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 ?
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 ?
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 .... ;-)
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.
Subtract each of the endpoints of the first range from each of the endpoints of the second range. If you have:
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
If someone needs the javascript version is here:
function findRangeIntersection(a1, a2, b1, b2) {
if (Math.max(a1, b1) <= Math.min(b2, a2)) {
return Math.min(a2, b2) - Math.max(a1, b1);
}
return Number.NaN;
}