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When you define a Java interface, it's possible to declare a method with type parameters, for example like this:

public interface ExampleInterface {
    <E extends Enum<E>> Class<E> options();

The same thing does not work in an annotation. This, for example, is illegal:

public @interface ExampleAnnotation {
    <E extends Enum<E>> Class<E> options();

I can get what I'm after by using the raw type Enum:

public @interface ExampleAnnotation {
    Class<? extends Enum> options();

What exactly is the reason why it is not possible to declare annotation attributes with type parameters?

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How could you use the type parameter for an annotation then? (so that the compiler is able to do any compile-time checks) –  kan Sep 29 '11 at 8:44
@kan I want options to return a Class of an enum type. Whenever someone uses the annotation, I want a compile time error to occur whenever someone tries to use it with a class that's not an enum. My last example does that, but it forces me to use the raw type Enum. –  Jesper Sep 29 '11 at 17:01

4 Answers 4

up vote 3 down vote accepted

I think it is possible, but it requires lots of additions to language spec, which is not justified.

First, for you enum example, you could use Class<? extends Enum<?>> options.

There is another problem in Class<? extends Enum> options: since Enum.class is a Class<Enum> which is a Class<? extends Enum>, it's legal to options=Enum.class

That can't happen with Class<? extends Enum<?>> options, because Enum is not a subtype of Enum<?>, a rather accidental fact in the messy raw type treatments.

Back to the general problem. Since among limited attribute types, Class is the only one with a type parameter, and wildcard usually is expressive enough, your concern isn't very much worth addressing.

Let's generalize the problem even further, suppose there are more attribute types, and wildcard isn't powerful enough in many cases. For example, let's say Map is allowed, e.g.

Map<String,Integer> options();

options={"a":1, "b":2} // suppose we have "map literal"

Suppose we want an attrbite type to be Map<x,x> for any type x. That can't be expressed with wildcards - Map<?,?> means rather Map<x,y> for any x,y.

One approach is to allow type parameters for a type: <X>Map<X,X>. This is actually quite useful in general. But it's a major change to type system.

Another approach is to reinterpret type parameters for methods in an annotation type.

<X> Map<X,X> options();

options={ "a":"a", "b":"b" }  // infer X=String

this doesn't work at all in the current understanding of method type parameters, inference rules, inheritance rules etc. We need to change/add a lot of things to make it work.

In either approaches, it's a problem how to deliver X to annotation processors. We'll have to invent some additional mechanism to carry type arguments with instances.

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Thanks. The Enum<?> is useful. I don't think that type parameters for a type would be necessary. Note that it is possible to declare a method such as <X> Map<X, X> options(); in a normal interface (but not in an annotation). –  Jesper Sep 29 '11 at 20:02
normal methods and annotation methods are used completely differently; the annotation stuff is really piggybacking on interface to save some design efforts; the two can't really be equated. –  irreputable Sep 29 '11 at 20:05
You've put me on the right track, I've added my own answer but I'll accept yours. –  Jesper Sep 29 '11 at 20:15

The The Java™ Language Specification Third Edition says:

The following restrictions are imposed on annotation type declarations by virtue of their context free syntax:

  • Annotation type declarations cannot be generic.
  • No extends clause is permitted. (Annotation types implicitly extend annotation.Annotation.)
  • Methods cannot have any parameters
  • Methods cannot have any type parameters
  • Method declarations cannot have a throws clause
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Can you expand on what "by virtue of their context free syntax" means exactly and what the consequences of that are? Do type parameters imply that the syntax is not "context free"? –  Jesper Sep 29 '11 at 11:22

They wanted to introduce annotations in order for people only to use them as ,,,well annotations. And prevent developers from putting logic in them. i.e. start programming stuff using annotations, which might have an effect of making Java look like a very different language in my opinion. Hence the context free syntax note in Java Language Specification.

The following restrictions are imposed on annotation type declarations by virtue of their context free syntax:

Annotation type declarations cannot be generic.
No extends clause is permitted. (Annotation types implicitly extend annotation.Annotation.)
Methods cannot have any parameters
Methods cannot have any type parameters


To better understand what I mean, look at what this JVM hacker does: http://www.cs.rice.edu/~mgricken/research/xajavac/

He creates And, Or annotations as instructions and processes other annotations using them. Priceless!

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Ok, but how does "context free syntax" mean that I cannot use type parameters for an enum attribute declaration? –  Jesper Sep 29 '11 at 17:03
Well, I need to think about littler more but I believe it is because type parameters are tied to instances. You may not use type parameters in a static method or field of a normal class. Same goes with annotations, you cannot have multiple instances of an annotation, therefore it does not make sense to use type parameters. Maybe it would not be a hurdle to allow it, but it would be confusing as type parameters are just not aimed at static stuff. –  MarianP Sep 29 '11 at 17:55
Thinking about it a little more, if you had multiple annotation elements(methods? I am not sure on how to call them), that would be reusing a type parameter, than one element(method)'s allowed type might depend on value of another which constitutes a 'context' and requires compiler inference, I believe. which is the thing I was talking about in my answer. –  MarianP Sep 29 '11 at 18:00
Static methods of normal classes can certainly have type parameters. Type parameters are not "tied to instances". –  Jesper Sep 29 '11 at 19:13
:) You are right, but I mean that type parameters must not appear in any static context of a generic type, e.g. you may not declare 'static T field' or as a local variable within a static method. Anyway, this is becoming too much of a headache, but it was a nice exercise. –  MarianP Sep 29 '11 at 21:06

Section 9.6 of the Java Language Specification describes annotations. One of the sentences there reads:

It is a compile-time error if the return type of a method declared in an annotation type is any type other than one of the following: one of the primitive types, String, Class and any invocation of Class, an enum type (§8.9), an annotation type, or an array (§10) of one of the preceding types. It is also a compile-time error if any method declared in an annotation type has a signature that is override-equivalent to that of any public or protected method declared in class Object or in the interface annotation.Annotation.

And then it says the following, which is I think the key to this problem:

Note that this does not conflict with the prohibition on generic methods, as wildcards eliminate the need for an explicit type parameter.

So it suggests that I should use wildcards and that type parameters are not necessary. To get rid of the raw type Enum, I just have to use Enum<?> as irreputable suggested in his answer:

public @interface ExampleAnnotation {
    Class<? extends Enum<?>> options();

Probably allowing type parameters would have opened up a can of worms, so that the language designers decided to simply disallow them, since you can get what you need with wildcards.

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