How can I loop through all the entries in an array using JavaScript?
I thought it was something like this:
forEach(instance in theArray)
Where theArray
is my array, but this seems to be incorrect.
TL;DR
Your best bets are usually
Some quick "don't"s:
for-in
unless you use it with safeguards or are at least aware of why it might bite you.map
if you're not using its return value.map
[spec / MDN] as though it were forEach
— but that's not what it's for. If you aren't using the array it creates, don't use map
.)forEach
if the callback does asynchronous work and you want the forEach
to wait until that work is done (because it won't).But there's lots more to explore, read on...
JavaScript has powerful semantics for looping through arrays and array-like objects. I've split the answer into two parts: Options for genuine arrays, and options for things that are just array-like, such as the arguments
object, other iterable objects (ES2015+), DOM collections, and so on.
Okay, let's look at our options:
You have five options (two supported basically forever, another added by ECMAScript 5 ["ES5"], and two more added in ECMAScript 2015 ("ES2015", aka "ES6"):
for-of
(use an iterator implicitly) (ES2015+)forEach
and related (ES5+)for
loopfor-in
correctly(You can see those old specs here: ES5, ES2015, but both have been superceded; the current editor's draft is always here.)
Details:
for-of
(use an iterator implicitly) (ES2015+)ES2015 added iterators and iterables to JavaScript. Arrays are iterable (so are strings, Map
s, and Set
s, as well as DOM collections and lists, as you'll see later). Iterable objects provide iterators for their values. The new for-of
statement loops through the values returned by an iterator:
const a = ["a", "b", "c"];
for (const val of a) { // You can use `let` instead of `const` if you like
console.log(val);
}
// a
// b
// c
It doesn't get simpler than that! Under the covers, that gets an iterator from the array and loops through the values the iterator returns. The iterator provided by arrays provides the values of the array elements, in order beginning to end.
Notice how val
is scoped to each loop iteration; trying to use val
after the end of the loop would fail because it doesn't exist outside the loop body.
In theory, a for-of
loop involves several function calls (one to get the iterator, then one to get each value from it). Even when that's true, it's nothing to worry about, function calls are very cheap in modern JavaScript engines (it bothered me for forEach
[below] until I looked into it; details). But additionally, JavaScript engines optimize those calls away (in performance-critical code) when dealing with native iterators for things like arrays.
for-of
is entirely async
-friendly. If you need the work in a loop body to be done in series (not in parallel), an await
in the loop body will wait for the promise to settle before continuing. Here's a silly example:
function delay(ms) {
return new Promise(resolve => {
setTimeout(resolve, ms);
});
}
async function showSlowly(messages) {
for (const str of messages) {
await delay(400);
console.log(str);
}
}
showSlowly([
"So", "long", "and", "thanks", "for", "all", "the", "fish!"
]);
// `.catch` omitted because we know it never rejects
Note how the words appear with a delay before each one.
It's a matter of coding style, but for-of
is the first thing I reach for when looping through anything iterable.
forEach
and relatedIn any even vaguely-modern environment (so, not IE8) where you have access to the Array
features added by ES5, you can use forEach
(spec | MDN) if you're only dealing with synchronous code (or you don't need to wait for an asynchronous process to finish during the loop):
const a = ["a", "b", "c"];
a.forEach((entry) => {
console.log(entry);
});
forEach
accepts a callback function and, optionally, a value to use as this
when calling that callback (not used above). The callback is called for each entry in the array, in order, skipping non-existent entries in sparse arrays. Although I only used one parameter above, the callback is called with three arguments: The value of each entry, the index of that entry, and a reference to the array you're iterating over (in case your function doesn't already have it handy).
Like for-of
, forEach
has the advantage that you don't have to declare indexing and value variables in the containing scope; in this case, they're supplied as arguments to the iteration function, and so nicely scoped to just that iteration.
Unlike for-of
, forEach
has the disadvantage that it doesn't understand async
functions and await
. If you use an async
function as the callback, forEach
does not wait for that function's promise to settle before continuing. Here's the async
example from for-of
using forEach
instead — notice how there's an initial delay, but then all the text appears right away instead of waiting:
function delay(ms) {
return new Promise(resolve => {
setTimeout(resolve, ms);
});
}
async function showSlowly(messages) {
messages.forEach(async message => { // Doesn't wait before continuing
await delay(400);
console.log(message);
});
}
showSlowly([
"So", "long", "and", "thanks", "for", "all", "the", "fish!"
]);
// `.catch` omitted because we know it never rejects
forEach
is the "loop through them all" function, but ES5 defined several other useful "work your way through the array and do things" functions, including:
every
(spec | MDN) - stops looping the first time the callback returns a falsy valuesome
(spec | MDN) - stops looping the first time the callback returns a truthy valuefilter
(spec | MDN) - creates a new array including elements where the callback returns a truthy value, omitting the ones where it doesn'tmap
(spec | MDN) - creates a new array from the values returned by the callbackreduce
(spec | MDN) - builds up a value by repeatedly calling the callback, passing in previous values; see the spec for the detailsreduceRight
(spec | MDN) - like reduce
, but works in descending rather than ascending orderAs with forEach
, if you use an async
function as your callback, none of those waits for the function's promise to settle. That means:
async
function callback is never appropriate with every
, some
, and filter
since they will treat the returned promise as though it were a truthy value; they don't wait for the promise to settle and then use the fulfillment value.async
function callback is often appropriate with map
, if the goal is to turn an array of something into an array of promises, perhaps for passing to one of the promise combinator functions (Promise.all
, Promise.race
, promise.allSettled
, or Promise.any
).async
function callback is rarely appropriate with reduce
or reduceRight
, because (again) the callback will always return a promise. But there is an idiom of building a chain of promises from an array that uses reduce
(const promise = array.reduce((p, element) => p.then(/*...something using `element`...*/));
), but usually in those cases a for-of
or for
loop in an async
function will be clearer and easier to debug.for
loopSometimes the old ways are the best:
const a = ["a", "b", "c"];
for (let index = 0; index < a.length; ++index) {
console.log(a[index]);
}
If the length of the array won't change during the loop, and it's in performance-sensitive code (unlikely), a slightly more complicated version grabbing the length up front might be a tiny bit faster:
const a = ["a", "b", "c"];
for (let index = 0, len = a.length; index < len; ++index) {
console.log(a[index]);
}
And/or counting backward:
const a = ["a", "b", "c"];
for (let index = a.length - 1; index >= 0; --index) {
console.log(a[index]);
}
But with modern JavaScript engines, it's rare you need to eke out that last bit of juice.
