prototype property of an object is used when creating new child objects of that object. Changing it does not reflect in the object itself, rather is reflected when that objected is used as a constructor for other objects, and has no use in changing the prototype of an existing object.
myFactory.prototype = someOtherObject;
var newChild = new myFactory;
newChild.__proto__ === myFactory.prototype === someOtherObject; //true
__proto__ property exists in some implementations (a lot now): any Mozilla implementation, all the webkit ones I know of, some others. This property points to the internal [[prototype]] property and allows modification post-creation on objects. Any properties and functions will instantly switch to match the prototype due to this chained lookup.
__proto__ they won't optimize your code at all.
This posts https://bugzilla.mozilla.org/show_bug.cgi?id=607863 specifically discusses current implementations of
__proto__. The rest is completely in the hands of you and every other developer, so you can see why
__proto__ sticks out like a sore thumb.
There is one thing that
__proto__ allows for that is otherwise impossible to do: the designation of an objects prototype at runtime separate from its constructor. This is an important use case and is one of the primary reasons
__proto__'s days are formally numbered.
In the short term, you can use
__proto__ if you're targeting browsers that support it (not IE, and no IE ever will). It's likely it'll work in webkit and moz for the next 10 years as ES6 won't be finalized until 2013.
Brendan Eich - re:Approach of new Object methods in ES5:
Sorry, ... but settable
__proto__, apart from the object initialiser use case (i.e., on a new object not yet reachable, analogous to ES5's Object.create), is a terrible idea. I write this having designed and implemented settable
__proto__ over 12 years ago.
... the lack of stratification is a problem (consider JSON data with a key
"__proto__"). And worse, the mutability means implementations must check for cyclic prototype chains in order to avoid ilooping. [constant checks for infinite recursion are required]
__proto__ on an existing object may break non-generic methods in the new prototype object, which cannot possibly work on the receiver (direct) object whose
__proto__ is being set. This is simply bad practice, a form of intentional type confusion, in general.