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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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7 Answers 7

up vote 6 down vote accepted

I don't think there is a way to inherit existing interfaces like Array,

export class Xarray implements Array {


You should create a function and inherit it with its prototype. Typescript also will accept it which is similar to javascript.

function Xarray(...args: any[]): void; // required in TS 0.9.5
function Xarray()
    Array.apply(this, arguments);
   // some stuff for insert, add and remove notification
Xarray.prototype = new Array();

UPDATE: This one is discussed well and provided the best solution for this at

//a dummy class it to inherite array.
class XArray {
    constructor() {
        Array.apply(this, arguments);   
        return new Array();
    // we need this, or TS will show an error,
    //XArray["prototype"] = new Array(); will replace with native js arrray function
    pop(): any { return "" };
    push(val): number { return 0; };
    length: number;
//Adding Arrray to XArray prototype chain.
XArray["prototype"] = new Array();

//our Class
class YArray extends XArray {
///Some stuff

var arr = new YArray();
//we can use the array prop here.

document.writeln("First Elemet in array : " + arr[0]);
document.writeln("</br>Array Lenght : " + arr.length);

Hope, this might help you!!!

share|improve this answer
If I want to use this.splice in a function in YArray I get a compile error. Any suggestion to get arround this? I can't seem to get anything with typecasting to work. –  Flion Jan 3 '14 at 15:22
oh, I got it now. to be able to use all the native methods you need to implement them all in the dummy class, not just push and pop. –  Flion Jan 3 '14 at 16:10
Dovnvoted for supplying wrong info: "I don't think there is a way to inherit existing interfaces like Array". There are tons of examples on how to do this. All that is needed is to declare your methods. See an example further down on this page. –  oligofren Sep 26 '14 at 13:41
I had to change the constructor to this.push.apply(this,items); return this; for it to work with initial elements (like new XArray(1,2,3)) –  Flion Mar 19 at 11:40

Starting in TypeScript 1.6, you can extend the Array type.

Here's an example:

class MyNewArray<T> extends Array<T> {
    getFirst() {
        return this[0];

var myArray = new MyNewArray<string>();
myArray.push("First Element");
console.log(myArray.getFirst()); // "First Element"
share|improve this answer

Don't know how frowned upon this is but for example I needed to create an array of BulletTypes so that I could cycle through them. What I did is the following:

interface BulletTypesArray extends Array<BulletType> {
    DefaultBullet?: Bullet; 

var BulletTypes: BulletTypesArray = [ GreenBullet, RedBullet ];
BulletTypes.DefaultBullet = GreenBullet;

Obviously you could could also make a generic interface, something like interface SuperArray<T> extends Array<T>.

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He was asking how to extend the JS native object in TS. What you are doing is creating an interface. This has nothing to do with the actual implementation details he is asking for. –  oligofren Jul 29 at 10:40

While researching this, I came across Ben Nadel's excellent post on Extending JavaScript Arrays While Keeping Native Bracket-Notation Functionality. After some initial confusion on how to succesfully convert this into TypeScript, I created a fully working Collection class that can be subclassed.

It can do everything an Array can, including indexing by brackets,use in loop constructions (for, while, forEach), maps, etc.

The main implementation points are

  1. Create an array in the constructor, add the methods to the array and return that from the constructor
  2. Copy dummy declarations of Array methods to pass the implements Array bit

Example of usage:

  var foo = new Foo({id : 1})
  var c = new Collection();

  c.length === 1;    // => true

  foo === c[0];      // => true
  foo === c.find(1); // => true

I made it available as a gist, complete with tests and an example implementation of a subclass, but I present the full source here:

 * Utility "class" extending Array with lookup functions
 * Typescript conversion of Ben Nadel's Collection class.
 * @author Carl-Erik Kopseng
 * @author Ben Nadel (javascript original)

export interface Identifiable {
    getId : () => any;

export class Collection<T extends Identifiable> implements Array<T> {

    constructor(...initialItems:any[]) {
        var collection = Object.create(Array.prototype);

        Collection.init(collection, initialItems, Collection.prototype);

        return collection;

    static init(collection, initialItems:any[], prototype) {
            .forEach((prop) => {
                if (prop === 'constructor') return;

                Object.defineProperty(collection, prop, { value: prototype[prop] })

        // If we don't redefine the property, the length property is suddenly enumerable!
        // Failing to do this, this would fail: Object.keys([]) === Object.keys(new Collection() )
        Object.defineProperty(collection, 'length', {
            value: collection.length,
            writable: true,
            enumerable: false

        var itemsToPush = initialItems;
        if (Array.isArray(initialItems[0]) && initialItems.length === 1) {
            itemsToPush = initialItems[0];
        Array.prototype.push.apply(collection, itemsToPush);

        return collection;

    // Find an element by checking each element's getId() method
    public find(id:any):T;

    // Find an element using a lookup function that
    // returns true when given the right element
    public find(lookupFn:(e:T) => boolean):T ;

    find(x:any) {
        var res, comparitor;

        if (typeof x === 'function') {
            comparitor = x;
        } else {
            comparitor = (e) => {
                return e.getId() === x;

        res = [], comparitor);

        if (res.length) return res[0];
        else return null;

    // Add an element

    // Adds all ements in the array (flattens it)


    add(value) {

        // Check to see if the item is an array or a subtype thereof
        if (value instanceof Array) {

