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I am pretty sure this is type safe, but just wanted to check as Eclipse is asking me to put a @SuppressWarnings("unchecked") annotation.

Map<String, IFace> faces;

public <T extends IFace> T getFace(String key)
{
    return (T) faces.get(key);
}
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5  
Answering my own question: No it's not because I can have a two DIFFERENT classes ClassA & ClassB that both implement IFace in faces. At runtime T could be ClassA or ClassB. –  Cheetah Aug 11 '13 at 13:12
    
Starred as I'm very interested in a similar problem –  Jeremy Johnson Aug 11 '13 at 13:12
2  
Why have the generics here? If you're just referencing things as IFace, then you don't need the generics/casting –  Jeff Storey Aug 11 '13 at 13:15
    
Why don't you simply have Map<String, T> faces? –  Vincent van der Weele Aug 11 '13 at 13:17
    
Note that it isn't Eclipse who is calling the shots: it is the JLS, which precisely defines what code will produce a "this needs an unchecked cast" warning. The Java Generics specification states that your code is type-safe only as long as it doesn't generate any such warnings. –  Marko Topolnik Aug 11 '13 at 13:45

3 Answers 3

It is not type safe. You are upcasting here so if you cast to an incompatible derived class you will come across an error at some point.

For example if A_Face and B_Face both extend IFace. You might at some point be casting a B_Face as an A_Face which is not type safe.

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Look at the extreme case. Lets say IFace is acutally Object, your code then looks like this:

static Map<String, Object> myMap = new HashMap<>();

public static void main(String[] args) throws Exception {
    myMap.put("ONE", 1);
    myMap.put("TWO", "TWO");
    myMap.put("THREE", new Date());

    final Calendar calendar1 = getThing("ONE");
    final Calendar calendar2 = getThing("TWO");
    final Calendar calendar3 = getThing("THREE");
}

public static <T> T getThing(String key) {
    return (T) myMap.get(key);
}

So you are putting at class than extends Object into your Map (so any class).

But, when you call getThing you are doing an implicit cast to your desired type. It should be fairly obvious that I can call getThing with any class also and it will blindly attempt to cast to it.

In the above example I am putting some things into my Map and then attempting to retrieve them all as Calendars.

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A classic way to handle this is with a "typesafe heterogeneous container":

Map<Class<?>, IFace> faces;

public <T extends IFace> T getFace(Class<T> key) {
    return t.cast(faces.get(key));
}

You use the class of the interface as a key, rather than a string, and then you can use the class passed as a key to safely cast the return value to the right type.

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