My question is as above. Sorry, it's probably a duplicate but I couldn't find an example with the
<?> on the end.
Why would you not just use
Class as the parameter?
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Class is a parameterizable class, hence you can use the syntax
T is a type. By writing
Class<?>, you're declaring a
Class object which can be of any type (
? is a wildcard). The
Class type is a type that contains meta-information about a class.
It's always good practice to refer to a generic type by specifying his specific type, by using
Class<?> you're respecting this practice (you're aware of
Class to be parameterizable) but you're not restricting your parameter to have a specific type.
Reference about Generics and Wildcards: http://docs.oracle.com/javase/tutorial/java/generics/wildcards.html
Class object and reflection (the feature of Java language used to introspect itself): https://www.oracle.com/technetwork/articles/java/javareflection-1536171.html
<?> is a beast. It often leads to confusion and errors, because, when you see it first, then you start believing,
<?> is a wildcard for any java type. Which is .. not true.
<?> is the unknown type, a slight and nasty difference.
It's not a problem when you use it with
Class. Both lines work and compile:
Class anyType = String.class; Class <?> theUnknownType = String.class;
But - if we start using it with collections, then we see strange compiletime errors:
List<?> list = new ArrayList<Object>(); // ArrayList<?> is not allowed list.add("a String"); // doesn't compile ...
List<?> is not a collection, that is suitable for just any type of object. It can only store one type: the mystic "unkown type". Which is not a real type, for sure.
It means your Class reference can hold a reference to any Class object.
It's basically the same as "Class" but you're showing other people who read your code that you didn't forget about generics, you just want a reference that can hold any Class object.
Bruce Eckel, Thinking in Java:
In Java SE5, Class<?> is preferred over plain Class, even though they are equivalent and the plain Class, as you saw, doesn’t produce a compiler warning. The benefit of Class<?> is that it indicates that you aren’t just using a non-specific class reference by accident, or out of ignorance. You chose the non-specific version.
It's a generics literal. It means that you don't know the type of class this
Class instance is representing, but you are still using the generic version.
Class<Foo>. That way you can create a new instance, for example, without casting:
Foo foo = clazz.newInstance();
In generics, an unknown type is represented by the wildcard character "?". Read here for official example.
It means, the Class reference type can hold any Class object which represents any type. If JVM loads a type, a class object representing that type will be present in JVM. we can get the metadata regarding the type from that class object which is used very much in reflection package.
Suppose you have a a class named "myPackage.MyClass". Assuming that is in classpath, the following statements are equivalent.
Class<?> myClassObject = MyClass.class; //compile time check Class<?> myClassObject = Class.forname("myPackage.MyClass"); //only runtime check
This works in a similar fashion if the Class<?> reference is in method argument as well.
Please note that the class "Class" does not have a public constructor. So you cannot instantiate "Class" instances with "new" operator.