1

I have to implement a generic AVL tree as homework. It's defined as follows:

public class AVL<Key,Elem>;

The problem is that I assume that at some point, I'll have to compare keys to decide in which side of a node I allocate an element. For the purpose of this homework, Integers will be used as Keys.

Since no other restriction or information about that is given, I first thought of just asuming that Key will always be an Integer. However, that makes the generic "Key" superfluous, and I don't think that's what the teachers expect. So, I think that the best solution involves forcing that whatever that is passed as Key implements a Comparator, or something like that (I've really never worked with Comparator, just guessing), and then using that comparator to compare the Keys instead of using the ==,<,> and != operators. However, I have no idea on how to do it. Any hints?

Thanks in advance.

Improve this question
4

Try public class AVL<Key extends Comparable<Key>,Elem>; and use the compareTo() method which is required by the Comparable<T> interface and which is implemented by Integer.

Improve this answer
3
  • What's the difference between this solution and using Comparator? Someone told me he made it using it. Thanks for the solution. – bluehallu Apr 16 '11 at 15:36
  • 1
    I think you mix Comparable up with Comparator. The comparator would be an object that compares any type of object without the need to implement Comparable. However, your key would not implement Comparator but you'd pass it as a separate object. On the other hand Comparable marks an object as having a natural order (defined by the implementation of comparaTo() and if your keys implemented it they could be compared directly. Note that all Number objects (Integer, Double etc.) as well as String implement Comparable. – Thomas Apr 16 '11 at 15:53
  • Got it. Gonna start reading the Java documentation about the Comparable interface. Thanks. – bluehallu Apr 16 '11 at 15:58
2

The SortedMap and SortedSet implementations in the standard Java API either use a Comparator<Key> and call its compare(k1, k2) method, or assume the keys implement Comparable<Key>, and call k1.compareTo(k2). Most offer both, depending on which constructor is used. (EnumMap/EnumSet don't, as they support only the build-in ordering of the enum values by declaration order.)

The Comparable approach mandates that the keys are always sorted in the same way, and would be used for keys which have a canonical ordering (like integers), where you want to use this ordering.

The Comparator approach is more flexible, since you can use the same key objects for different maps where they are differently ordered, and you can use it for keys over which you have no control, or who don't have a canonical ordering (like List, trees/graphs, etc. You can also use it to sort strings keys by other criteria than the pure unicode value (e.g. Locale-based), using a Collator (this is a class implementing Comparator).

Both require a total order on your keys, but I suppose this is necessary for your AVL tree, too.

Here is a Comparator implementation which works on any comparable objects, so you could use it (maybe internally) as an adapter for the Comparable variant.

 public static <X extends Comparable<X>> Comparator<X> makeComparator() {
     return new Comparator<X>() {
         public int compare(X left, X right) {
             return left.compareTo(right);
         }
     };
 }
Improve this answer
2
  • In fact, my Main class will need to sort items by different criteria, and I will need to instance various AVLs for each kind of sorting, working with the best one for every case. I guess this can be done by using a different field of the object as Key every time and the Comparable interface, or by removing the generic "Key" and passing a different comparator every time which compares the desired field every time, but since they gave us the signature with the generic "Key", they want to force us to use the first method. Isn't it? – bluehallu Apr 16 '11 at 16:19
  • 1
    You seem to have the special case that the key is part of the value, which you extract. In this case, both approaches are usable. You could alternatively implement SortedSet<Value> and use a suitable Comparator (but if the task want <Key, Value>, use both). It does not really matter, the underlying mechanism is nearly the same. – Paŭlo Ebermann Apr 16 '11 at 17:09

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.