What techniques can be used to define a class in JavaScript, and what are their trade-offs?

Here's the way to do it without using any external libraries:

// Define a class like this
function Person(name, gender){

   // Add object properties like this
   this.name = name;
   this.gender = gender;
}

// Add methods like this.  All Person objects will be able to invoke this
Person.prototype.speak = function(){
    alert("Howdy, my name is" + this.name);
};

// Instantiate new objects with 'new'
var person = new Person("Bob", "M");

// Invoke methods like this
person.speak(); // alerts "Howdy, my name is Bob"

Now the real answer is a whole lot more complex than that. For instance, there is no such thing as classes in JavaScript. JavaScript uses a prototype-based inheritance scheme.

In addition, there are numerous popular JavaScript libraries that have their own style of approximating class-like functionality in JavaScript. You'll want to check out at least Prototype and jQuery.

Deciding which of these is the "best" is a great way to start a holy war on Stack Overflow. If you're embarking on a larger JavaScript-heavy project, it's definitely worth learning a popular library and doing it their way. I'm a Prototype guy, but Stack Overflow seems to lean towards jQuery.

As far as there being only "one way to do it", without any dependencies on external libraries, the way I wrote is pretty much it.

---

The best way to define a class in JavaScript is to not define a class.

Seriously.

There are several different flavors of object-orientation, some of them are:

class-based OO (first introduced by Smalltalk)

prototype-based OO (first introduced by Self)

multimethod-based OO (first introduced by CommonLoops, I think)

predicate-based OO (no idea)

And probably others I don't know about.

JavaScript implements prototype-based OO. In prototype-based OO, new objects are created by copying other objects (instead of being instantiated from a class template) and methods live directly in objects instead of in classes. Inheritance is done via delegation: if an object doesn't have a method or property, it is looked up on its prototype(s) (i.e. the object it was cloned from), then the prototype's prototypes and so on.

In other words: there are no classes.

JavaScript actually has a nice tweak of that model: constructors. Not only can you create objects by copying existing ones, you can also construct them "out of thin air", so to speak. If you call a function with the new keyword, that function becomes a constructor and the this keyword will not point to the current object but instead to a newly created "empty" one. So, you can configure an object any way you like. In that way, JavaScript constructors can take on one of the roles of classes in traditional class-based OO: serving as a template or blueprint for new objects.

Now, JavaScript is a very powerful language, so it is quite easy to implement a class-based OO system within JavaScript if you want to. However, you should only do this if you really have a need for it and not just because that's the way Java does it.

---

ES2015 Classes

In the ES2015 specification, you can use the class syntax which is just sugar over the prototype system.

class Person {
  constructor(name) {
    this.name = name;
  }
  toString() {
    return `My name is ${ this.name }.`;
  }
}

class Employee extends Person {
  constructor(name, hours) {
    super(name);
    this.hours = hours;
  }
  toString() {
    return `${ super.toString() } I work ${ this.hours } hours.`;
  }
}

Benefits

The main benefit is that static analysis tools find it easier to target this syntax. It is also easier for others coming from class-based languages to use the language as a polyglot.

Caveats

Be wary of its current limitations. To achieve private properties, one must resort to using Symbols or WeakMaps. In future releases, classes will most likely be expanded to include these missing features.

Support

Browser support isn't very good at the moment (supported by nearly everyone except IE), but you can use these features now with a transpiler like Babel.

Resources

Classes in ECMAScript 6 (final semantics)

What? Wait. Really? Oh no! (a post about ES6 classes and privacy)

Compatibility Table – Classes

Babel – Classes

---

I prefer to use Daniel X. Moore's {SUPER: SYSTEM}. This is a discipline that provides benefits such as true instance variables, trait based inheritance, class hierarchies and configuration options. The example below illustrates the use of true instance variables, which I believe is the biggest advantage. If you don't need instance variables and are happy with only public or private variables then there are probably simpler systems.

function Person(I) {
  I = I || {};

