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I have a class WHICH CANNOT implement comparable, but needs to be sorted based on 2 fields. How can I achieve this with Guava?

Let's say the class is

class X {
  String stringValue;
  java.util.Date dateValue;

and I have a list of these

List<X> lotsOfX;

I want to sort them based on the value field first and then based on dateValue descending within each 'group' of 'value' fields.

What I have been doing so far is

List<X> sortedList = ImmutableList.copyOf(Ordering.natural().onResultOf(dateValueSortFunction).reverse().sortedCopy(lotsOfX));
sortedList = ImmutableList.copyOf(Ordering.natural().onResultOf(stringValueSortFunction).sortedCopy(sortedList));

The functions are defined as:

public class DateValueSortFunction<X> implements Function<X, Long> {

      public Long apply(X input) {
        return input.getDateValue().getTime();  //returns millis time


public class StringValueSortFunction<X> implements Function<X, Integer> {

        public Integer apply(X input) {
            return 0;
          else if(input.getStringValue().equalsIgnoreCase("Something else"))
            return 1;
            return 2;

Expected output in sortedList is

Something   03/18/2013
Something   03/17/2013
Something else  03/20/2013
Something else  03/19/2013

My approach works but is obviously inefficient for traversing the list twice. Is there a better way of doing this?

Note: Using this in a GWT app. Implementing comparable is not an option.

share|improve this question
up vote 14 down vote accepted

I suspect you want Ordering.compound. You could do it all in one statement, but I'd use:

Ordering<X> primary = Ordering.natural().onResultOf(stringValueSortFunction);
Ordering<X> secondary = Ordering.natural()
Ordering<X> compound = primary.compound(secondary);

List<X> sortedList = compound.immutableSortedCopy(lotsOfX);
share|improve this answer
This does work. Thank you!! – user949110 Mar 20 '13 at 19:44
Holy cow ! Thanks for this, saved me a lot of IF...ELSE cases ! I was in for a nightmare of cross conditions. – Ethenyl Sep 29 '15 at 7:57

A less functional, but arguably cleaner, solution:

new Ordering<X>() {
  public int compare(X x1, X x2) {
    return ComparisonChain.start()
      .compare(x1.stringValue, x2.stringValue)
      .compare(x2.dateValue, x1.dateValue) // flipped for reverse order
share|improve this answer
I did look into this but I read that .compare would expect the inputs to implement comparable. So if I understand correctly, in this case it would sort the strings alphabetically? But I needed to put in my own custom sort function. – user949110 Mar 20 '13 at 20:42
If you want to sort the Strings using a custom comparator, then you can just use compare(x1.stringValue, x2.stringValue, new MyCustomStringComparator()). – Louis Wasserman Mar 20 '13 at 21:00
I see. Well as, long as one doesn't perform better than the other I am fine with both. I think the other answer is acceptably clean. – user949110 Mar 20 '13 at 21:15
For everyone who thinks swapping the arguments to get reverse order is too subtle, you can pass in a comparator as the third argument and use Collections.reverseOrder() which than reads: .compare(x1.dateValue, x2.dateValue, reverseOrder()) (assuming you're using static imports. – whiskeysierra Oct 4 '13 at 6:56

Java 8 provides methods on Comparator to concisely specify chained comparators. Together with the newly-introduced List.sort, you can do:

    Comparator.comparingInt(x -> stringValueSortFunction.apply(x.stringValue))
        .thenComparing(x -> x.dateValue, Comparator.reverseOrder()));

This mutates the list, of course -- make a copy first if you want to leave the original list unchanged, or wrap the comparator in an Ordering and use immutableSortedCopy if you want an immutable copy.

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