Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm implementing a high-order split function, which takes a collection of items to be splitted, a filter delegate which defines the boundary criteria of the split, and two ReturnDelegate, which are delegates that provides the concrete collection type of the return collections (so I don't need to fix ArrayList or HashSet in the split function, but rather, leaving the creation of the return collections to the calling code, yielding flexibility). The return is a Tuple2 class, which is basically a wrapper around two heterogeneous objects.

Here's the split method:

public static <T, T1 extends Collection<T>, T2 extends Collection<T>>
    Tuple2<T1, T2> split(final Collection<T> coll,
                         final FilterDelegate<T> filterDelegate,
                         final FilterReturnDelegate<T1> truthyDelegate1,
                         final FilterReturnDelegate<T2> falsyDelegate2) {
    final Collection<T> t1 = truthyDelegate1.createReturnCollection();
    final Collection<T> t2 = falsyDelegate2.createReturnCollection();

    for (final T item : coll) {
        if (filterDelegate.filter(item)) {
            t1.add(item);
        } else {
            t2.add(item);
        }
    }

    final Tuple2<T1, T2> retval = new Tuple2<T1, T2>();
    retval.setItem1(t1);
    retval.setItem2(t2);

    return retval;
}

Here's the Tuple2 class. It's a simple generic-aware wrapper of heterogeneous objects.

public final class Tuple2<T1, T2> {

    private T1 _item1;

    private T2 _item2;

    public Tuple2() {
    }

    public Tuple2(final T1 item1, final T2 item2) {
        _item1 = item1;
        _item2 = item2;
    }

    public T1 getItem1() {
        return _item1;
    }

    public T2 getItem2() {
        return _item2;
    }

    public void setItem1(final T1 item1) {
        _item1 = item1;
    }

    public void setItem2(final T2 item2) {
        _item2 = item2;
    }

}

FilterDelegate:

public interface FilterDelegate<T> {

    /**
     *
     * @param item The item to be filtered.
     * @return true if the item should be retained. false if the item should be
     */
    boolean filter(T item);

}

FilterReturnDelegate:

public interface FilterReturnDelegate<R extends Collection<?>> {

    R createReturnCollection();

}

However, the above split method doesn't even compile. Javac is complaining on the lines

retval.setItems(t1); retval.setItems(t2);

that "The method setItem1(T1) in the type Tuple2<T1,T2> is not applicable for the arguments (Collection<T>)".

Wondering what am I doing wrong here?

share|improve this question
    
Consider just using Iterables.filter() from Guava (guava-libraries.googlecode.com) and skip dealing with all this. In your case, you'd use both Iterables.filter(c, p) and Iterables.filter(c, Predicates.not(p)) to get both subsets. –  Kevin Bourrillion Jan 19 '10 at 21:59

1 Answer 1

up vote 3 down vote accepted

Your t1 and t2 should be of type T1 and T2:

final T1 t1 = truthyDelegate1.createReturnCollection();
final T2 t2 = falsyDelegate2.createReturnCollection();

Collection<T> isn't a subtype of T1, so setItem(t1) would fail.

share|improve this answer
    
Darn...such a silly mistake! Thanks! –  EnToutCas Jan 19 '10 at 20:39

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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