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The following code doesn't work, because the marked line does not compile:

MyClass {
    //singleton stuff
    private static MyClass instance;
    private MyClass () {}
    public static MyClass getInstance() {
        if(instance==null) {
            instance = new MyClass ();
        return instance;

    // method creating problems
    public NonGenericSuperClassOfGenericClass create(Class<?> c1, Class<?> c2) {
        return new GenericClass<c1,c2>; // DOES NOT COMPILE!!!

I do NOT want MyClass to be a generic. Why? Because the actual implementation of the method create is similar to the following:

    // method creating problems
    public NonGenericSuperClassOfGenericClass create(Class<?>... classes) {
             return new GenericClass<classes[0],classes[1]>;
             return new OtherGenericClass<classes[0]>;

Therefore, I cannot couple MyClass to any particular generics. Is there a way to instantiate my GenericClass with passed parameters? How?


Thank you for your answers. I'll tell you the whole story.

I'm using Spring and I plan to use MongoDB.

The class GenericClass is something like:

 GenericClass<PersistetType1, Long> 


 GenericClass<PersistentType2, Long>

where PersistentType1/2 are classes that I need to finally store in the DB, while, GenericClass is a sort of Proxy to access Mongo APIs. In fact, it looks like:

  public MongoTemplate getTemplate();
  public void save(T toInsert);
  public List<T> select(Query selectionQuery);
  public T selectById(ID id);
  public WriteResult update(Query selectionQuery, Update updatedAttributes);
  public void delete(T toRemove);
  public void delete(Query selectionQuery);

Now, what? From Controllers (or Entity, if you are picky) I need to instantiate the repository and invoke any methods. This causes the Controllers to be coupled with MongoDB, i.e. they explicitly have to instantiate such GenericClass, which is actually called MongoRepository and is strictly dependent on Mongo (in fact it is a generic with exactly two "degrees of freedom").

So, I decided to create MyClass, that is a further proxy that isolates Controllers. In this way, Controller can get the single instance of MyClass and let it create a new instance of the appropriate repository. In particular, when "somecondition" is true, it means that we want to use MongoRepository (when it is false, maybe, a need to instantiate a Hibernate proxy, i.e. HibernateRepository). However, MongoRepository is generic, therefore it requires some form of instantiation, that I hoped to pass as a parameter.

Unfortunately, generics are resolved at compile time, thus they don't work for me, I guess.

How can I fix that?

share|improve this question
There is no point in deciding type parameters at runtime because of type erasure. Either reconsider your design or don't specify the type parameters. –  trutheality Jun 29 '12 at 3:27
I generalized my question here: [… [1]:… –  Manu Jun 29 '12 at 18:57

5 Answers 5

That doesn't make sense, especially in Java.

The whole point of generics is to specify at compile-time what the types are.

If you don't know what the types are until runtime, Java generics would be useless, due to type erasure. (in C#, you would need reflection)

share|improve this answer
I do know the class at compile-time. Please read the other answers and more carefully my question. –  Manu Jul 6 '13 at 10:51
@Manu: You may have a Class<?> instance, but you don't know the concrete type at comppile-time. As the other answers also state, you can't use generics like that. –  SLaks Jul 7 '13 at 12:01
The way is to parametrize the generic with another generic: T1<? extends T2<? extends AnotherClass>>. This way I get the coupling I need. The appropriate choice of AnotherClass gives the expected result. –  Manu Jul 7 '13 at 16:58

Due to Type Erasure, a first implementation could consider only rawtypes implementation.

// Similar to original method
public Map<?, ?> create(Class<?> c1, Class<?> c2) {
    return new HashMap();

A cleaner alternative would be the following:

// A more generic alternative
public <S, T> Map<S, T> create2(Class<? extends S> c1, Class<? extends T> c2) {
    return new HashMap<S, T>();

Both implementations does exactly the same thing at runtime. The second is better since its signature depends on its arguments (while create returns a Map<?, ?>, the second may return a Map<String, Integer>)

share|improve this answer
Yes, but this way I'm fixing the return type to Map<?,?>, i.e. two classes. Maybe I need to return AnotherMap<?> or also ADifferentMap (no generic). –  Manu Jun 29 '12 at 18:47

There is no need to pass the Class objects in at runtime. Generics are purely compile-time. Since (it seems like) you are returning a non-generic type, and so you are throwing away the generic parameters anyway (I don't know why you would do this; but since you are, I will go with that), it doesn't matter what you use as the parameter. Any type parameter that passes the type checker will be sufficient:

public NonGenericSuperClassOfGenericClass create() {
         return new GenericClass<Object,Object>();
         return new OtherGenericClass<Object>();
share|improve this answer
Actually there is the need, because I need to know exactly what it's in the GenericClass instance I'm creating, so I have to give directions here. Probably, the point is that I don't need generics. –  Manu Jun 29 '12 at 18:45
@user1490144: But there is no difference at runtime between a newly created GenericClass<OneThing> and a newly created GenericClass<AnotherThing> at all. It's just a fiction used at compile time. It is impossible to "know exactly what's in" it because there is no difference. –  newacct Jun 29 '12 at 23:49

One thing to comes to mind is something along the lines of:

public NonGenericSuperClassOfGenericClass create(Class<?>... classes) {
         return new helper1(classes[0],classes[1]);
         return new helper2(classes[0]);

public <R,T> GenericClass<R,T> helper1( Class<R> a, Class<T> b ){
    return new GenericClass<R,T>();

public <T> OtherGenericClass<T> helper2( Class<T> a ){
    return new OtherGenericClass<T>();
share|improve this answer
up vote 0 down vote accepted

The way is to parametrize the generic with another generic: T1>. This way I get the coupling I need. The appropriate choice of AnotherClass gives the expected result.

share|improve this answer

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