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I have the following scenario:

abstract class State {
    // Nothing special here.
}

interface Resource {
    State read(); // returns a representation of the internal state.
    void write(State state); // applies the given state.
    // Some more methods...
}

I've got some implementations of State, for instance IntState (stores an int, has get and set), and some others, with the difference being what the state stores.

This sounds to me as a perfect application for generics. Without them, I may face the following situtation.

class MyIntResource implements Resource {
    private IntState state;

            /* ... */

    @Override
    public State read() { return state; }

    @Override
    public void write(State s) {
        if (!(s instanceof IntState)) {
            throw new IllegalArgumentException();
        }
        // cast and set
    }
}

With generics, however, I could have:

class State<T> {
    private T value;

    // get, set, etc...
}

interface Resource<T> {
    State<T> read();
    void write(State<T> state);
    // Some more methods...
}

This seems to simplify a lot of things. Firstly, this eliminates casts and instanceofs, keeping the code cleaner, and safer.

On the other hand, I face a problem when dealing with collections. I think this would apply to any collection, but in my particular case, I've got a map, Map<String, Resource>.

The idea is to have the user create his own resources (or use some of the pre-defined implementations), offer them to a special entity, some sort of resource manager, and then access these resources through the manager, in an organized way.

If I choose to apply generics, this would be, instead, Map<String, Resource<?>>. The logical consequence, is that, when retrieving resources from the map, I've lost their generic type parameter. I go from having Resource<Integer>, Resource<String>, and so on, to a bunch of Resource<?>.

So, my questions are:

  1. Is there any way to overcome this, still using generics?

  2. Is there any better workaround, than using casts, instanceofs, and lots of subclassing?

  3. Should the whole thing be redesigned?

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3 Answers 3

up vote 1 down vote accepted

Generic information is not available at runtime, because doing that would have meant that classes compiled with older (<=1.4) java versions would not be compatible with the new binaries.

So, no, if you define something like

Map<String, Resource<?>>

You cannot get the original value. Not even instanceof would work, because at runtime there is no difference between Resource<String> or Resource<Integer>.

For the point 3, I have not enough information to tell you how it should be redesigned.

UPDATE: One possibility would be, if you have a Resource method that is guaranteed to return a value of type T (not State<T>*), you could use that value for instanceof. But that would be tricky because you could do something like that

 State<Number> state = new State(new Integer(1));
 Map<String, State<?>> myMap = new Map<String, State<?>>();
 myMap.put("myState", state);
 ...
 State state2 = myMap.get("myState");
 if (state2.getValue() instanceof Integer) {
    // Wrong!! It can hold Long, or Float... but no errors will be raised here
    State<Integer> state3 = myMap.get("myState");
    ...
 }
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Just as I thought it would be. Since this question was more focused on generic types and casting, I may bring up the topic of redesigning in another question. –  afsantos Jun 18 '13 at 18:05

If you need different functionality for different resources consider using subclassing instead of generics (or combine it). You can have common functionality on the Resource abstract class level and specific functionality on concrete subclasses, like this:

public abstract class Resource<T> {
  ...common stuff...

  public abstract void doSomethingSpecific();
}

public class IntResource extends Resource<Integer> {

  public void doSomethingSpecific(){
    ...doing int stuff...
  }
}
share|improve this answer

You can try changing the the Resource<T> to Resource <? extends State>. That way when you grab a Resource from the map you know its of type State.

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K... random -1 with no comment. Guess some random troll. –  David Grinberg Jun 18 '13 at 15:37
1  
No, I was finishing my answer. Check the OP, he wants Resource<T> where he uses any class (v.g., Resource<Integer>, Resource<String>. In fact nowhere he says anything about Resource<State>. –  SJuan76 Jun 18 '13 at 15:39
    
Yes... thats why I suggested it... If you change it to State then you get more flexibility while keeping generics. Moreover he can add a field in State which defines the type, such as a String –  David Grinberg Jun 18 '13 at 15:42
    
No, check my answer. That information is not available at runtime time. –  SJuan76 Jun 18 '13 at 15:44

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