  Object.reverseMerge(I, {
    name: "McLovin",
    age: 25,
    homeState: "Hawaii"
  });

  return {
    introduce: function() {
      return "Hi I'm " + I.name + " and I'm " + I.age;
    }
  };
}

var fogel = Person({
  age: "old enough"
});
fogel.introduce(); // "Hi I'm McLovin and I'm old enough"

Wow, that's not really very useful on it's own, but take a look at adding a subclass:

function Ninja(I) {
  I = I || {};

  Object.reverseMerge(I, {
    belt: "black"
  });

  // Ninja is a subclass of person
  return Object.extend(Person(I), {
    greetChallenger: function() {
      return "In all my " + I.age + " years as a ninja, I've never met a challenger as worthy as you...";
    }
  });
}

var resig = Ninja({name: "John Resig"});

resig.introduce(); // "Hi I'm John Resig and I'm 25"

Another advantage is the ability to have modules and trait based inheritance.

// The Bindable module
function Bindable() {

  var eventCallbacks = {};

  return {
    bind: function(event, callback) {
      eventCallbacks[event] = eventCallbacks[event] || [];

      eventCallbacks[event].push(callback);
    },

    trigger: function(event) {
      var callbacks = eventCallbacks[event];

      if(callbacks && callbacks.length) {
        var self = this;
        callbacks.forEach(function(callback) {
          callback(self);
        });
      }
    },
  };
}

An example of having the person class include the bindable module.

function Person(I) {
  I = I || {};

  Object.reverseMerge(I, {
    name: "McLovin",
    age: 25,
    homeState: "Hawaii"
  });

  var self = {
    introduce: function() {
      return "Hi I'm " + I.name + " and I'm " + I.age;
    }
  };

  // Including the Bindable module
  Object.extend(self, Bindable());

  return self;
}

var person = Person();
person.bind("eat", function() {
  alert(person.introduce() + " and I'm eating!");
});

person.trigger("eat"); // Blasts the alert!

Disclosure: I am Daniel X. Moore and this is my {SUPER: SYSTEM}. It is the best way to define a class in JavaScript.

---

var Animal = function(options) {
    var name = options.name;
    var animal = {};

    animal.getName = function() {
        return name;
    };

    var somePrivateMethod = function() {

    };

    return animal;
};

// usage
var cat = Animal({name: 'tiger'});

---

Following are the ways to create objects in javascript, which I've used so far

Example 1:

obj = new Object();
obj.name = 'test';
obj.sayHello = function() {
    console.log('Hello '+ this.name);
}

Example 2:

obj = {};
obj.name = 'test';
obj.sayHello = function() {
    console.log('Hello '+ this.name);
}
obj.sayHello();

Example 3:

var obj = function(nameParam) {
    this.name = nameParam;
}
obj.prototype.sayHello = function() {
    console.log('Hello '+ this.name);
}

Example 4: Actual benefits of Object.create(). please refer [this link]

var Obj = {
    init: function(nameParam) {
        this.name = nameParam;
    },
    sayHello: function() {
        console.log('Hello '+ this.name);
    }
};
var usrObj = Object.create(Obj);  // <== one level of inheritance

usrObj.init('Bob');
usrObj.sayHello();

Example 5 (customised Crockford's Object.create):

Object.build = function(o) {
   var initArgs = Array.prototype.slice.call(arguments,1)
   function F() {
      if((typeof o.init === 'function') && initArgs.length) {
         o.init.apply(this,initArgs)
      }
   }
   F.prototype = o
   return new F()
}
MY_GLOBAL = {i: 1, nextId: function(){return this.i++}}  // For example

var userB = {
    init: function(nameParam) {
        this.id = MY_GLOBAL.nextId();
        this.name = nameParam;
    },
    sayHello: function() {
        console.log('Hello '+ this.name);
    }
};
var bob = Object.build(userB, 'Bob');  // Different from your code
bob.sayHello();

A class is defined like this:

class Person {
    constructor(strName, numAge) {
        this.name = strName;
        this.age = numAge;
    }

    toString() {
        return '((Class::Person) named ' + this.name + ' & of age ' + this.age + ')';
    }
}

let objPerson = new Person("Bob",33);
console.log(objPerson.toString());

---

I think you should read Douglas Crockford's Prototypal Inheritance in JavaScript and Classical Inheritance in JavaScript.