Before ES2015, the loop variable had to exist in the containing scope, because var
only has function-level scope, not block-level scope. But as you saw in the examples above, you can use let
within the for
to scope the variables to just the loop. And when you do that, the index
variable is recreated for each loop iteration, meaning closures created in the loop body keep a reference to the index
for that specific iteration, which solves the old "closures in loops" problem:
const divs = document.querySelectorAll("div");
for (let index = 0; index < divs.length; ++index) {
divs[index].addEventListener('click', e => {
console.log("Index is: " + index);
});
}
<div>zero</div>
<div>one</div>
<div>two</div>
<div>three</div>
<div>four</div>
In the above, you get "Index is: 0" if you click the first and "Index is: 4" if you click the last. This does not work if you use var
instead of let
.
Like for-of
, for
loops work well in async
functions. Here's the earlier example using a for
loop:
function delay(ms) {
return new Promise(resolve => {
setTimeout(resolve, ms);
});
}
async function showSlowly(messages) {
for (let i = 0; i < messages.length; ++i) {
await delay(400);
console.log(messages[i]);
}
}
showSlowly([
"So", "long", "and", "thanks", "for", "all", "the", "fish!"
]);
// `.catch` omitted because we know it never rejects
for-in
correctlyfor-in
isn't for looping through arrays, it's for looping through the names of an object's properties. It does often seem to work for looping through arrays as a by-product of the fact that arrays are objects, but it doesn't just loop through the array indexes, it loops through all enumerable properties of the object (including inherited ones). (It also used to be that the order wasn't specified; it is now [details in this other answer], but even though the order is specified now, the rules are complex, there are exceptions, and relying on the order is not best practice.)
The only real use cases for for-in
on an array are:
Looking only at that first example: You can use for-in
to visit those sparse array elements if you use appropriate safeguards:
// `a` is a sparse array
const a = [];
a[0] = "a";
a[10] = "b";
a[10000] = "c";
for (const name in a) {
if (a.hasOwnProperty(name) && // These checks are
/^0$|^[1-9]\d*$/.test(name) && // explained
name <= 4294967294 // below
) {
console.log(a[name]);
}
}
Note the three checks:
That the object has its own property by that name (not one it inherits from its prototype), and
That the name is all decimal digits (e.g., normal string form, not scientific notation), and
That the name's value when coerced to a number is <= 2^32 - 2 (which is 4,294,967,294). Where does that number come from? It's part of the definition of an array index in the specification. Other numbers (non-integers, negative numbers, numbers greater than 2^32 - 2) are not array indexes. The reason it's 2^32 - 2 is that that makes the greatest index value one lower than 2^32 - 1, which is the maximum value an array's length
can have. (E.g., an array's length fits in a 32-bit unsigned integer.)
You wouldn't do that in inline code, of course. You'd write a utility function. Perhaps:
// Utility function for antiquated environments without `forEach`
const hasOwn = Object.prototype.hasOwnProperty.call.bind(Object.prototype.hasOwnProperty);
const rexNum = /^0$|^[1-9]\d*$/;
function sparseEach(array, callback, thisArg) {
for (const name in array) {
const index = +name;
if (hasOwn(a, name) &&
rexNum.test(name) &&
index <= 4294967294
) {
callback.call(thisArg, array[name], index, array);
}
}
}
const a = [];
a[5] = "five";
a[10] = "ten";
a[100000] = "one hundred thousand";
a.b = "bee";
sparseEach(a, (value, index) => {
console.log("Value at " + index + " is " + value);
});
...although with that said, most code only does the hasOwnProperty
check.
Like for
, for-in
works well in asynchronous functions if the work within it needs to be done in series.
function delay(ms) {
return new Promise(resolve => {
setTimeout(resolve, ms);
});
}
async function showSlowly(messages) {
for (const name in messages) {
if (messages.hasOwnProperty(name)) {
await delay(400);
console.log(messages[name]);
}
}
}
showSlowly([
"So", "long", "and", "thanks", "for", "all", "the", "fish!"
]);
// `.catch` omitted because we know it never rejects
for-of
uses an iterator implicitly, doing all the scut work for you. Sometimes, you might want to use an iterator explicitly. It looks like this:
const a = ["a", "b", "c"];
const it = a.values(); // Or `const it = a[Symbol.iterator]();` if you like
let entry;
while (!(entry = it.next()).done) {
console.log(entry.value);
}
An iterator is an object matching the Iterator definition in the specification. Its next
method returns a new result object each time you call it. The result object has a property, done
, telling us whether it's done, and a property value
with the value for that iteration. (done
is optional if it would be false
, value
is optional if it would be undefined
.)
What you get for value
varies depending on the iterator. On arrays, the default iterator provides the value of each array element ("a"
, "b"
, and "c"
in the example earlier). Arrays also have three other methods that return iterators:
values()
: This is an alias for the [Symbol.iterator]
method that returns the default iterator.keys()
: Returns an iterator that provides each key (index) in the array. In the example above, it would provide "0"
, then "1"
, then "2"
(yes, as strings).entries()
: Returns an iterator that provides [key, value]
arrays.Since iterator objects don't advance until you call next
, they work well in async
function loops. Here's the earlier for-of
example using the iterator explicitly:
function delay(ms) {
return new Promise(resolve => {
setTimeout(resolve, ms);
});
}
async function showSlowly(messages) {
const it = messages.values()
while (!(entry = it.next()).done) {
await delay(400);
console.log(entry.value);
}
}
showSlowly([
"So", "long", "and", "thanks", "for", "all", "the", "fish!"
