Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I wrote a function for my cache to retrieve a specific object. This way I don't need to cast it .

    public static <T> T inCache(Class<T> obj, String token) {

        Object cacheObj = Cache.get(token);
        if (cacheObj != null) {

            if (obj.isAssignableFrom(cacheObj.getClass())) {
                return (T) cacheObj;
        return null;


I am using it like this

String s = inCache(String.class, title);

But now I have a list of Strings in my cache and I can't use it like this

List<String> ipList = Util.inCache(List<String>.class, title);

The problem is the List<String>.class . I am very new to java, how do I have to write it?

share|improve this question
as a side note, you don't need that suppresswarnings, use return obj.cast(cacheObj) instead. –  jtahlborn Aug 17 '12 at 16:13

5 Answers 5

up vote 4 down vote accepted

You can't get class of List<String>, in your case the only way is:

List<String> ipList = (List<String>)Util.inCache(List.class, title);
share|improve this answer
with an unavoidable SuppressWarnings. –  jtahlborn Aug 17 '12 at 16:15

There is a concept in java called type erasure. Due to legacy reasons, something like List is just a list. It doesn't remember that it is a list of string at run time. You should just write List.class.

You can then specify the type of object in the List when iterating through it.

share|improve this answer

You can try :

List<String> ipList = Util.inCache(List.class, title);
share|improve this answer

Try this-

List<String> inList = (List<String>)Test.inCache(List.class, title);

And you can do also -

List<String> inList = Test.inCache((Class<? extends List<String>>)List.class, token);
share|improve this answer

Just to clarify Joe's answer ( I don't have enough reputation to comment), at runtime there is no difference between a List <String> and List<Integer> or any other type of List, generics aren't kept at runtime.

Meaning, List<String>.class is completely identical to List<Integer>.class and is actually List.class. This is a weakness of the Java type system. I'm not familiar with a simple way to implement what you wish for.

A code proof for the heck of it :

// It is true that      
    List<String> stringList = new ArrayList<String>(); 
    List<Integer> integerList = new ArrayList<Integer>();                                               
    System.out.println( stringList.getClass() == integerList.getClass()  );

    // And that ... 
    List objectList = new ArrayList();
    System.out.println( stringList.getClass() == objectList.getClass()  );

    //However, the following is false because a different implementation is used ( I wanted a false case)
    List objectLinkedList = new LinkedList();
    System.out.println(  objectLinkedList.getClass() == objectList.getClass() );
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.