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I have an array of java objects.

  • Each object stores two longs that define a number range.
  • I already have a guarantee that for all the objects in the range, the number ranges don't overlap.

I want a quick of finding a particular object in the array, given a number which may (or may not) fall within one of the number ranges defined by the objects.

I was hoping to do this using Array.binarySearch but that doesn't look appropriate.

Any thoughts on the best way to do this?

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Is the array sorted in any way? – Erix Jul 1 '09 at 15:10
Array.binarySearch requires your array to be sorted in advance. Is it? – Jørn Schou-Rode Jul 1 '09 at 15:10
No, it's not sorted. Sorting the array seems easy, but then binary searching is harder as I'm trying to find a number which falls within a range. – tomdee Jul 2 '09 at 14:50
up vote 7 down vote accepted

Use a TreeMap. The key is the lower of the two Long range bounds; the value is the object.

private TreeMap<Long, T> map = new TreeMap<Long, T>();

void insertObject(T object) {
    map.put(object, object.getLowerRangeBoundary());

T getObjectByKeyInRange(Long query) {
    // Get the first Object in the tree that corresponds with the query
    Map.Entry<Long, T> e = map.floorEntry(query);

    // If there's no entry, then the query value is lower than all ranges in the tree
    if (e == null) {
        return null;

    T target = e.getValue();
    // "target" is the only object that can contain the query value
    // If the query value is within the range of "target", then it is our object
    if (query < target.getUpperRangeBoundary()) {
        return target;

    // Nobody has the query value in their range; return null
    return null;
share|improve this answer
Good idea. +1 – Michael Myers Jul 1 '09 at 15:28

Have the items in the array implement the Comparable interface, by letting item a be bigger than the other item b if a.start > b.end. Then sort the array using this comparison.

Then to find if a number x is in a range in a item in the array, do a search in the array for the first item k with k.end >= x, and check if k.start <= x. If so, k is the range. Else, x is not in any range in the array.

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Definitely how I would do this. I'd even probably sort the array at that point first, then binary search for values. – AlbertoPL Jul 1 '09 at 15:15
That is not in general a complete ordering. I'd therefore go for a Comparator. Actually, I'd prefer Comparator anyway. – Tom Hawtin - tackline Jul 1 '09 at 15:32
I'm not sure if I understand this. How do I do the search in the array for the first item k with k.end >= ? – tomdee Jul 2 '09 at 13:26
By looping over the array for example, breaking when you found it? Or apply some binary search by starting in the middle of that array, going left or right, etc – drvdijk Jul 2 '09 at 14:31
I don't want to do a linear search over the array - it's exactly what I'm trying to avoid. I was also hoping to avoid implementing my own binarySearch(). I thought there may be some way of bending the existing one to my will. – tomdee Jul 2 '09 at 14:51

You can actually handle this very efficiently (for large numbers of ranges and millions of queries on the ranges) and allow for the ranges to overlap.

Pseudo code:

Let rangeMap be a TreeMap:

foreach(Range r in ranges)

rangeMap.GreatestLowerBound(i) will now return the number of ranges that a given integer i belongs to ( i.e. GreatestLowerBound is the largest number <= i).

You can do better still in terms of practical performance if you know the number of ranges up front... by allocating a single array, populating it with "deltaRange", then "integrate" to get an array showing the cumulative "ranges" for each number x.

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