]);
// `.catch` omitted because we know it never rejects
Aside from true arrays, there are also array-like objects that have a length
property and properties with all-digits names: NodeList
instances, HTMLCollection
instances, the arguments
object, etc. How do we loop through their contents?
At least some, and possibly most or even all, of the array approaches above apply equally well to array-like objects:
Use for-of
(use an iterator implicitly) (ES2015+)
for-of
uses the iterator provided by the object (if any). That includes host-provided objects (like DOM collections and lists). For instance, HTMLCollection
instances from getElementsByXYZ
methods and NodeList
s instances from querySelectorAll
both support iteration. (This is defined quite subtly by the HTML and DOM specifications. Basically, any object with length
and indexed access is automatically iterable. It doesn't have to be marked iterable
; that is used only for collections that, in addition to being iterable, support forEach
, values
, keys
, and entries
methods. NodeList
does; HTMLCollection
doesn't, but both are iterable.)
Here's an example of looping through div
elements:
const divs = document.querySelectorAll("div");
for (const div of divs) {
div.textContent = Math.random();
}
<div>zero</div>
<div>one</div>
<div>two</div>
<div>three</div>
<div>four</div>
Use forEach
and related (ES5+)
The various functions on Array.prototype
are "intentionally generic" and can be used on array-like objects via Function#call
(spec | MDN) or Function#apply
(spec | MDN). (If you have to deal with IE8 or earlier [ouch], see the "Caveat for host-provided objects" at the end of this answer, but it's not an issue with vaguely-modern browsers.)
Suppose you wanted to use forEach
on a Node
's childNodes
collection (which, being an HTMLCollection
, doesn't have forEach
natively). You'd do this:
Array.prototype.forEach.call(node.childNodes, (child) => {
// Do something with `child`
});
(Note, though, that you could just use for-of
on node.childNodes
.)
If you're going to do that a lot, you might want to grab a copy of the function reference into a variable for reuse, e.g.:
// (This is all presumably in a module or some scoping function)
const forEach = Array.prototype.forEach.call.bind(Array.prototype.forEach);
// Then later...
forEach(node.childNodes, (child) => {
// Do something with `child`
});
Use a simple for
loop
Perhaps obviously, a simple for
loop works for array-like objects.
Use an iterator explicitly (ES2015+)
See #1.
You may be able to get away with for-in
(with safeguards), but with all of these more appropriate options, there's no reason to try.
Other times, you may want to convert an array-like object into a true array. Doing that is surprisingly easy:
Use Array.from
Array.from
(spec) | (MDN) (ES2015+, but easily polyfilled) creates an array from an array-like object, optionally passing the entries through a mapping function first. So:
const divs = Array.from(document.querySelectorAll("div"));
...takes the NodeList
from querySelectorAll
and makes an array from it.
The mapping function is handy if you were going to map the contents in some way. For instance, if you wanted to get an array of the tag names of the elements with a given class:
// Typical use (with an arrow function):
const divs = Array.from(document.querySelectorAll(".some-class"), element => element.tagName);
// Traditional function (since `Array.from` can be polyfilled):
var divs = Array.from(document.querySelectorAll(".some-class"), function(element) {
return element.tagName;
});
Use spread syntax (...
)
It's also possible to use ES2015's spread syntax. Like for-of
, this uses the iterator provided by the object (see #1 in the previous section):
const trueArray = [...iterableObject];
So for instance, if we want to convert a NodeList
into a true array, with spread syntax this becomes quite succinct:
const divs = [...document.querySelectorAll("div")];
Use the slice
method of arrays
We can use the slice
method of arrays, which like the other methods mentioned above is "intentionally generic" and so can be used with array-like objects, like this:
const trueArray = Array.prototype.slice.call(arrayLikeObject);
So for instance, if we want to convert a NodeList
into a true array, we could do this:
const divs = Array.prototype.slice.call(document.querySelectorAll("div"));
(If you still have to handle IE8 [ouch], will fail; IE8 didn't let you use host-provided objects as this
like that.)
If you use Array.prototype
functions with host-provided array-like objects (for example, DOM collections and such provided by the browser rather than the JavaScript engine), obsolete browsers like IE8 didn't necessarily handle that way, so if you have to support them, be sure to test in your target environments. But it's not an issue with vaguely-modern browsers. (For non-browser environments, naturally it'll depend on the environment.)
Note: This answer is hopelessly out-of-date. For a more modern approach, look at the methods available on an array. Methods of interest might be:
The standard way to iterate an array in JavaScript is a vanilla for
-loop:
var length = arr.length,
element = null;
for (var i = 0; i < length; i++) {
element = arr[i];
// Do something with element
}
Note, however, that this approach is only good if you have a dense array, and each index is occupied by an element. If the array is sparse, then you can run into performance problems with this approach, since you will iterate over a lot of indices that do not really exist in the array. In this case, a for .. in
-loop might be a better idea. However, you must use the appropriate safeguards to ensure that only the desired properties of the array (that is, the array elements) are acted upon, since the for..in
-loop will also be enumerated in legacy browsers, or if the additional properties are defined as enumerable
.
In ECMAScript 5 there will be a forEach method on the array prototype, but it is not supported in legacy browsers. So to be able to use it consistently you must either have an environment that supports it (for example, Node.js for server side JavaScript), or use a "Polyfill". The Polyfill for this functionality is, however, trivial and since it makes the code easier to read, it is a good polyfill to include.
If you’re using the jQuery library, you can use jQuery.each:
$.each(yourArray, function(index, value) {
// do your stuff here
});
EDIT :
As per question, user want code in javascript instead of jquery so the edit is
var length = yourArray.length;
for (var i = 0; i < length; i++) {
// Do something with yourArray[i].