            // Add each sub-item using default push() method.
            Array.prototype.push.apply(this, value);

        } else {

            // Use the default push() method.
  , value);


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



    remove(lookupFn:(e:T) => boolean):boolean ;

    remove(x:any):boolean {
        return !!this._remove(x);

     * @return the removed element if found, else null
    _remove(x:any):T {
        var arr = this;
        var index = -1;

        if (typeof x === 'function') {

            for (var i = 0, len = arr.length; i < len; i++) {
                if (x(this[i])) {
                    index = i;

        } else {
            index = arr.indexOf(x);

        if (index === -1) {
            return null;
        else {
            var res = arr.splice(index, 1);
            return res.length ? res[0] : null;

    // dummy declarations
    // "massaged" the Array interface definitions in lib.d.ts to fit here
    toString:()=> string;
    toLocaleString:()=> string;
    concat:<U extends T[]>(...items:U[])=> T[];
    join:(separator?:string)=> string;
    pop:()=> T;
    push:(...items:T[])=> number;
    reverse:()=> T[];
    shift:()=> T;
    slice:(start?:number, end?:number)=> T[];
    sort:(compareFn?:(a:T, b:T) => number)=> T[];
    splice:(start?:number, deleteCount?:number, ...items:T[])=> T[];
    unshift:(...items:T[])=> number;
    indexOf:(searchElement:T, fromIndex?:number)=> number;
    lastIndexOf:(searchElement:T, fromIndex?:number)=> number;
    every:(callbackfn:(value:T, index:number, array:T[]) => boolean, thisArg?:any)=> boolean;
    some:(callbackfn:(value:T, index:number, array:T[]) => boolean, thisArg?:any)=> boolean;
    forEach:(callbackfn:(value:T, index:number, array:T[]) => void, thisArg?:any)=> void;
    map:<U>(callbackfn:(value:T, index:number, array:T[]) => U, thisArg?:any)=> U[];
    filter:(callbackfn:(value:T, index:number, array:T[]) => boolean, thisArg?:any)=> T[];
    reduce:<U>(callbackfn:(previousValue:U, currentValue:T, currentIndex:number, array:T[]) => U, initialValue:U)=> U;
    reduceRight:<U>(callbackfn:(previousValue:U, currentValue:T, currentIndex:number, array:T[]) => U, initialValue:U)=> U;
[n: number]: T;

Of course, the bits on Identifiable, the find and remove methods are not needed, but I supply them none the less as a full fledged example is a tad more usable than a bare-bones Collection without any methods of its own.

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In your case, a good bet would be to use this pattern:

function XArray(array) {
  array = array || [];

  //add a new method
  array.second = function second() {
    return array[1];

  //overwrite an existing method with a super type pattern
  var _push = array.push;
  array.push = function push() {
    _push.apply(array, arguments);
    console.log("pushed: ", arguments);

  //The important line.
  return array

Then you can do:

var list = XArray([3, 4]);
list.second()   ; => 4

list[1] = 5;
list.second()   ; => 5

note however that:

list.constructor  ; => Array and not XArray
share|improve this answer

If you already have a working Xarray implementation, I don't see the point in recreating it in typescript, which eventually will compile back to JavaScript.

But I do see the point in being able to use the Xarray in TypeScirpt.

In order to accomplish this, you simply need an interface for your Xarray. You don't even need to have a concrete implementation of your interface since your existing js implementation will serve as one.

interface Xarray{
    apply(...arguments : any[]) : void;
    //some stuff for insert, add and ...
declare var Xarray: {
   new (...items: any[]): Xarray;
   (...items: any[]): Xarray;
   prototype: Array; // This should expose all the Array stuff from EXMAScript 

After doing this, should be able to use your custom defined type through the declared variable without actually implementing it in TypeScript.

var xArr = new Xarray();
xArr.apply("blah", "hehe", "LOL");

You might look for reference here to see how they typed the ECMAScript Array API:

share|improve this answer
you mean i dont want to create Xarray implementation ts ? –  BalaKrishnan웃 Jan 7 '13 at 7:45
If you have an already working implementation of it in JS, I don't see any point in redoing it in TS and risking it's not working anymore. They didn't redo the whole JS in TypeScript, instead the typed it in lib.d.ts so it becomes usable through TS. You can also expose the custom type through an interface and declaring a variable though which you can use your JS implementation of the XArray. –  Jani Hyytiäinen Jan 7 '13 at 11:04

Yes it's possible to extend a native JS object in TS, however there is an issue extending built-in types (those included in lib.d.ts) like Array. Read this post for workaround:

So defining a type interface which extends a native type object at a later stage can be done in the following way:

/// <reference path="lib.d.ts"/>
interface Array {
    sort: (input: Array) => Array;

Using on a concrete example, you can sort some elements on an array which define a sort function in an interface and later implements it on an object.

class Math implements Array {
    sort : (x: Array) => Array {
          // sorting the array
var x = new Math();
share|improve this answer
Updated workitem : –  basarat Mar 8 '13 at 2:33
You can't just dump sort() there by itself as this will currently require the implementation of all other Array functions also. Also, "Math" already exists as an interface, not a class. –  James Wilkins Jul 15 '13 at 21:19

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