Examples from his page:

Function.prototype.method = function (name, func) {
    this.prototype[name] = func;
    return this;
};

Effect? It will allow you to add methods in more elegant way:

function Parenizor(value) {
    this.setValue(value);
}

Parenizor.method('setValue', function (value) {
    this.value = value;
    return this;
});

I also recommend his videos: Advanced JavaScript.

You can find more videos on his page: http://javascript.crockford.com/ In John Reisig book you can find many examples from Douglas Crockfor's website.

---

Because I will not admit the YUI/Crockford factory plan and because I like to keep things self contained and extensible this is my variation:

function Person(params)
{
  this.name = params.name || defaultnamevalue;
  this.role = params.role || defaultrolevalue;

  if(typeof(this.speak)=='undefined') //guarantees one time prototyping
  {
    Person.prototype.speak = function() {/* do whatever */};
  }
}

var Robert = new Person({name:'Bob'});

where ideally the typeof test is on something like the first method prototyped

---

If you're going for simple, you can avoid the "new" keyword entirely and just use factory methods. I prefer this, sometimes, because I like using JSON to create objects.

function getSomeObj(var1, var2){
  var obj = {
     instancevar1: var1,
     instancevar2: var2,
     someMethod: function(param)
     {  
          //stuff; 
     }
  };
  return obj;
}

var myobj = getSomeObj("var1", "var2");
myobj.someMethod("bla");

I'm not sure what the performance hit is for large objects, though.

---

var Student = (function () {
    function Student(firstname, lastname) {
        this.firstname = firstname;
        this.lastname = lastname;
        this.fullname = firstname + " " + lastname;
    }

    Student.prototype.sayMyName = function () {
        return this.fullname;
    };

    return Student;
}());

var user = new Student("Jane", "User");
var user_fullname = user.sayMyName();

Thats the way TypeScript compiles class with constructor to JavaScript.

---

The simple way is:

function Foo(a) {
  var that=this;

  function privateMethod() { .. }

  // public methods
  that.add = function(b) {
    return a + b;
  };
  that.avg = function(b) {
    return that.add(b) / 2; // calling another public method
  };
}

var x = new Foo(10);
alert(x.add(2)); // 12
alert(x.avg(20)); // 15

The reason for that is that this can be bound to something else if you give a method as an event handler, so you save the value during instantiation and use it later.

Edit: it's definitely not the best way, just a simple way. I'm waiting for good answers too!

---

You probably want to create a type by using the Folding Pattern:

    // Here is the constructor section.
    var myType = function () {
        var N = {}, // Enclosed (private) members are here.
            X = this; // Exposed (public) members are here.

        (function ENCLOSED_FIELDS() {
            N.toggle = false;
            N.text = '';
        }());

        (function EXPOSED_FIELDS() {
            X.count = 0;
            X.numbers = [1, 2, 3];
        }());

        // The properties below have access to the enclosed fields.
        // Careful with functions exposed within the closure of the
        // constructor, each new instance will have it's own copy.
        (function EXPOSED_PROPERTIES_WITHIN_CONSTRUCTOR() {
            Object.defineProperty(X, 'toggle', {
                get: function () {
                    var before = N.toggle;
                    N.toggle = !N.toggle;
                    return before;
                }
            });

            Object.defineProperty(X, 'text', {
                get: function () {
                    return N.text;
                },
                set: function (value) {
                    N.text = value;
                }
            });
        }());
    };

    // Here is the prototype section.
    (function PROTOTYPE() {
        var P = myType.prototype;

        (function EXPOSED_PROPERTIES_WITHIN_PROTOTYPE() {
            Object.defineProperty(P, 'numberLength', {
                get: function () {
                    return this.numbers.length;
                }
            });
        }());

        (function EXPOSED_METHODS() {
            P.incrementNumbersByCount = function () {
                var i;
                for (i = 0; i < this.numbers.length; i++) {
                    this.numbers[i] += this.count;
                }
            };
            P.tweak = function () {
                if (this.toggle) {
                    this.count++;
                }
                this.text = 'tweaked';
            };
        }());
    }());

That code will give you a type called myType. It will have internal private fields called toggle and text. It will also have these exposed members: the fields count and numbers; the properties toggle, text and numberLength; the methods incrementNumbersByCount and tweak.