}
I think the reverse for loop deserves a mention here:
for (var i = array.length; i--; ) {
// process array[i]
}
len
variable, or compare against array.length
on each iteration, either of which might be a minute optimisation.array[i]
), then a forward loop would skip the item that shifted left into position i, or re-process the ith item that was shifted right. In a traditional for loop, you could update i to point to the next item that needs processing - 1, but simply reversing the direction of iteration is often a simpler and more elegant solution.forEach()
and to ES6's for ... of
.Some developers use the reverse for loop by default, unless there is a good reason to loop forwards.
Although the performance gains are usually insignificant, it sort of screams:
"Just do this to every item in the list, I don't care about the order!"
However in practice that is not actually a reliable indication of intent, since it is indistinguishable from those occasions when you do care about the order, and really do need to loop in reverse. So in fact another construct would be needed to accurately express the "don't care" intent, something currently unavailable in most languages, including ECMAScript, but which could be called, for example, forEachUnordered()
.
If order doesn't matter, and efficiency is a concern (in the innermost loop of a game or animation engine), then it may be acceptable to use the reverse for loop as your go-to pattern. Just remember that seeing a reverse for loop in existing code does not necessarily mean that the order irrelevant!
In general for higher level code where clarity and safety are greater concerns, I previously recommended using Array::forEach
as your default pattern for looping (although these days I prefer to use for..of
). Reasons to prefer forEach
over a reverse loop are:
for
and while
loops).Then when you do see the reverse for loop in your code, that is a hint that it is reversed for a good reason (perhaps one of the reasons described above). And seeing a traditional forward for loop may indicate that shifting can take place.
(If the discussion of intent makes no sense to you, then you and your code may benefit from watching Crockford's lecture on Programming Style & Your Brain.)
There is a debate about whether for..of
or forEach()
are preferable:
For maximum browser support, for..of
requires a polyfill for iterators, making your app slightly slower to execute and slightly larger to download.
For that reason (and to encourage use of map
and filter
), some front-end style guides ban for..of
completely!
But the above concerns is not applicable to Node.js applications, where for..of
is now well supported.
And furthermore await
does not work inside forEach()
. Using for..of
is the clearest pattern in this case.
Personally, I tend to use whatever looks easiest to read, unless performance or minification has become a major concern. So these days I prefer to use for..of
instead of forEach()
, but I will always use map
or filter
or find
or some
when applicable.
(For the sake of my colleagues, I rarely use reduce
.)
for (var i = 0; i < array.length; i++) { ... } // Forwards
for (var i = array.length; i--; ) { ... } // Reverse
You will notice that i--
is the middle clause (where we usually see a comparison) and the last clause is empty (where we usually see i++
). That means that i--
is also used as the condition for continuation. Crucially, it is executed and checked before each iteration.
How can it start at array.length
without exploding?
Because i--
runs before each iteration, on the first iteration we will actually be accessing the item at array.length - 1
which avoids any issues with Array-out-of-bounds undefined
items.
Why doesn't it stop iterating before index 0?
The loop will stop iterating when the condition i--
evaluates to a falsey value (when it yields 0).
The trick is that unlike --i
, the trailing i--
operator decrements i
but yields the value before the decrement. Your console can demonstrate this:
> var i = 5; [i, i--, i];
[5, 5, 4]
So on the final iteration, i was previously 1 and the i--
expression changes it to 0 but actually yields 1 (truthy), and so the condition passes. On the next iteration i--
changes i to -1 but yields 0 (falsey), causing execution to immediately drop out of the bottom of the loop.
In the traditional forwards for loop, i++
and ++i
are interchangeable (as Douglas Crockford points out). However in the reverse for loop, because our decrement is also our condition expression, we must stick with i--
if we want to process the item at index 0.
Some people like to draw a little arrow in the reverse for
loop, and end with a wink:
for (var i = array.length; i --> 0 ;) {
Credits go to WYL for showing me the benefits and horrors of the reverse for loop.
Some C-style languages use foreach
to loop through enumerations. In JavaScript this is done with the for..in
loop structure:
var index,
value;
for (index in obj) {
value = obj[index];
}
There is a catch. for..in
will loop through each of the object's enumerable members, and the members on its prototype. To avoid reading values that are inherited through the object's prototype, simply check if the property belongs to the object:
for (i in obj) {
if (obj.hasOwnProperty(i)) {
//do stuff
}
}
Additionally, ECMAScript 5 has added a forEach
method to Array.prototype
which can be used to enumerate over an array using a calback (the polyfill is in the docs so you can still use it for older browsers):
arr.forEach(function (val, index, theArray) {
//do stuff
});
It's important to note that Array.prototype.forEach
doesn't break when the callback returns false
. jQuery and Underscore.js provide their own variations on each
to provide loops that can be short-circuited.
I know this is an old post, and there are so many great answers already. For a little more completeness I figured I'd throw in another one using AngularJS. Of course, this only applies if you're using Angular, obviously, nonetheless I'd like to put it anyway.
angular.forEach
takes 2 arguments and an optional third argument. The first argument is the object (array) to iterate over, the second argument is the iterator function, and the optional third argument is the object context (basically referred to inside the loop as 'this'.
There are different ways to use the forEach loop of angular. The simplest and probably most used is
var temp = [1, 2, 3];
angular.forEach(temp, function(item) {
//item will be each element in the array
//do something
});
Another way that is useful for copying items from one array to another is
var temp = [1, 2, 3];
var temp2 = [];
angular.forEach(temp, function(item) {
this.push(item); //"this" refers to the array passed into the optional third parameter so, in this case, temp2.
}, temp2);
Though, you don't have to do that, you can simply do the following and it's equivalent to the previous example:
angular.forEach(temp, function(item) {
temp2.push(item);
});
Now there are pros and cons of using the angular.forEach
function as opposed to the built in vanilla-flavored for
loop.
