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I am wondering if there are any advantages of using any of these over the other, and which way should I go?

Constructor approach:

var Class = function () {

    this.calc = function (a, b) {
        return a + b;


Prototype approach:

var Class = function () {};

Class.prototype.calc = function (a, b) {
    return a + b;

I don't like that, using the prototype, method definitions are separated from the class, and I'm not aware if there is any specific reason I should use this over just the first approach.

Also, is there any benefit of using a function literal to define a "class", over just function definition:

var Class = function () {};


function Class () {};


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marked as duplicate by Kate Gregory, uınbɐɥs, Matthew Strawbridge, strah, Mike Clark Apr 3 '13 at 21:55

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 255 down vote accepted

Methods that inherit via the prototype chain can be changed universally for all instances, for example:

function Class () {}
Class.prototype.calc = function (a, b) {
    return a + b;

// Create 2 instances:
var ins1 = new Class(),
    ins2 = new Class();

// Test the calc method:
console.log(ins1.calc(1,1), ins2.calc(1,1));
// -> 2, 2

// Change the prototype method
Class.prototype.calc = function () {
    var args = Array.prototype.slice.apply(arguments),
        res = 0, c;

    while (c = args.shift())
        res += c;

    return res; 

// Test the calc method:
console.log(ins1.calc(1,1,1), ins2.calc(1,1,1));
// -> 3, 3

Notice how changing the method applied to both instances? This is because ins1 and ins2 share the same calc() function. In order to do this with public methods created during construction, you'd have to assign the new method to each instance that has been created, which is an awkward task. This is because ins1 and ins2 would have their own, individually created calc() functions.

Another side effect of creating methods inside the constructor is poorer performance. Each method has to be created every time the constructor function runs. Methods on the prototype chain are created once and then "inherited" by each instance. On the flip side of the coin, public methods have access to "private" variables, which isn't possible with inherited methods.

As for your function Class() {} vs var Class = function () {} question, the former is "hoisted" to the top of the current scope before execution. For the latter, the variable declaration is hoisted, but not the assignment. For example:

// Error, fn is called before the function is assigned!
var fn = function () { alert("test!"); } 

// Works as expected: the fn2 declaration is hoisted above the call
function fn2() { alert("test!"); }
share|improve this answer
Aah, that makes things so much clearer :) I didn't realize the efficiency difference - that's very useful to know. Same for the hoisting effect - tricky, indeed. Thanks for such a great answer, I learned a lot from it! – Leo Dec 22 '10 at 11:09
You forgot to mention that it's harder to use Super.call.someFunction() when overriding in inheritance: stackoverflow.com/a/16063711/1641941 – HMR Sep 18 '13 at 0:55
Very old question, but somehow followed a link and stumbled here -- I think the example would be more telling if you kept the number of arguments consistent (just to demonstrate that it's using a+b. This really is a small point, but it helps the reader identify the diff that you're concentrating on as well as rule out other factors he may be reading (for instance: what happens in the first call if you did have a third argument). The example is simple enough and hopefully the programmer is good enough not to get caught up on the small differences. – vol7ron Apr 3 '14 at 14:43
Surely the same could be achieved using the Functional pattern and thus avoiding having to ape the inheritance patterns of classical languages. – Ella Winrow Apr 15 '15 at 10:44
Isn't it more dangerous in the prototypical approach? I can accidentally change function assignment for all classes without knowing it. Whereas the Constructor approach enforces that if you want to change a function, you'd have to find the code and change it. – benjaminz Apr 22 at 14:49

The advantage of the prototype approach is efficiency. There is one calc() function object shared between all Class objects (by which I mean objects created by calling the Class constructor). The other way (assigning methods within the constructor) creates a new function object for every Class object, using more memory and taking more processing time when calling the Class constructor. However, this approach does have an advantage: the calc() method has access to local variables within the constructor, which you can use to your advantage:

function Class() {
    var calcCallCount = 0;

    this.calc = function (a, b) {
        alert("Calc called " + calcCallCount + " times");
        return a + b;

Regarding var Class = function() {...} versus function Class() {...}, I generally prefer the latter is because it means the function has a name, which can be useful when debugging. The other difference is that the latter version (a function declaration) is hoisted, meaning that it is available everywhere within the scope in which it is defined, not just after the definition. However, some people prefer to use the former (a function expression) everywhere.

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Thanks for your answer too, Tim, I appreciate it! – Leo Dec 22 '10 at 11:20
Re Class = function() {...}, i.e. defining in global/window scope, I've not had any debugging problems with this approach in terms of name, although understandably hoisting does not seem to occur. Not sure if there were any other differences between this approach and your two. – Arcane Engineer Jul 27 '14 at 17:05
@NickWiggill: Built-in browser developer tools have come a long way since I wrote this answer and they now do a much better job of inferring an appropriate function name from the context, so I agree that ease of debugging is much less of a concern these days. – Tim Down Jul 27 '14 at 19:05
Made a js Perf test to visualize performance differences. jsperf.com/class-comparison – Bernhard Feb 10 '15 at 9:52
@DaveVoyles: Or indeed this post: stackoverflow.com/questions/9772307/… – Tim Down Sep 28 '15 at 8:32
var YourClass = function(){
  var privateField = "somevalue";
  this.publicField = "somevalue";
  this.instanceMethod1 = function(){
     //you may access both private and public field from here:
     //in order to access public field, you must use "this":
     alert(privateField + "; " + this.publicField);

YourClass.prototype.instanceMethod2 = function(){
  //you may access only public field 2 from this method, but not private fields:
  //error: drawaback of prototype methods:

Advantages of prototype methods:

  1. When you define methods via prototype, they are shared among all YourClass instances. As a result the total size of such instances is < than if you define methods in constructor; There are tests that show how method definition via prototype decrease the total size of html page and as a result a speed of its loading.

  2. another advantage of methods, defined via prototype - is when you use inherited classes, you may override such methods and in the overriden method of the derived class you may invoke the method of base class with the same name, but with methods defined in constructor, you cannot do this.

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Thanks for your answer, I appreciate it and now realize even more how great a resource StackOverflow is. – Leo Dec 22 '10 at 11:20
Hello, what do you mean by inherited classes? I don't think it's the right terminology cuz javascript has no concept of classes.. When you said overridden method of the derived class, did you mean, another object, whose prototype is your object? I'm lost.. Can you please edit or explain? – Venkat Renuka Prasad May 5 at 6:15

First of all you should use the object literal like this:

var Class = {
  calc: function (a, b) {
    return a + b;

This notation is cleaner and also makes it obvious that in Javascript objects are just hashes not something backed from a recipe, like a predefined class.

The difference between definitions is that If you add method to prototype there will be only one method created in memory for all instances. So if you have a generic method and an object that is created/used in multiple instances you should add the method to prototype.

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That isn't equivalent to either of the OP's examples. – Tim Down Dec 22 '10 at 11:02
Your code does do something totally different, assign an js(on) object to a variable. – Dykam Dec 22 '10 at 11:03
Thanks for clearing about the prototype for me, azAttis! As for the object literals, in my case, I do wish to create a class that I will create multiple instances of, so I believe object literal does not serve this purpose well, and is why I used the approach above. – Leo Dec 22 '10 at 11:03
@Leo an object literal serves the purpose perfectly. You can create multiple copies of an object literal using a factory function and Object assign, or its underscore/lodash equivalent. – Hugo Oct 22 '15 at 15:31

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