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We have made in a tutorial an example with the following signture (as part of an interface)

<T> List<Comparable<T>> sort(Collection<Comparable<T>> c, boolean ascending);

We have found it nearly impossible to implement that method without warnings:

public <T> List<Comparable<T>> sort(Collection<Comparable<T>> c, boolean ascending) {
    List<T> list = new ArrayList<T>();
    return list;

The error in the line Collections.sort(list) we get is:

Bound mismatch: The generic method sort(List<T>) of type Collections is not 
applicable for the arguments (List<T>). The inferred type T is not a valid 
substitute for the bounded parameter <T extends Comparable<? super T>>

However, it works for the following signature:

<T extends Comparable<T>> List<T> sort(Collection<T> c, boolean ascending);

With that signature, the code above (implementation of sort) just works as expected. I would like to know what is the reason for that.

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And the question is? I guess why the second works and the first not? –  Fildor Oct 17 '12 at 10:03

2 Answers 2

up vote 2 down vote accepted

Collections.sort expects a List<T extends Comparable<? super T>>, i.e. the compiler needs to be able to tell that the element type T of the list it is sorting extends Comparable<E> where E is T, a superclass of T or an interface implemented by T. Your first signature with public <T> List<Comparable<T>> sort doesn't enforce this, so you can't Collections.sort a List<T>. You could make it work by saying

List<Comparable<T>> list = new ArrayList<Comparable<T>>();

to match the type that your sort method returns, but the problem with this is that it's rather inflexible - it can only sort a Collection<Comparable<Foo>>, not a Collection<Bar> where Bar implements Comparable<Foo>. The most flexible approach would be to stick with the new ArrayList<T>() but use a signature like

<T extends Comparable<? super T>> List<T> sort(Collection<T> c, boolean ascending);

which places the minimum restriction on T to make the sort valid - it would work with Bar extends Foo implements Comparable<Foo>, which your second signature doesn't allow (that would require Bar implements Comparable<Bar>).

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Thank's a lot for the very detailed answer, and the idea to make it even more flexible. I will add that to our tutorial example. –  mliebelt Oct 17 '12 at 10:30

A list of Comparable<T>s is a list of objects which are comparable with Ts. One could not say if these objects themselves are Ts. Thus it's impossible to compare two elements with each other.

Ts, which happen to be comparable with other Ts, can be compared with each other. And so sorting a list of such Ts is possible.

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Thank's a lot for the simple but deep explanation. If I could only accept 2 answers ... :-( –  mliebelt Oct 17 '12 at 10:31

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