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Summary of my question: I need a list that can quickly be iterated and sorted (either by sorting method or adding/removing object).

I'm coding a game in which there are a lot of "collision zones", that are checked every frame. For optimization, I have a idea of sorting them depends on their X position. The problem is not all collision zones are static, because some of them can move around.

I have managed to handles all the changes, but to maintain the ArrayList (or ConcurrentLinkedQueue) sorted using Collections.sort() is too slow.

So I got a new idea: I may use a Tree, and whenever a zone's X is changed, instead of sorting all elements again, I can just remove then re-add it from the tree. However, I think that adding and removing operator in TreeList are expensive too. Moreover, iterating through Tree is not as effective as ConcurrentLinkedQueue, LinkedList or ArrayList.

Please tell me if there is any built-in data structure that satisfy my need. If there is no such data structure, I intend to extend ArrayList class, override the add method to ensure the order (by using overload add(index, item). If you think this is the best way, please give me the best way to find the index. I already use BinarySearch but I think there is a bug:

public boolean add(T e) {
    // Find the position
    int left = 0;
    int right = this.size() - 1;
    int pos = right / 2;
    if (e.compareTo(this.get(0)) <= 0) {
        pos = 0;
    } else if (e.compareTo(this.get(this.size() - 1)) >= 0) {
        pos = this.size();
    } else {
        // Need: e[pos - 1] <= e[pos] <= e[pos + 1] 
        boolean firstCondition = false;
        boolean secondCondition = false;

        do {
            firstCondition = this.get(pos - 1).compareTo(this.get(pos)) <= 0;
            secondCondition = this.get(pos).compareTo(this.get(pos + 1)) >= 0;

            if (!firstCondition) {
                right = pos - 1;
                pos = (left + right) / 2;
            } else if (!secondCondition) {
                left = pos + 1;
                pos = (left + right) / 2;
        } while (!(firstCondition && secondCondition));

    this.add(pos, e);

    return true;
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I take it you cannot have two collisions which can be .equal()? If then make your collision object implement equals()/hashCode() and Comparable efficiently and use a SortedSet. –  fge Dec 22 '12 at 10:49
@fge No, the comparator is performed using X position, so there may be many collision zones that have the same X position. Moreover, SortedSet is just an interface, and its Java implementation is TreeSet. –  DatVM Dec 22 '12 at 10:55
I know that SortedSet is an interface ;) As to comparison, you can compare on more than x, can't you? –  fge Dec 22 '12 at 10:59
@fge Ah I see, so if 2 X positions are equal, I can just compare two unique numbers, such as hashCode, right? –  DatVM Dec 22 '12 at 11:13
Well, hashCode is not unique by definition so I wouldn't rely on that... –  fge Dec 22 '12 at 11:14

3 Answers 3

up vote 1 down vote accepted

I would use a tree set. if you need to allow duplicates you can use a custom comparator. while iterating a tree set is slightly slower than an array, adding and removing is much faster.

It appears you are doing an insertion sort which is O (n). an insert on a tree set is O (ln n)

IMHO The best way to store duplicates by using a TreeMap<MyKey, List<MyType>> like this

Map<MyKey, List<MyType>> map = new TreeMap<>();
// to add
MyType type = ...
MyKey key = ...
List<MyType> myTypes = map.get(key);
if (myTypes == null)
    map.put(key, myTypes = new ArrayList<>());

// to remove
MyType type = ...
MyKey key = ...
List<MyType> myTypes = map.get(key);
if (myTypes != null) {
    if (myTypes.isEmpty())

In this case, addition and removal is O(ln N);

You can allow "duplicates" is a TreeSet by defining all objects as different e.g.

Set<MyType> set = new TreeSet<>(new Comparator<MyType>() {
   public int compare(MyType o1, MyType o2) {
      int cmp = /* compare the normal way */
      if (cmp == 0) {
          // or use System.identityHashCode()
         cmp = Integer.compare(o1.hashCode(), o2.hashCode());
         return cmp == 0 ? 1 : cmp; // returning 0 is a bad idea.

As you can see this approach is ugly unless you have some way of making every object unique.

share|improve this answer
Can you please give me an example how to store duplicatations? To my knowledge, a Tree can't store duplicated elements. In my case, multiple collision zones can have the same X position, so that, they meet the "equal" condition. –  DatVM Dec 22 '12 at 10:59
Thank you, I understand now. I can just use a static ID number and assign (then increase) it for each object. I think in your example, to solve the "rare case" when hashCodes are equal, your approach is dangerous by just return 1? –  DatVM Dec 23 '12 at 10:22
Correct, you can use a unique id like AtomicInteger.getAndIncrement(). –  Peter Lawrey Dec 23 '12 at 22:56

If you intend to use a binary search / insert on an already sorted array or ArrayList then you will get the same big O complexity than a binary tree.

So I recommend that you actuall test the provided tree implementations (i.e. TreeSet), not just guess. As they are not plain tree implementations I would not be surprised if iteration is also fast on them.

share|improve this answer

It sounds like you want a TreeSet.

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