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Rather than attempt this in words, I'll just give an example:

I have an Animal class, as well as a Dog,Fish,Cat, etc. which extend Animal.

I have three different methods, which return Map<String,List<Dog>>, Map<String,List<Fish>>, Map<String,List<Cat>>. We'll call these getDogMap, getCatMap, and getFishMap.

I am writing a generic method which, depending on various parameters, calls one of these methods. Here is what I expected to be allowed to do:

public void <A extends Animal> doSomething(){

    Map<String,List<A>> someMap;

    if(someCondition){
        someMap = getDogMap();
    }else if(anotherCondition){
        someMap = getFishMap();
    }else{
        someMap = getCatMap():
    }
}

Or at least, that with casting ala someMap = (Map<String,List<Dog>>) getDogMap();

However, this does not work. Eclipse tells me "Type mismatch: cannot convert from Map<String,List<Dog>> to Map<String,List<A>>" If I try to force the cast, it tells me "Cannot cast from Map<STring,List<Dog>> to Map<String,List<A>>".

What am I doing wrong?

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2  
Map<String,List<A extends Animal>> someMap; ? –  ant Aug 18 '12 at 0:19
    
@ant Except that won't compile, you can't define a type variable nor an extra bound on a type variable in a declaration. –  Jeffrey Aug 18 '12 at 1:12

2 Answers 2

up vote 5 down vote accepted

public void <A extends Animal> doesn't mean "A is any type that extends Animal", it means "A is a specific one of the types that extends Animal". You need to use the following declarations:

public void doSomething() {
    Map<String, ? extends List<? extends Animal>>  someMap;
    // ...
}

The construct ? extends Animal is how you express "any type that extends Animal".

The reason you have to use that declaration is that, counter-intuitively, the way subtype relationships between generic types work isn't exactly consistent with how they work between regular types. For instance, List<Dog> is a subtype of Collection<Dog>. It is not a subtype of List<Animal>, or Collection<Animal> etc. The reason why this isn't allowed is called heap pollution, also explained in Angelika Langer's FAQ. List<Dog> is, however, a subtype of List<? extends Animal>. A variable of type List<? extends Animal> may have assigned a List<Dog>, or a List<Cat>, or a List<Animal>. The important part is that the compiler doesn't know which of these it is, just that it is one of them.

Just like List<Dog> is not a subtype of List<Animal>, analogously it holds that Map<String, List<Dog>> is not a subtype of Map<String, List<? extends Animal>>.

The best way to demonstrate why generics work this way is proof by contradiction; that is, showing examples of (broken) code that would lead to errors were generics to work "intuitively". So, if List<Dog> were a subtype of List<Animal>, the following code would be valid:

List<Dog> dogs = new ArrayList<Dog>();
List<Animal> animals = dogs; // unsafe cast

// this operation violates type safety
animals.add(new Cat());

// would assign a Cat to a variable of type Dog without a compile error!
Dog dog = animals.get(0);

Similarly, for your Map:

Map<String, List<Dog>> dogses = new HashMap<String, List<Dog>>();
Map<String, List<? extends Animal>> animalses = dogses; // unsafe cast

List<Cat> cats = new ArrayList();
cats.put(new Cat());
animalses.put("cats", cats);

List<Dog> dogs = dogses.get("cats");
Dog dog = dogs.get(0); // uh-oh
share|improve this answer
    
You're right, but that is the functionality I want. This is a Map from a String to a list of ONE type of Animal. And these three methods return that. (Also, to put it aside, using <? extends Animal> gives the same error). Also, I think you are misunderstanding the difference between the usage of ? and A. In this situation, they are exactly the same. They only differ if, for example, I pass in a Class<A>, which allows me to explicitly set A. –  Seth Nelson Aug 18 '12 at 1:10
    
Your three methods all return different subtypes of Animal. Therefore, a single variable that can hold the return values of any of these methods must be able to hold any subtype of Animal. –  millimoose Aug 18 '12 at 1:11
    
A could be any of those types. This is not an issue. –  Seth Nelson Aug 18 '12 at 1:12
    
"A could be any of those types" - except your original code isn't expressing this constraint correctly. (I also fixed my answer to one that actually compiles now.) –  millimoose Aug 18 '12 at 1:18
3  
A rule of thumb: if your method has a type parameter that's used neither in the argument types, or in the return type, you're probably going about things the wrong way. Method type parameters are useful only to express constraints on / between argument / retval types, they don't meaningfully affect local variables in the method body. –  millimoose Aug 18 '12 at 1:21

The problem here lies in the way generic types work.

In Java, you would expect that Number is a superclass of Integer (and you would be right). You would also expect that Number[] is a superclass of Integer[]. You would also be right. However, you cannot say that List<Number> is a superclass of List<Integer>. This violates type safety.

List<Integer> intList = new ArrayList<Integer>();
List<Number> numList = intList; // the system stops you here
numList.add(Math.PI); // so that you don't do this

In you case, you have a type Animal and its subtypes Dog, Cat, and Fish. Extend this logic to your animals, and you see why you are having trouble casting List<Dog> to List<A>.

Now, you can use the addAll(Collection) method defined in the List interface.

List<Animal> animals = new List<Animal>();
List<Dog> dogs = new List<Dog>();
animals.addAll(dogs);
share|improve this answer
    
YES. Thank you for actually understanding my problem. Now - do you have a solution?!? Or do I have to write three helper methods to typecast each element in each list. –  Seth Nelson Aug 18 '12 at 1:11
    
Can you simply declare someMap to be of type Map<String,List<Animal>>? –  gobernador Aug 18 '12 at 1:14
    
That won't work for the same reason you described above. I cannot cast from List<Dog> to List<Animal>. –  Seth Nelson Aug 18 '12 at 1:16
    
Wow. Don't know what I was thinking there. Give me a second, I'll think of something... –  gobernador Aug 18 '12 at 1:17
    
One answer is Map<String, ?> someMap or Map<String, List<?>> someMap or Map<String, List<? extends Animal>> someMap ... but these force you to use typecasts when reading from the lists. ` –  Stephen C Aug 18 '12 at 1:18

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