# How do I find the nth day of the next month in Python?

I am trying to get the date `delta` by subtracting today's date from the `nth` day of the next month.

``````delta = nth_of_next_month - todays_date
print delta.days
``````

How do you get the date object for the 1st (or 2nd, 3rd.. nth) day of the next month. I tried taking the month number from the date object and increasing it by 1. Which is obviously a dumb idea because 12 + 1 = 13. I also tried adding one month to today and tried to get to the first of the month. I am sure that there is a much more efficient way of doing this.

• I'd imagine all you need to do is increment the month property of the date object. This previous answer shows how since the month property is not writable stackoverflow.com/a/4131114/333082 – cecilphillip Jan 15 '14 at 18:45
• Why do you care about "more efficient" here? The obvious and simple implementation in sunshine's answer takes only 0.46us to do all that "expensive" work, compared to 1.64us to call `now()`. So I highly doubt it will be a bottleneck in your code. The simplest implementation—one that you understand, and can debug easily—is better than the fastest one, unless it's affecting your total runtime. – abarnert Jan 15 '14 at 19:00
• @abarnert exactly what I meant... Efficient to me. Not computing power. – Johnston Jan 15 '14 at 19:05

The `dateutil` library is useful for this:

``````from dateutil.relativedelta import relativedelta
from datetime import datetime

# Where day is the day you want in the following month
dt = datetime.now() + relativedelta(months=1, day=20)
``````

This should be straightforward unless I'm missing something in your question:

``````import datetime

now = datetime.datetime.now()
nth_day = 5
next_month = now.month + 1 if now.month < 12 else 1 # February
year = now.year if now.month < 12 else now.year+1
nth_of_next_month = datetime.datetime(year, next_month, nth_day)
print(nth_of_next_month)
``````

Result:

``````2014-02-05 00:00:00
``````

Using `dateutil` as suggested in another answer is a much better idea than this, though.

Another alternative is to use delorean library:

Delorean is a library that provides easy and convenient datetime conversions in Python.

``````>>> from delorean import Delorean
>>> d = Delorean()
>>> d.next_month()
Delorean(datetime=2014-02-15 18:51:14.325350+00:00, timezone=UTC)
>>> d.next_month().next_day(2)
Delorean(datetime=2014-02-17 18:51:14.325350+00:00, timezone=UTC)
``````
• Nice lib, designed with user in mind. – Jan Vlcinsky Dec 17 '15 at 19:09

My approach to calculating the next month without external libraries:

``````def nth_day_of_next_month(dt, n):
return dt.replace(
year=dt.year + (dt.month // 12),  # +1 for december, +0 otherwise
month=(dt.month % 12) + 1,        # december becomes january
day=n)
``````

This works for both `datetime.datetime()` and `datetime.date()` objects.

Demo:

``````>>> import datetime
>>> def nth_day_of_next_month(dt, n):
...     return dt.replace(year=dt.year + (dt.month // 12), month=(dt.month % 12) + 1, day=n)
...
>>> nth_day_of_next_month(datetime.datetime.now(), 4)
datetime.datetime(2014, 2, 4, 19, 20, 51, 177860)
>>> nth_day_of_next_month(datetime.date.today(), 18)
datetime.date(2014, 2, 18)
``````

Without using any external library, this can be achived as follows

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

def nth_day_of_next_month(n):
today = datetime.now()
next_month_dt = today + timedelta(days=32-today.day)
return next_month_dt.replace(day=n)
``````