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In Guava, given a Collection<E> and an element e of type E that I know is in the collection, I'd like to create a custom Ordering<E> that sorts e first and then the rest of the collection. However, the way to get there seems awfully complicated:

Collection<String> values = ImmutableList.of("apples", "oranges", "pears");
String first = "oranges";

List<String> remainingValues = newArrayList(values);  // this
remainingValues.remove(first);                        // seems
Ordering<String> myOrdering =                         // very
    Ordering.explicit(first, remainingValues.toArray( // complicated!
        new String[remainingValues.size()]));         // is there an easier way?

What I'm wishing for is either something like this:

Ordering.explicit(first);

(I'd like this to sort first to the beginning and retain the order of all other elements, but the docs say the resulting Ordering will throw a ClassCastException for elements not explicitly listed.)

Or like this:

Ordering.explicit(first, values.toArray(/* etc */));

(But this would fail because first would be a duplicate value)

Can anybody come up with a concise way of doing what I want?

BTW, it doesn't have to be an Ordering, it could also be a workaround for creating an Iterable in the specified Order, but again, this is very complicated:

Iterable<String> sorted = Iterables.concat(
                             ImmutableList.of(first),
                             Iterables.filter(values, not(equalTo(first))));
share|improve this question
    
On the linked javaDoc, the example under allEqual catches my eye, as well as the nullsFirst/Last methods. I wonder if you had a comparator of the value to extract being less than anything else, chained to a ordering that assumes all other values are equal ? –  Charlie Jan 18 '13 at 16:43
    
@Charlie yup, that would work, but it wouldn't actually be any less complicated than what I am doing –  Sean Patrick Floyd Jan 18 '13 at 16:48
    
Tis true... But a generic itemFirst/itemLast might make a good patch to guava itself... if accepted then: Ordering.allEqual().itemFirst("oranges") would be extremely simple :-D –  Charlie Jan 18 '13 at 17:08
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3 Answers

up vote 5 down vote accepted

Well, here's one way to do it, but you may not find it much better.

final String special = "oranges";
Collections.sort(
    list,
    new Comparator<String>() {
      public int compare(String left, String right) {
        return ComparisonChain.start()
            .compareTrueFirst(left.equals(special), right.equals(special))
            .compare(left, right)
            .result();
      }
    });

ComparisonChain docs

Relevant Guava feature request -- please add any details.

share|improve this answer
    
Sure, I am aware of that way, which (apart from ComparisonChain) is actually the traditional Java way of doing it. But: I like to use Guava because in most cases it actually makes life easier. This doesn't make anything easier, and I don't like the destructive Collections.sort call. –  Sean Patrick Floyd Jan 20 '13 at 19:01
    
Hmm, since none of the answers seems satisfactory, this one gets the checkmark for suggesting to file an issue. I may eventually do that. –  Sean Patrick Floyd Jan 21 '13 at 9:40
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Perhaps this answer isn't easier/less complicated than what you already have but at least it can be re-used :)

class FirstOrdering<T extends Comparable> extends Ordering<T> {

    private T first;

    public FirstOrdering(T first) {
        this.first = first;
    }
    @Override
    public int compare(@Nullable T left, @Nullable T right) {
        // TODO Nullchecks...
        if (first.equals(left)) return -1;
        if (first.equals(right)) return 1;
        return left.compareTo(right);
    }
}

final String first = "B";
    new FirstOrdering(first).
            sortedCopy(Arrays.asList("A", "D", "E", first));
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Simply use NullsFirstOrdering as your template and create a ordering that sorts the first element, delegating to another ordering for everything else:

public class ItemFirstComparator<T> implements Comparator<T> implements Serializable {
  private final Comparator<? super T> comparator;
  private final Object item;

  ItemFirstComparator(Object item, Comparator<? super T> comparator) {
    this.item = item;
    comparator = checkNotNull(comparator);
  }

  @Override public int compare(@Nullable T left, @Nullable T right) {
    if (left == right) {
      return 0;
    }
    if (Objects.equals(left, item)) {
      return -1;
    }
    if (Objects.equals(right, item)) {
      return 1;
    }
    return comparator.compare(left, right);
  }
}

You then can chain orderings easily: Ordering.from(new ItemFirstComparator("oranges", Ordering.allEqual())).

Edit

Changed the code to use Comparator instead of Ordering, the rest stays the same.

share|improve this answer
    
Subclassing Ordering seems like a code smell. I'm surprised it's even possible. –  Sean Patrick Floyd Jan 20 '13 at 19:04
    
@SeanPatrickFloyd although it is possible so subclass ordering, I agree with you that it is smelly. I therefore changed my code sample to Comparable. –  nd. Jan 20 '13 at 19:43
1  
Subclassing is definitely overused, but Ordering, at least, is designed to be subclassed: "You can also skip the comparator step and extend Ordering directly." docs.guava-libraries.googlecode.com/git/javadoc/com/google/… –  Chris Povirk Jan 22 '13 at 15:01
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