I have a class Something which contains an instance variable Anything.

class Anything {
    private final int id;
    private final int noThings;

    public Anything(int id, int noThings) {
        this.id = id;
        this.noThings = noThings;

class Something {
    private final int parentId;
    private final List<Anything> anythings;

    private int getParentId() {
        return parentId;

    private List<Anything> getAnythings() {
        return anythings;

    public Something(int parentId, List<Anything> anythings) {
        this.parentId = parentId;
        this.anythings = anythings;

Given a list of Somethings

List<Something> mySomethings = Arrays.asList(
    new Something(123, Arrays.asList(new Anything(45, 65),
                                     new Anything(568, 15), 
                                     new Anything(145, 27))),
    new Something(547, Arrays.asList(new Anything(12, 123),
                                     new Anything(678, 76), 
                                     new Anything(98, 81))),
    new Something(685, Arrays.asList(new Anything(23, 57),
                                     new Anything(324, 67), 
                                     new Anything(457, 87))));

I want to sort them such that the Something objects are sorted depending on the total descending sum of the (Anything object) noThings, and then by the descending value of the (Anything object) noThings

123 = 65+15+27 = 107(3rd)
547 = 123+76+81 = 280 (1st)
685 = 57+67+87 = 211 (2nd)

So that I end up with

List<Something> orderedSomethings = Arrays.asList(
    new Something(547, Arrays.asList(new Anything(12, 123),
                                     new Anything(98, 81), 
                                     new Anything(678, 76))),
    new Something(685, Arrays.asList(new Anything(457, 87),
                                     new Anything(324, 67), 
                                     new Anything(23, 57))),
    new Something(123, Arrays.asList(new Anything(45, 65),
                                     new Anything(145, 27), 
                                     new Anything(568, 15))));

I know that I can get the list of Anythings per parent Id

Map<Integer, List<Anythings>> anythings
            = mySomethings.stream()

But after that I'm a bit stuck.

  • Yes, as I'm now looking at summing a variable on an inner object. I've spent 2 days trying to figure this out. It's not due to laziness that I'm here. – IncompleteCoder Jun 17 '15 at 10:44
  • Would you like to sort your data in-place or would you like to generate sorted data structure from the existing one. – Flown Jun 17 '15 at 10:59

Unless I'm mistaken, you can not do both sorts in one go. But since they are independent of each other (the sum of the nothings in the Anythings in a Something is independent of their order), this does not matter much. Just sort one after the other.

To sort the Anytings inside the Somethings by their noThings:

            .forEach(as -> as.sort(Comparator.comparing(Anything::getNoThings)

To sort the Somethings by the sum of the noThings of their Anythings:

mySomethings.sort(Comparator.comparing((Something s) -> s.getAnythings().stream()

Note that both those sorts will modify the respective lists in-place.

As pointed out by @Tagir, the second sort will calculate the sum of the Anythings again for each pair of Somethings that are compared in the sort. If the lists are long, this can be very wasteful. Instead, you could first calculate the sums in a map and then just look up the value.

Map<Something, Integer> sumsOfThings = mySomethings.stream()
        .collect(Collectors.toMap(s -> s, s -> s.getAnythings().stream()

  • 2
    I was going to post the same Solution. But I'd suggest to use Comparator.comparing(Anything::getNoThings).reversed() instead of the minus. – Flown Jun 17 '15 at 10:55
  • @Flown You are right, but for some reason the same does not work for the second comparator, and I guess I just wanted to keep it consistent. – tobias_k Jun 17 '15 at 11:09
  • Thanks guys, much appreciated. – IncompleteCoder Jun 18 '15 at 8:57
  • 1
    Note that in the latter case you will sum noThings several times during the sorting as every comparator invocation will sum again for both compared Somethings. – Tagir Valeev Jun 18 '15 at 9:06
  • @TagirValeev You are right, thanks for pointing this out! Edited. – tobias_k Jun 18 '15 at 9:44

The problem of other solutions is that sums are not stored anywhere during sorting, thus when sorting large input, sums will be calculated for every row several times reducing the performance. An alternative solution is to create intermediate pairs of (something, sum), sort by sum, then extract something and forget about sum. Here's how it can be done with Stream API and SimpleImmutableEntry as pair class:

List<Something> orderedSomethings = mySomethings.stream()
        .map(smth -> new AbstractMap.SimpleImmutableEntry<>(smth, smth
        .sorted(Entry.<Something, Integer>comparingByValue().reversed())

There's some syntactic sugar available in my free StreamEx library which makes the code a little bit cleaner:

List<Something> orderedSomethings = StreamEx.of(mySomethings)
        .mapToEntry(smth -> smth

As for sorting the Anything inside something: other solutions are ok.


In the end I added an extra method to the Something class.

public int getTotalNoThings() {
  return anythings.stream().collect(Collectors.summingInt(Anything::getNoThings));

then I used this method to sort by total noThings (desc)

somethings = somethings.stream()

and then I used the code suggested above (thanks!) to sort by the Anything instance noThings

    somethings .stream().map(Something::getAnythings)
            .forEach(as -> as.sort(Comparator.comparing(Anything::getNoThings).reversed()));

Thanks again for help.

  • I have added inline code formatting to the class/variable names in your text. You may want to check whether I didn't accidentally change the meaning of anything -- hopefully not! – duplode Apr 13 '18 at 4:57

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