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public class Animal{

    int n = 5;

    public static void main(String[] args) {

        Animal a = new Animal();
        Animal ah = new Horse();
        Horse h = new Horse(); 

        System.out.println(h.n); // prints 7
        System.out.println(ah.n); // prints 5
        h = (Horse) ah;
        System.out.println(h.n); // prints 7

    }
}

class Horse extends Animal{

    int n = 7;

}

My question:

Why does h.n still print 7 after h = (Horse) ah? After the assignment it should point to the same object that ah points and the n field points to 5?

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I am new to the forum. I had not put any comments. Somebody changed it. I know it prints 7, 5, 7. Then I saw that it got changed by someone. Then I saw your comment. I approved your edit. But I hadn't approved the first one? How did it get changed? –  javacurious Feb 6 '11 at 1:45
    
I know it wasn't you that added those comments. Thanks for approving my edit. People with more reputation than myself (I think 2000) can edit without your approval, so that's what happened earlier. In future it is best that you provide the output you are seeing. Thanks! –  mgiuca Feb 6 '11 at 1:48
    
thanks for the answer :) –  javacurious Feb 6 '11 at 1:50
    
Also, if you think my answer answers the question fully, can you tick the "accepted answer" checkbox? Cheers. –  mgiuca Feb 6 '11 at 1:51
    
also by saying static type you are referring to the reference variable type, right? –  javacurious Feb 6 '11 at 1:54

2 Answers 2

up vote 8 down vote accepted

First, let's call the field n of the class Animal "Animal.n" to avoid confusion.

Fields, unlike methods, are not subject to overriding. So in your Horse class, where you may think you are overriding the value of Animal.n with 7, you are actually declaring a new variable called n (let's call it Horse.n to avoid confusion).

So really, you have a class called Horse with two fields: Animal.n and Horse.n. Which field you get when you say "n" depends upon the static type of the variable at the time.

When you have an object whose type is Horse, but upcast to an Animal, the n field refers to Animal.n, and has a value of "5". Hence ah.n is "5".

When you have the same object, downcast again to a Horse, the n field refers to Horse.n, and has a value of "7". Hence h.n is "7".

To clarify: Indeed, h does point to the same object that ah points to -- downcasting does not change what object is being pointed at. However, the static type does affect which field of the object is being requested.

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2  
To discuss why fields are not subject to overriding: what is essential about overriding of methods is that the same interface is used but has a different implementation. Since fields do not have an implementation, only a type and a name, overriding wouldn't do anything. What you probably want here is the Horse constructor to assign a = 7, rather than declaring a new int. That way, the Horse would only have one field called a, which is unambiguously set to 7. –  mgiuca Feb 6 '11 at 1:42
    
very well put, mgiuca. –  joriki Feb 6 '11 at 1:45
    
Upvoted because it made me remember something forgotten :). –  Mihai Toader Feb 6 '11 at 1:51
    
Nice explanation for a strange problem. Let's better keep all fields private. :D –  maaartinus Feb 6 '11 at 2:42
    
@maaartinus Indeed! If all fields were private this could never arise. But I do think there is some benefit to having protected fields (ideally not, but in practice it can save a lot of time and still have most of the benefit of private fields), in which case this question is still relevant. –  mgiuca Feb 6 '11 at 23:52

Every object you create (called an instance) in Java points to the class from which it was created. This is the true type of the object and doesn't change when you cast a reference to it. Similarly, every variable that references an object has a declared type. This is how the compiler will treat the object and determines what operations are allowed.

However, these two types are only loosely coupled. Casting object references changes only the declared type. It doesn't affect how the object behaves--only how the compiler treats it.

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