4009

In Java, you can use a for loop to traverse objects in an array as follows:

String[] myStringArray = {"Hello", "World"};
for (String s : myStringArray) {
    // Do something
}

Can I do the same in JavaScript?

10
  • 7
    Ok, so I'm a bit confused, it's ok to use the enhanced for loop when you are accessing the objects? And use a sequential one for filling one? Is this correct? Jun 10, 2010 at 0:15
  • 54
    no, it's really simple, array objects have numeric indexes, so you want to iterate over those indexes in the numeric order, a sequential loop ensures that, the enhanced for-in loop enumerates object properties, without an specific order, and it also enumerates inherited properties... for iterating over arrays sequential loops are always recommended... Jun 10, 2010 at 0:38
  • 7
    related - stackoverflow.com/questions/5349425/… Nov 1, 2011 at 17:53
  • 9
    jsben.ch/#/Q9oD5 <= Here a benchmark of a bunch of solutions for looping through arrays Nov 3, 2016 at 19:45
  • 13
    @CMS No, it's not really simple. It's really simple in every other language. It's ridiculously complex in JS, where you have in and of that can both be used and do different things. Then you also have forEach and the ugly and annoying index based looping. Every other modern language makes looping over a collection easy and straightforward with no surprises or confusion. JS could, too, but it doesn't.
    – jpmc26
    Oct 5, 2018 at 15:59

46 Answers 46

5176

Three main options:

  1. for (var i = 0; i < xs.length; i++) { console.log(xs[i]); }
  2. xs.forEach((x, i) => console.log(x));
  3. for (const x of xs) { console.log(x); }

Detailed examples are below.


1. Sequential for loop:

var myStringArray = ["Hello","World"];
var arrayLength = myStringArray.length;
for (var i = 0; i < arrayLength; i++) {
    console.log(myStringArray[i]);
    //Do something
}

Pros

  • Works on every environment
  • You can use break and continue flow control statements

Cons

  • Too verbose
  • Imperative
  • Easy to have off-by-one errors (sometimes also called a fence post error)

2. Array.prototype.forEach:

The ES5 specification introduced a lot of beneficial array methods. One of them, the Array.prototype.forEach, gave us a concise way to iterate over an array:

const array = ["one", "two", "three"]
array.forEach(function (item, index) {
  console.log(item, index);
});

Being almost ten years as the time of writing that the ES5 specification was released (Dec. 2009), it has been implemented by nearly all modern engines in the desktop, server, and mobile environments, so it's safe to use them.

And with the ES6 arrow function syntax, it's even more succinct:

array.forEach(item => console.log(item));

Arrow functions are also widely implemented unless you plan to support ancient platforms (e.g., Internet Explorer 11); you are also safe to go.

Pros

  • Very short and succinct.
  • Declarative

Cons

  • Cannot use break / continue

Normally, you can replace the need to break out of imperative loops by filtering the array elements before iterating them, for example:

array.filter(item => item.condition < 10)
     .forEach(item => console.log(item))

Keep in mind if you are iterating an array to build another array from it, you should use map. I've seen this anti-pattern so many times.

Anti-pattern:

const numbers = [1,2,3,4,5], doubled = [];

numbers.forEach((n, i) => { doubled[i] = n * 2 });

Proper use case of map:

const numbers = [1,2,3,4,5];
const doubled = numbers.map(n => n * 2);

console.log(doubled);

Also, if you are trying to reduce the array to a value, for example, you want to sum an array of numbers, you should use the reduce method.

Anti-pattern:

const numbers = [1,2,3,4,5];
const sum = 0;
numbers.forEach(num => { sum += num });

Proper use of reduce:

const numbers = [1,2,3,4,5];
const sum = numbers.reduce((total, n) => total + n, 0);

console.log(sum);

3. ES6 for-of statement:

The ES6 standard introduces the concept of iterable objects and defines a new construct for traversing data, the for...of statement.

This statement works for any kind of iterable object and also for generators (any object that has a \[Symbol.iterator\] property).

Array objects are by definition built-in iterables in ES6, so you can use this statement on them:

let colors = ['red', 'green', 'blue'];
for (const color of colors){
    console.log(color);
}

Pros

  • It can iterate over a large variety of objects.
  • Can use normal flow control statements (break / continue).
  • Useful to iterate serially asynchronous values.

Cons

Do not use for...in

@zipcodeman suggests the use of the for...in statement, but for iterating arrays for-in should be avoided, that statement is meant to enumerate object properties.

It shouldn't be used for array-like objects because:

  • The order of iteration is not guaranteed; the array indexes may not be visited in numeric order.
  • Inherited properties are also enumerated.

The second point is that it can give you a lot of problems, for example, if you extend the Array.prototype object to include a method there, that property will also be enumerated.

For example:

Array.prototype.foo = "foo!";
var array = ['a', 'b', 'c'];

for (var i in array) {
    console.log(array[i]);
}

The above code will console log "a", "b", "c", and "foo!".

That can be particularly a problem if you use some library that relies heavily on native prototypes augmentation (such as MooTools).

The for-in statement, as I said before, is there to enumerate object properties, for example:

var obj = {
    "a": 1,
    "b": 2,
    "c": 3
};

for (var prop in obj) {
    if (obj.hasOwnProperty(prop)) {
        // or if (Object.prototype.hasOwnProperty.call(obj,prop)) for safety...
        console.log("prop: " + prop + " value: " + obj[prop])
    }
}

In the above example, the hasOwnProperty method allows you to enumerate only own properties. That's it, only the properties that the object physically has, no inherited properties.

