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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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3  
You probably need to do something like publishMessage(genericMessage, Integer.class); –  assylias Mar 27 '13 at 13:39
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6 Answers

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
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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");
        f.setAccessible(true);
        Type[] genericTypes = (Type[]) f.get(field.getGenericType());
        System.out.println(genericTypes[0]);
    }

}

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();
        System.out.println(actualTypes[0]);
    }

}

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();
        System.out.println(actualMapTypes[0]);
        System.out.println(actualMapTypes[1]);
    }

}

Prints:

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
2  
-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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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);
        System.out.println(ex1.genericType);
        System.out.println(ex2.genericType);
    }
}

Output:

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
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Here is a useful library for distinguishing generic types: http://code.google.com/p/gentyref

An example from link above:

You use TypeToken to refer to specific types, and GenericTypeReflector.isSuperType to check if a type is a supertype of another. Given the following interface and classes:

    interface Processor<T> {
            void process(T t);
    }

    class StringProcessor implements Processor<String> {
            public void process(String s) {
                    System.out.println("processing " + s);
            }
    }

    class IntegerProcessor implements Processor<Integer> {
            public void process(Integer i) {
                    System.out.println("processing " + i);
            }
    }

We can check that a certain class is the right kind of Processor:

/*
 * Returns true if processorClass extends Processor<String>
 */
public boolean isStringProcessor(Class<? extends Processor<?>> processorClass) {
    // Use TypeToken to get an instanceof a specific Type
    Type type = new TypeToken<Processor<String>>(){}.getType();
    // Use GenericTypeReflector.isSuperType to check if a type is a supertype of another
    return GenericTypeReflector.isSuperType(type, processorClass);
}

isStringProcessor(StringProcessor.class) returns true, because StringProcessor extends Processor<String>.

isStringProcessor(IntegerProcessor.class) return false, because IntegerProcessor doesn't extend Processor<String> but Processor<Integer>

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Interesting... but this library is using reflection underneath, is that so? If I want a quick and dirty way of getting a unique identifier of the type, I am just as well off using Rodrigo Sasaki's solution? –  Nilzor Mar 27 '13 at 14:03
    
Yes, it's the same reflection. –  misha Mar 27 '13 at 14:11
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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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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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