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In addition to this question Find number range intersection I want to get the intersection range of 2 time ranges. So my question is

What is the efficient mathematical/algorithmic way to get the time range of the intersection of two number ranges ?

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Did you want the intersection or the union? –  Ignacio Vazquez-Abrams Mar 22 '11 at 12:50
    
Intersection sorry (post edited) –  Manuel Selva Mar 22 '11 at 12:58

3 Answers 3

up vote 1 down vote accepted
    public BTraceStatsTimeRange getOverlap(BTraceStatsTimeRange other) {
    if (!intersect(other)) {
        return NULL;
    }
    long startOther = other.start;
    long endOther = other.end;
    long minEnd = Math.min(end, endOther);
    long maxStart = Math.max(start, startOther);
    return new BTraceStatsTimeRange(Math.min(minEnd, maxStart), Math.max(
            minEnd, maxStart));
}

I am tired today .... ;-)

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This pseudo-C should do the trick:

R_TYPE Intersection(P_TYPE start1, P_TYPE start2, P_TYPE end1, P_TYPE end2)
{

    if(max(start1, start2) <= min(end1, end2))
    {
        return( min(end1, end2) - max(start1, start2) );
    }

    return(DISJOINT);
}

R_TYPE is your 'custom' return type, P_TYPE is your 'custom' parameter type. You can set them to any valid signed scalar number type (int, float, etc.) Use #define DISJOINT ... to set DISJOINT to some value that would normally be out of range (-1 or MAX_INT, etc.)

If you have some custom DATE_TIME_TYPE, you'll have to change this to accommodate that. For instance, if you define a struct like:

typedef union
{
    unsigned char date_time[7];
    struct
    {
        unsigned char second;
        unsigned char minute;
        unsigned char hour;
        unsigned char day;
        unsigned char month;
        unsigned int  year;
    }
}DATE_TIME_TYPE;

You might still be able to get by doing a straight comparison between values (assuming little-endian and 8-bit addressing), but you'll have to account for carries and underflow when subtracting individual days, minutes, etc.

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Subtract each of the endpoints of the first range from each of the endpoints of the second range. If you have:

  • All positive or negative results: the ranges are disjoint
  • One non-negative or negative result: the intersection is the operands for this result
  • Two non-negative results: the range is the non-common operand in both calculations​
  • All results are 0: the most degenerate ranges ever

    vectors = (
      ((1, 3), (2, 4), '2-3'),
      ((1, 4), (2, 3), '2-3'),
      ((1, 2), (3, 4), 'Disjoint'),
      ((2, 4), (1, 3), '2-3'),
      ((2, 3), (1, 4), '2-3'),
      ((3, 4), (1, 2), 'Disjoint'),
    )
    
    for a, b, c in vectors:
      print c, a, b
      for x in a:
        for y in b:
          print x, y, x-y
    
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