Comparator
* objects.
*
* Most of the utility in this class can also be found in the
* comparators package. This class merely provides a
* convenient central place if you have use for more than one class
* in the comparators subpackage.
*
* Note that every method in this class allows you to specify
* null instead of a comparator, in which case
* {@link #NATURAL_COMPARATOR} will be used.
*
* @since 2.1
* @author Paul Jack
* @author Stephen Colebourne
* @version $Id: $
*/
public class ComparatorUtils {
/**
* Restrictive constructor
*/
private ComparatorUtils() {
}
/**
* Comparator for natural sort order.
*
* @see ComparableComparator#getInstance
*/
public static final Comparator NATURAL_COMPARATOR = ComparableComparator.getInstance();
/**
* Gets a comparator that uses the natural order of the objects.
*
* @return a comparator which uses natural order
*/
public static Comparator naturalComparator() {
return NATURAL_COMPARATOR;
}
/**
* Gets a comparator that compares using two {@link Comparator}s.
*
* The second comparator is used if the first comparator returns * that equal. * * @param comparator1 the first comparator to use, not null * @param comparator2 the first comparator to use, not null * @return a combination comparator over the comparators * @throws NullPointerException if either comparator is null */ public static Comparator chainedComparator(Comparator comparator1, Comparator comparator2) { return chainedComparator(new Comparator[] {comparator1, comparator2}); } /** * Gets a comparator that compares using an array of {@link Comparator}s. *
* The second comparator is used if the first comparator returns * that equal and so on. * * @param iterators the comparators to use, not null or empty or contain nulls * @return a combination comparator over the comparators * @throws NullPointerException if comparators array is null or contains a null */ public static Comparator chainedComparator(Comparator[] comparators) { ComparatorChain chain = new ComparatorChain(); for (int i = 0; i < comparators.length; i++) { if (comparators[i] == null) { throw new NullPointerException("Comparator cannot be null"); } chain.addComparator(comparators[i]); } return chain; } /** * Gets a comparator that compares using a collection of {@link Comparator}s. *
* The second comparator is used if the first comparator returns
* that equal and so on.
*
* @param comparators the comparators to use, not null or empty or contain nulls
* @return a combination comparator over the comparators
* @throws NullPointerException if comparators collection is null or contains a null
* @throws ClassCastException if the comparators collection contains the wrong object type
*/
public static Comparator chainedComparator(Collection comparators) {
return chainedComparator(
(Comparator[]) comparators.toArray(new Comparator[comparators.size()])
);
}
/**
* Gets a comparator that reverses the order of the given
* comparator.
*
* @param comparator the comparator whose order to reverse
* @return a comparator who reverses that order
* @see ReverseComparator
*/
public static Comparator reversedComparator(Comparator comparator) {
if (comparator == null) {
comparator = NATURAL_COMPARATOR;
}
return new ReverseComparator(comparator);
}
/**
* Gets a Comparator that controls the comparison of null values.
*
* The returned comparator will consider a null value to be less than * any nonnull value, and equal to any other null value. Two nonnull * values will be evaluated with the given comparator.
*
* @param comparator the comparator that wants to allow nulls
* @return a version of that comparator that allows nulls
* @see NullComparator
*/
public static Comparator nullLowComparator(Comparator comparator) {
if (comparator == null) {
comparator = NATURAL_COMPARATOR;
}
return new NullComparator(comparator, false);
}
/**
* Gets a Comparator that controls the comparison of null values.
*
* The returned comparator will consider a null value to be greater than * any nonnull value, and equal to any other null value. Two nonnull * values will be evaluated with the given comparator.
* * @param comparator the comparator that wants to allow nulls * @return a version of that comparator that allows nulls * @see NullComparator */ public static Comparator nullHighComparator(Comparator comparator) { if (comparator == null) { comparator = NATURAL_COMPARATOR; } return new NullComparator(comparator, true); } /** * Gets a Comparator that passes transformed objects to the given comparator. *
* Objects passed to the returned comparator will first be transformed * by the given transformer before they are compared by the given * comparator. * * @param comparator the sort order to use * @param transformer the transformer to use * @return a comparator that transforms its input objects before comparing them * @see TransformingComparator */ public static Comparator transformedComparator(Comparator comparator, Transformer transformer) { if (comparator == null) { comparator = NATURAL_COMPARATOR; } return new TransformingComparator(transformer, comparator); } /** * Returns the smaller of the given objects according to the given * comparator. * * @param o1 the first object to compare * @param o2 the second object to compare * @param comparator the sort order to use * @return the smaller of the two objects */ public static Object min(Object o1, Object o2, Comparator comparator) { if (comparator == null) { comparator = NATURAL_COMPARATOR; } int c = comparator.compare(o1, o2); return (c < 0) ? o1 : o2; } /** * Returns the smaller of the given objects according to the given * comparator. * * @param o1 the first object to compare * @param o2 the second object to compare * @param comparator the sort order to use * @return the smaller of the two objects */ public static Object max(Object o1, Object o2, Comparator comparator) { if (comparator == null) { comparator = NATURAL_COMPARATOR; } int c = comparator.compare(o1, o2); return (c > 0) ? o1 : o2; } }