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Is there any way to inherit a class from JS native function.

For (eg) i have js function like this in my js.

function Xarray()
    Array.apply(this, arguments);
  //some stuff for insert, add and remove notification
Xarray.prototype = new Array();

I tried to convert it to Typescript but i failed!!

export class Xarray implements Array {


the compailer ask me to define all Array Interface property, i know if need this Xarray.prototype = new Array(); i have to extend Array in TS, how to extent the JS native object in TS?

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6 Answers 6

up vote 2 down vote accepted

Subclassing Array doesn't really work yet (builtin features like length are not inherited properly), even in plain JavaScript. Fixing that is on the agenda for ES6 (eg. see the "subclassing builtins" slides from last month's ES committee meeting).

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The best way to achieve a customised array using TypeScript is to avoid trying to extend the declared version of Array and instead create your own base array to extend:

class ArrayBase {
    constructor() {
        Array.apply(this, arguments);   
        return new Array();

    pop(): any { return "" };
    push(val): number { return 0; };
    length: number;

// replaces pop, push and length dummy declarations with the real thing
ArrayBase['prototype'] = new Array(); 

// Here is your custom array...
class CustomArray extends ArrayBase {
    myCustomThing() {


//Example usage
var arr = new CustomArray();

Alternatively, you can just extend the real thing, like this:

interface Array {
   myCustomThing(): void

Array.prototype.myCustomThing= function () {
    // code
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I don't think that ArrayBase class is necessary. See my answer below. –  oligofren Aug 20 '14 at 9:42
 I wrote this awhile ago

   ( function () {

        // Because it is bad to extend native prototypes, we make an alias to "Array", and then we can freely extend our alias.
        var MyArray = function () {

            // Test to make sure the Constructor has been called correctly with the "new" operator.
            // If it hasn't been, the value of this" would be equal to that of window.
            if ( !( this instanceof MyArray ) ) {

                // Because the Constructor has not been called properly we run a function here to correct it.
                // We do this because we cannot use "new" and ".apply()" at the same time.
                // So the plan becomes; define another Constructor that takes the "arguments" supplied to the original Constructor,
                // then returns a new Object with the same prototype as the original Constructor.
                return ( function ( From, args ) {

                    // This becomes our fake Constructor
                    // Here @args refers to the "arguments" supplied to the orginal Function when it was Invoked.
                    var Bridge = function ( args ) {

                        // At this point in time, all of these will evalute to "true"
                        // console.log( this instanceof Bridge, this instanceof From, this instanceof MyArray, this instanceof Array );

                        // Because we are calling "new Bridge()", the scope of "this" gets changed into an empty Object.
                        // This means that there is nothing to worry about when using "this" with ".apply()".
                        return From.apply( this, args );


                    // Copy the prototype accross, to make sure the new Object inherits all the functionality of the orginal Constructor.
                    Bridge.prototype = From.prototype;

                    // By using the "new" operator here we create a fresh Object. This is what will be returned to the Orginal Function.
                    return new Bridge( args );

                // Here we pass in an alias for our original Constructor and the arguments that need to be resolved.
                })( MyArray, arguments );


            // Now that we have made sure our Constructor was initiated correcly, we can return the new Array.
            return Array.apply( this, arguments );


        // Copy the Array's prototype over to our new Constructor.
        MyArray.prototype = Array.prototype;

        // Now we can extend the MyArray's prototype at will and have zero consequences
        MyArray.prototype.something = function () {
            alert( 'That\'s all folks!' );

        // Now it doesn't matter if we call the MyArray function in either of these two ways, they will both work fine.
        var a = MyArray( 'a', 'b', 'c' ),
            b = new MyArray( 1, 2, 3 );

        // Log our the Objects
        console.log( a, b, a.indexOf, b.slice );

        // Execute our custom function

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A bit contrived way to do this but this works. Bascially you need to implement the interface with extension. Then extend the class.

declare class XArray implements Array {
    public foo(number):number;

var XArray = Array;

class XXArray extends XArray {
    foo(x:number){ return x+1;}    

var x = new XXArray();
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Wouldn't you get a A class may only extend other classes, Array is not a class. message with this? –  Steve Fenton Feb 5 '13 at 9:19
Updated answer to be working now. You can check the link. –  basarat Feb 5 '13 at 22:20
This doesn't work because XArray doesn't actually implement Array. –  Steve Fenton Feb 6 '13 at 9:23
true. However it does compile and give the desired functionality. –  basarat Feb 6 '13 at 9:46

There is only one way to inherit from Array I guess:

function MyArray() { this.push.apply(this, Array.apply(null, arguments)); }
MyArray.prototype = [];
new MyArray(1,2); // [1,2]
new MyArray(2); // [undefined, undefined]

Known issues:

1) Property "length" works wrong in case when it uses as setter and the number of elements less then new length-value:

x = new MyArray(1,2);
x.length = 3; // x == [1,2,undefined]
x.length = 0; // x == [], BUT (!) x[0] == 1 && x[1] == 2 (use x.splice(0) instead to correct clear elements)

2) Problem with definition number-properties which still don't exist:

x = new MyArray(1,2);
x[5] = 5; // x == [1,2]
x.length = 6; // x == [1,2, undefined, undefined, undefined, 5]
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Ben Nadel wrote a fine piece of Javascript code just on this theme of "subclassing" Array. You should check it out. Anyway, I converted his code into TypeScript (with tests) as a learning process, and I think it looks quite good and usable. This is the gist of it, along with a few utility functions:

class Collection {
    constructor() {

        var collection = Object.create(Array.prototype);

        collection = (Array.apply(collection, arguments) || collection);

        // Add all the class methods to the collection.

        // Return the new collection object.

    // Define the static methods.
    static injectClassMethods(collection) {

        // Loop over all the prototype methods and add them
        // to the new collection.
        for (var method in Collection.prototype) {

            // Make sure this is a local method.
            if (Collection.prototype.hasOwnProperty(method)) {

                // Add the method to the collection.
                collection[ method ] = Collection.prototype[ method ];



        // Return the updated collection.
        return( collection );


    add(value) : Collection {

        // Check to see if the item is an array.
        if (Array.isArray(value)) {

            // Add each item in the array.
            Array.prototype.push.apply(this, value);

        } else {

            // Use the default push() method.
            Array.prototype.push.call(this, value);


        // Return this object reference for method chaining.
        return( this );


    // I add all the given items to the collection.
    addAll(...elems:any[]) : Collection{

        // Loop over all the arguments to add them to the
        // collection individually.
        for (var i = 0; i < elems.length; i++) {

            // Add the given value.
            this.add(elems[ i ]);


        // Return this object reference for method chaining.
        return( this );


Feel free to improve it into a strongly typed generic version.

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