Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm learning how to make OOP with JavaScript. Does it have the interface concept (such as Java's interface)?

So I would be able to create a listener...

share|improve this question
up vote 300 down vote accepted

There's no notion of "this class must have these functions" (that is, no interfaces per se), because:

  1. JavaScript inheritance is based on objects, not classes. That's not a big deal until you realize:
  2. JavaScript is an extremely dynamically typed language -- you can create an object with the proper methods, which would make it conform to the interface, and then undefine all the stuff that made it conform. It'd be so easy to subvert the type system -- even accidentally! -- that it wouldn't be worth it to try and make a type system in the first place.

Instead, JavaScript uses what's called duck typing. (If it walks like a duck, and quacks like a duck, as far as JS cares, it's a duck.) If your object has quack(), walk(), and fly() methods, code can use it wherever it expects an object that can walk, quack, and fly, without requiring the implementation of some "Duckable" interface. The interface is exactly the set of functions that the code uses (and the return values from those functions), and with duck typing, you get that for free.

Now, that's not to say your code won't fail halfway through, if you try to call some_dog.quack(); you'll get a TypeError. Frankly, if you're telling dogs to quack, you have slightly bigger problems; duck typing works best when you keep all your ducks in a row, so to speak, and aren't letting dogs and ducks mingle together unless you're treating them as generic animals. In other words, even though the interface is fluid, it's still there; it's often an error to pass a dog to code that expects it to quack and fly in the first place.

But if you're sure you're doing the right thing, you can work around the quacking-dog problem by testing for the existence of a particular method before trying to use it. Something like

if (typeof(someObject.quack) == "function")
    // This thing can quack

So you can check for all the methods you can use before you use them. The syntax is kind of ugly, though. There's a slightly prettier way:

Object.prototype.can = function(methodName)
     return ((typeof this[methodName]) == "function");

if (someObject.can("quack"))

This is standard JavaScript, so it should work in any JS interpreter worth using. It has the added benefit of reading like English.

For modern browsers (that is, pretty much any browser other than IE 6-8), there's even a way to keep the property from showing up in

Object.defineProperty(Object.prototype, 'can', {
    enumerable: false,
    value: function(method) {
        return (typeof this[method] === 'function');

The problem is that IE7 objects don't have .defineProperty at all, and in IE8, it allegedly only works on host objects (that is, DOM elements and such). If compatibility is an issue, you can't use .defineProperty. (I won't even mention IE6, because it's rather irrelevant anymore outside of China.)

Another issue is that some coding styles like to assume that everyone writes bad code, and prohibit modifying Object.prototype in case someone wants to blindly use If you care about that, or are using (IMO broken) code that does, try a slightly different version:

function can(obj, methodName)
     return ((typeof obj[methodName]) == "function");

if (can(someObject, "quack"))
share|improve this answer
+1 duck type reference ;) – BGerrissen Sep 14 '10 at 16:02
+1 for Duckable – Daniel Vandersluis Sep 14 '10 at 16:03
Your can method is cross-browser compatible, but anyone who uses it needs to be aware that it will show up in loops. For that reason, it's not generally a good idea to modify Object.prototype. – Matthew Crumley Sep 14 '10 at 18:36
1 Object.prototype is verboten – BGerrissen Sep 14 '10 at 19:23
It's not as horrible as it's made out to be. is -- and has always been -- fraught with such dangers, and anyone who does it without at least considering that someone added to Object.prototype (a not uncommon technique, by that article's own admission) will see their code break in someone else's hands. – cHao Sep 14 '10 at 20:10

Pick up a copy of 'JavaScript design patterns' by Dustin Diaz. There's a few chapters dedicated to implementing JavaScript interfaces through Duck Typing. It's a nice read as well. But no, there's no language native implementation of an interface, you have to Duck Type.

// example duck typing method
var hasMethods = function(obj /*, method list as strings */){
    var i = 1, methodName;
    while((methodName = arguments[i++])){
        if(typeof obj[methodName] != 'function') {
            return false;
    return true;

// in your code
if(hasMethods(obj, 'quak', 'flapWings','waggle')) {
    //  IT'S A DUCK, do your duck thang
share|improve this answer
+1 Thanks for the book recomendation! – Tom Brito Sep 14 '10 at 16:42
The method described in the book "pro javascript design patterns" is probably the best approach of a bunch of things I have read here and from what I have tried. You can use inheritance on top of it, which makes it even better to follow OOP concepts. Some might claim that you don't need OOP concepts in JS, but I beg to differ. – animageofmine Dec 17 '15 at 21:16

JavaScript (ECMAScript edition 3) has an implements reserved word saved up for future use. I think this is intended exactly for this purpose, however, in a rush to get the specification out the door they didn't have time to define what to do with it, so, at the present time, browsers don't do anything besides let it sit there and occasionally complain if you try to use it for something.

