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I can see that the term "upcast" is related to OOP, but I can't find the exact definition by searching the Internet.

Could anyone explain what does the term mean and in what situation this technique useful?

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I'm not sure, but I assume it's where you cast back to a parent class. For an example, go and read any article out there on polymorphism. –  slugonamission Sep 18 '12 at 7:16
    
I can't say I actually know what the definition is off the top of my head, but I'd conjecture that @slugonamission is correct. –  Wug Sep 18 '12 at 7:19

2 Answers 2

up vote 3 down vote accepted

From the description of the tag you posted:

Upcasting permits an object of a subclass type to be treated as an object of any superclass type.

Basically, it's where you cast a subclass instance to one of its superclasses, to show an example in pseudocode

class Base {
    function say_hi() { printf("Hello From Base Class\n"); }
}

class Person extends Base {
    function say_hi() { printf("Hello!"); }    // Overridden. Java expects an @Override annotation
}

class Dog extends Base {
    function say_hi() { printf("Woof!"); }    // Again, overridden
}

Base B = new Base();
Base P = new Person();   // Implicit upcast
Dog dog = new Dog();
Base D = (Base)Dog();    // Explicit upcast

B.say_hi(); // Hello from base class
P.say_hi(); // Hello!
D.say_hi(); // Woof!

There are a variety of times when this is useful. In general, it defines an interface of sorts, so you can subclass something, yet still use it in its original context. Say you have a game, you'd have an enemy object. This has some common functionality, like its current position, speed, health, and other things. Despite this, some enemies might move differently, might play a different die animation, and of course, would be drawn differently. The issue is, since they have the same interface, you don't want to have to have special code to handle every different type of enemy.

It would make sense to make a base "Enemy" class with these fields and empty methods, but then extend it to have SmallEnemy, EvilEnemy, BossEnemy etc with their different models and animations, filling in the blank methods. These "blank" methods can also be referred to as abstract or pure methods.

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One question, since you have casted D to Base, how can you access Dog's say_hi()? I feel it hard to understand. Could you give me a concrete example instead of pseudocode one? –  can. Sep 18 '12 at 7:44
1  
I agree with you slugonamission but you should probably add a hint in the pseudo code that dog and person extend base. –  Dan Sep 18 '12 at 8:26
    
@Dan - oops, thanks. That's what you get for coding in the morning. –  slugonamission Sep 18 '12 at 9:01
    
@can. - sorry, I missed your question. In this case, you're calling the say_hi method on the current object. Because the D object inherits from Base, you can cast it back to Base, but it still retains the same methods, thus you can get away with doing this. –  slugonamission Sep 18 '12 at 16:21
    
Also, this is implemented using a jump table. Imagine that your class has a table of methods with it. In the case of Dog, the table has the same format as Base, but I've changed an entry in it, hence when I cast to Base, I can still use the existing method table, even though the actual contents of one cell are different. –  slugonamission Sep 18 '12 at 16:22

Upcasting is basically an object creation mechanism in which we create objects by referring to their base class. We do this by replacing the sub-class by the base-class in the object definition. This particularly comes in handy when you know that a specialized object created will not necessarily use all the functions that it has got to offer. So, replace a subclass(inherited class) by a base-class and all you have done is Upcasting.

This concept can be well understood if we take an example. Lets suppose we have three classes. One parent or generalized class called the LIVING_THINGS class and the two subclasses ANIMAL and BIRD which inherit from the former. The parent class or the baseclass has the function, say Born()and Die(). The specialized class have the function, say Run() and Fly() for ANIMAL and BIRD respectively.

To create an ANIMAL and BIRD object you would usually use the syntax below:

ANIMAL animal = new ANIMAL();
BIRD bird = new BIRD();  

In the code above, the methods Run()and Fly() work perfectly with the objects created. This is the normal way in which you would create the objects. The reference used to create the object is exactly the same as the object type created during run-time. The methods of the subclass work just fine.

But, to create an Upcast, you would use the syntax below:

LIVING_THINGS animal = new ANIMAL();

In the code above, even though we have created an object of the type ANIMAL and BIRD, the reference used is actually of the base-class. Therefore the methods Run() and Fly() are not available to these objects. Instead only the functions available in the base-class such as Born() and Die() are available. This can be useful if you want only basic functions available at the start and want to later convert these objects of their original types to make their specialized functions available afterwards. This can be done with the help of Downcasting. Downcasting can change the reference types of these objects to the specialized subclass to make available the functions which were not available otherwise. Watch the code below:

ANIMAL new_animal  = animal as ANIMAL;

In the above code, we have created a new object and converted it to an ANIMAL type. It should be a good practice to actually check if the object to be converted supports the conversion. This can be done with the help of the is keyword

if (animal is ANIMAL)

{

     ANIMAL new_animal  = animal as ANIMAL;

     new_animal.Run();

}

With the help of Downcasting, we have restored all the functions and properties that the ANIMAL object should have. Now it behaves as a proper ANIMAL object.

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