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This question already has an answer here:

I'm having trouble understanding the following syntax:

public class SortedList< T extends Comparable< ? super T> > extends LinkedList< T >

I see that class SortedList extends LinkedList. I just don't know what

T extends Comparable< ? super T>

means.

My understanding of it so far is that type T must be a type that implements Comparable...but what is < ? super T >?

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marked as duplicate by SSDMS, AlBlue, Jeeped, Petter Friberg, ManoDestra May 9 at 20:59

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 53 down vote accepted

super in Generics is the opposite of extends. Instead of saying the comparable's generic type has to be a subclass of T, it is saying it has to be a superclass of T. The distinction is important because extends tells you what you can get out of a class (you get at least this, perhaps a subclass). super tells you what you can put into the class (at most this, perhaps a superclass).

In this specific case, what it is saying is that the type has to implement comparable of itself or its superclass. So consider java.util.Date. It implements Comparable<Date>. But what about java.sql.Date? It implements Comparable<java.util.Date> as well.

Without the super signature, SortedList would not be able accept the type of java.sql.Date, because it doesn't implement a Comparable of itself, but rather of a super class of itself.

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I see. So then given that class, would Collection< Object > list = new SortedList< Object>(); be a valid statement? – ShrimpCrackers May 13 '10 at 14:36
    
@aloh, no it would not because Object does not implement Comparable. – Yishai May 13 '10 at 14:37

It's a lower-bounded wildcard.

JLS 4.5.1 Type Arguments and Wildcards

Wildcards are useful in situations where only partial knowledge about the type parameter is required. [...] An upper bound is signified by the syntax:

? extends B

where B is the upper bound. [...] it is permissible to declare lower bounds on a wildcard, using the syntax:

? super B

where B is a lower bound.

A List<? super Integer>, for example, includes List<Integer>, List<Number>, and List<Object>.

Wildcards are used to make generics more powerful and flexible; bounds are used to maintain type safety.

See also


As to how this is useful in <T extends Comparable<? super T>>, it's when you have something like Cat extends Animal implements Comparable<Animal>.

Look at the signature of Collections.sort

public static <T extends Comparable<? super T>> void sort(List<T> list)

Therefore, with a List<Cat> listOfCat, you can now Collections.sort(listOfCat).

Had it been declared as follows:

public static <T extends Comparable<T>> void sort(List<T> list)

then you'd have to have Cat implements Comparable<Cat> to use sort. By using the ? super T bounded wildcard, Collections.sort becomes more flexible.

See also

  • Effective Java 2nd Edition, Item 28: Use bounded wildcards to increase API flexibility
    • Also, PECS principle: "producer extends consumer super"
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1  
It's a bit more complicated than that though - the question isn't about ? super T, it is about T extends Comparable<? super T> – oxbow_lakes May 13 '10 at 14:31
    
Ah, I see. Those all implement Comparable. What about the super keyword? – ShrimpCrackers May 13 '10 at 14:33
1  
Not really! If you look at docs, you'll realize it's not simply a bounded wildcard. – Epitaph May 13 '10 at 14:34
    
Just for clarification, my previous comment was aimed at your initial response which was just 3-4 lines. – Epitaph May 13 '10 at 16:35

It means that T must implement Comparable<T itself or one of T's superclasses> The sense is that because SortedList is sorted, it must know how to compare two classes of its generics T parameter. That's why T must implement Comparable<T itself or one of T's superclasses>

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It means that the type T must implement Comparable of T or one of its super classes.

For example, if A extends B, if you want to use SortedList<A>, A must implement Comparable<A> or Comparable<B>, or in fact just Comparable.

This allows the list of As to be constructed with any valid comparator.

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Consider the following example:

  1. Using a type parameter defined in the class declaration

    public class ArrayList extends AbstractList ... {
    public boolean add(E o) // You can use the "E" here ONLY because it's already been defined as part of the class

  2. Using a type parameter that was NOT defined in the class declaration

    public <T extends Animal> void takeThing(ArrayList<T> list)
                                                // Here we can use <T> because we declared "T" earlier in the method declaration                  
    

    If the class itself doesn't use a type parameter, you can still specify one for a method, by declaring it in a really unusual (but available) space - before the return type. This method says that T can be "any type of Animal".

NOTE:

public <T extends Animal> void takeThing(ArrayList<T> list)             

is NOT same as              

public void takeThing(ArrayList<Animal> list)

Both are legal, but they are different. The first one indicates that you can pass in a ArrayList object instantiated as Animal or any Animal subtype like ArrayList, ArrayList or ArrayList. But, you can only pass ArrayList in the second, and NOT any of the subtypes.

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