I would recommend you to read the following article:

13
  • 13
    I know this answer predates async and Promises, but I feel this is worth mentioning in any conversation pertaining to modern JavaScript: "forEach does not wait for promises. Make sure you are aware of the implications while using promises (or async functions) as forEach callback." (developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/…)
    – bmaupin
    Jun 15, 2021 at 11:41
  • 8
    con of es6 for-of: can't get the current index
    – Vic
    Sep 9, 2021 at 1:13
  • 1
    @Vic you can, but it's not straightforward. Feb 16, 2022 at 18:23
  • 4
    For reference, this is how to get the current index as you loop. I personally find this pretty straightforwards. for (const [i, x] of yourArray.entries()) { ... }. May 14, 2022 at 16:28
  • 2
    For those looking at this answer and wondering whether they should choose forEach() of for-of, I would just recommend using for-of. for-of is the newer looping syntax that entirely replaces the need for forEach. There isn't anything that for-of offers that forEach does not, but the inverse isn't true. May 14, 2022 at 16:32
1203
+50

Yes, assuming your implementation includes the for...of feature introduced in ECMAScript 2015 (the "Harmony" release)... which is a pretty safe assumption these days.

It works like this:

// REQUIRES ECMASCRIPT 2015+
var s, myStringArray = ["Hello", "World"];
for (s of myStringArray) {
  // ... do something with s ...
}

Or better yet, since ECMAScript 2015 also provides block-scoped variables:

// REQUIRES ECMASCRIPT 2015+
const myStringArray = ["Hello", "World"];
for (const s of myStringArray) {
  // ... do something with s ...
}
// s is no longer defined here

(The variable s is different on each iteration, but can still be declared const inside the loop body as long as it isn't modified there.)

A note on sparse arrays: an array in JavaScript may not actually store as many items as reported by its length; that number is simply one greater than the highest index at which a value is stored. If the array holds fewer elements than indicated by its length, its said to be sparse. For example, it's perfectly legitimate to have an array with items only at indexes 3, 12, and 247; the length of such an array is 248, though it is only actually storing 3 values. If you try to access an item at any other index, the array will appear to have the undefined value there, but the array is nonetheless is distinct from one that actually has undefined values stored. You can see this difference in a number of ways, for example in the way the Node REPL displays arrays:

> a              // array with only one item, at index 12
[ <12 empty items>, 1 ]
> a[0]           // appears to have undefined at index 0
undefined
> a[0]=undefined // but if we put an actual undefined there
undefined
> a              // it now looks like this
[ undefined, <11 empty items>, 1 ]

So when you want to "loop through" an array, you have a question to answer: do you want to loop over the full range indicated by its length and process undefineds for any missing elements, or do you only want to process the elements actually present? There are plenty of applications for both approaches; it just depends on what you're using the array for.

If you iterate over an array with for..of, the body of the loop is executed length times, and the loop control variable is set to undefined for any items not actually present in the array. Depending on the details of your "do something with" code, that behavior may be what you want, but if not, you should use a different approach.

Of course, some developers have no choice but to use a different approach anyway, because for whatever reason they're targeting a version of JavaScript that doesn't yet support for...of.

As long as your JavaScript implementation is compliant with the previous edition of the ECMAScript specification (which rules out, for example, versions of Internet Explorer before 9), then you can use the Array#forEach iterator method instead of a loop. In that case, you pass a function to be called on each item in the array:

var myStringArray = [ "Hello", "World" ];
myStringArray.forEach( function(s) { 
     // ... do something with s ...
} );

You can of course use an arrow function if your implementation supports ES6+:

myStringArray.forEach( s => { 
     // ... do something with s ...
} );

Unlike for...of, .forEach only calls the function for elements that are actually present in the array. If passed our hypothetical array with three elements and a length of 248, it will only call the function three times, not 248 times. If this is how you want to handle sparse arrays, .forEach may be the way to go even if your interpreter supports for...of.

The final option, which works in all versions of JavaScript, is an explicit counting loop. You simply count from 0 up to one less than the length and use the counter as an index. The basic loop looks like this:

var i, s, myStringArray = [ "Hello", "World" ], len = myStringArray.length;
for (i=0; i<len; ++i) {
  s = myStringArray[i];
  // ... do something with s ...
}

One advantage of this approach is that you can choose how to handle sparse arrays. The above code will run the body of the loop the full length times, with s set to undefined for any missing elements, just like for..of; if you instead want to handle only the actually-present elements of a sparse array, like .forEach, you can add a simple in test on the index:

var i, s, myStringArray = [ "Hello", "World" ], len = myStringArray.length;
for (i=0; i<len; ++i) {
  if (i in myStringArray) {
    s = myStringArray[i];
    // ... do something with s ...
  }
}

Depending on your implementation's optimizations, assigning the length value to the local variable (as opposed to including the full myStringArray.length expression in the loop condition) can make a significant difference in performance since it skips a property lookup each time through. You may see the length caching done in the loop initialization clause, like this:

var i, len, myStringArray = [ "Hello", "World" ];
for (len = myStringArray.length, i=0; i<len; ++i) {

The explicit counting loop also means you have access to the index of each value, should you want it. The index is also passed as an extra parameter to the function you pass to forEach, so you can access it that way as well:

myStringArray.forEach( (s,i) => {
   // ... do something with s and i ...
});

for...of doesn't give you the index associated with each object, but as long as the object you're iterating over is actually an instance of Array (and not one of the other iterable types for..of works on), you can use the Array#entries method to change it to an array of [index, item] pairs, and then iterate over that:

for (const [i, s] of myStringArray.entries()) {
  // ... do something with s and i ...
}

The for...in syntax mentioned by others is for looping over an object's properties; since an Array in JavaScript is just an object with numeric property names (and an automatically-updated length property), you can theoretically loop over an Array with it. But the problem is that it doesn't restrict itself to the numeric property values (remember that even methods are actually just properties whose value is a closure), nor is it guaranteed to iterate over those in numeric order. Therefore, the for...in syntax should not be used for looping through Arrays.

1
  • 24
    Note that some interpreters (e.g. V8) will automatically cache the length of the array if the code is called enough times and it detects that the length is not modified by the loop. While caching the length is still nice, it may not provide a speed boost when your code is being invoked enough times to actually make a difference.
    – Phrogz
    Jun 4, 2012 at 16:29
453

You can use map, which is a functional programming technique that's also available in other languages like Python and Haskell.

