Consider the following sample code

var x = ["a", "b", "c"];
var z = ["p", "q"];

var d = [...x, ...z];

var e = x.concat(z);

Here, the value of d and e are exactly same and is equal to ["a", "b", "c", "p", "q"], so,

  1. What exactly is the difference between these two?
  2. Which one is more efficient and why?
  3. What exactly is the use of spread syntax?
  • While the answers to this: "Don't you think the introduction of these little shortcuts in a formal vast language may leave some unnoticed bugs" will be opinion-based, my opinion is that, yes, the majority of ES6 is going to generate a plethora of buggy code because sloppy and/or junior developers will not understand exactly what it is they are doing.
    – rockerest
    Commented Jan 1, 2016 at 20:51
  • @rockerest exactly this is what i was thinking.
    – void
    Commented Jan 1, 2016 at 20:52
  • Okay, I just did a quick speedtest, and concat is much quicker.
    – Nebula
    Commented Jan 1, 2016 at 20:54
  • 1
    @void Mostly for use in function calls, I.e. if myFunc takes an unknown number of arguments, we can give it arguments as an array with spread. Like this: myFunc(...dynamicallyGeneratedArgs)
    – Nebula
    Commented Jan 1, 2016 at 20:58
  • 1
    You got a real benefit if you want to append z to x without create another array. x.push(...z); Commented Jan 1, 2016 at 21:02

7 Answers 7

  1. In your example given, there is essentially no difference between the two
  2. .concat is significantly more efficient: http://jsperf.com/spread-into-array-vs-concat because ... (spread) is merely syntax sugar on top of more fundamental underlying syntax that explicitly iterates over indexes to expand the array.
  3. Spread allows sugared syntax on top of more clunky direct array manipulation

To expand on #3 above, your use of spread is a somewhat contrived example (albeit one that will likely appear in the wild frequently). Spread is useful when - for example - the entirety of an arguments list should be passed to .call in the function body.

function myFunc(){
    otherFunc.call( myObj, ...args );


function myFunc(){
    otherFunc.call( myObj, args[0], args[1], args[2], args[3], args[4] );

This is another arbitrary example, but it's a little clearer why the spread operator will be nice to use in some otherwise verbose and clunky situations.

As @loganfsmyth points out:

Spread also works on arbitrary iterable objects which means it not only works on Arrays but also Map and Set among others.

This is a great point, and adds to the idea that - while not impossible to achieve in ES5 - the functionality introduced in the spread operator is one of the more useful items in the new syntax.

For the actual underlying syntax for the spread operator in this particular context (since ... can also be a "rest" parameter), see the specification. "more fundamental underlying syntax that explicitly iterates over indexes to expand the array" as I wrote above is enough to get the point across, but the actual definition uses GetValue and GetIterator for the variable that follows.

  • real sample for using: $.when that not allow array of promises as parameter, so $.when(...args) is cool :)
    – Grundy
    Commented Jan 1, 2016 at 21:13
  • 2
    Spread also works on arbitrary iterable objects which means it not only works on Arrays but also Map and Set among others. Commented Jan 1, 2016 at 21:16
  • 5
    Since Chrome 67 (29th May, 2018) Spread Syntax is (at least twice) faster than concat
    – Azteca
    Commented Oct 29, 2018 at 22:14
  • otherFunc.call( myObj, args[0], args[1], args[2], args[3], args[4] );??? This seems like an exceptionally bad example. It's not just contrived, just plain misleading. Mostly anybody who wrote pre-ES6 code would have used otherFunc.apply( myObj, args ); which has basically the same semantics at no loss of clarity. A good point would be func( ...args ) vs the more verbose and more unnecessary func.apply( null, args ) when this does not matter.
    – VLAZ
    Commented Apr 22, 2021 at 6:04

Taking the questions out of order, let's start with the fundamental question: What exactly is the use of spread syntax?

Spread syntax basically unpacks the elements of an iterable such as an array or object. Or, for the more detailed explanation from the MDN Web Docs on spread syntax:

Spread syntax allows an iterable such as an array expression or string to be expanded in places where zero or more arguments (for function calls) or elements (for array literals) are expected, or an object expression to be expanded in places where zero or more key-value pairs (for object literals) are expected.

Following are some simple examples of typical use cases for spread syntax and an example of the difference between spread syntax and rest parameters (they may look the same, but they perform nearly opposite functions).

