Why does this class compile even though it does not properly implement its interface?

Question

a List then Why does the code (below) compile? Surely MyClass2 should return a List<Integer> ?

public class Main {
  public static void main(final String[] args) {
    MyClass myClass = new MyClass();
    List list = myClass.getList();
    System.out.println(list);
    System.out.println(list.get(0).getClass());

    MyClass2 myClass2 = new MyClass2();
    List list2 = myClass2.getList();
    System.out.println(list2);
    System.out.println(list2.get(0).getClass());
  }

  public interface Int1 {
    public List getList();
  }

  public interface Int2 extends Int1 {
    @Override
    public List<Integer> getList();
  }

  public static class MyClass implements Int2 {
    @Override
    public List<Integer> getList() {
      return Arrays.asList(1, 2, 3);
    }
  }

  public static class MyClass2 implements Int2 {
    @Override
    public List getList() {
      return Arrays.asList("One", "Two", "Three");
    }
  }
}

I have noticed if you try to make it a List<String> then you get an error "java: Main.MyClass2 is not abstract and does not override abstract method getList() in Main.Int2". I don't quite understand why you don't get this in the example above.

Note: The solution to the problem in my project is to make the interface itself generic, i.e. Int1<X> (of course I use better names than this, its just an example).

Answer 1

The answer is in JLS 7 5.5.1. Reference Type Casting:

Given a compile-time reference type S (source) and a compile-time reference type T (target), a casting conversion exists from S to T if no compile-time errors occur due to the following rules.

If S is a class type:

If T is a class type, then either |S| <: |T|, or |T| <: |S|. Otherwise, a compile-time error occurs.

Furthermore, if there exists a supertype X of T, and a supertype Y of S, such that both X and Y are provably distinct parameterized types

(§4.5), and that the erasures of X and Y are the same, a compile-time error occurs.

In your case List<Integer> and List<String> are provably distinct parameterized types and they both have same erasures: List.

Answer 2

I suspect, the compiler should be giving you warning for Unchecked conversion, rather than marking it as compiler error. Let's understand why does it warn you:

You have following two methods to implement to satisfy the contract of interface you implement:

public List getList();
public List<Integer> getList();

Now, if in your class, you just provide implementation of the first method, it can handle the request for the 2^nd method. You can return a List<Integer> with the return type being List. That's because a List<Integer> is nothing but a List at runtime, due to type erasure.

But, if you just give the 2^nd method implementation, it won't satisfy the contract of first method. First method says, it can return any type of List, since it has used raw type in the return type. So, it can return List<Integer>, List<Object>, List<String>, anything. But the 2^nd method can only return List<Integer>.

Compiler will do this type checking at compile time and it will give you warning, that List requires unchecked conversion to List<Integer>, because the conversion will anyhow succeed at runtime, due to type erasure.

---

This is the similar case as below:

List<String> listString = new ArrayList<String>();
List rawList = new ArrayList();

listString = rawList;  // Warning: Unchecked conversion
rawList = listString;

---

Suggested Reading:

• Can I cast to a parameterized type?

Answer 3

The signature of public List<Integer> getList() is the same as the signature of public List getList() after type erasure. For overriding methods you need the overriding method to be a subsignature of the overridden method. The compiler here will decide that the subclass method does override the interface one if they are identical after type erasure and we can never have a conflict.

Answer 4

This, literally, has no effect because of type erasure:

public interface Int1 {
     public List getList();
}

public interface Int2 extends Int1 {
     @Override
     public List<Integer> getList();
}

At runtime, any List<X> becomes List. Therefore you don't @Override anything here. The runtime prototype of .getList() is List getList(). The fact that you parameterize your List in Int2 is completely ignored.

The compiler warns you about this:

java: Note: Main.java uses unchecked or unsafe operations.
java: Note: Recompile with -Xlint:unchecked for details.

Answer 5

Int2 extends Int1 then List is ok,

List<String> 

does not compile because it is not defined in Int1 or in Int2.

List<Integer> 

in

Int2 

is subject to type erasure according to Java spec http://docs.oracle.com/javase/tutorial/java/generics/erasure.html

Answer 6

So it looks like its related to type erasure and its the sort of thing that generates a warning rather than a compiler error. I guess it is like the other unchecked conversion scenarios I've seen before. Thanks for the well researched answers people.