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I've got a object that defines a 'natural sort order' using Comparable<>. These are being stored in TreeSets.

Other than removing and re-adding the object, is there another way to update the sort when the members that are used to define the sort order are updated?

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+1 nice question –  skaffman Apr 5 '10 at 17:05
Is this just morbid curiosity, or are you looking for a specific benefit, say in performance or code simplicity? –  greim Apr 6 '10 at 5:11
I was looking for a simple noninvasive way to maintain the sort order of a collection as events update the objects within it. Altering the membership has side effects on other consumers of the collection. IMO, triggering a resort of an element seems like basic functionality for a sorted collection. –  Stevko Apr 6 '10 at 15:43
GUIs have the same problem, and MVC is the solution. The GUI which corresponds to your TreeSet calls update in periodic intervals, or the controller (observer pattern) gets triggered by the model if a value changes –  mike Jul 30 '13 at 14:33
The fingered by architecture pretty accurately. The TreeSet is my model of DOTs listening to a websocket jms events which then relay the Model updates thru the presenter/controller layer to view widgets. –  Stevko Jul 30 '13 at 16:58

6 Answers 6

up vote 7 down vote accepted

As others have noted, there is no in-built way. But you can always subclass that TreeSet, with your constructor(s) of choice, and add in the required functionality:

public class UpdateableTreeSet<T extends Updateable> extends TreeSet<T> {

    // definition of updateable
    interface Updateable{ void update(Object value); }

    // constructors here

    // 'update' method; returns false if removal fails or duplicate after update
    public boolean update(T e, Object value) {
       if (remove(e)) {
           return add(e);
       } else { 
           return false;

From then on, you will have to call ((UpdateableTreeSet)mySet).update(anElement, aValue) to update the sorting value and the sorting itself. This does require you to implement an additional update() method in your data object.

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This won't even work. remove(e) won't be able to find the element if its value has already changed. –  Kevin Bourrillion Apr 5 '10 at 22:25
By golly, you're right. Editing to fix... –  tucuxi Apr 5 '10 at 22:47

I had a similar problem, found this thread and tucuxi's answer (thanks!) based on which I implemented my own UpdateableTreeSet. My version provides means to

  • iterate over such a set,
  • schedule (deferred) element updates/removals from within the loop
  • without having to create a temporary copy of the set and finally
  • do all the updates/removals as a bulk operation after the loop has ended.

UpdateableTreeSet hides a lot of the complexity from the user. In addition to deferred bulk updates/removals, single-element update/removal as shown by tucuxi still remains available in the class.

Update 2012-08-07: The class is available in a little GitHub repository including an introductory README with schematic sample code as well as unit tests showing how (not) to use it in more detail.

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I like the idea - it would just imply placing the "deferred-update" array inside the UpdateableTreeSet, and then calling "do-deferred-updates" to first remove all of the updates, and then re-insert them. –  tucuxi Jul 11 '12 at 14:39
As my code example implies, this is what I have done. It is not just an idea, it is a real implementation. Have you followed the link to the source code and also checked out other files in the project to see how the class is used in more complicated cases? –  kriegaex Jul 26 '12 at 13:39
No need - the idea is clear enough, and although your explanation is somewhat over-lengthy, I up-voted it as useful. –  tucuxi Jul 26 '12 at 16:34
I have reacted on your comment that the posting was over-lengthy and shortened it dramatically. I also removed the sample code snippet. Instead there is a pointer to a dedicated Git repository with the full code now for further reference. Thanks for the feedback. –  kriegaex Aug 7 '12 at 16:54

If you really need to use a Set, then you're out of luck, I think.

I'm going to throw in a wildcard, though - if your situation is flexible enough to work with a List instead of a Set, then you can use Collections.sort() to re-sort the List on demand. This should be performant, if the List order doesn't have to be changed much.

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Not much of an advantage to doing that - Set guarantees fast lookup, insertion and removal, while a List would require using Collections.binarySearch first to locate the element. It is better to stick to removal and re-insertion. –  tucuxi Apr 5 '10 at 21:43
I realise that, which is why I said "if your situation is flexible enough". The performance requirements may be loose enough to permit a List to be practical. –  skaffman Apr 5 '10 at 22:04
@tucuxi binary search in a List is O(log n). Lookup in a TreeSet? Also O(log n). –  Kevin Bourrillion Apr 5 '10 at 22:26
@Kevin but you have to go through the motions of implementing versions of add(), remove() and contains() that do binary searches internally. In essence, you are reimplementing TreeSet with a sorted list inside. That is why I wrote that removal&reinsertion seemed easier. Not because of performance, but because of coding time. –  tucuxi Apr 5 '10 at 23:03
I liked this idea if the collection could be sorted in place rather than create a new instance. –  Stevko Apr 6 '10 at 17:22

Only built in way is to remove and re-add.

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It helps to know whether your objects will be changing by small increments or large. If each change is very small, you would do very well to put your data in a List that you keep sorted. To do this, you have to

  1. binarySearch to find the index of the element
  2. modify the element
  3. while the element is greater than its righthand neighbor, swap it with its righthand neighbor
  4. or if that didn't happen: while the element is less than its lefthand neighbor, swap it with its lefthand neighbor.

But you have to make sure no one can change the element without going through "you" to do it.

EDIT: Also! Glazed Lists has some support for just this:


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I don't think there is a out-of-the-box way to do it.

You could use an observer pattern that notifies the treeset whenever you change a value inside an element, then it removes and re-inserts it.

In this way you can implicitly keep the list sorted without caring of doing it by hand.. of course this approach will need to extend TreeSet by modifying the behaviour of insertion (setting the observed/notify mechanics on the just added item)

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I don't think that will work. If the element's value changes in a way that affects the sort order, it's quite likely that you will be unable to find it in the tree or remove it. –  Michael Borgwardt Apr 5 '10 at 23:03

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