[1,2,3,4].map( function(item) {
     alert(item);
})

The general syntax is:

array.map(func)

In general func would take one parameter, which is an item of the array. But in the case of JavaScript, it can take a second parameter which is the item's index, and a third parameter which is the array itself.

The return value of array.map is another array, so you can use it like this:

var x = [1,2,3,4].map( function(item) {return item * 10;});

And now x is [10,20,30,40].

You don't have to write the function inline. It could be a separate function.

var item_processor = function(item) {
      // Do something complicated to an item
}

new_list = my_list.map(item_processor);

which would be sort-of equivalent to:

 for (item in my_list) {item_processor(item);}

Except you don't get the new_list.

3
  • 104
    That particular example is probably better implemented using Array.forEach. map is for generating a new array.
    – harto
    Jun 10, 2010 at 0:20
  • 21
    @hasen, the Array.prototype.map method is part of the ECMAScript 5th Edition Standard, is not yet available on all implementations (e.g. IE lacks of it), also for iterating over an array I think the Array.prototype.forEach method is more semantically correct... also please don't suggest the for-in statement, see my answer for more details :) Jun 10, 2010 at 0:30
  • @ChristianC.Salvadó This question now contains replies saying that ES5 cannot be relied upon and answers that use ES6 arrow notation. Are you even still on the platform? When did we get so old? 🥲
    – kdb
    Mar 8 at 9:55
142

for (const s of myStringArray) {

(Directly answering your question: now you can!)

Most other answers are right, but they do not mention (as of this writing) that ECMAScript  6  2015 is bringing a new mechanism for doing iteration, the for..of loop.

This new syntax is the most elegant way to iterate an array in JavaScript (as long you don't need the iteration index).

It currently works with Firefox 13+, Chrome 37+ and it does not natively work with other browsers (see browser compatibility below). Luckily we have JavaScript compilers (such as Babel) that allow us to use next-generation features today.

It also works on Node.js (I tested it on version 0.12.0).

Iterating an array

// You could also use "let" or "const" instead of "var" for block scope.
for (var letter of ["a", "b", "c"]) {
   console.log(letter);
}

Iterating an array of objects

const band = [
  {firstName : 'John', lastName: 'Lennon'},
  {firstName : 'Paul', lastName: 'McCartney'}
];

for(const member of band){
  console.log(member.firstName + ' ' + member.lastName);
}

Iterating a generator:

(example extracted from https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Statements/for...of)

function* fibonacci() { // A generator function
  let [prev, curr] = [1, 1];
  while (true) {
    [prev, curr] = [curr, prev + curr];
    yield curr;
  }
}

for (const n of fibonacci()) {
  console.log(n);
  // Truncate the sequence at 1000
  if (n >= 1000) {
    break;
  }
}

Compatibility table: http://kangax.github.io/compat-table/es6/#test-for..of_loops

Specification: http://wiki.ecmascript.org/doku.php?id=harmony:iterators

}

0
132

In JavaScript it's not advisable to loop through an Array with a for-in loop, but it's better to use a for loop such as:

for(var i=0, len=myArray.length; i < len; i++){}

It's optimized as well ("caching" the array length). If you'd like to learn more, read my post on the subject.

0
102

6 different methods to loop through the array

You can loop through an array by many different methods. I have sorted my 6 favorite methods from top to bottom.

1. Using JavaScript for loop

When it's to simply loop through an array, the for loop is my first choice.

let array = [1, 2, 3, 4, 5];
for (let i = 0; i < array.length; i++) {
  console.log(array[i]);
}

2. Using forEach loop

forEach loop is a modern way to loop through the array. Also, it gives more flexibility and control over the array and elements.

let array = [1, 2, 3, 4, 5];
array.forEach((element) => {
  console.log(element);
});

3. Using for...of

for...of loop gives you direct access to the array elements.

let array = [1, 2, 3, 4, 5];
for (let element of array) {
  console.log(element);
}

4. Using for...in loop

for...in gives you a key using which you can access array elements.

let array = [1, 2, 3, 4, 5];
for(let index in array){
  console.log(array[index]);
}

5. Using while loop

while loop is can be used to loop through the array as well.

let array = [1, 2, 3, 4, 5];
let length = array.length;
while(length > 0){
  console.log(array[array.length - length]);
  length--;
}

6. Using do...while loop

Likewise, I use do...while loop

let array = [1, 2, 3, 4, 5];
let length = array.length;
do {
  console.log(array[array.length - length]);
  length--;
}
while (length > 0)

94

Opera, Safari, Firefox and Chrome now all share a set of enhanced Array methods for optimizing many common loops.

You may not need all of them, but they can be very useful, or would be if every browser supported them.

Mozilla Labs published the algorithms they and WebKit both use, so that you can add them yourself.

filter returns an array of items that satisfy some condition or test.

every returns true if every array member passes the test.

some returns true if any pass the test.

forEach runs a function on each array member and doesn't return anything.

map is like forEach, but it returns an array of the results of the operation for each element.

These methods all take a function for their first argument and have an optional second argument, which is an object whose scope you want to impose on the array members as they loop through the function.

Ignore it until you need it.

indexOf and lastIndexOf find the appropriate position of the first or last element that matches its argument exactly.