Pros
angular.forEach
will use the ES5 forEach loop. Now, I will get to efficientcy in the cons section, as the forEach loops are much slower than the for loops. I mention this as a pro because it's nice to be consistent and standardized.Consider the following 2 nested loops, which do exactly the same thing. Let's say that we have 2 arrays of objects and each object contains an array of results, each of which has a Value property that's a string (or whatever). And let's say we need to iterate over each of the results and if they're equal then perform some action:
angular.forEach(obj1.results, function(result1) {
angular.forEach(obj2.results, function(result2) {
if (result1.Value === result2.Value) {
//do something
}
});
});
//exact same with a for loop
for (var i = 0; i < obj1.results.length; i++) {
for (var j = 0; j < obj2.results.length; j++) {
if (obj1.results[i].Value === obj2.results[j].Value) {
//do something
}
}
}
Granted this is a very simple hypothetical example, but I've written triple embedded for loops using the second approach and it was very hard to read, and write for that matter.
Cons
angular.forEach
, and the native forEach
, for that matter, are both so much slower than the normal for
loop....about 90% slower. So for large data sets, best to stick to the native for
loop.continue
is actually supported by "accident", to continue in an angular.forEach
you simple put a return;
statement in the function like angular.forEach(array, function(item) { if (someConditionIsTrue) return; });
which will cause it to continue out of the function for that iteration. This is also due to the fact that the native forEach
does not support break or continue either.I'm sure there's various other pros and cons as well, and please feel free to add any that you see fit. I feel that, bottom line, if you need efficiency, stick with just the native for
loop for your looping needs. But, if your datasets are smaller and a some efficiency is okay to give up in exchange for readability and writability, then by all means throw an angular.forEach
in that bad boy.
A forEach implementation (see in jsFiddle):
function forEach(list,callback) {
var length = list.length;
for (var n = 0; n < length; n++) {
callback.call(list[n]);
}
}
var myArray = ['hello','world'];
forEach(
myArray,
function(){
alert(this); // do something
}
);
As of ECMAScript 6:
list = [0, 1, 2, 3]
for (let obj of list) {
console.log(obj)
}
Where of
avoids the oddities associated with in
and makes it work like the for
loop of any other language, and let
binds i
within the loop as opposed to within the function.
The braces ({}
) can be omitted when there is only one command (e.g. in the example above).
Probably the for(i = 0; i < array.length; i++)
loop is not the best choice. Why? If you have this:
var array = new Array();
array[1] = "Hello";
array[7] = "World";
array[11] = "!";
The method will call from array[0]
to array[2]
. First, this will first reference variables you don't even have, second you would not have the variables in the array, and third this will make the code bolder. Look here, it's what I use:
for(var i in array){
var el = array[i];
//If you want 'i' to be INT just put parseInt(i)
//Do something with el
}
And if you want it to be a function, you can do this:
function foreach(array, call){
for(var i in array){
call(array[i]);
}
}
If you want to break, a little more logic:
function foreach(array, call){
for(var i in array){
if(call(array[i]) == false){
break;
}
}
}
Example:
foreach(array, function(el){
if(el != "!"){
console.log(el);
} else {
console.log(el+"!!");
}
});
It returns:
//Hello
//World
//!!!
There are three implementations of foreach
in jQuery as follows.
var a = [3,2];
$(a).each(function(){console.log(this.valueOf())}); //Method 1
$.each(a, function(){console.log(this.valueOf())}); //Method 2
$.each($(a), function(){console.log(this.valueOf())}); //Method 3
An easy solution now would be to use the underscore.js library. It's providing many useful tools, such as each
and will automatically delegate the job to the native forEach
if available.
A CodePen example of how it works is:
var arr = ["elemA", "elemB", "elemC"];
_.each(arr, function(elem, index, ar)
{
...
});
Array.prototype.forEach()
.for each (variable in object)
is deprecated as the part of ECMA-357 (EAX) standard.for (variable of object)
as the part of the Harmony (ECMAScript 6) proposal.There isn't any for each
loop in native JavaScript. You can either use libraries to get this functionality (I recommend Underscore.js), use a simple for
in loop.
for (var instance in objects) {
...
}
However, note that there may be reasons to use an even simpler for
loop (see Stack Overflow question Why is using “for…in” with array iteration such a bad idea?)
var instance;
for (var i=0; i < objects.length; i++) {
var instance = objects[i];
...
}
This is an iterator for NON-sparse list where the index starts at 0, which is the typical scenario when dealing with document.getElementsByTagName or document.querySelectorAll)
function each( fn, data ) {
if(typeof fn == 'string')
eval('fn = function(data, i){' + fn + '}');
for(var i=0, L=this.length; i < L; i++)
fn.call( this[i], data, i );
return this;
}
Array.prototype.each = each;
Examples of usage:
Example #1
var arr = [];
[1, 2, 3].each( function(a){ a.push( this * this}, arr);
arr = [1, 4, 9]
Example #2
each.call(document.getElementsByTagName('p'), "this.className = data;",'blue');
Each p tag gets class="blue"
Example #3
each.call(document.getElementsByTagName('p'),
"if( i % 2 == 0) this.className = data;",
'red'
);
Every other p tag gets class="red"
>
Example #4
each.call(document.querySelectorAll('p.blue'),
function(newClass, i) {
if( i < 20 )
this.className = newClass;
}, 'green'
);
And finally the first 20 blue p tags are changed to green
Caution when using string as function: the function is created out-of-context and ought to be used only where you are certain of variable scoping. Otherwise, better to pass functions where scoping is more intuitive.
