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I have a basic question regarding assignment of a list of subclass to a list of superclass.

So I have something like the following:

Class B extends A;

List <B> bList = new ArrayList<B>();
List <A> aList = bList; 

Why does this last assignment fail? Sorry for the newbie question

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up vote 9 down vote accepted

To explain this, let me substitute "B" with Integer and "A" with Number. This is just to make it a little easier to explain.

Class Integer extends Number;

List <Integer> iList = new ArrayList<Integer>();
List <Number> nList = iList // will fail

The reason this would fail is because nList can take any Number -- it can take Integer, it can take Double, or for that matter any subclass of Number. However, this is not true for iList. You cannot add a Double to iList because it accepts only Integer and its subclasses. Hope this helps explain it to you.

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Ok. Thanks for the explanation. I think I follow now. – user294280 Jun 7 '11 at 5:23
Also look at Jon Skeet's wonderful response in the link that Daniel Pryden mentions in the comment to the question. – Sai Jun 7 '11 at 19:42

When you declare a List of items of type A, only items of type A can be added or removed from the List. If you need to include subclasses of A, use the generic wildcard ? extends A to indicate so. Your code should therefore be:

List <? extends A> aList = bList; 
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List<B> and List<A> are invariant type. What you need is covariant type. In this case, it is List<? extends A>.

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List<B> is not List<A>:

Through example: let say you have class B1 extends A{} and class B2 extends A{} then (if you would be able to do that:

List<B1> b1 = new AList<B1>();
List<A> a = b1;

List<B2> b2 = new AList<B2>();

by the hypothesis, you should be able to do a.add(new B2()) but this is wrong.

If you try the same thing but using arrays instead of lists, it will compile and throw exception in runtime.

We say that arrays are covariant and generics are invariant.

to make the code compile you have the wite it:

List<? extends A> a = b;

this says that a is a list of some subtype of A. _But you don know which one. Because of that you can't do a.put(X)

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Because generics are strict type safe.

You can have

List<? extends A> aList = bList;

It says aList can hold list of any type which is an A

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Because List<B> does not extend List<A>. For example, Integer extends Number and so does Long. So List<Number> can contain both Integer and Long. So if you assign List<Integer> to List<Number> you will be able to add Long to your list of integers.

You can declare

List<? super B> superB;

And that would allow assignment to superB of any list that contains B and its super classes. But it's not the same as in your case aList=bList.


List<? extends A> extendsA;


    List<? super Integer> superA;
    superA = new ArrayList<Number>();

    List<? extends Number> extendsNumber;
    extendsNumber = new ArrayList<Integer>();
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While at first glance you might think that

Class B extends A;

List <B> bList = new ArrayList<B>();
List <A> aList = bList;

should work, the problem is obvious when you imagine actually using these lists:

A something = new A();
aList.add( something ); // Should work because aList is a list of A's

but aList was assigned to bList, so that should be the same as

bList.add( something ); // Here's the problem

bList.add() takes a B, but something is an A, and an A is not a B!

And that's why generics should be (and are) strict type safe.

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