(function(){
    var p, ap= Array.prototype, p2={
        filter: function(fun, scope){
            var L= this.length, A= [], i= 0, val;
            if(typeof fun== 'function'){
                while(i< L){
                    if(i in this){
                        val= this[i];
                        if(fun.call(scope, val, i, this)){
                            A[A.length]= val;
                        }
                    }
                    ++i;
                }
            }
            return A;
        },
        every: function(fun, scope){
            var L= this.length, i= 0;
            if(typeof fun== 'function'){
                while(i<L){
                    if(i in this && !fun.call(scope, this[i], i, this))
                        return false;
                    ++i;
                }
                return true;
            }
            return null;
        },
        forEach: function(fun, scope){
            var L= this.length, i= 0;
            if(typeof fun== 'function'){
                while(i< L){
                    if(i in this){
                        fun.call(scope, this[i], i, this);
                    }
                    ++i;
                }
            }
            return this;
        },
        indexOf: function(what, i){
            i= i || 0;
            var L= this.length;
            while(i< L){
                if(this[i]=== what)
                    return i;
                ++i;
            }
            return -1;
        },
        lastIndexOf: function(what, i){
            var L= this.length;
            i= i || L-1;
            if(isNaN(i) || i>= L)
                i= L-1;
            else
                if(i< 0) i += L;
            while(i> -1){
                if(this[i]=== what)
                    return i;
                --i;
            }
            return -1;
        },
        map: function(fun, scope){
            var L= this.length, A= Array(this.length), i= 0, val;
            if(typeof fun== 'function'){
                while(i< L){
                    if(i in this){
                        A[i]= fun.call(scope, this[i], i, this);
                    }
                    ++i;
                }
                return A;
            }
        },
        some: function(fun, scope){
            var i= 0, L= this.length;
            if(typeof fun== 'function'){
                while(i<L){
                    if(i in this && fun.call(scope, this[i], i, this))
                        return true;
                    ++i;
                }
                return false;
            }
        }
    }
    for(p in p2){
        if(!ap[p])
            ap[p]= p2[p];
    }
    return true;
})();
0
83

Introduction

Since my time in college, I've programmed in Java, JavaScript, Pascal, ABAP, PHP, Progress 4GL, C/C++ and possibly a few other languages I can't think of right now.

While they all have their own linguistic idiosyncrasies, each of these languages share many of the same basic concepts. Such concepts include procedures / functions, IF-statements, FOR-loops, and WHILE-loops.


A traditional for-loop

A traditional for loop has three components:

  1. The initialization: executed before the look block is executed the first time
  2. The condition: checks a condition every time before the loop block is executed, and quits the loop if false
  3. The afterthought: performed every time after the loop block is executed

These three components are separated from each other by a ; symbol. Content for each of these three components is optional, which means that the following is the most minimal for loop possible:

for (;;) {
    // Do stuff
}

Of course, you will need to include an if(condition === true) { break; } or an if(condition === true) { return; } somewhere inside that for-loop to get it to stop running.

Usually, though, the initialization is used to declare an index, the condition is used to compare that index with a minimum or maximum value, and the afterthought is used to increment the index:

for (var i = 0, length = 10; i < length; i++) {
    console.log(i);
}

Using a traditional for loop to loop through an array

The traditional way to loop through an array, is this:

for (var i = 0, length = myArray.length; i < length; i++) {
    console.log(myArray[i]);
}

Or, if you prefer to loop backwards, you do this:

for (var i = myArray.length - 1; i > -1; i--) {
    console.log(myArray[i]);
}

There are, however, many variations possible, like for example this one:

for (var key = 0, value = myArray[key], length = myArray.length; key < length; value = myArray[++key]) {
    console.log(value);
}

...or this one...

var i = 0, length = myArray.length;
for (; i < length;) {
    console.log(myArray[i]);
    i++;
}

...or this one:

var key = 0, value;
for (; value = myArray[key++];){
    console.log(value);
}

Whichever works best is largely a matter of both personal taste and the specific use case you're implementing.

Note that each of these variations is supported by all browsers, including very very old ones!


A while loop

One alternative to a for loop is a while loop. To loop through an array, you could do this:

var key = 0;
while(value = myArray[key++]){
    console.log(value);
}

Like traditional for loops, while loops are supported by even the oldest of browsers.

Also, note that every while loop can be rewritten as a for loop. For example, the while loop hereabove behaves the exact same way as this for-loop:

for(var key = 0; value = myArray[key++];){
    console.log(value);
}

For...in and for...of

In JavaScript, you can also do this:

for (i in myArray) {
    console.log(myArray[i]);
}

This should be used with care, however, as it doesn't behave the same as a traditional for loop in all cases, and there are potential side-effects that need to be considered. See Why is using "for...in" for array iteration a bad idea? for more details.

As an alternative to for...in, there's now also for for...of. The following example shows the difference between a for...of loop and a for...in loop:

var myArray = [3, 5, 7];
myArray.foo = "hello";

for (var i in myArray) {
  console.log(i); // logs 0, 1, 2, "foo"
}

for (var i of myArray) {
  console.log(i); // logs 3, 5, 7
}

Additionally, you need to consider that no version of Internet Explorer supports for...of (Edge 12+ does) and that for...in requires at least Internet Explorer 10.


Array.prototype.forEach()

An alternative to for-loops is Array.prototype.forEach(), which uses the following syntax:

myArray.forEach(function(value, key, myArray) {
    console.log(value);
});

Array.prototype.forEach() is supported by all modern browsers, as well as Internet Explorer 9 and later.


Libraries

Finally, many utility libraries also have their own foreach variation. AFAIK, the three most popular ones are these:

jQuery.each(), in jQuery:

$.each(myArray, function(key, value) {
    console.log(value);
});

_.each(), in Underscore.js:

_.each(myArray, function(value, key, myArray) {
    console.log(value);
});

_.forEach(), in Lodash:

_.forEach(myArray, function(value, key) {
    console.log(value);
});
70

Use the while loop...

var i = 0, item, items = ['one', 'two', 'three'];
while(item = items[i++]){
    console.log(item);
}

It logs: 'one', 'two', and 'three'

And for the reverse order, an even more efficient loop:

var items = ['one', 'two', 'three'], i = items.length;
while(i--){
    console.log(items[i]);
}

It logs: 'three', 'two', and 'one'

Or the classical for loop:

var items = ['one', 'two', 'three']
for(var i=0, l = items.length; i < l; i++){
    console.log(items[i]);
}

It logs: 'one','two','three'

Reference: Google Closure: How not to write JavaScript

2
  • 21
    The first example of the "while" syntax won't work if any of the array elements is falsy. Apr 16, 2012 at 14:42
  • 2
    ... and this while loop is equivalent to: for (var i=0,item; item=items[i]; i++) , which takes away the need to declare the index and item variables beforehand... Mar 31, 2013 at 19:09
40

If you want a terse way to write a fast loop and you can iterate in reverse:

for (var i=myArray.length;i--;){
  var item=myArray[i];
}

This has the benefit of caching the length (similar to for (var i=0, len=myArray.length; i<len; ++i) and unlike for (var i=0; i<myArray.length; ++i)) while being fewer characters to type.

