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I come from a C# world and I've just learned about erasure in Java, which put me a bit off. Is there really no way to distinguish SomeGenericInstance<String> from SomeGenericInstance<Integer> runtime in Java?

I'm asking because I've implemented a super simple pub-sub framework and I wanted to have a generic class GenericMessage<T>. It's essential not to send GenericMessage<String> to listeners of GenericMessage<Integer>. I tried implementing it by having a List of key-value pairs where the key is the Class object representing the type of the message. But this code line yields true which is a problem...:

new GenericMessage<Integer>().getClass.equals(new GenericMessage<String>().getClass())

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You probably need to do something like publishMessage(genericMessage, Integer.class); – assylias Mar 27 '13 at 13:39
up vote 1 down vote accepted

As far as I am aware, sorry, it is simply impossible.

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I'm giving you an upvote as this seems to be the only TRUE answer (and you were first to point it out) :) – Nilzor Apr 1 '13 at 7:37

Here's a way of getting what you're looking for without using reflection (assuming that you are able to make modifications to your pub-sub framework to pass a Class token). A big hat-tip to assylias and zvzdhk for pointing me in the direction of class literals.

interface GenericMessage<T> {


interface StringMessage<T extends String> extends GenericMessage<T> {
    String getString();

interface IntMessage<T extends Integer> extends GenericMessage<T> {
    int getInt();

interface MessageListener<T> {
    <T> void handleMessage(Class<T> type, GenericMessage<T> instance);

// "marker interfaces"
interface StringMessageListener<T extends String> extends MessageListener<T> {


interface IntMessageListener<T extends Integer> extends MessageListener<T> {


class IntMessageImpl<T extends Integer> implements IntMessage<T> {
    public int getInt() {
        return 0;

class StringListenerImpl<T extends String> implements StringMessageListener<T> {

    public <T> void handleMessage(Class<T> type, GenericMessage<T> genericMessage) {
        StringMessage stringMessage = (StringMessage) genericMessage; // Typesafe cast since T extends String on both StringMessage and StringMessageListener
        String message = stringMessage.getString();
        // Do something with message

class IntListenerImpl<T extends Integer> implements IntMessageListener<T> {
         // an implementation for the Integer case ...

void showTypeChecking() {

    GenericMessage<String> badStringMessage = new IntMessageImpl<>(); // Compile-time check fails due to bad type of new message implementation

    MessageListener<Integer> badIntListener = new StringListenerImpl<>(); // Compile-time check fails due to bad type on new listener implementation

    MessageListener<String> stringListener1 = new StringListenerImpl<>();
    MessageListener<String> stringListener2 = new StringListenerImpl<>();
    MessageListener<Integer> intListener = new IntListenerImpl<>();

    GenericMessage<String> stringMessage = new GenericMessage<String>() {};
    stringListener1.handleMessage(String.class, stringMessage);
    stringListener1.handleMessage(Integer.class, stringMessage); // Compile-time check fails due to bad type on class literal

    GenericMessage<Integer> intMessage = new GenericMessage<Integer>() {};
    intListener.handleMessage(Integer.class, intMessage);

    GenericMessage<String> badIntMessage = new GenericMessage<String>() {};
    intListener.handleMessage(Integer.class, badIntMessage); // Compile-time check fails due to bad type on intMessage

    GenericMessage uncheckedMessage = new IntMessageImpl();
    intListener.handleMessage(Integer.class, uncheckedMessage); // Compiler issues warning about unchecked assignment of uncheckedMessage argument

    MessageListener uncheckedListener = new StringListenerImpl();
    uncheckedListener.handleMessage(String.class, stringMessage); // Compiler issues warning about an unchecked call to handleMessage() method

It's not directly applicable in this case, but you may find this discussion of the typesafe heterogeneous container pattern helpful in learning a bit more about Java generics. It's definitely one of the harder parts of the language to master.

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You can access it using next trick:

public class Example<T> {

    Class<T> genericType;

    public Example(Class<T> genericType) {
        this.genericType= genericType;

    public static void main(String args[]) {
        Example<Integer> ex1 = new Example<>(Integer.class);
        Example<String> ex2 = new Example<>(String.class);


class java.lang.Integer

class java.lang.String

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Although this is true, helpful and may solve my PubSub-framwork problem, I believe it does not answer my question as it adds a precondition. – Nilzor Apr 1 '13 at 7:37

It is not possible to distinguish "a SomeGenericInstance<String> object" and "a SomeGenericInstance<String> object", because there is no difference. There is just "a SomeGenericInstance object".

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You can do it using Java Reflection. Don't know if it's always a good idea, but it's surely possible. Here's an example:

public class Test{

    private List<String> list;

    public static void main(String[] args) throws Exception{
        Field field = Test.class.getDeclaredField("list");
        Field f = field.getGenericType().getClass().getDeclaredField("actualTypeArguments");
        Type[] genericTypes = (Type[]) f.get(field.getGenericType());


Or you can cast directly to ParameterizedType, if it seems any better to you:

public class Test{

    private List<String> list;

    public static void main(String[] args) throws Exception{
        Field field = Test.class.getDeclaredField("list");
        ParameterizedType parameterizedType = (ParameterizedType) field.getGenericType();
        Type[] actualTypes = parameterizedType.getActualTypeArguments();


Both examples print: class java.lang.String

Now just to leave a more complete answer, the same can be done for a Map. As you can see the getActualTypeArguments() method returns a Type[] and for a Map, the key type would be index 0, and the value type would be index 1. Example:

public class Test{

    private Map<String, Integer> map;

    public static void main(String[] args) throws Exception{
        Field mapField = Test.class.getDeclaredField("map");
        ParameterizedType mapParameterizedType = (ParameterizedType) mapField.getGenericType();
        Type[] actualMapTypes = mapParameterizedType.getActualTypeArguments();



class java.lang.String
class java.lang.Integer
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You can actually cast the class to a ParameterizedType to get the actualTypeArguments. ((ParameterizedType) field.getGenericType().getClass()).getActualTypeArguments() – Sotirios Delimanolis Mar 27 '13 at 13:50
Oh, very interesting. I'll edit the answer to show an alternative using this approach. Thanks! – Rodrigo Sasaki Mar 27 '13 at 13:55
Interesting. I guess I can use the Type class or string representation of it as key in my HashMap then. – Nilzor Mar 27 '13 at 13:57
What if it's not declared as a field but as an input parameter to a method of type Object? I.e. the method parameter type is Object, but it's instantiated as a List<String> for instance. – Nilzor Mar 27 '13 at 19:46
-1 This doesn't really answer the question, which is to distinguish between new GenericMessage<Integer>() and new GenericMessage<String>() - that is impossible without changing the class/constructor to hold a Class token to check against at runtime. – Paul Bellora Mar 27 '13 at 19:59

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