Function call:

const multiArgs = (one, two) => {
  console.log(one, two);

const args = [1, 2];
// 1 2

Array or string literal:

const arr1 = [2, 3];
const arr2 = [1, ...arr1, 4];
// [1, 2, 3, 4]

const s = 'split';
// s p l i t

Object literal:

const obj1 = { 1: 'one' };
const obj2 = { 2: 'two' };
const obj3 = { ...obj1, ...obj2 };
// { 1: 'one', 2: 'two' }

Rest parameter syntax is not the same as spread syntax:

Rest parameter syntax looks the same as spread syntax but actually represents an unknown number of function arguments as an array. So rather than "unpacking" the iterable, rest parameters actually package multiple arguments into an array.

const multiArgs = (...args) => {

multiArgs('a', 'b', 'c');
// ['a', 'b', 'c']

Spread syntax performance / efficiency:

To address the question about efficiency compared to other methods, the only honest answer is that "it depends". Browsers change all the time and the context and data associated with a particular function create wildly different performance outcomes, so you can find all sorts of conflicting performance timings that suggest spread syntax is both amazingly faster and ridiculously slower than various array or object methods you might use to accomplish similar objectives. In the end, any situation where optimizations for speed are critical should be comparison tested rather than relying on generic timings of simplistic functions that ignore the specifics of your code and data.

Comparison to concat():

And finally a quick comment regarding the difference between spread syntax and concat() shown in the question code. The difference is that spread syntax can be used for a lot more than just concatenating arrays, but concat() works in older browsers like IE. In a situation where you are not concerned about compatibility with older browsers and micro optimizations for speed are unnecessary, then the choice between spread syntax and concat() is just a matter of what you find more readable: arr3 = arr1.concat(arr2) or arr3 = [...arr1, ...arr2].


The output of this example is the same, but it’s not the same behavior under the hood,

Consider ( check the browser's console ) :

var x = [], y = [];

x[1] = "a";
y[1] = "b";

var usingSpread = [...x, ...y];
var usingConcat = x.concat(y);

console.log(usingSpread); // [ undefined, "a", undefined, "b"]
console.log(usingConcat); // [ , "a", , "b"] 

console.log(1 in usingSpread); // true
console.log(1 in usingConcat); // false

Array.prototype.concat will preserve the empty slots in the array while the Spread will replace them with undefined values.

Enter Symbol.iterator and Symbol.isConcatSpreadable :

The Spread Operator uses the @@iterator symbol to iterate through Arrays and Array-like Objects like :

  • Array.prototype
  • TypedArray.prototype
  • String.prototype
  • Map.prototype
  • Set.prototype

(that's why you can use for .. of on them )

We can override the default iterator symbol to see how the spread operator behaves :

var myIterable = ["a", "b", "c"];
var myIterable2 = ["d", "e", "f"];

myIterable[Symbol.iterator] = function*() {
  yield 1;
  yield 2;
  yield 3;

console.log(myIterable[0], myIterable[1], myIterable[2]); // a b c
console.log([...myIterable]); // [1,2,3]

var result = [...myIterable, ...myIterable2];
console.log(result); // [1,2,3,"d","e","f"]

var result2 = myIterable.concat(myIterable2);
console.log(result2); // ["a", "b", "c", "d", "e", "f"]

On the other hand, @@isConcatSpreadable is

A Boolean valued property that if true indicates that an object should be flattened to its array elements by Array.prototype.concat.

If set to false, Array.concat will not flatten the array :

const alpha = ['a', 'b', 'c'];
const numeric = [1, 2, 3];

let alphaNumeric = alpha.concat(numeric);

// console.log(alphaNumeric);

numeric[Symbol.isConcatSpreadable] = false;

alphaNumeric = alpha.concat(numeric);

// alphaNumeric = [...alpha, ...numeric];
// the above line will output : ["a","b","c",1,2,3]

console.log(JSON.stringify(alphaNumeric)); // ["a","b","c",[1,2,3]]

However, the spread behaves differently when it comes to Objects since they are not iterable

var obj = {'key1': 'value1'};
var array = [...obj]; // TypeError: obj is not iterable
var objCopy = {...obj}; // copy

It copies own enumerable properties from a provided object onto a new object.

The spread operator is faster, check spread-into-array-vs-concat ( Since Chrome 67 at least )

And check how three dots changed javascript for some use cases, among them is the Destructuring assignment ( Array or Object ) :

const arr = [1, 2, 3, 4, 5, 6, 7];

const [first, , third, ...rest] = arr;

console.log({ first, third, rest });

and splitting a string to an array of characters :

console.log( [...'hello'] ) // [ "h", "e" , "l" , "l", "o" ]

There is no difference between these two in given example. For concatenation, we can use concat method over spread operator. However, use of spread operator is not limited to the concatenation of arrays.

The spread syntax allows an iterable such as an array expression or string to be expanded. It can be used in following scenarios.

