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If we have a variable for the class of a generic class, like List, what type should it be?

Class<List> c1;
Class<List<?>> c2;
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closed as not constructive by Dancrumb, Konrad Viltersten, casperOne Jan 11 '13 at 14:55

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I have no opinion, only the fact that the Java Language Specification has an opinion on this: it strongly discourages the use of raw types. –  Daniel Pryden Jul 5 '11 at 22:44
The question is not constructive, because of the way that it is asked. (And this also comes out in @irreputable's comments. He's more interested in arguing that Java's design is wrong than in the literal answer to the question ... IMO.) The fact that you've succeeded in answering it in a constructive way is a credit to you. –  Stephen C Jul 6 '11 at 1:25
@irreputable - the real motivation of your question is to "argue the toss" over these (claimed) contradictions in the JLS. That is not constructive. That's the primary reason I voted to close ... not because I don't understand the question, or don't know how to answer it. –  Stephen C Jul 6 '11 at 3:20
@irreputable - If you really want people's opinions on whether there is a contradiction in the JLS, then you should write a Question that clearly sets out your case, and then asks people to offer their responses. But a better approach would be to start a blog where you can expound your theories. –  Stephen C Jul 6 '11 at 3:34
Just because the asker is being argumentative and believes their question to be more subjective than it actually is, doesn't mean it's a completely useless, unconstructive question. If this question can prompt a response as in-depth as meriton's, it's not a worthless question. –  MatrixFrog Jul 6 '11 at 6:59

3 Answers 3

The second one, because the first one uses the raw type instead of generics.

i.e. List is raw, but List<?> is generic, and you shouldn't mix-and-match between both raws and generics.

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@irreputable: But omitting the type parameter entirely turns it into a raw type. And JLS section 4.8 says "The use of raw types is allowed only as a concession to compatibility of legacy code. The use of raw types in code written after the introduction of genericity into the Java programming language is strongly discouraged. It is possible that future versions of the Java programming language will disallow the use of raw types." –  Daniel Pryden Jul 5 '11 at 22:43
@irreputable: No it doesn't. The javadoc says it returns Class<?>. –  Daniel Pryden Jul 5 '11 at 22:52
@irreputable: How do you determine that? It sounds like you just disagree with the specification and came here looking for an argument. Well, you're wrong, but I'm not going to feed the troll any more. –  Daniel Pryden Jul 5 '11 at 22:55
@Mehrdad it's right there from Daniel's link –  irreputable Jul 5 '11 at 22:59
@Mehrdad read two lines below: "The actual result type is Class<? extends |X|>". If the return type is indeed Class<?>, this shouldn't compile: Class<Object> c = new Object().getClass() because we cannot assign a Class<?> to Class<Object>. But it does compile, so the return type is not Class<?> –  irreputable Jul 5 '11 at 23:09

Do you want to represent a runtime class, or a type? (The distinction being that List<String> and List<Integer> are different types, but share the same runtime class).

Type: Use something like a type token.

Runtime class: Since

    List<String> ls = new ArrayList<String>();
    Class<? extends List> c1 = ls.getClass();
    Class<List> c2 = List.class;

compiles, but

    Class<? extends List<?>> c3 = ls.getClass();
    Class<List<?>> c4 = List.class;

does not, I'd opt for using the raw type in the type expression. There really isn't any benefit from specifying the type argument to List because the class does not determine it, and using a wildcard type will require weird casting to get it to the proper type, for instance:

    Class<?> rawClass = List.class; // kludge: do not inline this variable, or compilation will fail
    Class<List<?>> classForBadAPI = (Class<List<?>>) rawClass;

Edit: Why it doesn't compile

Lifted from the comments:

why doesn't the 2nd code compile? the code makes perfect sense. Is it a design mistake in JDK? or is there valid reason for the choice?

List.class is of type Class<List>. Since List<?> and List are different types, Class<List<?>> and Class<List> are unrelated types, but the right-hand type of an assignment must be a subtype of the left-hand type. The getClass() case is analogous.

I would not blame the JDK, they only implemented the rules laid down in the language specification itself, in particular:

The type of a class literal, C.Class, where C is the name of a class, interface or array type, is Class<C>.


The type of a method invocation e.getClass(), where the expression e has the static type T, is Class<? extends |T|>.


We write |T| for the erasure of type T.


... and why is it defined like that?

Compiler knows the full generic type of e, but why does e.getClass() must return an erased type.

It's hard to give a definite answer to that, since the spec does not expand on the reasons for that definition. However, it might be because the runtime type might not be a subtype of the static type, a pathological situation that can arise by incorrect suppression of unchecked warnings (c.f heap pollution). By specifying that the return type only contains the erasure, the specification ensures that even in the presence of heap pollution, the class object returned by getClass() is an instance of the declared return type of getClass(). It also serves as a reminder that the runtime the programmer is about to access using the reflection API only thinks in terms of erased types.

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why doesn't the 2nd code compile? the code makes perfect sense. Is it a design mistake in JDK? or is there valid reason for the choice? –  irreputable Jul 5 '11 at 23:06
List.class is of type Class<List>. Since List<?> and List are different types, Class<List<?>> and Class<List> are unrelated types, but the right-hand type of an assignment must be a subtype of the left-hand type. The getClass() case is analogous. –  meriton Jul 5 '11 at 23:14
why does the compiler think the type of ls.getClass() is Class< extends List> but not Class< extends List<String>>? It could choose the later, this is all compile time trick anyway, no run time type info needed. So why does the compiler refuse to choose the later, which will simplify client codes? –  irreputable Jul 5 '11 at 23:29
... and to make that easier, I have now cited the relevant rules from the spec. –  meriton Jul 6 '11 at 0:01
@irreputable - "I do question the spec". Yea well that's too bad. Because the Java language is specified that way, and that's what a Java compiler must implement. (If the Java designers had been given a "clean slate" in circa 2000 they would not designed Java generics like that. But there weren't: they had to take the "type erasure" approach for compatibility reasons.) –  Stephen C Jul 6 '11 at 1:07
Class<? extends List<?>>

since List itself is an interface here, this might be a better option.

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no, I'm talking about the class of List, not any subclasses –  irreputable Jul 5 '11 at 22:40
There is no "class of List" because List is an interface, not a class (though I grant you it's misleading that List.class is a valid expression and there is a file called List.class in rt.jar) –  MatrixFrog Jul 6 '11 at 6:58

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