There are even some times when you ought to iterate in reverse, such as when iterating over a live NodeList where you plan on removing items from the DOM during iteration.

2
  • 16
    For the people that don't get what is so ingenious: The i-- expression is first evaluated and allows the loop to continue when it's not falsish... Afterwards the counter is decremented. As soon as i becomes zero it will break out of the loop as zero is a falsish value in Javascript. Mar 1, 2013 at 12:09
  • 5
    falsish? You mean falsey. Let's all stick the proper terminology to avoid confusion ;)
    – danwellman
    Apr 27, 2013 at 7:33
40

Some use cases of looping through an array in the functional programming way in JavaScript:

1. Just loop through an array

const myArray = [{x:100}, {x:200}, {x:300}];

myArray.forEach((element, index, array) => {
    console.log(element.x); // 100, 200, 300
    console.log(index); // 0, 1, 2
    console.log(array); // same myArray object 3 times
});

Note: Array.prototype.forEach() is not a functional way strictly speaking, as the function it takes as the input parameter is not supposed to return a value, which thus cannot be regarded as a pure function.

2. Check if any of the elements in an array pass a test

const people = [
    {name: 'John', age: 23}, 
    {name: 'Andrew', age: 3}, 
    {name: 'Peter', age: 8}, 
    {name: 'Hanna', age: 14}, 
    {name: 'Adam', age: 37}];

const anyAdult = people.some(person => person.age >= 18);
console.log(anyAdult); // true

3. Transform to a new array

const myArray = [{x:100}, {x:200}, {x:300}];

const newArray= myArray.map(element => element.x);
console.log(newArray); // [100, 200, 300]

Note: The map() method creates a new array with the results of calling a provided function on every element in the calling array.

4. Sum up a particular property, and calculate its average

const myArray = [{x:100}, {x:200}, {x:300}];

const sum = myArray.map(element => element.x).reduce((a, b) => a + b, 0);
console.log(sum); // 600 = 0 + 100 + 200 + 300

const average = sum / myArray.length;
console.log(average); // 200

5. Create a new array based on the original but without modifying it

const myArray = [{x:100}, {x:200}, {x:300}];

const newArray= myArray.map(element => {
    return {
        ...element,
        x: element.x * 2
    };
});

console.log(myArray); // [100, 200, 300]
console.log(newArray); // [200, 400, 600]

6. Count the number of each category

const people = [
    {name: 'John', group: 'A'}, 
    {name: 'Andrew', group: 'C'}, 
    {name: 'Peter', group: 'A'}, 
    {name: 'James', group: 'B'}, 
    {name: 'Hanna', group: 'A'}, 
    {name: 'Adam', group: 'B'}];

const groupInfo = people.reduce((groups, person) => {
    const {A = 0, B = 0, C = 0} = groups;
    if (person.group === 'A') {
        return {...groups, A: A + 1};
    } else if (person.group === 'B') {
        return {...groups, B: B + 1};
    } else {
        return {...groups, C: C + 1};
    }
}, {});

console.log(groupInfo); // {A: 3, C: 1, B: 2}

7. Retrieve a subset of an array based on particular criteria

const myArray = [{x:100}, {x:200}, {x:300}];

const newArray = myArray.filter(element => element.x > 250);
console.log(newArray); // [{x:300}] 

Note: The filter() method creates a new array with all elements that pass the test implemented by the provided function.

8. Sort an array

const people = [
  { name: "John", age: 21 },
  { name: "Peter", age: 31 },
  { name: "Andrew", age: 29 },
  { name: "Thomas", age: 25 }
];

let sortByAge = people.sort(function (p1, p2) {
  return p1.age - p2.age;
});

console.log(sortByAge);

enter image description here

9. Find an element in an array

const people = [ {name: "john", age:23},
                {name: "john", age:43},
                {name: "jim", age:101},
                {name: "bob", age:67} ];

const john = people.find(person => person.name === 'john');
console.log(john);

enter image description here

The Array.prototype.find() method returns the value of the first element in the array that satisfies the provided testing function.

References

0
37

Yes, you can do the same in JavaScript using a loop, but not limited to that. There are many ways to do a loop over arrays in JavaScript. Imagine you have this array below, and you'd like to do a loop over it:

var arr = [1, 2, 3, 4, 5];

These are the solutions:

1) For loop

A for loop is a common way looping through arrays in JavaScript, but it is no considered as the fastest solutions for large arrays:

for (var i=0, l=arr.length; i<l; i++) {
  console.log(arr[i]);
}

2) While loop

A while loop is considered as the fastest way to loop through long arrays, but it is usually less used in the JavaScript code:

let i=0;

while (arr.length>i) {
    console.log(arr[i]);
    i++;
}

3) Do while
A do while is doing the same thing as while with some syntax difference as below:

let i=0;
do {
  console.log(arr[i]);
  i++;
}
while (arr.length>i);

These are the main ways to do JavaScript loops, but there are a few more ways to do that.

Also we use a for in loop for looping over objects in JavaScript.

Also look at the map(), filter(), reduce(), etc. functions on an Array in JavaScript. They may do things much faster and better than using while and for.

This is a good article if you like to learn more about the asynchronous functions over arrays in JavaScript.

