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As a matter of general interest I'm wondering if there's a more elegant/efficient way to do this. I have a function that compares two start/end tuples of dates returning true if they intersect.

from datetime import date
def date_intersection(t1, t2):
    t1start, t1end = t1[0], t1[1]
    t2start, t2end = t2[0], t2[1]

    if t1end < t2start: return False
    if t1end == t2start: return True
    if t1start == t2start: return True
    if t1start < t2start and t2start < t1end: return True
    if t1start > t2start and t1end < t2end: return True
    if t1start < t2start and t1end > t2end: return True
    if t1start < t2end and t1end > t2end: return True
    if t1start > t2start and t1start < t2end: return True
    if t1start == t2end: return True
    if t1end == t2end: return True 
    if t1start > t2end: return False

so if:

d1 = date(2000, 1, 10)
d2 = date(2000, 1, 11)
d3 = date(2000, 1, 12)
d4 = date(2000, 1, 13)


>>> date_intersection((d1,d2),(d3,d4))
>>> date_intersection((d1,d2),(d2,d3))
>>> date_intersection((d1,d3),(d2,d4))


I'm curious to know if there's a more pythonic/elegant/more efficient/less verbose/generally better, way to do this with maybe mxDateTime or some clever hack with timedelta or set()?

An alternative and useful form would be for the function to return a start/end tuple of the intersection if one is found


share|improve this question
You should use timedeltas for representing the durations of t1 ⇔ t2 and I'm thinking on the next bit. – msw Sep 15 '10 at 19:54
up vote 17 down vote accepted

It's not really more Pythonic, but you can simply the logic to decide on an intersection somewhat. This particular problems crops up a lot:

return (t1start <= t2start <= t1end) or (t2start <= t1start <= t2end)

To see why this works think about the different possible ways that the two intervals can intersect and see that the starting point of one must always be within the range of the other.

share|improve this answer
yes! very nice. It still makes me go a little cross-eyed, but you've collapsed my exhaustive case analysis into a very clean expression. Thanks a lot, this helps clarify my thinking. – jjon Sep 15 '10 at 21:48

An alternative and hopefully more intelligible solution:

def has_overlap(A_start, A_end, B_start, B_end):
    latest_start = max(A_start, B_start)
    earliest_end = min(A_end, B_end)
    return latest_start <= earliest_end:

We can get the interval of the overlap easily, it is (latest_start, earliest_end). Note that latest_start can be equal to earliest_end.

It should be noted that this assumes that A_start <= A_end and B_start <= B_end.

share|improve this answer
This one is the most readable. Also, you can easily return (earliest_end-latest_start) to get a measurement of the total amount of overlap. – cxrodgers Aug 25 '14 at 20:20

Here's a version that give you the range of intersection. IMHO, it might not be the most optimize # of conditions, but it clearly shows when t2 overlaps with t1. You can modify based on other answers if you just want the true/false.

if (t1start <= t2start <= t2end <= t1end):
    return t2start,t2end
elif (t1start <= t2start <= t1end):
    return t2start,t1end
elif (t1start <= t2end <= t1end):
    return t1start,t2end
elif (t2start <= t1start <= t1end <= t2end):
    return t1start,t1end
    return None
share|improve this answer
FYI... chaining comparison operators:… – fseto Sep 15 '10 at 20:15
Thanks much for the link to chaining operators, that's very helpful. – jjon Sep 15 '10 at 21:50
This can be prettified using min on the end dates. e.g. if start1 <= start2 <= end1: return (start2, min(end1, end2)) – JeremyKun Jan 21 '14 at 21:03
Final Comparison: start <= other_finish and other_start <= finish

# All of the conditions below result in overlap I have left out the non overlaps

start <= other_start | start <= other_finish | other_start <= finish | finish <= other_finish 

      0                        1                        1                        0                   
      0                        1                        1                        1
      1                        1                        1                        0          
      1                        1                        1                        1

Only the start <= other_finish and other_start <= finish need to be true to return an overlap.

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A good answer would include some explanation as to why this would solve anything. – Qirel Feb 11 at 14:59
if t1end < t2start or t1start > t2end: return False
if t1start <= t2end or t2start <= t1start: return True
return False

Won't that cover all intersecting sets?

share|improve this answer
Well, your code simplifies to return t1end >= t2start and t1start <= t2end – Amoss Sep 15 '10 at 20:00
ah, right...1 more – nmichaels Sep 15 '10 at 20:15

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