I'm trying to do something like this:

time() + timedelta(hours=1)

however, Python doesn't allow it, apparently for good reason.

Does anyone have a simple work around?



7 Answers 7


The solution is in the link that you provided in your question:

datetime.combine(date.today(), time()) + timedelta(hours=1)

Full example:

from datetime import date, datetime, time, timedelta

dt = datetime.combine(date.today(), time(23, 55)) + timedelta(minutes=30)
print dt.time()


  • 9
    It feels a bit like a work-around to enhance the data by irrelevant information. What happens if today() is the day before switching to daylight saving times, and the timedelta extends into the different time zone? Is this code affected by locales?
    – bluenote10
    Apr 4, 2017 at 20:46
  • 1
    @bluenote10 a naive datetime object is just an integer number of microseconds that is broken-down according to the proleptic Gregorian calendar. In other words, the code in the answer works as is even around, during DST transitions in any local timezone. date.today() is used to support both positive and negative timedeltas. date.min would work for positive timedeltas.
    – jfs
    Apr 5, 2017 at 7:03
  • @J.F.Sebastian: That's reassuring, thanks for the update. It still makes me cringe if a function that is supposed to be pure has a side effect. People from the year 9999 will not like this either ;).
    – bluenote10
    Apr 5, 2017 at 7:11
  • 3
    @bluenote10 Practicality beats purity. I doubt datetime.MAXYEAR will remain 9999 in 9999.
    – jfs
    Apr 5, 2017 at 7:31

If it's worth adding another file / dependency to your project, I've just written a tiny little class that extends datetime.time with the ability to do arithmetic. If you go past midnight, it just wraps around:

>>> from nptime import nptime
>>> from datetime import timedelta
>>> afternoon = nptime(12, 24) + timedelta(days=1, minutes=36)
>>> afternoon
nptime(13, 0)
>>> str(afternoon)

It's available from PyPi as nptime ("non-pedantic time"), or on GitHub: https://github.com/tgs/nptime

The documentation is at http://tgs.github.io/nptime/

  • Great. This saves the round trip of going to datetime world and back. Dec 27, 2012 at 5:37


t = time()
t2 = time(t.hour+1, t.minute, t.second, t.microsecond)

You can also omit the microseconds, if you don't need that much precision.

  • yes, nice answer. I should have made it trickier, like: time() + timedelta(minutes=30) Mar 17, 2009 at 22:50
  • 7
    If t == time(23,59) then this approach won't work. When you add 1 to t.hour you'll get ValueError: hour must be in 0..23
    – jfs
    Mar 17, 2009 at 23:20
  • Corrected the syntax error. For the 23:59 case the question is what the real intention of the calculation is, what you really want to get as a result in that case. I assumed it should stay on the same day (or give an error), else you usually would have datetime in the first place...
    – sth
    Mar 17, 2009 at 23:55
  • 1
    This method caused an error for me because I was adding 1 day to October 31. It is for this reason that you should use datetime.timedelta(days=1) to add a day to a datetime object. You will avoid debug land.
    – Bobort
    Oct 31, 2016 at 13:44
  • Although this answer is missing critical information, I think it is the best "default" approach. The other answers are also missing critical information, but instead of an error, they have the implicit "overflow" to the next/previous date, which could be even more critical (hidden bug that is hard to find). In my use case specifically, that is not what I want, I'd like to have time.max if I'm trying to add 1 hour to t == time(23, 59), for example.
    – felipou
    Jan 8, 2022 at 1:39

This is a bit nasty, but:

from datetime import datetime, timedelta

now = datetime.now().time()
# Just use January the first, 2000
d1 = datetime(2000, 1, 1, now.hour, now.minute, now.second)
d2 = d1 + timedelta(hours=1, minutes=23)
print d2.time()
  • 1
    +1: for datetime module. Otherwise it would require to deal with Overflow errors and such manually.
    – jfs
    Mar 17, 2009 at 23:25

You can change time() to now() for it to work

from datetime import datetime, timedelta
datetime.now() + timedelta(hours=1)

A little bit late to the party but you can also do something along the lines of:

init_time = time(4,0)
added_time = 8
new_time = datetime.time(init_time.hour+added_time)

Note that you'll need to add in correction code to make sure init+time.hour + added+time do not go above 23,59.


Have you tried relativedelta from the dateutil package? It seems to solve your problem quite nicely.

import datetime
from dateutil import relativedelta

print(datetime.datetime.now() + relativedelta.relativedelta(hours=1))
>>> 2023-05-09 16:35:57.008271

I also use it to manipulate dates, some examples:

# going back one month from today
end_date = datetime.date.today() - relativedelta.relativedelta(months=1)
>>> 2023-04-09

# going back one month from January 2023
end_date = datetime.date(2023,1,1) - relativedelta.relativedelta(months=1)
>>> 2022-12-01

Hope it helps!

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