Functional programming has been making quite a splash in the development world these days. And for good reason: Functional techniques can help you write more declarative code that is easier to understand at a glance, refactor, and test.

One of the cornerstones of functional programming is its special use of lists and list operations. And those things are exactly what the sound like they are: arrays of things, and the stuff you do to them. But the functional mindset treats them a bit differently than you might expect.

This article will take a close look at what I like to call the "big three" list operations: map, filter, and reduce. Wrapping your head around these three functions is an important step towards being able to write clean functional code, and opens the doors to the vastly powerful techniques of functional and reactive programming.

It also means you'll never have to write a for loop again.

Read more>> here:

0
31

There is a way to do it where you have very little implicit scope in your loop and do away with extra variables.

var i = 0,
     item;

// Note this is weak to sparse arrays or falsey values
for ( ; item = myStringArray[i++] ; ){
    item; // This is the string at the index.
}

Or if you really want to get the id and have a really classical for loop:

var i = 0,
    len = myStringArray.length; // Cache the length

for ( ; i < len ; i++ ){
    myStringArray[i]; // Don't use this if you plan on changing the length of the array
}

Modern browsers all support iterator methods forEach, map, reduce, filter and a host of other methods on the Array prototype.

6
  • 3
    Note that some interpreters (e.g. V8) will automatically cache the length of the array if the code is called enough times and it detects that the length is not modified by the loop.
    – Phrogz
    Jun 4, 2012 at 16:28
  • Thanks for the info @Phrogz it's true that there is a lot of optimizations that the VM can make, but since older browsers don't have this it would still be best practice to optimize for it since it is so cheap.
    – Gabriel
    Jun 26, 2012 at 1:43
  • 1
    @Gabriel: Why? Please give real-world examples showing that not caching the length is actually a performance bottleneck. I follow the 'premature optimization is the root of all evil' approach. I will fix that one loop that actually poses a problem once I encounter it... Mar 31, 2013 at 19:06
  • 1
    @StijndeWitt imo it is just a stylistic issue. Honestly I no longer even use for loops instead relying on underscore for things like _.each, _.map etc. to do these things. When I did write loops like this I cached the length primarily so that all my variable declaration were in one place, at the top of my function. Following my advice in this regard is inconsequential to any real world application. Premature optimization is super bad, but if optimization happens to result from stylistic decisions I don't think it actually matters.
    – Gabriel
    Apr 4, 2013 at 17:15
  • 1
    @Gabriel I believe JavaScript already supports the map function on arrays, no need to introduce an additional lib for that.
    – Noz
    Jul 30, 2014 at 18:14
29

There are various way to loop through array in JavaScript.

Generic loop:

var i;
for (i = 0; i < substr.length; ++i) {
    // Do something with `substr[i]`
}

ES5's forEach:

substr.forEach(function(item) {
    // Do something with `item`
});

jQuery.each:

jQuery.each(substr, function(index, item) {
    // Do something with `item` (or `this` is also `item` if you like)
});

Have a look this for detailed information or you can also check MDN for looping through an array in JavaScript & using jQuery check jQuery for each.

0
29

Array loop:

for(var i = 0; i < things.length; i++){
    var thing = things[i];
    console.log(thing);
}

Object loop:

for(var prop in obj){
    var propValue = obj[prop];
    console.log(propValue);
}
29

I would thoroughly recommend making use of the Underscore.js library. It provides you with various functions that you can use to iterate over arrays/collections.

For instance:

_.each([1, 2, 3], function(num){ alert(num); });
=> alerts each number in turn...
2
  • 7
    For new discoverers of this question, I'd just like to point out Lo-Dash, a spiritual successor of Underscore's that improves upon it in many ways.
    – Mark Reed
    Oct 11, 2013 at 10:59
  • 3
    Why use underscore if ECMA-262 has been added the forEach methor. The native code is always better. Jun 23, 2015 at 23:32
27

If anybody is interested in the performance side of the multiple mechanisms available for Array iterations, I've prepared the following JSPerf tests:

https://jsperf.com/fastest-array-iterator

Performance results

Results:

The traditional for() iterator, is by far the fastest method, especially when used with the array length cached.

let arr = [1,2,3,4,5];

for(let i=0, size=arr.length; i<size; i++){
    // Do something
}

The Array.prototype.forEach() and the Array.prototype.map() methods are the slowest approximations, probably as a consequence of the function call overhead.

4
  • is better use i = i +1 instead of i++ Dec 10, 2018 at 18:19
  • 2
    Could be improved: Please use: ++i instead of i++, this will avoid an temporary object. So it reduces memory usage and cpu time (no allocation required)!
    – PowerStat
    May 17, 2019 at 10:05
  • @PowerStat can you provide a link or reference about that ? I've never aheard about it, sounds interesting...
    – colxi
    May 17, 2019 at 13:23
  • 1
    @colxi For such interesting things you should read the hardcore C++ stuff from Herb Sutter and Scott Meyers. The ++i vs i++ thing is from the book: Exceptional C++: 47 Engineering Puzzles, Programming Problems, and Solutions - I thing you could also find it on gotw.ca but can be proved for every programing language.
    – PowerStat
    May 17, 2019 at 17:44
22

I did not yet see this variation, which I personally like the best:

Given an array:

var someArray = ["some", "example", "array"];

You can loop over it without ever accessing the length property:

for (var i=0, item; item=someArray[i]; i++) {
  // item is "some", then "example", then "array"
  // i is the index of item in the array
  alert("someArray[" + i + "]: " + item);
}

See this JsFiddle demonstrating that: http://jsfiddle.net/prvzk/

This only works for arrays that are not sparse. Meaning that there actually is a value at each index in the array. However, I found that in practice I hardly ever use sparse arrays in JavaScript... In such cases it's usually a lot easier to use an object as a map/hashtable. If you do have a sparse array, and want to loop over 0 .. length-1, you need the for (var i=0; i<someArray.length; ++i) construct, but you still need an if inside the loop to check whether the element at the current index is actually defined.

