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Consider the following code

class SomeClass {

class GenericsExample<E extends SomeClass> {

    public void createError() {
        process(new SomeClass()); //Compiler error!

    public void createWorking() {
        E some = new SomeClass(); //Compiler error!

    public void process(E object) {

public class Sandbox {
    public void run() {
        new GenericsExample<SomeClass>().process(new SomeClass()); //Not a compiler error?!
        new GenericsExample().process(new SomeClass()); //Still not a compiler error?!

The message for the first error (the second one is essentially the same thing)

required: E
found: SomeClass
reason: actual argument SomeClass cannot be converted to E by method invocation conversion
where E is a type-variable:
  E extends SomeClass declared in class GenericsExample

This can be fixed by casting SomeClass to E, but why should I have to? If a method takes E as an argument and E extends SomeClass, shouldn't it accept SomeClass as an argument? Why is this a compiler error instead of a warning?

And why does this not apply to outside classes, even in cases where I don't even declare the generic type? Why are the rules so different in GenericsExample vs Sandbox?

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Try swapping E extends SomeClass for E super SomeClass. If E is a subtype of SomeClass, you can't assign an instance of SomeClass to type E without casting. –  chessbot Jun 12 '13 at 18:37

3 Answers 3

up vote 1 down vote accepted

I think it will become clear if you just exchange it for a more specific example.

Assume you swapped E and SomeClass for Integer and Number (excuse the extends as opposed to implements) to get Integer extends Number. In this case it's pretty clear that you couldn't do the following

Integer i = new Number();

as Integer is more specific than Number.

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Why doesn't it fail outside of the class then? –  TheLQ Jun 12 '13 at 18:38
has nothing to do with being "outside the class". In the other cases, you are just not using a placeholder E at all. –  Thilo Jun 12 '13 at 18:40
In the first case you defined E as Someclass, so it won't have a compiler error there as it knows that Someclass is a Someclass. In the second case you didn't specify any Type, so no compiler warning there either. –  greedybuddha Jun 12 '13 at 18:41
E extends SomeClass

As you just wrote, E is not the same as SomeClass.

You can't assign an instance of a base type to a variable of a more derived type, just like you can't write

Button myButton = new Control();  // Not actually a button!

The only thing you can assign to a variable of type E is an instance of type E.

Outside the class, it only works because you're using a GenericClass<SomeClass>. There, E is SomeClass.

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And the raw type new GenericsExample() "opts out" of generic type checking. –  Paul Bellora Jun 12 '13 at 18:49
...and gives a compiler warning. –  SLaks Jun 13 '13 at 13:01

And why does this not apply to outside classes, even in cases where I don't even declare the generic type?

Because those are different cases:

new GenericsExample<SomeClass>().process(new SomeClass()); 

This is not a compiler error, because here, you have SomeClass on both sides, not E extends SomeClass.

new GenericsExample().process(new SomeClass()); 

And that is not even using generics, so you are opting out of generic type safety (and get a compiler warning about it).

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