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I am trying to make a method call like this,

public class GenericsTest<T> {

    public static <T> Map<String, T> createMap(Class<? extends Map<String, T>> clazz) {
        return null;

    public static void main(String[] argv) {
        Map<String, Integer> result = createMap(TreeMap.class);

But I am getting this error,

<T>createMap(java.lang.Class<? extends java.util.Map<java.lang.String,T>>) in test.GenericsTest<T> cannot be applied to (java.lang.Class<java.util.TreeMap>)

How to fix this problem?

share|improve this question
You can't due to type erasure. In particular, the method signature does not make sense because you are trying to get T out even though you are taking in a Class for a Map with the value parameter as T. You will never be able to get the nested type without an existing instance of the object. (You could pass in (new HashMap<String, Integer>()).getClass(), but you still won't be able to get Integer back out of that method). –  pickypg Jul 19 '12 at 5:02
The createMap() is from a library we use. There must be a way to call that method. –  ZZ Coder Jul 19 '12 at 5:06
I question the legitimacy of the returned object. It's supposedly returning an instance of the value parameter, T, when being passed in the Class for a Map, and the method name is createMap. None of it makes any sense. –  pickypg Jul 19 '12 at 5:08
Try createMap((Class<? extends Map<String, String>>) TreeMap.class);. –  Eng.Fouad Jul 19 '12 at 5:09
@Eng.Fouad That probably will work, but don't forget the @SuppressWarnings("unchecked") –  pickypg Jul 19 '12 at 5:10

1 Answer 1

up vote 2 down vote accepted
Map<String, Integer> instance = new TreeMap<String, Integer>();

Map<String, Integer> map =
    createMap((Class<? extends Map<String, Integer>>)instance.getClass());

map.put("x", 1);

System.out.println("THIS IS x: " + map.get("x"));

This will appropriately print out 1. The implementation of the method is most likely

    return clazz.newInstance();
catch (Exception e)
    throw new RuntimeException(e);

A better implementation of their API would be for them to ask you for the type, T, and for them to give back a Map of their choosing instead of asking you for all of the details. Otherwise, as long as they are not filling in the Map with any data, you can instantiate a Map with the generic type argument yourself like so:

public static <T> Map<String, T> getMap()
    return new TreeMap<String, T>();

You can then access that without a warning:

// note the lack of type arguments, which are inferred
Map<String, Integer> instance = getMap();

// alternatively, you could do it more explicitly:
// Map<String, Integer> instance = ClassName.<Integer>getMap();

There's really no reason for them to ask you for the Class type of your Map except to give you back an exact match to the implementation (e.g., if you stick in a HashMap, then you will get back a HashMap, and if you stick in a TreeMap, then you will get back a TreeMap). However, I suspect that the TreeMap will lose any Comparator that it was constructed with, and since that is an immutable (final) field of TreeMap, then you cannot fix that; that means that the Map is not the same in that case, nor is it likely to be what you want.

If they are filling in the Map with data, then it makes even less sense. You could always pass in an instance of a Map to fill, or have them return a Map that you can simply wrap (e.g., new TreeMap<String, Integer>(instance);), and they should know which Map offers the most utility to the data.

share|improve this answer
This runs but with the unchecked warning. There must be a way to call this method without warning. That's the whole purpose of using generics. –  ZZ Coder Jul 19 '12 at 11:00
You are right about the purpose, but Java has limited generics because of Type Erasure, which is causing this issue; there are limitations to what you can do without having to coax the compiler into doing it for you. It's probably my least favorite feature of Java because it will be the hardest for them to fix, or replace. .NET has a much more versatile generics system because they are not forgotten at runtime. After compilation, that map access will become (Integer)map.get("x") because the returned type is actually Object. –  pickypg Jul 20 '12 at 0:55

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