To conserve the bandwidth here is the link to my answer on "How can I emulate “classes” in JavaScript? (with or without a third-party library)". It contains further references as well as examples.
The short answer: the heart of JavaScript's prototypal OO is delegation. In this style of OOP different objects of the same "class" can delegate the handling of methods and properties to the same prototype (usually some third object):
var foo = {
property: 42,
inc: function(){
++this.counter;
},
dec: function(){
--this.counter;
}
};
// Note: foo does not define `counter`.
Let's create a constructor for objects with foo as a prototype. Effectively, everything unhandled will be delegated to foo.
var Bar = function(){
this.counter = 0;
};
Bar.prototype = foo; // This is how we set up the delegation.
// Some people refer to Bar (a constructor function) as "class".
var bar = new Bar();
console.log(bar.counter); // 0 --- Comes from bar itself
console.log(bar.property); // 42 --- Not defined in bar, comes from foo
bar.inc(); // Not defined in bar => delegated to foo
bar.inc();
bar.dec(); // Not defined in bar => delegated to foo
// Note: foo.inc() and foo.dec() are called but this === bar
// that is why bar is modified, not foo.
console.log(bar.counter); // 1 --- Comes from bar itself
Let's define inc()
directly on bar:
bar.inc = function(){
this.counter = 42;
};
bar.inc(); // Defined in bar => calling it directly.
// foo.inc() is not even called.
console.log(bar.counter); // 42 --- Comes from bar
Setting up the single inheritance chain:
var Baz = function(){
this.counter = 99;
};
Baz.protype = new Bar();
var baz = new Baz();
console.log(baz.counter); // 99
baz.inc();
console.log(baz.counter); // 100
console.log(baz instanceof Baz); // true
console.log(baz instanceof Bar); // true
console.log(baz instanceof Object); // true
Neat, eh?