Array(1)).concat([...Array(1)]).concat(['literal']).concat(Array(1));

const m = a.map(() => true);

console.log('a:', a.length, a);
console.log('m:', m.length, m);
a: 4 [ <1 empty item>, undefined, 'literal', <1 empty item> ]
m: 4 [ <1 empty item>, true, true, <1 empty item> ]

As you can see, the empty-item or unmappable entries stay the same, whilst the mappable entries, which in the example include an entry of undefined and a string literal, are both mapped to the desired value.

Iterating over Unmappable and Mappable Entries:

const a = (Array(1)).concat([...Array(1)]).concat(['literal']).concat(Array(1));

for (let i = 0; i < a.length; i++) {
  console.log(i, a[i]);
0 undefined
1 undefined
2 literal
3 undefined

Similar to the spread operator (...) and with the .push() and .unshift() methods, empty-item entries take on the value of undefined when accessed via the array bracket accessor myArray[INDEX] notation.

The same holds true for for-of loops:

const a = (Array(1)).concat([...Array(1)]).concat(['literal']).concat(Array(1));

for (const entry of a) {

In most answers it is recommended to fill the array because otherwise "you can't iterate over it", but this is not true. You can iterate an empty array, just not with forEach. While loops, for of loops and for i loops work fine.

const count = Array(5);

Does not work.

console.log('---for each loop:---');
count.forEach((empty, index) => {
    console.log(`counting ${index}`);

These work:

console.log('---for of loop:---');
for (let [index, empty] of count.entries()) {
  console.log(`counting for of loop ${index}`);

console.log('---for i loop:---');
for (let i = 0, il = count.length; i < il; ++i) {
  console.log(`counting for i loop ${i}`);

console.log('---while loop:---');
let index = 0;
while (index < count.length) { 
  console.log(`counting while loop ${index}`); 

Check this fiddle with the above examples.

Also angulars *ngFor works fine with an empty array:

<li *ngFor="let empty of count; let i = index" [ngClass]="
  <span>Counting with *ngFor {{i}}</span>

You can set the array length by using array.length = youValue

So it would be

var myArray = [];
myArray.length = yourValue;

The reason you shouldn't use new Array is demonstrated by this code:

var Array = function () {};

var x = new Array(4);

alert(x.length);  // undefined...

Some other code could mess with the Array variable. I know it's a bit far fetched that anyone would write such code, but still...

Also, as Felix King said, the interface is a little inconsistent, and could lead to some very difficult-to-track-down bugs.

If you wanted an array with length = x, filled with undefined (as new Array(x) would do), you could do this:

var x = 4;
var myArray = [];
myArray[x - 1] = undefined;

alert(myArray.length); // 4
  • 55
    According to this reasoning you shouldn't use alert and undefined, because some other code could mess with them. The second example is less readable than new Array(4), and doesn't give you the same result: jsfiddle.net/73fKd Commented Dec 30, 2013 at 0:11
  • 30
    This answer is bizarre Commented Apr 14, 2015 at 9:25
  • 9
    You can't avoid people messing around with global objects in JavaScript; simply don't do that or use frameworks where people do that. Commented Apr 20, 2015 at 22:03
  • In the chrome repl currently: j = new Array(4); j.length; // results in 4
    – Parris
    Commented Jun 24, 2015 at 2:01

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