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There are many sequences of start-end pairs. How to find all the ranges which are contained in all of the sequences? Start and end are integers and they may be far away, so making bit-fields of the sequences and &-ing them is not feasible. The ranges (i.e. start-end pairs) on one "row" (i.e. one sequence) do not overlap, if that helps. And there is lower and upper bound for start and end, 32-bits integers would be enough I think (i.e., 0 <= values <= 65535).

Let me draw an example:

|----------|       |---------------------|           |----------|
     |----------------------|                      |-------|
                |---------------------|                 |--|

The result should be:

                   |--------|                           |--|

The example above would read, approximately:

row1 = (100, 200), (300, 600), (800, 900)
row2 = (140, 450), (780, 860)
row3 = (280, 580), (820, 860)
result = (300, 450), (820, 860)

Also, is there any known algorithm for this? I mean, does this problem have a name?

share|improve this question
Your example doesn't match what you are describing. It seems that you want to find the sequence that has the most overlapping sequences. –  nhahtdh Jan 10 '13 at 17:44
i don't understand the end result, can you clarify? –  Woot4Moo Jan 10 '13 at 17:45
I'm sorry for the confusion, my bad. Is it ok now? –  Ecir Hana Jan 10 '13 at 17:48
"a sequence of of start-end pairs" seems confusing. Are these character sequences or you are talking about ranges like time ranges? –  h22 Jan 10 '13 at 17:56
@AudriusMeškauskas: like time ranges. –  Ecir Hana Jan 10 '13 at 17:58

3 Answers 3

up vote 6 down vote accepted

That should not be to hard assuming the ranges in each sequence do not overlap. In this case it is just a matter of iterating over all points and tracking when you enter or leave a range.

Throw all your points from all your sequences into one list, sort it and remember for each point if it is a start or end point.

100 S ---
140 S  |   ---
200 E ---   |
280 S       |  ---
300 S ---   |   |
450 E  |   ---  |
580 E  |       ---
600 E ---
780 S      ---
800 S ---   |
820 S  |    |  ---
860 E  |   ---  |
860 E  |       ---
900 E ---

Now you iterate over this list and every time you encounter a start point you increment a counter, every time you encounter an end point you decrement the counter.

100 S 1
140 S 2
200 E 1
280 S 2  
300 S 3 <--
450 E 2 <--
580 E 1
600 E 0
780 S 1
800 S 2
820 S 3 <--
860 E 2 <--
860 E 1
900 E 0

When the counter is equal to the number of sequences - three in your example - you have found the start of one range and the next point is the end of this range.

Note that it is not even required to build the list explicitly if the ranges in each sequence are sorted by start or can be sorted by start. In this case you can just iterate over all sequences in parallel by keeping a pointers to the current range in each sequence.

Here the whole thing in C# - the class for ranges.

internal sealed class Range
    private readonly Int32 start = 0;

    private readonly Int32 end = 0;

    public Range(Int32 start, Int32 end)
        this.start = start;
        this.end = end;

    internal Int32 Start
        get { return this.start; }

    internal Int32 End
        get { return this.end; }

The class for points with a flag to discriminate between start and end points.

internal sealed class Point
    private readonly Int32 position = 0;

    private readonly Boolean isStartPoint = false;

    public Point(Int32 position, Boolean isStartPoint)
        this.position = position;
        this.isStartPoint = isStartPoint;

    internal Int32 Position
        get { return this.position; }

    internal Boolean IsStartPoint
        get { return this.isStartPoint; }

And finally the algorithm and test program.

internal static class Program
    private static void Main()
        var s1 = new List<Range> { new Range(100, 200), new Range(300, 600), new Range(800, 900) };
        var s2 = new List<Range> { new Range(140, 450), new Range(780, 860) };
        var s3 = new List<Range> { new Range(280, 580), new Range(820, 860) };

        var sequences = new List<List<Range>> { s1, s2, s3 };

        var startPoints = sequences.SelectMany(sequence => sequence)
                                   .Select(range => new Point(range.Start, true));

        var endPoints   = sequences.SelectMany(sequence => sequence)
                                   .Select(range =>  new Point(range.End, false));

        var points = startPoints.Concat(endPoints).OrderBy(point => point.Position);

        var counter = 0;

        foreach (var point in points)
            if (point.IsStartPoint)

                if (counter == sequences.Count)
                    Console.WriteLine("Start {0}", point.Position);
                if (counter == sequences.Count)
                    Console.WriteLine("End   {0}", point.Position);



The output is as desired the following.

