EDIT: First of all, a couple of things:
@Override annotation should not be mandatory. If Eclipse wants you to put it on, don't worry.
- Don't write your own Comparator interface. Delete that definition NAO and use the one provided by Java. Reinventing the wheel probably violates the Unspoken Code of Computer Programming in about 15 different ways. Use
import java.util.Comparator; at the very top of your code (before the
public class stuff) to a) use the version given by Java and b) make your code compatible with pretty much everything else that exists in the world.
The Comparator interface is not used to create a class that can put itself in order. This is the Comparable interface.
Both are similar, so I will describe both here.
The Comparator interface, as you already know, has one method:
compare. Comparator is generic (uses the angle brackets
<>) and takes the type it will compare inside the
<>. The thing is that Comparators are used to compare items of other classes. For example, I could create a Comparator for
java.lang.Integers that returns the opposite of the "natural order" (how Integers are usually ordered).
Comparators are used mostly to give other objects a way to sort their parameters when they are not in natural order. For example, the
java.util.TreeSet class takes a Comparator for its sorting capability.
Comparable's purpose is to say that an object can be compared. It is also generic and takes the type that it can be compared to. For example, a
Comparable<String> can be compared to Strings.
Comparable has one method:
compareTo(). Unlike Comparator's
compareTo takes one parameter. It works like
compare, except it uses the invoking object as one parameter. So,
comparableA.compareTo(comparableB) is the same as
Comparable mostly establishes the natural order for objects, and is the default way to compare objects. Comparator's role is to override this natural order when one has different needs for data comparison or sorting.
To sort a
List, you could use the method already available: scroll down to
sort on the
java.util.Collections class. One method takes a Comparator, the other does not.
sort is static; use
Collections c = new Collections(); c.sort(...). (
Collections doesn't even have a constructor anyway, so meh.)