Also, as CMS mentions in a comment below, you can only use this on arrays that don't contain any falsish values. The array of strings from the example works, but if you have empty strings, or numbers that are 0 or NaN, etc. the loop will break off prematurely. Again in practice this is hardly ever a problem for me, but it is something to keep in mind, which makes this a loop to think about before you use it... That may disqualify it for some people :)

What I like about this loop is:

  • It's short to write
  • No need to access (let alone cache) the length property
  • The item to access is automatically defined within the loop body under the name you pick.
  • Combines very naturally with array.push and array.splice to use arrays like lists/stacks

The reason this works is that the array specification mandates that when you read an item from an index >= the array's length, it will return undefined. When you write to such a location it will actually update the length.

For me, this construct most closely emulates the Java 5 syntax that I love:

for (String item : someArray) {
}

... with the added benefit of also knowing about the current index inside the loop

2
  • 14
    Notice that with this approach the loop will stop as soon it finds a falsey value, such as an empty string, 0, false, NaN, null or undefined, even before i reaches the length, e.g.: jsfiddle.net/prvzk/1 Feb 28, 2013 at 18:31
  • 3
    The loop condition could be (item=someArray[i]) !== undefined.
    – daniel1426
    Mar 20, 2014 at 14:17
21

If you're using the jQuery library, consider using http://api.jquery.com/jQuery.each/

From the documentation:

jQuery.each( collection, callback(indexInArray, valueOfElement) )

Returns: Object

Description: A generic iterator function, which can be used to seamlessly iterate over both objects and arrays. Arrays and array-like objects with a length property (such as a function's arguments object) are iterated by numeric index, from 0 to length-1. Other objects are iterated via their named properties.

The $.each() function is not the same as $(selector).each(), which is used to iterate, exclusively, over a jQuery object. The $.each() function can be used to iterate over any collection, whether it is a map (JavaScript object) or an array. In the case of an array, the callback is passed an array index and a corresponding array value each time. (The value can also be accessed through the this keyword, but Javascript will always wrap the this value as an Object even if it is a simple string or number value.) The method returns its first argument, the object that was iterated.

2
  • 6
    Agreed with Exception. Do not underestimate the impact of extra dependencies. I would advice against this except in code that is already heavily using jQuery anyway. Mar 31, 2013 at 19:04
  • 2
    Update: These days, you can use Array.forEach to get much of the same effect with native arrays. Jun 5, 2017 at 10:50
21

There are 4 ways of array iteration:

// 1: for

for (let i = 0; i < arr.length; ++i) {
  console.log(arr[i]);
}

// 2: forEach

arr.forEach((v, i) => console.log(v));

// 3: for in

for (let i in arr) {
  console.log(arr[i]);
}

// 4: for of

for (const v of arr) {
  console.log(v);
}

Summary: 1 and 3 solutions create extra variable, 2 - create extra function context. The best way is 4th - "for of".

2
  • 2
    do you care to elaborate why 4 "for of" is the best over the others
    – YesItsMe
    Aug 3, 2021 at 2:04
  • 1
    It doesn't create needless variables or function context. But if you don't care about small disadvantages you can use any of them, what is more comfortable for you. @YesItsMe Thank you for the question. Aug 3, 2021 at 9:39
21

Esoteric

let a= ["Hello", "World"];

while(a.length) { console.log( a.shift() ); }

Performance test

Today (2022-11-13) I perform a test on Chrome 107, Safari 15.2 and Firefox 106 on chosen solutions.

Conclusions

  • solutions C and D are fast or fastest on all browsers for all arrays.
  • solution A and B are slowest on all browsers for all arrays

Results

enter image description here

Details

I perform 3 tests:

  • small - for 2 elements array (like OP) - you can run it here
  • medium - for 10K elements array and - you can run it here
  • big - for 100K elements array - you can run it here

The below snippet presents code used in the test.

function A(a) {
  let r=0;
  while(a.length) r+= a.shift().length;
  return r;
}

function B(a) {
  let r=0;
  for(i in a) r+= a[i].length;
  return r;
}

function C(a) {
  let r=0;
  for(x of a) r+= x.length;
  return r;
}

function D(a) {
  let r=0;
  for (i=0; i<a.length; ++i) r+= a[i].length;
  return r;

}

function E(a) {
  let r=0;
  a.forEach(x=> r+= x.length);
  return r;
}

let arr= ["Hello", "World!"];
[A,B,C,D,E].forEach(f => console.log(`${f.name}: ${f([...arr])}`))

Here are example results for Chrome for a medium array:

enter image description here

10
  • that's the Haskell-y way to do it; keep taking the first one. clever, but probably slow. Jan 16, 2020 at 2:49
  • @Sapphire_Brick actually it is quite fast - here is test Jul 24, 2020 at 10:06
  • 4
    You have make a good point. I ran your example with an array of 1000 items, and while(a.length) { console.log(a.shift()); } was about twice as fast as the for(var i = 0; i < a.length; i++) { console.log(a[i]); } version. ¯\_(ツ)_/¯ Aug 4, 2020 at 20:51
  • 3
    Even if it does not exist in your native language, you should not leave out articles in English (the indefinite article ("a" or "an") and the definite article ("the")). See e.g. English Articles - 3 Simple Rules To Fix Common Grammar Mistakes & Errors and A, AN, THE - Articles in English. Oct 30, 2020 at 8:35
  • 2
    @Pitouli you are right - I rollback answer to its initial form. When I have more time then I will perform benchamarks again Mar 1, 2021 at 5:21
19

There's a method to iterate over only own object properties, not including prototype's ones:

for (var i in array) if (array.hasOwnProperty(i)) {
    // Do something with array[i]
}

but it still will iterate over custom-defined properties.

In JavaScript any custom property could be assigned to any object, including an array.

If one wants to iterate over sparsed array, for (var i = 0; i < array.length; i++) if (i in array) or array.forEach with es5shim should be used.

