Your code seemed a bit complex. See a simpler example (remember to switch on a debugging tool to see log messages).
The prototype link is stored within an object whenever an object is created and points to the object as specified in the
prototype property of the object's constructor function. You can inspect the prototype in Firefox by checking an object's
In the linked example, there are 3 constructors:
- createPrototype (helper to get an empty object with defined prototype link)
In the linked example, there are 2 prototype objects:
- Shape.prototype (contains shared properties for shapes)
- Triangle.prototype (contains shared properties for triangles)
First a shape is created by calling
new Shape(). This creates a new object since
new is written in front of the function named
Shape. The prototype link of the object (
__proto__ in Firefox) points to
Shape.prototype because this property of the constructor function gives the prototype link's target. The link is set on object instantiation.
As a result whenever you try to access a property of the
shape the property is retrieved as follows. First,
shape is searched for the property. If it's there, use it. If not, the prototype object
shape.__proto__ is retrieved which refers to the same object as
Shape.prototype. Now, the prototype object is searched for the property.
For the case of triangle the thing is a bit more complex because multiple prototype links are involved. The important thing is that we need to create an empty object to hold the triangles' shared properties which also needs to have its prototype link set to point to
Shape.prototype. This makes shape's prototype the fallback of triangle's prototype.
It is archived by the anonymous function that includes
createPrototype. It needs to be included because every invocation of the anonymous function needs to manipulate the
prototype property of a constructor function (called
createPrototype in our case). After the empty prototype object with the prototype chain is created, it is instantly returned and assigned to
Triangle.prototype. After that any object created by
new Triangle() has the desired prototype chain.
Once this is set, we can add all shared properties of triangles into the
Triangle.prototype object that was just created. This is shown by overriding
paint and by adding
getArea. Note this overriding actually works because the
paint function for triangles is found earlier than the
paint method for shapes and the first found reference/property is used.
To summarize, all property accesses on objects use prototype chains for fallbacks. In our case the chain for
Shape.prototype and the one for
You might want to assign a name to the anonymous function (that includes
createPrototype) to have a tool for created object hierarchies. This is shown in the updated example and ends up with the following helper:
// We need a new object whose prototype link points to parent.prototype
createPrototype.prototype = parent.prototype;
return new createPrototype();