# What is the standard way to add N seconds to datetime.time in Python?

Given a datetime.time value in Python, is there a standard way to add an integer number of seconds to it, so that 11:34:59 + 3 = 11:35:02, for example?

These obvious ideas don't work:

>>> datetime.time(11, 34, 59) + 3
TypeError: unsupported operand type(s) for +: 'datetime.time' and 'int'
>>> datetime.time(11, 34, 59) + datetime.timedelta(0, 3)
TypeError: unsupported operand type(s) for +: 'datetime.time' and 'datetime.timedelta'
>>> datetime.time(11, 34, 59) + datetime.time(0, 0, 3)
TypeError: unsupported operand type(s) for +: 'datetime.time' and 'datetime.time'

In the end I have written functions like this:

secs = timeval.hour * 3600 + timeval.minute * 60 + timeval.second
return datetime.time(secs // 3600, (secs % 3600) // 60, secs % 60)

I can't help thinking that I'm missing an easier way to do this though.

### Related

You can use full datetime variables with timedelta, and by providing a dummy date then using time to just get the time value.

For example:

import datetime
a = datetime.datetime(100,1,1,11,34,59)
b = a + datetime.timedelta(0,3) # days, seconds, then other fields.
print(a.time())
print(b.time())

results in the two values, three seconds apart:

11:34:59
11:35:02

You could also opt for the more readable

b = a + datetime.timedelta(seconds=3)

if you're so inclined.

If you're after a function that can do this, you can look into using addSecs below:

import datetime

fulldate = datetime.datetime(100, 1, 1, tm.hour, tm.minute, tm.second)
fulldate = fulldate + datetime.timedelta(seconds=secs)
return fulldate.time()

a = datetime.datetime.now().time()
print(a)
print(b)

This outputs:

09:11:55.775695
09:16:55
• To avoid OverflowErrors, I'd recommend using a different dummy date, eg a couple of years later: datetime(101,1,1,11,34,59). If you try subtracting a large timedelta from the date above, you'll get an "OverflowError: date value out of range" error as the year for a datetime object cannot be smaller than 1 Nov 29, 2011 at 5:23
• @pheelicks, done, albeit a little late, not exactly agile response times :-) Since I had to fix another bug in my code, I thought I'd incorporate your suggestion at the same time. Jan 15, 2013 at 1:20

As others here have stated, you can just use full datetime objects throughout:

from datetime import datetime, date, time, timedelta
sometime = time(8,00) # 8am
later = (datetime.combine(date.today(), sometime) + timedelta(seconds=3)).time()

However, I think it's worth explaining why full datetime objects are required. Consider what would happen if I added 2 hours to 11pm. What's the correct behavior? An exception, because you can't have a time larger than 11:59pm? Should it wrap back around?

Different programmers will expect different things, so whichever result they picked would surprise a lot of people. Worse yet, programmers would write code that worked just fine when they tested it initially, and then have it break later by doing something unexpected. This is very bad, which is why you're not allowed to add timedelta objects to time objects.

• An exception, clearly. Not being able to add a TIMEdelta to a TIME is dumb. Sep 15, 2020 at 9:25
• @JürgenA.Erhard Interestingly, I “clearly” thought that the correct behavior there would be to wrap around… Feb 16, 2021 at 15:17

One little thing, might add clarity to override the default value for seconds

>>> b = a + datetime.timedelta(seconds=3000)
>>> b
datetime.datetime(1, 1, 1, 12, 24, 59)

You cannot simply add number to datetime because it's unclear what unit is used: seconds, hours, weeks...

There is timedelta class for manipulations with date and time. datetime minus datetime gives timedelta, datetime plus timedelta gives datetime, two datetime objects cannot be added although two timedelta can.

Create timedelta object with how many seconds you want to add and add it to datetime object:

>>> from datetime import datetime, timedelta
>>> t = datetime.now() + timedelta(seconds=3000)
>>> print(t)
datetime.datetime(2018, 1, 17, 21, 47, 13, 90244)

There is same concept in C++: std::chrono::duration.

• please ALWAYS add explanations, newcomers might not have a clue what you are doing here. Jan 18, 2018 at 9:10

Thanks to @Pax Diablo, @bvmou and @Arachnid for the suggestion of using full datetimes throughout. If I have to accept datetime.time objects from an external source, then this seems to be an alternative add_secs_to_time() function:

dummy_date = datetime.date(1, 1, 1)
full_datetime = datetime.datetime.combine(dummy_date, timeval)

This verbose code can be compressed to this one-liner:

(datetime.datetime.combine(datetime.date(1, 1, 1), timeval) + datetime.timedelta(seconds=secs_to_add)).time()

but I think I'd want to wrap that up in a function for code clarity anyway.

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. When you go past midnight, it wraps around zero. Now, "What time will it be, 24 hours from now" has a lot of corner cases, including daylight savings time, leap seconds, historical timezone changes, and so on. But sometimes you really do need the simple case, and that's what this will do.

>>> import datetime
>>> import nptime
>>> nptime.nptime(11, 34, 59) + datetime.timedelta(0, 3)
nptime(11, 35, 2)

nptime inherits from datetime.time, so any of those methods should be usable, too.

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

For completeness' sake, here's the way to do it with arrow (better dates and times for Python):

sometime = arrow.now()
abitlater = sometime.shift(seconds=3)

In a real world environment it's never a good idea to work solely with time, always use datetime, even better utc, to avoid conflicts like overnight, daylight saving, different timezones between user and server etc.

So I'd recommend this approach:

import datetime as dt

_now = dt.datetime.now()  # or dt.datetime.now(dt.timezone.utc)
_in_5_sec = _now + dt.timedelta(seconds=5)

# get '14:39:57':
_in_5_sec.strftime('%H:%M:%S')

If you don't already have a timedelta object, another possibility would be to just initialize a new time object instead with the attributes of the old one and add values where needed:

new_time:time = time(
hour=curr_time.hour + n_hours,
minute=curr_time.minute + n_minutes,
seconds=curr_time.second + n_seconds
)

Admittedly this only works if you make a few assumptions about your values, since overflow is not handled here. But I just thought it was worth to keep this in mind as it can save a line or two

• What is the : notation on the LHS? Nov 1, 2022 at 15:03
• Type Hints. Not mandatory but it has advantages. I recommend you look up Arjan Codes video on the matter Nov 2, 2022 at 17:09

Try adding a datetime.datetime to a datetime.timedelta. If you only want the time portion, you can call the time() method on the resultant datetime.datetime object to get it.

Old question, but I figured I'd throw in a function that handles timezones. The key parts are passing the datetime.time object's tzinfo attribute into combine, and then using timetz() instead of time() on the resulting dummy datetime. This answer partly inspired by the other answers here.

"""Add a timedelta object to a time object using a dummy datetime.

:param t: datetime.time object.
:param td: datetime.timedelta object.

:returns: datetime.time object, representing the result of t + td.

NOTE: Using a gigantic td may result in an overflow. You've been
warned.
"""
# Create a dummy date object.
dummy_date = date(year=100, month=1, day=1)

# Combine the dummy date with the given time.
dummy_datetime = datetime.combine(date=dummy_date, time=t, tzinfo=t.tzinfo)

# Add the timedelta to the dummy datetime.
new_datetime = dummy_datetime + td

# Return the resulting time, including timezone information.
return new_datetime.timetz()

And here's a really simple test case class (using built-in unittest):

import unittest
from datetime import datetime, timezone, timedelta, time

def test_wraps(self):
t = time(hour=23, minute=59)
td = timedelta(minutes=2)
t_expected = time(hour=0, minute=1)