1
  • And how about using for (var i in array) if (++i) ? Oct 9, 2014 at 14:40
15

The most elegant and fast way

var arr = [1, 2, 3, 1023, 1024];
for (var value; value = arr.pop();) {
    value + 1
}

http://jsperf.com/native-loop-performance/8


Edited (because I was wrong)


Comparing methods for looping through an array of 100000 items and do a minimal operation with the new value each time.

Preparation:

<script src="//code.jquery.com/jquery-2.1.0.min.js"></script>
<script src="//cdnjs.cloudflare.com/ajax/libs/underscore.js/1.6.0/underscore-min.js"></script>
<script>
    Benchmark.prototype.setup = function() {
        // Fake function with minimal action on the value
        var tmp = 0;
        var process = function(value) {
            tmp = value; // Hold a reference to the variable (prevent engine optimisation?)
        };
        
        // Declare the test Array
        var arr = [];
        for (var i = 0; i < 100000; i++)
            arr[i] = i;
    };
</script>

Tests:

<a href="http://jsperf.com/native-loop-performance/16" 
   title="http://jsperf.com/native-loop-performance/16"
><img src="http://i.imgur.com/YTrO68E.png" title="Hosted by imgur.com" /></a>
4
  • This loop doesn't seem to follow order of items in the array. Mar 26, 2014 at 15:36
  • My test was wrong. It's correct, showing all LOOPS now. jsperf.com/native-loop-performance/16
    – molokoloco
    Mar 27, 2014 at 16:41
  • @bergi is right. This loop wipes out the array as it loops through it. Not what you want in most cases. May 15, 2014 at 17:34
  • 4
    breaks on falsey items.
    – njzk2
    Jul 29, 2014 at 14:59
14

There are a couple of ways to do it in JavaScript. The first two examples are JavaScript samples. The third one makes use of a JavaScript library, that is, jQuery making use of the .each() function.

var myStringArray = ["hello", "World"];
for(var i in myStringArray) {
  alert(myStringArray[i]);
}

var myStringArray = ["hello", "World"];
for (var i=0; i < myStringArray.length; i++) {
  alert(myStringArray[i]);
}

var myStringArray = ["hello", "World"];
$.each(myStringArray, function(index, value){
  alert(value);
})
<script src="https://ajax.googleapis.com/ajax/libs/jquery/1.11.1/jquery.min.js"></script>

1
  • for...in should be avoided for Array-like objects
    – brk
    Dec 5, 2016 at 5:25
14

The optimized approach is to cache the length of array and using the single variable pattern, initializing all variables with a single var keyword.

var i, max, myStringArray = ["Hello", "World"];
for (i = 0, max = myStringArray.length; i < max; i++) {
    alert(myStringArray[i]);

    // Do something
}

If the order of iteration does not matter then you should try reversed loop. It is the fastest as it reduces overhead condition testing and decrement is in one statement:

var i,myStringArray = ["item1","item2"];
for (i =  myStringArray.length; i--) {
    alert(myStringArray[i]);
}

Or better and cleaner to use a while loop:

var myStringArray = ["item1","item2"],i = myStringArray.length;
while(i--) {
   // Do something with fruits[i]
}
13

In JavaScript, there are so many solutions to loop an array.

The code below are popular ones

/** Declare inputs */
const items = ['Hello', 'World']

/** Solution 1. Simple for */
console.log('solution 1. simple for')

for (let i = 0; i < items.length; i++) {
  console.log(items[i])
}

console.log()
console.log()

/** Solution 2. Simple while */
console.log('solution 2. simple while')

let i = 0
while (i < items.length) {
  console.log(items[i++])
}

console.log()
console.log()

/** Solution 3. forEach*/
console.log('solution 3. forEach')

items.forEach(item => {
  console.log(item)
})

console.log()
console.log()

/** Solution 4. for-of*/
console.log('solution 4. for-of')

for (const item of items) {
  console.log(item)
}

console.log()
console.log()

13

If you want to use jQuery, it has a nice example in its documentation:

 $.each([ 52, 97 ], function( index, value ) {
      alert( index + ": " + value );
 });
13

The best way in my opinion is to use the Array.forEach function. If you cannot use that I would suggest to get the polyfill from MDN. To make it available, it is certainly the safest way to iterate over an array in JavaScript.

Array.prototype.forEach()

So as others has suggested, this is almost always what you want:

var numbers = [1,11,22,33,44,55,66,77,88,99,111];
var sum = 0;
numbers.forEach(function(n){
  sum += n;
});

This ensures that anything you need in the scope of processing the array stays within that scope, and that you are only processing the values of the array, not the object properties and other members, which is what for .. in does.

Using a regular C-style for loop works in most cases. It is just important to remember that everything within the loop shares its scope with the rest of your program, the { } does not create a new scope.

Hence:

var sum = 0;
var numbers = [1,11,22,33,44,55,66,77,88,99,111];

for(var i = 0; i<numbers.length; ++i){
  sum += numbers[i];
}

alert(i);

will output "11" - which may or may not be what you want.

A working jsFiddle example: https://jsfiddle.net/workingClassHacker/pxpv2dh5/7/

12

It's not 100% identical, but similar:

   var myStringArray = ['Hello', 'World']; // The array uses [] not {}
    for (var i in myStringArray) {
        console.log(i + ' -> ' + myStringArray[i]); // i is the index/key, not the item
    }

1
  • 1
    It seems that this would run up against similar problems as other for in usages with an array object, in that prototype member variables would be caught by the for in as well.
    – Kzqai
    Apr 18, 2012 at 15:34
11

For example, I used in a Firefox console:

[].forEach.call(document.getElementsByTagName('pre'), function(e){ 
   console.log(e);
})

You can use querySelectorAll to get same result

document.querySelectorAll('pre').forEach( (e) => { 
   console.log(e.textContent);
})
<pre>text 1</pre>
<pre>text 2</pre>
<pre>text 3</pre>

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