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The code below makes complete sense to me - its about adding an element of some type which is supertype of type T and type S is definitely such a super type , so why the compiler refuses to add 'element' into the collection ?

class GenericType<S,T extends S>{
   void add1(Collection<? super T> col ,S element ){
        col.add(element);  // error
       // The method add(capture#9-of ? super T) in the type 
       // Collection<capture#9-of ? super T> is not applicable for the arguments (S)
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up vote 2 down vote accepted

Collection<? super T> does not mean "a collection that can contain T and any superclass of it" - it's actually not possible to formulate that restriction. What it means is "a collection that can only contain instances of some specific class which is a superclass of T" - basically it ensures that you can add a T to the collection.

The method can be called with a Collection<T>, yet you want to add an S to it.

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Given what you say , how is then this declaration different from something that does not use wildcard ( Collection<T> instead of Collection<? super T> ) ? – Bhaskar Jun 7 '11 at 12:07
@Bhaskar: the wildcard also allows you to call the method with a Collection<S> or a Collection<Object> - everything you can add a T to. – Michael Borgwardt Jun 7 '11 at 12:20

Thake an example, if A <- B <- C where <- means that is the supertype, then if S = B and T = C you cannot add an instance of S to a collection of T.

A supertype of T may be the supertype or a subtype of another supertype of T (in this case S).

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yes I agree with your derivation , but the fact still remains that S is a supertype - so why is that fact not deemed sufficient for allowing this addition ? I can see that allowing so will also lead to a possible runtime exception , so is it because the designers decided to avoid getting into such runtime situations ? if you , then whats the difference between Collection<? super T> and Collection<T> in above usage ? – Bhaskar Jun 7 '11 at 12:11
correct answer indeed , but have to give it to Michael for letting me understand it in prose. – Bhaskar Jun 7 '11 at 12:32

You are trying to put an element of type S into a collection of type T. Generics aren't polymorphic. You have to take notice of 2 problems here. you are trying to create an Collection of type concreteObject extends Object and are adding an object So when you have

Car extends Vehicle{}
ElectricCar extends Car{}

you are trying to do

Collection<? extends Car> collection;
collection.add(new Vehicle());

The second problem lies with the non-polymorphism nature of Generics. See this great explanation -> Is `List<Dog>` a subclass of `List<Animal>`? Why aren't Java's generics implicitly polymorphic?

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new GenericType<Object,Integer>().add1(new ArrayList<Integer>(), "");
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+1 for a valid concrete and unsafe example. Though it might be more clear that you're exercising the "super" keyword if you passed in an ArrayList<Number>. Using ArrayList<Integer> does show the most obvious flaw in the OP's reasoning, in that List<? super T> admits a List<T> which obviously won't accept an arbitrary supertype of T. – Mark Peters Jun 7 '11 at 12:23
+1 for the terse and accurate code bringing out the defect – Bhaskar Jun 7 '11 at 12:33

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