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I encountered the following piece of a definition for a generic class:

public class binarysearchnode<T extends Comparable<T>> implements Comparable<binarysearchnode<T>>{

Please help explaining why a class would specify itself as a Type parameter to comparable while implementing the comparable interface? How would it be different from the following:

public class binarysearchnode<T extends Comparable<T>> implements Comparable<? super (or extends)T>{
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Because it's comparable to another instance of itself, not any random other thing. Look at the actual compareTo() method and this should be clear. – Brian Roach Dec 29 '12 at 17:06

3 Answers 3

up vote 6 down vote accepted

This makes it possible to compare binarysearchnodes to each other. If it implemented Comparable<T>, that would instead mean that the node could be compared to the value of the node, which would be odd.

Inside the class you will probably find something like this:

T value;

public int compareTo(binarysearchnode<T> other) {
   return value.compareTo(other.value);

In order to be able to implement compareTo() like this, the value class (T) needs to be comparable to other objects of its class - hence the declaration of <T extends Comparable<T>> in the class definition.

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It is because what the class author wants is to be able to write:


where b1 and b2 are binarysearchnode instances. The developer also adds a constraint to T so that T extends Comparable<T>. Probably so that the implementation of Comparable for binarysearchnode can just rely on T instances being Comparable themselves.

More generally, while it is possible for a class C1 to implement Comparable<C2>, ultimately, it makes no sense to do so: this does not mean that an instance of C2 could be comparable to an instance of C1. And due to type erasure, it would not be possible, for instance, for class C1 to implement both Comparable<C1> and Comparable<C2>.

Also, if binarysearchnode<T> were to implement Comparable<T> directly, you would have at least two problems:

  • you would not be able to compare one binarysearchnode<T> to another;
  • given a binarysearchnote<T> instance b and a T instance t, you would be able to write b.compareTo(t) but not t.compareTo(b) (since T does not, and cannot, implement Comparable<binarysearchnode<T>>), and that breaks the Comparable contract.
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Let's say you have a superclass A and a subclass B. Imagine the superclass implements Comparable<A>, then B will also implement Comparable<A> through inheritance.

Your binarysearchnode class declared as such :

public class binarysearchnode<T extends Comparable<T>>

will not be able to take B as a type parameter for T (B does not implement Comparable<B>) But when defined as such :

public class binarysearchnode<T extends Comparable<? super T>>

it will be able to take B as a type parameter for T, since B implements Comparable<A> which fulfills Comparable<? super T>.

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Wonderful answer.concise and simple - thanks a lot. – IUnknown Dec 30 '12 at 1:58

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