There are a few ways to loop through an array in JavaScript, as below:
for - it's the most common one. Full block of code for looping
var languages = ["Java", "JavaScript", "C#", "Python"];
var i, len, text;
for (i = 0, len = languages.length, text = ""; i < len; i++) {
text += languages[i] + "<br>";
}
document.getElementById("example").innerHTML = text;
<p id="example"></p>
while - loop while a condition is through. It seems to be the fastest loop
var text = "";
var i = 0;
while (i < 10) {
text += i + ") something<br>";
i++;
}
document.getElementById("example").innerHTML = text;
<p id="example"></p>
do/while - also loop through a block of code while the condition is true, will run at least one time
var text = ""
var i = 0;
do {
text += i + ") something <br>";
i++;
}
while (i < 10);
document.getElementById("example").innerHTML = text;
<p id="example"></p>
Functional loops - forEach
, map
, filter
, also reduce
(they loop through the function, but they are used if you need to do something with your array, etc.
// For example, in this case we loop through the number and double them up using the map function
var numbers = [65, 44, 12, 4];
document.getElementById("example").innerHTML = numbers.map(function(num){return num * 2});
<p id="example"></p>
For more information and examples about functional programming on arrays, look at the blog post Functional programming in JavaScript: map, filter and reduce.
ECMAScript 5 (the version on JavaScript) to work with Arrays:
forEach - Iterates through every item in the array and do whatever you need with each item.
['C', 'D', 'E'].forEach(function(element, index) {
console.log(element + " is #" + (index+1) + " in the musical scale");
});
// Output
// C is the #1 in musical scale
// D is the #2 in musical scale
// E is the #3 in musical scale
In case, more interested on operation on array using some inbuilt feature.
map - It creates a new array with the result of the callback function. This method is good to be used when you need to format the elements of your array.
// Let's upper case the items in the array
['bob', 'joe', 'jen'].map(function(elem) {
return elem.toUpperCase();
});
// Output: ['BOB', 'JOE', 'JEN']
reduce - As the name says, it reduces the array to a single value by calling the given function passing in the current element and the result of the previous execution.
[1,2,3,4].reduce(function(previous, current) {
return previous + current;
});
// Output: 10
// 1st iteration: previous=1, current=2 => result=3
// 2nd iteration: previous=3, current=3 => result=6
// 3rd iteration: previous=6, current=4 => result=10
every - Returns true or false if all the elements in the array pass the test in the callback function.
// Check if everybody has 18 years old of more.
var ages = [30, 43, 18, 5];
ages.every(function(elem) {
return elem >= 18;
});
// Output: false
filter - Very similar to every except that filter returns an array with the elements that return true to the given function.
// Finding the even numbers
[1,2,3,4,5,6].filter(function(elem){
return (elem % 2 == 0)
});
// Output: [2,4,6]
There's no inbuilt ability to break in forEach
. To interrupt execution use the Array#some
like below:
[1,2,3].some(function(number) {
return number === 1;
});
This works because some
returns true as soon as any of the callbacks, executed in array order, returns true, short-circuiting the execution of the rest.
Original Answer
see Array prototype for some
I also would like to add this as a composition of a reverse loop and an answer above for someone that would like this syntax too.
var foo = [object,object,object];
for (var i = foo.length, item; item = foo[--i];) {
console.log(item);
}
Pros:
The benefit for this: You have the reference already in the first like that won't need to be declared later with another line. It is handy when looping trough the object array.
Cons:
This will break whenever the reference is false - falsey (undefined, etc.). It can be used as an advantage though. However, it would make it a little bit harder to read. And also depending on the browser it can be "not" optimized to work faster than the original one.
Using loops with ECMAScript 6 destructuring and the spread operator
Destructuring and using of the spread operator have proven quite useful for newcomers to ECMAScript 6 as being more human-readable/aesthetic, although some JavaScript veterans might consider it messy. Juniors or some other people might find it useful.
The following examples will use the
for...of
statement and the.forEach
method.Examples 6, 7, and 8 can be used with any functional loops like
.map
,.filter
,.reduce
,.sort
,.every
,.some
. For more information about these methods, check out the Array Object.
Example 1: Normal for...of
loop - no tricks here.
let arrSimple = ['a', 'b', 'c'];
for (let letter of arrSimple) {
console.log(letter);
}
Example 2: Split words to characters
let arrFruits = ['apple', 'orange', 'banana'];
for (let [firstLetter, ...restOfTheWord] of arrFruits) {
// Create a shallow copy using the spread operator
let [lastLetter] = [...restOfTheWord].reverse();
console.log(firstLetter, lastLetter, restOfTheWord);
}
Example 3: Looping with a key
and value
// let arrSimple = ['a', 'b', 'c'];
// Instead of keeping an index in `i` as per example `for(let i = 0 ; i<arrSimple.length;i++)`
// this example will use a multi-dimensional array of the following format type:
// `arrWithIndex: [number, string][]`
let arrWithIndex = [
[0, 'a'],
[1, 'b'],
[2, 'c'],
];
// Same thing can be achieved using `.map` method
// let arrWithIndex = arrSimple.map((i, idx) => [idx, i]);
// Same thing can be achieved using `Object.entries`
// NOTE: `Object.entries` method doesn't work on Internet Explorer unless it's polyfilled
// let arrWithIndex = Object.entries(arrSimple);
for (let [key, value] of arrWithIndex) {
console.log(key, value);
}
Example 4: Get object properties inline
let arrWithObjects = [{
name: 'Jon',
age: 32
},
{
name: 'Elise',
age: 33
}
];
for (let { name, age: aliasForAge } of arrWithObjects) {
console.log(name, aliasForAge);
}
Example 5: Get deep object properties of what you need
let arrWithObjectsWithArr = [{
name: 'Jon',
age: 32,
tags: ['driver', 'chef', 'jogger']
},
{
name: 'Elise',
age: 33,
tags: ['best chef', 'singer', 'dancer']
}
];
for (let { name, tags: [firstItemFromTags, ...restOfTags] } of arrWithObjectsWithArr) {
console.log(name, firstItemFromTags, restOfTags);
}
Example 6: Is Example 3 used with .forEach
let arrWithIndex = [
[0, 'a'],
[1, 'b'],
[2, 'c'],
];
// Not to be confused here, `forEachIndex` is the real index
// `mappedIndex` was created by "another user", so you can't really trust it
arrWithIndex.forEach(([mappedIndex, item], forEachIndex) => {
console.log(forEachIndex, mappedIndex, item);
});
Example 7: Is Example 4 used with .forEach
let arrWithObjects = [{
name: 'Jon',
age: 32
},
{
name: 'Elise',
age: 33
}
];
// NOTE: Destructuring objects while using shorthand functions
// are required to be surrounded by parentheses
arrWithObjects.forEach( ({ name, age: aliasForAge }) => {
console.log(name, aliasForAge)
});
Example 8: Is Example 5 used with .forEach
let arrWithObjectsWithArr = [{
name: 'Jon',
age: 32,
tags: ['driver', 'chef', 'jogger']
},
{
name: 'Elise',
age: 33,
tags: ['best chef', 'singer', 'dancer']
}
];
arrWithObjectsWithArr.forEach(({
name,
tags: [firstItemFromTags, ...restOfTags]
}) => {
console.log(name, firstItemFromTags, restOfTags);
});
A way closest to your idea would be to use Array.forEach()
which accepts a closure function which will be executed for each element of the array.
