I feel utterly silly for having to ask this, but I'm failing to understand why doesn't the following Java code compile:

void <T> doSomething(List<T> items) {
    Class<? extends T> clazz = items.get(0).getClass();

From Java doc:

The actual result type is Class< ? extends |X|> where |X| is the erasure of the static type of the expression on which getClass is called. For example, no cast is required in this code fragment:

Number n = 0; Class< ? extends Number> c = n.getClass();


  1. Found this nice explanation of what erasure of the static type means.

  2. There's a way to preserve generic type information using subclasses, known as super type token. A now deleted answer helpfully pointed out that Guava library has a convenient utility for exploiting this.

  3. Here's a great article on extracting generic types reflectively and a nice lib, called GenTyRef, simplifying it

  4. I forked GenTyRef to add support for working with AnnotatedTypes (introduced in Java 8). It's called GenAnTyRef (and it's in Maven Central)

  • 1
    I think it is duplicate or at least matrix error, as i have a feeling i've seen this question earlier on SE – user902383 May 23 '16 at 8:59
  • What if T is List<String>? There is no Class<List<String>>. – Tavian Barnes May 23 '16 at 18:00
  • You don't have auto in Java? – JDługosz May 23 '16 at 18:06

The erasure of the static type of items.get(0) is Object (since T is erased during compilation).

Therefore items.get(0).getClass() returns a Class<? extends Object>, not a Class<? extends T>, which explains why your attempted assignment fails.

This will pass compilation :

Class<? extends Object> clazz = items.get(0).getClass();

If you want the Class of the generic parameter to be known by that method, you can pass it as an additional argument.

void doSomething(List<T> items, Class<T> clazz) {

  • 2
    Class<? extends Object> is redundant, Class<?> is more concise – user140547 May 23 '16 at 8:54
  • @user140547 I was following the language of the Javadoc (Class<? extends |X|>). – Eran May 23 '16 at 8:55
  • 1
    @Eran Class<? extends T> clazz isn't safe - you could call doSomething(Arrays.<Number>asList(Double.valueOf(0)), Integer.class). You'd need to use <? super T>, no? – Andy Turner May 23 '16 at 8:58
  • Hmm, this doesn’t explain why the result bears the “erasure of the static type of the expression” instead of just the “static type of the expression”… – Holger May 23 '16 at 17:18
  • @Holger: It's because T can represent non-reifiable types like ArrayList<String>. But class objects only represent reifiable types. There is only a Class<ArrayList>, not a Class<ArrayList<String>>. – newacct May 26 '16 at 0:31

First of all, you need to define T as type parameter for the method: <T> void doSomething. Then you need a cast to Class<? extends T>. So this is how you can put together:

<T> void doSomething(List<T> items) {
    Class<? extends T> clazz = (Class<? extends T>) items.get(0).getClass();
  • 1
    It is strange how erasure forces us to cast again. – user5547025 May 23 '16 at 8:58
  • 1
    The missing <T> was a typo. Casting will obviously work, but I needed an explanation as to why it was needed. – kaqqao May 23 '16 at 8:59

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