  1. Spread Operator with arrays

    • Concatenation of Arrays
    • String to Array
    • Array as Arguments to function.
  2. Spread Operator with objects

    • Concatenation of Objects

To see how a demonstration of all these uses and to try your hands on code please follow below link (codepen.io)

ES6-Demonstration of Spread Operator

* Example-1: Showing How Spread Operator can be used to concat two or more     
const americas = ['South America', 'North America'];

const eurasia = ['Europe', 'Asia'];

const world = [...americas, ...eurasia];

* Example-2: How Spread Operator can be used for string to array.
const iLiveIn = 'Asia';
const iLiveIntoArray = [...iLiveIn];

* Example-3: Using Spread Operator to pass arguments to function
const numbers = [1,4,5];

const add = function(n1,n2,n3){
return n1 + n2 + n3;

const addition = add(numbers[0],numbers[1],numbers[2]);
const additionUsingSpread = add(...numbers);

* Example-4: Spread Operator, can be used to concat the array

const personalDetails = {
  name: 'Ravi',
  age: '28',
  sex: 'male'

const professionalDetails = {
  occupation: 'Software Engineer',
  workExperience: '4 years'

const completeDetails = {...personalDetails, ...professionalDetails};

const colours = ['Blue','Red','Black']; // Simple array.

const my_colours = ['Blue','Red','Black','Yellow','Green'];

const favourite_colours = [...my_colours,'grey']; //[...] spread Operator access data in another array.


Spread syntax allows an iterable to be expanded in places where zero or more elements are expected. This high level explanation can be confusing, so a 'real-world' example of this is as follows:

Without the spread syntax you could update objects multiple times like so:

//If I needed to change the speed or damage at any time of a race car

const raceCar = {name: 'Ferrari 250 GT'};
const stats = {speed: 66, damage: 1, lap: 2};

raceCar['speed'] = stats.speed;
raceCar['damage'] = stats.damage;

Alternatively, a cleaner solution is to create a new object with the spread syntax:

//Creates a new object with priority from left to right 
const lap1 = { ...raceCar, ...stats }

//Or a specific variable:
const enterPitStop = {...raceCar, speed: 0 }

In essence, rather than mutating the original object of raceCar, you will be creating a new immutable object.

It is also helpful when adding new values to arrays. With spread you can push/unshift multiple variables by copying the former array. Before spread, you would push like so:

var raceCars = ['Ferrari 250 GT', 'Le Mans Series', '24 Heures du Mans'];

//Sometimes, you will need to push multiple items to an array, which gets messy in large projects!
raceCars.push('Car 1');
raceCars.push('Car 2');
raceCars.push('Car 3');

Instead, you would copy the array and add it to a new variable or the same one for simplicity.

//Push values to array
raceCars = [...raceCars, 'Car 1', 'Car 2', 'Car 3'];

//This is dynamic! Add the values anywhere in the array:

//Adds the values at the front as opposed to the end
raceCars = ['Car 1', 'Car 2', 'Car 3', ...raceCars];

//Another dynamic examples of adding not in the front or back:
raceCars = ['Car 1', 'Car 2', ...raceCars, 'Car 3'];

I encourage you to view the more detailed documentation on the Mozilla Developer Website.


Context: You want to concatenate two arrays, in order to get a copy "by value" using the three dots spread syntax, but you are working with complex/nested arrays.

Finding: Take care that nested arrays are NOT passed by value, but by reference. In other words, only first level items are passed as a copy "by value". See the example:

sourceArray1 = [ 1, [2, 3] ] // Third element is a nested array
sourceArray2 = [ 4, 5 ]

targetArray = [ ...sourceArray1, ...sourceArray2]
console.log("Target array result:\n", JSON.stringify(targetArray), "\n\n") //it seems a copy, but...

console.log("Let's update the first source value:\n")
sourceArray1[0] = 10
console.log("Updated source array:\n", JSON.stringify(sourceArray1), "\n")
console.log("Target array is NOT updated, It keeps a copy by value: 1\n")
console.log(JSON.stringify(targetArray), "\n\n")

//But if you update a nested value, it has NOT been copied
console.log("Let's update a nested source value:\n")
sourceArray1[1][0] = 20
console.log("Updated source nested array:\n", JSON.stringify(sourceArray1), "\n")
console.log("Target array is updated BY REFERENCE!\n")
console.log(JSON.stringify(targetArray)) // it is not a copy, it is a reference!

console.log("\nCONCLUSION: ... spread syntax make a copy 'by value' for first level elements, but 'by reference' for nested/complex elements (This applies also for objects) so take care!\n")

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