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I wonder whether it is possible to cast a non-Comparable to something so that it matches the method parameter T which has template type <T extends Comparable<? super T>>, like the Collections.sort() method

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

Suppose I somewhere have a reference to list of non-Comparables and want to invoke that method by casting like this:

List<E> foo = new List<E>(a);
Collections.sort( /* magic cast */ foo);

I can do this if I cast to (List<? extends Comparable>), but this generates a warning that I am using raw-types (Comparable without template types in this case). Let's say I want to avoid using raw-types or even suppressing them via @SuppressWarnings("rawtypes") (e.g. to preserve backward compatibility and avoiding raw-types).

Is it possible to avoid using raw types by casting to (List<? extends Comparable</*something*/>>) and what would it be that "something" (unchecked cast is acceptable)?

EDIT: This example is just to illustrate the point. Actually I do not have a Comparable nor do I want to sort anything, but I just need to dynamically check whether something is of some type (Comparable in this example) (via instanceof) and then pass some argument to a method which has template arguments similar to the Collections.sort() method.

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I may be misunderstanding something, but what you are trying to achieve doesn't really seem to make sense. If E does not implement Comparable, what is the point of trying to pass a list of these to Collections.sort? Surely you will just get a class cast exception at runtime? – Péter Török Feb 16 '11 at 13:27
i think public static <T extends Comparable<? super T>> void sort(List<T> list) means the same as public static <T> void sort(List<Comparable<T>> list). Dont? You just want to be sure that all objects in list implements Comparable rigth? – Plínio Pantaleão Feb 16 '11 at 13:34
And if it doesn't implement Comparable you could use the sort-method, which takes a Comparator. – Puce Feb 16 '11 at 13:36
Can't you specify your type parameter E as: <E extends Comparable<E>> ? – Puce Feb 16 '11 at 13:37
@Peter: let's say I want to first check whether it is instance of Comparable and then cast. This makes sense if I want to sort something on the best-effort basis. – eold Feb 16 '11 at 13:43
up vote 3 down vote accepted

Cast it to

Collections.sort((List<Comparable<Object>>) list);

This will not give "rawtype" warnings. Just one "unchecked cast" warning (which you will get anyway.)

Judging from what you mentioned in the EDIT, ultimately you want to do something like this?

if(!list.isEmpty() && list.get(0) instanceof Comparable){
    List<Comparable<Object>> cmprList = (List<Comparable<Object>>)list;
share|improve this answer
As you can't really typecheck whether some specific object is comparable to some specific other object (without using reflection looking at their compareTo methods, or actually invoking this compareTo-method), this seems to be actually the best possibility. – Paŭlo Ebermann Feb 16 '11 at 14:15
list.get(0) instanceof Comparable will throw an IndexOutOfBoundsException if called on an empty list. – Daniel Jan 21 '15 at 16:39
@Daniel No, it works as expected (tested on Oracle JDK7 just in case). If list is empty, the list.get(0) will not be executed when list is empty, because the !list.isEmpty() expression will be false and the && in Java is evaluated lazily. – rodion Jan 25 '15 at 13:08
@rodion: I stand corrected -- not sure how I've missed that though. – Daniel Jan 25 '15 at 13:21

This is certainly not possible. Collections.sort requires the Comparable in order to call the compareTo() method. So in your oppinion, what should happen when sort get's a collection of non-comparable objects?

It might be that you want to use something like a default ordering, based on the references for example. But such a thing does not exist implicitly. Though, it can be implemented. But I doubt that this is what you want? So why do you want to sort the list in the first place? And how should these elements be sorted?

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I don't want to sort actually. This is just an example which everyone is familiar with, to make things easier to explain. – eold Feb 16 '11 at 13:45

This will compile in Eclipse:

List<?> foo = new ArrayList<Object>();
Collections.sort((List<Comparable>) foo);

You will get a "Type Safety: Unchecked" warning that you can suppress with this:


That will let you call sort. Is that what you're looking for? No guarantees it will be safe at run time, of course.

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