The Folding Pattern is fully detailed here: Javascript Folding Pattern

---

Code golf for @liammclennan's answer.

var Animal = function (args) { return { name: args.name, getName: function () { return this.name; // member access }, callGetName: function () { return this.getName(); // method call } }; }; var cat = Animal({ name: 'tiger' }); console.log(cat.callGetName());

---

MooTools (My Object Oriented Tools) is centered on the idea of classes. You can even extend and implement with inheritance.

When mastered, it makes for ridiculously reusable, powerful javascript.

---

Object Based Classes with Inheritence

var baseObject = 
{
     // Replication / Constructor function
     new : function(){
         return Object.create(this);   
     },

    aProperty : null,
    aMethod : function(param){
      alert("Heres your " + param + "!");
    },
}


newObject = baseObject.new();
newObject.aProperty = "Hello";

anotherObject = Object.create(baseObject); 
anotherObject.aProperty = "There";

console.log(newObject.aProperty) // "Hello"
console.log(anotherObject.aProperty) // "There"
console.log(baseObject.aProperty) // null

Simple, sweet, and gets 'er done.

---

Based on the example of Triptych, this might even be simpler:

    // Define a class and instantiate it
    var ThePerson = new function Person(name, gender) {
        // Add class data members
        this.name = name;
        this.gender = gender;
        // Add class methods
        this.hello = function () { alert('Hello, this is ' + this.name); }
    }("Bob", "M"); // this instantiates the 'new' object

    // Use the object
    ThePerson.hello(); // alerts "Hello, this is Bob"

This only creates a single object instance, but is still useful if you want to encapsulate a bunch of names for variable and methods in a class. Normally there would not be the "Bob, M" arguments to the constructor, for example if the methods would be calls to a system with its own data, such as a database or network.

I am still too new with JS to see why this does not use the prototype thing.

---

A base

function Base(kind) {
    this.kind = kind;
}

A class

// Shared var
var _greeting;

(function _init() {
    Class.prototype = new Base();
    Class.prototype.constructor = Class;
    Class.prototype.log = function() { _log.apply(this, arguments); }
    _greeting = "Good afternoon!";
})();

function Class(name, kind) {
    Base.call(this, kind);
    this.name = name;
}

// Shared function
function _log() {
    console.log(_greeting + " Me name is " + this.name + " and I'm a " + this.kind);
}

Action

var c = new Class("Joe", "Object");
c.log(); // "Good afternoon! Me name is Joe and I'm a Object"

---

JavaScript is object-oriented, but it's radically different than other OOP languages like Java, C# or C++. Don't try to understand it like that. Throw that old knowledge out and start anew. JavaScript needs a different thinking.

I'd suggest to get a good manual or something on the subject. I myself found ExtJS Tutorials the best for me, although I haven't used the framework before or after reading it. But it does give a good explanation about what is what in JavaScript world. Sorry, it seems that that content has been removed. Here's a link to archive.org copy instead. Works today. :P

---

//new way using this and new function Persons(name) { this.name = name; this.greeting = function() { alert('Hi! I\'m ' + this.name + '.'); }; } var gee=new Persons("gee"); gee.greeting(); var gray=new Persons("gray"); gray.greeting(); //old way function createPerson(name){ var obj={}; obj.name=name; obj.greeting = function(){ console.log("hello I am"+obj.name); }; return obj; } var gita=createPerson('Gita'); gita.greeting();

---