How to create expressions of type Class<List<?>>

Question

Take the following:

public Class<List<String>> getObjectType() {
    // what can I return here?
}

What class literal expression can I return from this method which will satisfy the generics and compile? List.class won't compile, and neither will List.<String>class.

If you're wondering "why", I'm writing an implementation of Spring's FactoryBean<List<String>>, which requires me to implement Class<List<String>> getObjectType(). However, this is not a Spring question.

edit: My plaintive cries have been heard by the powers that be at SpringSource, and so Spring 3.0.1 will have the return type of getObjectType() changed to Class<?>, which neatly avoids the problem.

Answer 1

You can always cast to what you need, like

return (Class<List<String>>) new ArrayList<String>().getClass();

or

return (Class<List<String>>) Collections.<String>emptyList().getClass();

But I assume that's not what you are after. Well, it works, with a warning, but it isn't exactly "beautiful".

I just found this

Why is there no class literal for wildcard parameterized types?

Because a wildcard parameterized type has no exact runtime type representation.

So casting might be the only way to go.

Answer 2

You should never use the construct Class<List<String>>. It is nonsensical, and should produce a warning in Java (but doesn't). Class instances always represent raw types, so you can have Class<List>; that's it. If you want something to represent a reified generic type like List<String>, you need a "super type token" like Guice uses:

http://google-guice.googlecode.com/git/javadoc/com/google/inject/TypeLiteral.html

Answer 3

The existence of a Class<List<String>> is inherently dangerous. here's why:

// This statement generates a warning - for a reason...
Class<List<String>> unsafeListClass = (Class<List<String>>) (Class<?>) List.class;

List<Integer> integerList = new ArrayList<Integer>(); // Ok
integerList.add(42); // Ok

System.out.println(unsafeListClass.isInstance(integerList)); // Prints "true".
List<String> stringList =
   unsafeListClass.cast(integerList); // Succeeds, with no warning!
stringList.add("Hello, World!"); // Also succeeds with no warning

for (int x: integerList) {
    // Compiles without warning, but throws ClassCastException at runtime
    System.out.println(100-x);
}

Answer 4

Found this link on springframework.org which gives some insight.

E.g.

List<String> myList = new ArrayList<String>();
return (Class<List<String>>)myList.getClass();

Answer 5

Check out this discussion on the SUN forums:

http://forums.sun.com/thread.jspa?threadID=5253007

And the referenced blog post that describes a work around by using "super type tokens":

http://gafter.blogspot.com/2006/12/super-type-tokens.html

Answer 6

I am not sure but the following question I asked might be of relevance to you...

java generics type parameters and operations on those types

Answer 7

I'm not sure if this is possible at all, since any class literal will be compiled to Class.forName(...) and since this happens at runtime there is no generic information left.

Answer 8

What about this:

public class TestMain {
    public static void main(String[] args) throws Exception {
        Type type = TestMain.class.getMethod("dummy").getGenericReturnType();
        System.out.println("type = " + type);
    }

    public List<Integer> dummy() {return null;}
}

This prints:

type = java.util.List<java.lang.Integer>