It is possible and indeed easy enough to create your own Object.implement(Interface) method with logic that baulks whenever a particular set of properties/functions are not implemented in a given object.

I wrote an article on object-orientation where use my own notation as follows:

// Create a 'Dog' class that inherits from 'Animal'
// and implements the 'Mammal' interface
var Dog = Object.extend(Animal, {
    constructor: function(name) {, name);
    bark: function() {

There are many ways to skin this particular cat, but this is the logic I used for my own Interface implementation. I find I prefer this approach, and it is easy to read and use (as you can see above). It does mean adding an 'implement' method to Function.prototype which some people may have a problem with, but I find it works beautifully.

Function.prototype.implement = function() {
    // Loop through each interface passed in and then check 
    // that its members are implemented in the context object (this).
    for(var i = 0; i < arguments.length; i++) {
       // .. Check member's logic ..
    // Remember to return the class being tested
    return this;
share|improve this answer
This syntax really hurts my brain, but the implementation here is quite interesting. – Cypher Feb 15 '14 at 1:03
Javascript is bound to do that (hurting the brain) specially when coming from cleaner OO language implementations. – Steven de Salas Aug 20 '14 at 6:02
@StevendeSalas: Eh. JS actually tends to be pretty clean when you stop trying to treat it as a class-oriented language. All the crap required to emulate classes, interfaces, etc... that is what'll really make your brain hurt. Prototypes? Simple stuff, really, once you stop fighting them. – cHao Aug 21 '14 at 14:21
Please don't skin cats :(… – Carlton Dec 12 '14 at 11:49
what's in "// .. Check member's logic ." ? what does that look like? – WTF Jul 22 '15 at 6:47

JavaScript Interfaces:

Though JavaScript does not have the interface type, it is often times needed. For reasons relating to JavaScript's dynamic nature and use of Prototypical-Inheritance, it is difficult to ensure consistent interfaces across classes -- however, it is possible to do so; and frequently emulated.

At this point, there are handfuls of particular ways to emulate Interfaces in JavaScript; variance on approaches usually satisfies some needs, while others are left unaddressed. Often times, the most robust approach is overly cumbersome and stymies the implementor (developer).

Here is an approach to Interfaces / Abstract Classes that is not very cumbersome, is explicative, keeps implementations inside of Abstractions to a minimum, and leaves enough room for dynamic or custom methodologies:

function resolvePrecept(interfaceName) {
    var interfaceName = interfaceName;
    return function curry(value) {
        /*      throw new Error(interfaceName + ' requires an implementation for ...');     */
        console.warn('%s requires an implementation for ...', interfaceName);
        return value;

var iAbstractClass = function AbstractClass() {
    var defaultTo = resolvePrecept('iAbstractClass');

    this.datum1 = this.datum1 || defaultTo(new Number());
    this.datum2 = this.datum2 || defaultTo(new String());

    this.method1 = this.method1 || defaultTo(new Function('return new Boolean();'));
    this.method2 = this.method2 || defaultTo(new Function('return new Object();'));


var ConcreteImplementation = function ConcreteImplementation() {

    this.datum1 = 1;
    this.datum2 = 'str';

    this.method1 = function method1() {
        return true;
    this.method2 = function method2() {
        return {};

    //Applies Interface (Implement iAbstractClass Interface)
    iAbstractClass.apply(this);  // .call / .apply after precept definitions


Precept Resolver

The resolvePrecept function is a utility & helper function to use inside of your Abstract Class. Its job is to allow for customized implementation-handling of encapsulated Precepts (data & behavior). It can throw errors or warn -- AND -- assign a default value to the Implementor class.


The iAbstractClass defines the interface to be used. Its approach entails a tacit agreement with its Implementor class. This interface assigns each precept to the same exact precept namespace -- OR -- to whatever the Precept Resolver function returns. However, the tacit agreement resolves to a context -- a provision of Implementor.


The Implementor simply 'agrees' with an Interface (iAbstractClass in this case) and applies it by the use of Constructor-Hijacking: iAbstractClass.apply(this). By defining the data & behavior above, and then hijacking the Interface's constructor -- passing Implementor's context to the Interface constructor -- we can ensure that Implementor's overrides will be added, and that Interface will explicate warnings and default values.

This is a very non-cumbersome approach which has served my team & I very well for the course of time and different projects. However, it does have some caveats & drawbacks.


Though this helps implement consistency throughout your software to a significant degree, it does not implement true interfaces -- but emulates them. Though definitions, defaults, and warnings or errors are explicated, the explication of use is enforced & asserted by the developer (as with much of JavaScript development).