Start 300
End   450

Start 820
End   860
share|improve this answer
Elegant, and linear runtime (in total number of intervals) with the right structure. –  Khaur Jan 10 '13 at 19:02
It is only O(n) if the sequences are already sorted, otherwise sorting the points will obviously make it O(n log n). –  Daniel Brückner Jan 10 '13 at 19:12
Actually, my idea of a linear implementation for the sorted case was not linear but O(NxM) - M number of sequences, but it may be done in O(N log M). –  Khaur Jan 10 '13 at 19:59
Well, this is totally out-of-the-box thinking for me, thanks a lot! Do you have any idea how it might perform vs the approach by @Khaur? I guess it depends a lot on underlying data... –  Ecir Hana Jan 10 '13 at 20:29
Khaur's solution is slower from a theoretical viewpoint. It is probably possible to implement the merge step more efficient than with the given pseudo code but I am quite sure that it is not possible to obtain the same running time as my solution. From a practical viewpoint there is probably no relevant performance difference as long as you have to deal only with a few ten or a few hundred ranges. –  Daniel Brückner Jan 10 '13 at 20:36

I think you can do that rather simply by fusing the sequences 2 by 2.

Each fusion should be doable in linear time of the number of intervals in the considered sequences (if the sequences are sorted), and M-1 fusions are required (with M number of sequences)

Taking your example and adding an extra sequence:

|----------|       |---------------------|           |----------|
     |----------------------|                      |-------|
                |---------------------|                 |--|
        |-----------------------------------|           |-----|  

Fuse by pair of sequences:

     |-----|       |--------|                        |-----|
                |---------------------|                 |--|

Fuse again:

                   |--------|                           |--|

But you may be able to find a faster way to do it. The worst case has O(N log M) runtime (N total number of intervals).

Edit: Pseudocode for fusion

Take s1 and s2 an iterator on each sequence
While there are still intervals in both sequences
    Compare the intervals:
    If s1.begin < s2.begin
        If s2.begin < s1.end
            If s2.end > s1.end
                Add [s2.begin,s1.end] to the fused sequence
                Increment s1
                Add [s2.begin,s2.end] to the fused sequence
                Increment s2
            Increment s1
        Same thing with s1 and s2 reversed
share|improve this answer
I doubt there is a faster way to do it.. +1 –  amit Jan 10 '13 at 18:21
You lost me there. What do mean by "fuse"? It makes sense looking at your diagrams, but how do you implement a fuse progrmatically? –  Pé de Leão Jan 10 '13 at 18:31
Using the fact that both lists are sorted, you can increment an iterator on either the first or the second list of intervals at every step. I'll edit the answer to make it more obvious. –  Khaur Jan 10 '13 at 18:36
Cool, but I'd like to see some code. :) –  Pé de Leão Jan 10 '13 at 18:39
Looks good but it's not linear time algorithm. More precisely - it has quadratic worst case. Consider a case when the "fusings" don't eliminate any intervals. But still, I might get lucky, I have to think about it. Thanks! –  Ecir Hana Jan 10 '13 at 20:23

It's called the longest common substring. I can be solved using suffix trees. There is a pretty clean Java implementation of it available on this blog and it works with more than just two source strings.

I don't know if you are dealing with characters but I'm sure you can probably adapt it if you don't.

share|improve this answer
Maybe I misunderstood, but I don't want just the longest common range, I would like to get all of them..? –  Ecir Hana Jan 10 '13 at 17:56
You do realize that these are intervals - the graphical representation is just for helping us visualize it. longest common substring might "catch" blanks –  amit Jan 10 '13 at 17:58
I see. Then, I don't think LCS helps here because I don't want to create "sentences" out of the ranges, see the bit-field note above. –  Ecir Hana Jan 10 '13 at 18:04

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