# Days between two dates? [duplicate]

What's the shortest way to see how many full days have passed between two dates? Here's what I'm doing now.

``````math.floor((b - a).total_seconds()/float(86400))
``````
• It's just two dates, or do they also include time information? – Sven Marnach Nov 24 '11 at 14:16
• Ah — see also stackoverflow.com/questions/151199/… – Paul D. Waite Nov 24 '11 at 14:20
• date1 = date(2018,7,3) date2 = date(2018,9,29) days = (date2-date1).days # days are already here print("Total weeks {} and days {}".format(days//7, days%7)); – Rajeev Singla Jul 4 '18 at 5:50

Assuming you’ve literally got two date objects, you can subtract one from the other and query the resulting `timedelta` object for the number of days:

``````>>> from datetime import date
>>> a = date(2011,11,24)
>>> b = date(2011,11,17)
>>> a-b
datetime.timedelta(7)
>>> (a-b).days
7
``````

And it works with datetimes too — I think it rounds down to the nearest day:

``````>>> from datetime import datetime
>>> a = datetime(2011,11,24,0,0,0)
>>> b = datetime(2011,11,17,23,59,59)
>>> a-b
datetime.timedelta(6, 1)
>>> (a-b).days
6
``````
• Coolness. Somehow I always assumed "days" refers to just the day portion of the difference. So for example difference between 2010 and 2011 would be 0 days and 1 year, but turns out it does report 365 days as I wanted. – Bemmu Nov 25 '11 at 10:03
• @Bemmu: ah yes — I think `timedelta` doesn’t report any unit longer than days (although I could be wrong). – Paul D. Waite Nov 25 '11 at 11:28

Do you mean full calendar days, or groups of 24 hours?

For simply 24 hours, assuming you're using Python's datetime, then the timedelta object already has a days property:

``````days = (a - b).days
``````

For calendar days, you'll need to round a down to the nearest day, and b up to the nearest day, getting rid of the partial day on either side:

``````roundedA = a.replace(hour = 0, minute = 0, second = 0, microsecond = 0)
roundedB = b.replace(hour = 0, minute = 0, second = 0, microsecond = 0)
days = (roundedA - roundedB).days
``````
• good spot with the difference in calender days vs 24 hours. One question is why do you add 1 day. I think the above works perfectly without it. – Matt Alcock Jun 18 '13 at 15:10
• That's the check for calendar days. Say A is 2013-06-18 at 16:00 and B is 2013-06-19 at 02:00; one calendar day has passed, yet (B - A).days would return zero because the delta is only 10 hours. – DNS Jun 18 '13 at 19:13
• That's the point I'm making DNS your code returns 2 because you have added another day. Without adding 1 day it returns 1. Why add a day? – Matt Alcock Jun 20 '13 at 13:51
• See new answer with adjusted code. – Matt Alcock Jun 20 '13 at 14:09
• Sorry, you're right; I don't know why I did that. Updated. – DNS Jun 20 '13 at 14:37

Try:

``````(b-a).days
``````

I tried with b and a of type `datetime.date`.

Referencing my comments on other answers. This is how I would work out the difference in days based on 24 hours and calender days. the days attribute works well for 24 hours and the function works best for calendar checks.

``````from datetime import timedelta, datetime

def cal_days_diff(a,b):

A = a.replace(hour = 0, minute = 0, second = 0, microsecond = 0)
B = b.replace(hour = 0, minute = 0, second = 0, microsecond = 0)
return (A - B).days

if __name__ == '__main__':

x = datetime(2013, 06, 18, 16, 00)
y = datetime(2013, 06, 19, 2, 00)

print (y - x).days          # 0
print cal_days_diff(y, x)   # 1

z = datetime(2013, 06, 20, 2, 00)

print (z - x).days          # 1
print cal_days_diff(z, x)   # 2
``````
• It should be (B - A).days to get the accurate diff – Roel Oct 31 '18 at 15:33