So say I have:

public class Foo<T> {
  // Some stuff

public interface Factory<T> {
  T newInstance();
  Class<T> getKlass();

And I want to make an implementation of Factory to build Foo<T>s:

public class FooFactory<T> implements Factor<Foo<T>> {
  private Class<Foo<T>> klass;
  public FooFactory(Class<Foo<T>> klass) {
    this.klass = klass;

  public T newInstance() throws Exception {
    return klass.newInstance();

  public Class<Foo<T>> getKlass() {
    return klass;

Two questions:

  1. Is there any way for me to get a Class<Foo<T>> if all I have is Class<T>? Unfortunately Foo is a private class, and therefore the only code that has the whole picture (i.e., knowledge of what T will be) can't know about Foo and therefore can't give me Class<Foo<T>>.
  2. Is there a better way I could be going about this?


P.S. For those asking for more detail, here we go. The full story is that Foo and FooFactory will both be private classes in an outer class. Foo is used extensively throughout the outer class, and to avoid spurious garbage collection, I'd like to use an ObjectPool to instantiate instances of Foo rather than newing them up and having them garbage collected all the time. However, in order to use my ObjectPool, I need a Factory<Foo<T>>, and inside of Outer<T> I obviously can't know what T will be when Outer<T> is instantiated.

public class Outer<T> {
  private class Foo<T> { ... }
  private class FooFactory<T> {...}

  private ObjectPool<Foo<T>> fooPool;

  • 1
    your code example above does not illustrate what you are trying to do. You say Foo is private but don't provide the outer class – Woot4Moo Nov 19 '12 at 12:41
  • Added a postscript with more explanation. – honktronic Nov 19 '12 at 13:04
  • possible duplicate of Nested generic in a generic class – Woot4Moo Nov 19 '12 at 13:21

There are ways to create a the type information for Class<Foo<T>> but to do what you want, you simply need to suppress all generics warnings in FooFactory.

At runtime, Java uses Object in all places where you wrote T, so you can simply instantiate Foo<Object> or Foo.class, they are the same. This is called type erasure.

Generics are just a hint for the compiler. Since your API makes sure that all code using FooFactory will honor the type T, you can suppress the warnings and use the appropriate casts and it will work.

Note: If you want to preserve type information, implement the ParameterizedType interface.

  • This works for the newInstance() method, but won't help me for the getKlass() method. The compiler won't allow a cast from Class<Foo> to Class<Foo<T>>, which is the required return type. – honktronic Nov 19 '12 at 13:06
  • 1
    I think OP and the community would be better served if you could explain why 1) it is good idea to ignore the warning and 2) why the warning is generated in the first place. I bring this up because I see people constantly squelching warnings, they are there for a very specific reason. – Woot4Moo Nov 19 '12 at 13:20
  • @honktronic: Try return (Class)klass; and suppress the rawtypes warning. – Aaron Digulla Nov 19 '12 at 14:26
  • 1
    @Woot4Moo: I agree with you but not in this instance. The warnings are generated because OP needs to violate generics rules in the code and the reason why he has to suppress them is that Java doesn't offer a way to achieve what he wants without breaking the rules. – Aaron Digulla Nov 19 '12 at 14:29
  • 1
    For reference, it's not quite true in general that Java uses Object in all places where you wrote T. For example, if you have the context <T extends Comparable<T>>, then Java will substitute Comparable, not Object, for T. – Louis Wasserman Nov 19 '12 at 15:05

There is just one Foo class object, which is equal to Foo.class. Although you can write Class<Foo<whatever>>, that is kind of deceptive since it is all the same Foo class object. Of course, you need Class<Foo<T>> to be able to call newInstance() and get a Foo<T>. So to get around the fact that you need a Class<Foo<T>> and that Foo.class has type Class<Foo>, you just do some casting:

public FooFactory() {
  this.klass = (Class<Foo<T>>)(Class<?>)Foo.class;

Note that we don't need Class<T> at all, because you don't need to know T to create a Foo<T>.

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