myArray.forEach(
(item) => {
// Do something
console.log(item);
}
);
Another viable way would be to use Array.map()
which works in the same way, but it also takes all values that you return and returns them in a new array (essentially mapping each element to a new one), like this:
var myArray = [1, 2, 3];
myArray = myArray.map(
(item) => {
return item + 1;
}
);
console.log(myArray); // [2, 3, 4]
Today (2019-12-18) I perform test on my macOS v10.13.6 (High Sierra), on Chrome v 79.0, Safari v13.0.4 and Firefox v71.0 (64 bit) - conclusions about optimisation (and micro-optimisation which usually is not worth to introduce it to code because the benefit is small, but code complexity grows).
It looks like the traditional for i
(Aa) is a good choice to write fast code on all browsers.
The other solutions, like for-of
(Ad), all in group C.... are usually 2 - 10 (and more) times slower than Aa, but for small arrays it is ok to use it - for the sake of increase code clarity.
The loops with array length cached in n
(Ab, Bb, Be) are sometimes faster, sometimes not. Probably compilers automatically detect this situation and introduce caching. The speed differences between the cached and no-cached versions (Aa, Ba, Bd) are about ~1%, so it looks like introduce n
is a micro-optimisation.
The i--
like solutions where the loop starts from the last array element (Ac, Bc) are usually ~30% slower than forward solutions - probably the reason is the way of CPU memory cache working - forward memory reading is more optimal for CPU caching). Is recommended to NOT USE such solutions.
In tests we calculate the sum of array elements. I perform a test for small arrays (10 elements) and big arrays (1M elements) and divide them into three groups:
for
testswhile
testslet arr = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10];
//let arr = Array.from(Array(1000000), (x, i) => i%10);
function Aa(a, s=0) {
for(let i=0; i<a.length; i++) {
s += a[i];
}
console.log('Aa=', s);
}
function Ab(a, s=0) {
let n = a.length;
for(let i=0; i<n; i++) {
s += a[i];
}
console.log('Ab=', s);
}
function Ac(a, s=0) {
for(let i=a.length; i--;) {
s += a[i];
}
console.log('Ac=', s);
}
function Ad(a, s=0) {
for(let x of a) {
s += x;
}
console.log('Ad=', s);
}
function Ae(a, s=0) {
for(let i in a) if (a.hasOwnProperty(i)) {
s += a[i];
}
console.log('Ae=', s);
}
function Ba(a, s=0) {
let i = -1;
while(++i < a.length) {
s+= a[i];
}
console.log('Ba=', s);
}
function Bb(a, s=0) {
let i = -1;
let n = a.length;
while(++i < n) {
s+= a[i];
}
console.log('Bb=', s);
}
function Bc(a, s=0) {
let i = a.length;
while(i--) {
s += a[i];
}
console.log('Bc=', s);
}
function Bd(a, s=0) {
let i = 0;
do {
s+= a[i]
} while (++i < a.length);
console.log('Bd=', s);
}
function Be(a, s=0) {
let i = 0;
let n = a.length;
do {
s += a[i]
} while (++i < n);
console.log('Be=', s);
}
function Bf(a, s=0) {
const it = a.values();
let e;
while (!(e = it.next()).done) {
s+= e.value;
}
console.log('Bf=', s);
}
function Ca(a, s=0) {
a.map(x => { s+=x });
console.log('Ca=', s);
}
function Cb(a, s=0) {
a.forEach(x => { s+=x });
console.log('Cb=', s);
}
function Cc(a, s=0) {
a.every(x => (s += x, 1));
console.log('Cc=', s);
}
function Cd(a, s=0) {
a.filter(x => { s+=x });
console.log('Cd=',s);
}
function Ce(a, s=0) {
a.reduce((z, c) => { s+=c }, 0);
console.log('Ce=', s);
}
function Cf(a, s=0) {
a.reduceRight((z, c) => { s += c }, 0);
console.log('Cf=', s);
}
function Cg(a, s=0) {
a.some(x => { s += x } );
console.log('Cg=', s);
}
function Ch(a, s=0) {
Array.from(a, x=> s += x);
console.log('Cc=', s);
}
Aa(arr);
Ab(arr);
Ac(arr);
Ad(arr);
Ae(arr);
Ba(arr);
Bb(arr);
Bc(arr);
Bd(arr);
Be(arr);
Bf(arr);
Ca(arr);
Cb(arr);
Cc(arr);
Cd(arr);
Ce(arr);
Cf(arr);
Cg(arr);
Ch(arr);
<p style="color: red">This snippets only PRESENTS code used for benchmark - it not perform test itself</p>
Cross browser results
Results for all tested browsers
Array with 10 elements
Results for Chrome. You can perform the test on your machine here.
Array with 1,000,000 elements
Results for Chrome. You can perform the test on your machine here
The lambda syntax doesn't usually work in Internet Explorer 10 or below.
