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Given the following scenario

class Base { }
class Extended extends Base {}

I can easily ask for a class object in a generic class's constructor that is some subclass of the generic type.

class Test<T extends Base> {
  Test(Class<? extends T> test) { }

This way I can do all of the following

new Test<Base>(Base.class);
new Test<Base>(Extended.class);
new Test<Extended>(Base.class); // This is not allowed by the compiler
new Test<Extended>(Extended.class);

what is exactly what I want. However, I cannot figure out how I can achieve the same constraint when using a generic methods like this:

<T extends Base> void test(T x, Class<? extends T> test) { }

With this definition, all of the following are permitted by the compiler:

test(new Base(), Base.class);
test(new Base(), Extended.class);
test(new Extended(), Base.class); // even though Base is not a subclass of Extended
test(new Extended, Extended.class);

I figure this is because of type inference and Java determining

<Base>test(new Extended(), Base.class)

instead of

<Extended>test(new Extended(), Base.class)

But how can I enforce the latter inference method?

Thanks for help!

For future readers: In the first version of this question I called Base A and Extended B. I later clarified this notation. This notation is however used in the answers.

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Just turn the second argument into Class<T>? –  fge Jun 25 '13 at 11:43
That would prohibit test(a, B.class) instead of test(b, A.class). –  Rafael Winterhalter Jun 25 '13 at 11:45
<T extends A, U extends T> void test(U x, Class<? T> test) { }? –  Tom Anderson Jun 25 '13 at 11:45
I don't get it, I thought you wanted to prohibit the Class argument to be a different class than the first argument? –  fge Jun 25 '13 at 11:47
To clarify, please mark which of the above 4 cases should not compile. You need to let us know what should be allowed and what should not. –  John B Jun 25 '13 at 11:50

4 Answers 4

up vote 0 down vote accepted

This is a problem in computer science, and as such, can be solved by another level of indirection:

<T extends A, U extends T> void test(T x, Class<U> test) {}

In this case, we use one type variable (bounded to A) to capture the type of the object parameter, and a second one (bounded to the first) to constrain the type of the class parameter.

If i write this example out and feed it to javac (1.6.0_26), it duly tells me:

Test.java:14: cannot find symbol
symbol  : method test(B,java.lang.Class<A>)
location: class Test<T>
        test(b, A.class);
1 error

As @JohnB intimates in his comment, you can defeat this by writing:

this.<A, A>test(b, A.class);

Or by using raw types.

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This would still allow test(b, A.class) because it would be <A,A> –  John B Jun 25 '13 at 11:57
@JohnB: That's not what my compiler says. –  Tom Anderson Jun 25 '13 at 11:58
show the line of code where you are calling it. If you specify <B,B> then compile error, if you specify <A,A>, no compile error because b is an A and A extends A. –  John B Jun 25 '13 at 12:05
This actually was my solution. However, IntelliJ told me this was okay to compile. Thank's a lot! –  Rafael Winterhalter Jun 25 '13 at 12:08
Aha. I use Eclipse, and occasionally find that javac and Eclipse disagree about the finer points of generics. I'm not surprised to hear that IntelliJ does too. In this case, javac and Eclipse agree, so i am inclined to identify IntelliJ as the weakest link. –  Tom Anderson Jun 25 '13 at 12:14

OK, I will try this in two parts. First, I don't think you can do what you want because the caller could always specify the super class as the generic and then pass a subclass as the first argument.

Second, I think trying to make this a compile-time check is the wrong approach because the user could always just choose to use a raw type and ignore all the generics. You should just make this a run-time check and provide appropriate documentation.

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I provide a run time check. However, I prefer this to be validated at compile time as far as possible. –  Rafael Winterhalter Jun 25 '13 at 12:10

Generics are not for imposing arbitrary "restrictions". Generics are only for type safety, i.e. avoiding unsafe casts. There is no type-safety reason to have the restriction that you present. There is no function test in which test(new Base(), Base.class); would be type-safe, but test(new Extended(), Base.class); would not be.

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The first argument of my application function is itself generic where the argument can only be of the same type. I need to know this type but this is impossible due to type erasure. Therefore it does make sence in some occasions. I did not want to make an overly complex example though and skipped this part from my question. –  Rafael Winterhalter Jun 27 '13 at 10:36
@raphw: No, anywhere it is safe to use a Base, it is safe to use an Extended. That is the point of inheritance. Again, I challenge you to find a function test where test(new Base(), Base.class); would be type-safe but test(new Extended(), Base.class); would not be. –  newacct Jun 27 '13 at 22:18
When they are used inside a generic type. Base<Base> is not a superclass of Base<Extended> or Extended<Extended>. My application is defined this way, I simplified the example. –  Rafael Winterhalter Jun 28 '13 at 9:28
@raphw: again, this has nothing to do with the parameters to the function test –  newacct Jun 29 '13 at 0:17

I believe the answer is that in the first case you specify the generic type: new Test<B>(...). Notice the <B>. However in the second case you do not specify the generic type: test(a, A.class) therefore you allow the compiler to see if it can determine a generic type that works. In the case of test(b, A.class), <A> works because b is an instance of A.

Try something like: myInstance.<B>test(b, A.class)

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The problem is: I do not want this method ever to be called other than myInstance.<B>test(b, A.class) because it would fail. I need the type for a reflection performed on the object. And I do not invoke the method myself, it is invoked by the users of my code. –  Rafael Winterhalter Jun 25 '13 at 11:48

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