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public static class MyClass<T> {
    // i don't want to keep an instance of T, if it is not necessary.
    // and it is not nice, not neat.

    // Or, let's say, the member are in the form of :
    ArrayList<T> mArrayList = new ArrayList<T>();
    // the problem of getting the generic type parameter is still present.

public final void test() {
    MyClass<Integer> myObject = new MyClass<Integer>();
    getParamType( myObject );

private static final <T> void getParamType(final MyClass<T> _myObject) {
    System.out.println(_myObject.getClass().getTypeParameters()[0]);    // T
    System.out.println(((T) new Object()).getClass());                  // class java.lang.Object

How to let the code print class java.lang.Integer?

i know quite a few of stackoverflow threads are asking (and answering) about this. Yet they couldn't solve this question.

  • i don't know why some need to call getGenericSuperclass() - as there is no inheritance involved in this simple case.
  • And i can't cast it to ParameterizedType as well.


System.out.println((ParameterizedType) _myObject.getClass());
// Compile Error: Cannot cast from Class<capture#11-of ? extends TreeTest2.MyClass> to ParameterizedType

System.out.println((ParameterizedType) _myObject.getClass().getGenericSuperclass());
// Runtime Exception: java.lang.ClassCastException

Based on @Thomas's guide, i have found a work-around way to get class java.lang.Integer.

First, we create an anonymous (it need to be anonymous) sub-class of MyClass<T> in the testing code. (Which is weird. Why it only support sub-classes?)

public final void test() {
    MyClass<Integer> myObject = new MyClass<Integer>() {};  // Anonymous sub-class
    getParamType( myObject );

Then we can use the getGenericSuperclass() method to get a Type then cast it to ParameterizedType and afterwards uses getActualTypeArguments():

private static final <T> void getParamType(final MyClass<T> _myObject) {
    System.out.println( ((ParameterizedType) _myObject.getClass().getGenericSuperclass()).getActualTypeArguments()[0] );

It perfectly prints class java.lang.Integer.

This is not-so-good because the testing codes should simulate the actual situation, where users most likely won't keep creating meaningless sub-classes.

This approach is based on the idea of the TypeReference class. But i don't really know how to use it. I have tried class MyClass<T> extends TypeReference<T>. But i still have to create sub-class of MyClass<T> to have TypeReference.getType() prints class java.lang.Integer.

Please help, and thanks for any inputs, as the best approach is not here yet.

A further question based on the above workaround: Why only anonymous sub-class works?

public static class SubMyClass<T> extends MyClass<T>{}

public final void test() {
    MyClass<Integer> myObject = new MyClass<Integer>() {};  // Anonymous sub-class
    getParamType( myObject );               // class java.lang.Integer

    MyClass<Integer> mySubObject = new SubMyClass<Integer>();   // named sub-class
    getParamType( mySubObject );            // T

(MyClass and getParamType() unchanged.)

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4 Answers 4

This is sort of difficult, because Java deliberately can't do that ("type erasure").

The work-around is called super type tokens. There are also some threads on SO about that (like this one or that one).

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Thanks Thomas! The TypeReference class is new to me. Can i interpret why the TypeReference<T> can get its T because (1) it's abstract, thus force inheritance, and (2) only Type java.lang.Class.getGenericSuperclass() can be casted to ParameterizedType, thus we can use getActualTypeArguments? –  midnite Aug 20 '13 at 16:10
If there is a method like Type java.lang.Class.getGeneric_____class() where we can do ((ParameterizedType) getClass().getGeneric____class()).getActualTypeArguments() would be great, isn't it? Btw why Java have only the "get super" method that returns a Type? –  midnite Aug 20 '13 at 16:12
Back to the original question. How to get class java.lang.Integer with the help of TypeReference? By new TypeReference<List<String>>() {}.getType() i can get java.util.List<java.lang.String> (but this is not useful, as it is not getting from the object). Then i let class MyClass<T> extends TypeReference<T> and by myObject.getType() i get only T. Thanks for guided me the way. Please help me to go a bit further. –  midnite Aug 20 '13 at 16:24

When you have a question like this, you should ask yourself, how would you do it without Generics? Because any Generics program can be converted into an equivalent program without Generics. (This conversion is called type erasure.) So if you cannot do it without Generics, you cannot do it with Generics either.

Your program without Generics looks like this:

public static class MyClass {
    ArrayList mArrayList = new ArrayList();

public final void test() {
    MyClass myObject = new MyClass();
    Integer result = getParamType( myObject ); // how would you implement getParamType()?
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If there is no generics, how can we get the generics? –  midnite Aug 20 '13 at 22:12
@midnite: It's not about the generics. It's about the logic of the program. For example, if you had made the constructor of MyClass take a parameter of type Class<T> which represents the class, and you store it in the class, then after erasure, you would see that you're doing MyClass myObject = new MyClass(clazz);, and you are storing a variable of type Class inside the class. From this you can see clearly why that works and your approach doesn't work. –  newacct Aug 20 '13 at 22:44
Thanks for reply. Keeping a Class<T> as a member field, i understand why it works. But i don't understand the opposite. Just like, having a member field public T mField;, we can also retrieve the T from mField.getClass() afterwards. –  midnite Aug 20 '13 at 23:06
Moreover, why there is only getGenericSuperclass() but not getGenericThisclass()? This seems not logical. –  midnite Aug 20 '13 at 23:07
@midnite: Generics is just a compile-time type checking thing. It is an illusion. It doesn't really "exist". You are asking for the type parameter because you see it in this illusion. I'm showing you what it is when you peel away the illusion, to show you that what you are looking at doesn't exist, and you need something else. The most important thing to remember is: When you add generics to a piece of code, it NEVER gives you the magical ability to do something that you couldn't do before Generics. That's why it's instructive to ask yourself how you would do it without Generics. –  newacct Aug 20 '13 at 23:18

Java has a misguided feature called Type Erasure that specifically prevents you from doing that.

Generic parameter information does not exist at runtime.

Instead, you can manually accept a Class<T>.

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Thanks for reply. What do you mean by "manually accept a Class<T>"? –  midnite Aug 20 '13 at 14:26
Add a Class<T> parameter to your constructor. –  SLaks Aug 20 '13 at 14:26
Erasure is a compromise. I would not call it misguided. –  Ben Schulz Aug 20 '13 at 14:29
Is it, such that, we have to call MyClass<Integer> myObject = new MyClass<Integer>(Integer.class); when creating the object? This is dangerous as we can call MyClass<Integer> myObject = new MyClass<Integer>(String.class); which is valid as well. –  midnite Aug 20 '13 at 14:34
@midnite not if you declare the parameter as Class<T>. –  Thomas Aug 20 '13 at 14:37

To learn the value of T you'll need to capture it in a type definition by subclassing MyClass:

class MyStringClass extends MyClass<String> {}

You can also do this with an anonymous class if you want:

MyClass<String> myStringClass = new MyClass<String>{}();

To resolve the value of T, you can use TypeTools:

Class<?> stringType = TypeResolver.resolveRawArgument(MyClass.class, myStringClass.getClass());
assert stringType == String.class;
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