This is seemingly the best approach to "Interfaces in JavaScript", however, I would love to see the following resolved:

  • Assertions of return types
  • Assertions of signatures
  • Freeze objects from delete actions
  • Assertions of anything else prevalent or needed in the specificity of the JavaScript community

That said, I hope this helps you as much as it has my team and I.

share|improve this answer

You need interfaces in Java since it is statically typed and the contract between classes should be known during compilation. In JavaScript it is different. JavaScript is dynamically typed; it means that when you get the object you can just check if it has a specific method and call it.

share|improve this answer
Actually, you don't need interfaces in Java, it's a fail safe to ensure objects have a certain API so you could swap them out for other implementations. – BGerrissen Sep 14 '10 at 15:51
No, they're actually needed in Java so that it can build vtables for classes that implement an interface at compile time. Declaring that a class implements an interface instructs the compiler to build a little struct that contains pointers to all of the methods needed by that interface. Otherwise, it would have to dispatch by name at runtime (like dynamically-typed languages do). – munificent Sep 15 '10 at 0:49
I don't think that's correct. Dispatch is always dynamic in java (unless maybe a method is final), and the fact that the method belongs to an interface doesn't change the lookup rules. The reason interfaces are needed in statically-typed languages is so you can use the same 'pseudo-type' (the interface) to refer to unrelated classes. – entonio Jan 18 '13 at 13:11
@entonio: Dispatch is not as dynamic as it looks. The actual method often isn't known til runtime, thanks to polymorphism, but the bytecode doesn't say "invoke yourMethod"; it says "invoke Superclass.yourMethod". The JVM can't invoke a method without knowing what class to look for it in. During linking, it might put yourMethod at entry #5 in the Superclass's vtable, and for each subclass that has its own yourMethod, simply points that subclass's entry #5 at the appropriate implementation. – cHao Apr 18 '13 at 17:27
@entonio: For interfaces, rules do change a bit. (Not languagewise, but the generated bytecode and the JVM's lookup process are different.) A class named Implementation that implements SomeInterface doesn't just say it implements the whole interface. It has info that says "I implement SomeInterface.yourMethod" and points at the method definition for Implementation.yourMethod. When the JVM calls SomeInterface.yourMethod, it looks in the class for info about implementations of that interface's method, and finds it needs to call Implementation.yourMethod. – cHao Apr 18 '13 at 18:01

bob.js supports some sort of interfaces.

1. Check if an object implements an interface:

var iFace = { say: function () { }, write: function () { } };  
var obj1 = { say: function() { }, write: function () { }, read: function () { } }; 
var obj2 = { say: function () { }, read: function () { } }; 
console.log('1: ' + bob.obj.canExtractInterface(obj1, iFace)); 
console.log('2: ' + bob.obj.canExtractInterface(obj2, iFace)); 
// Output: 
// 1: true 
// 2: false

2. Extract interface from an object:

var obj = {  
    msgCount: 0, 
    say: function (msg) { console.log(++this.msgCount + ': ' + msg); }, 
    sum: function (a, b) { console.log(a + b); } 
var iFace = { say: function () { } }; 
obj = bob.obj.extractInterface(obj, iFace); 
obj.say('How is your day?'); 
obj.say('Good bye!'); 
// Output: 
// 1: Hello! 
// 2: How is your day? 
// 3: Good bye! 
share|improve this answer

Javascript does not have interfaces. But it can be duck-typed, an example can be found here:

share|improve this answer
I like the pattern the article at that link uses to make assertions about type. An error being thrown when something doesn't implement the method its supposed to is exactly what I would expect, and I like how I can group these required methods together (like an interface) if I do it this way. – Eric Dubé Jul 18 '15 at 18:50
I hate transpiling (and source maps for debugging) but Typescript is so close to ES6 that I'm inclined to hold my nose and dive into Typescript. ES6/Typescript is interesting because it allows you to include properties in addition to methods when defining an interface (behavior). – Reinsbrain Nov 20 '15 at 14:37

There's also jQuery.isFunction(method), if you'd rather that than cHao's code.

share|improve this answer

I know this is an old one, but I've recently found myself needing more and more to have a handy API for checking objects against interfaces. So I wrote this:

It's also available via NPM: npm install methodical

It basically does everything suggested above, with some options for being a bit more strict, and all without having to do loads of if (typeof x.method === 'function') boilerplate.

Hopefully someone finds it useful.

share|improve this answer
Tom, I just watched an AngularJS TDD video and when he installs a framework, one of the dependent packages is your methodical package! Good job! – Cody Nov 8 '14 at 0:04
Haha excellent. I basically abandoned it after people at work convinced me interfaces in JavaScript was a no-go. Recently I've had an idea about a library that basically proxies an object to ensure that only certain methods are used on it which is basically what an interface is. I still think interfaces have a place in JavaScript! Can you link that video by the way? I'd like to take a look. – Tom Nov 8 '14 at 0:38
You bet, Tom. I'll try to find it soon. Thx the the anecdote about interfaces as proxies, too. Cheers! – Cody Nov 8 '14 at 2:53

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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