I usually use the
[].forEach.call(arrayName,function(value,index){
console.log("value of the looped element" + value);
console.log("index of the looped element" + index);
});
If you are a jQuery fan and already have a jQuery file running, you should reverse the positions of the index and value parameters
$("#ul>li").each(function(**index, value**){
console.log("value of the looped element" + value);
console.log("index of the looped element" + index);
});
You can call forEach like this:
forEach
will iterate over the array you provide and for each iteration it will have element
which holds the value of that iteration. If you need index you can get the current index by passing the i
as the second parameter in the callback function for forEach.
Foreach is basically a High Order Function, Which takes another function as its parameter.
let theArray= [1,3,2];
theArray.forEach((element) => {
// Use the element of the array
console.log(element)
}
Output:
1
3
2
You can also iterate over an array like this:
for (let i=0; i<theArray.length; i++) {
console.log(i); // i will have the value of each index
}
As per the new updated feature ECMAScript 6 (ES6) and ECMAScript 2015, you can use the following options with loops:
for loops
for(var i = 0; i < 5; i++){
console.log(i);
}
// Output: 0,1,2,3,4
for...in loops
let obj = {"a":1, "b":2}
for(let k in obj){
console.log(k)
}
// Output: a,b
Array.forEach()
let array = [1,2,3,4]
array.forEach((x) => {
console.log(x);
})
// Output: 1,2,3,4
for...of loops
let array = [1,2,3,4]
for(let x of array){
console.log(x);
}
// Output: 1,2,3,4
while loops
let x = 0
while(x < 5){
console.log(x)
x++
}
// Output: 1,2,3,4
do...while loops
let x = 0
do{
console.log(x)
x++
}while(x < 5)
// Output: 1,2,3,4
When iterating over an array, we often want to accomplish one of the following goals:
We want to iterate over the array and create a new array:
Array.prototype.map
We want to iterate over the array and don't create a new array:
Array.prototype.forEach
for..of
loop
In JavaScript, there are many ways of accomplishing both of these goals. However, some are more convenient than others. Below you can find some commonly used methods (the most convenient IMO) to accomplish array iteration in JavaScript.
Map
map()
is a function located on Array.prototype
which can transform every element of an array and then returns a new array. map()
takes as an argument a callback function and works in the following manner:
let arr = [1, 2, 3, 4, 5];
let newArr = arr.map((element, index, array) => {
return element * 2;
})
console.log(arr);
console.log(newArr);
The callback which we have passed into map()
as an argument gets executed for every element. Then an array gets returned which has the same length as the original array. In this new array element is transformed by the callback function passed in as an argument to map()
.
The distinct difference between map
and another loop mechanism like forEach
and a for..of
loop is that map
returns a new array and leaves the old array intact (except if you explicitly manipulate it with thinks like splice
).
Also, note that the map
function's callback provides the index number of the current iteration as a second argument. Furthermore, does the third argument provide the array on which map
was called? Sometimes these properties can be very useful.
forEach
forEach
is a function which is located on Array.prototype
which takes a callback function as an argument. It then executes this callback function for every element in the array. In contrast to the map()
function, the forEach function returns nothing (undefined
). For example:
let arr = [1, 2, 3, 4, 5];
arr.forEach((element, index, array) => {
console.log(element * 2);
if (index === 4) {
console.log(array)
}
// index, and oldArray are provided as 2nd and 3th argument by the callback
})
console.log(arr);
Just like the map
function, the forEach
callback provides the index number of the current iteration as a second argument. Also, does the third argument provide the array on which forEach
was called?
for..of
The for..of
loop loops through every element of an array (or any other iterable object). It works in the following manner:
let arr = [1, 2, 3, 4, 5];
for(let element of arr) {
console.log(element * 2);
}
In the above example, element
stands for an array element and arr
is the array which we want to loop. Note that the name element
is arbitrary, and we could have picked any other name like 'el' or something more declarative when this is applicable.
Don't confuse the for..in
loop with the for..of
loop. for..in
will loop through all enumerable properties of the array whereas the for..of
loop will only loop through the array elements. For example:
let arr = [1, 2, 3, 4, 5];
arr.foo = 'foo';
for(let element of arr) {
console.log(element);
}
for(let element in arr) {
console.log(element);
}
If you have a massive array you should use iterators
to gain some efficiency. Iterators are a property of certain JavaScript collections (like Map
, Set
, String
, Array
). Even, for..of
uses iterator
under-the-hood.
Iterators improve efficiency by letting you consume the items in a list one at a time as if they were a stream. What makes an iterator special is how it traverses a collection. Other loops need to load the entire collection up front in order to iterate over it, whereas an iterator only needs to know the current position in the collection.
You access the current item by calling the iterator’s next
method. The next method will return the value
of the current item and a boolean
to indicate when you have reached the end of the collection. The following is an example of creating an iterator from an array.
Transform your regular array to iterator using values()
method like this:
const myArr = [2,3,4]
let it = myArr.values();
console.log(it.next());
console.log(it.next());
console.log(it.next());
console.log(it.next());
You can also transform your regular array to iterator using Symbol.iterator
like this:
const myArr = [2,3,4]
let it = myArr[Symbol.iterator]();
console.log(it.next());
console.log(it.next());
console.log(it.next());
console.log(it.next());
You can also transform your regular array
to an iterator
like this:
let myArr = [8, 10, 12];
function makeIterator(array) {
var nextIndex = 0;
return {
next: function() {
return nextIndex < array.length ?
{value: array[nextIndex++], done: false} :
{done: true};
}
};
};
var it = makeIterator(myArr);
console.log(it.next().value); // {value: 8, done: false}
console.log(it.next().value); // {value: 10, done: false}
console.log(it.next().value); // {value: 12, done: false}
console.log(it.next().value); // {value: undefined, done: true}
NOTE:
iterable
by default. Use for..in
in that case because instead of values it works with keys.You can read more about iteration protocol
here.