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function Foo() {}
Foo.prototype.x = 1

foo = new Foo()
foo2 = new Foo()

foo2.x = 2
Foo.prototype.x = 3

console.log("foo.x = ", foo.x)
console.log("foo2.x = ", foo2.x)
=> foo.x = 3
=> foo2.x = 2

Two objects are created above, the inherited property of one object is updated, then their prototype's property is updated. Why does the updated object retain its own new value but the other track the prototype's ?


The expression above, the inherited property of one object is updated, seems misleading in the above context.

In fact, a shadow property will be created on the object, when a locally non-existing property is set, even if the prototype already contains it. In this case, the prototype's properties are ready-only from the standpoint of the object. Afterwards, this local shadow property has the immediate right to be accessed.

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Because Javascript works like that. If a property isn't found in the object, then it's searched through the object's prototype chain. –  MaxArt Jun 14 '13 at 8:32

4 Answers 4

up vote 4 down vote accepted

Why does the updated object retain its own new value but the other track the prototype's ?

Because the x property is directly set on foo2 and shadows the x property of the prototype.

Do console.dir(foo2) and see for yourself:

  x: 2
  __proto__: Foo
     constructor: function Foo() {}
     x: 3
     __proto__: Object

Whereas console.dir(foo) shows:

  __proto__: Foo
     constructor: function Foo() {}
     x: 3
     __proto__: Object

When you are trying to access a property, always the value closest to the object in the prototype chain will be returned.

The exact algorithm can be found in §8.12.2 of the ECMAScript 5.1 specification.

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Thanks, also learned console#dir here. –  sof Jun 14 '13 at 8:41
It's quite handy! console.log usually shows the value in some appropriate, human-readable format, but console.dir seems to always convert the argument to an object and lists all properties and shows the inheritance. It certainly helps to inspect values properly. –  Felix Kling Jun 14 '13 at 8:43

JavaScript will only look to the prototype to resolve a property call if it is not specifically defined on the current instance.

Since .x is defined for foo2 as 2, it looks no further for the value. However, for foo, .x is not defined on the instance, so it looks to the prototype, and gets 3.

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It is a good question, anyway the answer is simple: because the foo2 object has a property named x which has its own value and is not inherited from the prototype. If you want to access the prototype value you should do foo1.constructor.prototype.x. You have to imagine the structure like this:

  • Foo
  • Foo.prototype
    • Foo.prototype.x

The variables look like this:

  • foo = {}
  • foo2 = {x:2}

If JS doesn't find the x property in the object then it will look inside the prototype.

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You never set foo.x, so it takes the default prototype value, which at the time of the .log(), is 3.

If you go

foo.x = 10
foo2.x = 2
Foo.prototype.x = 3

...then check foo.x, it's 10, since it's been explicitly overridden.

As a corollary, if you don't set foo2.x, it will also be 3:

//foo2.x = 2
Foo.prototype.x = 3

If things didn't work like that, it would mean the .prototype property would be read-only after instantiation, so you'd have different versions of the default flying around depending on when you instantiated and/or changed the property. No fun.

When you explicitly override it, you're aware of when and why it's changed. Otherwise, the current setting of .prototype is used.

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