# Best way to find the months between two dates

I have the need to be able to accurately find the months between two dates in python. I have a solution that works but its not very good (as in elegant) or fast.

``````dateRange = [datetime.strptime(dateRanges[0], "%Y-%m-%d"), datetime.strptime(dateRanges[1], "%Y-%m-%d")]
months = []

tmpTime = dateRange[0]
oneWeek = timedelta(weeks=1)
tmpTime = tmpTime.replace(day=1)
dateRange[0] = tmpTime
dateRange[1] = dateRange[1].replace(day=1)
lastMonth = tmpTime.month
months.append(tmpTime)
while tmpTime < dateRange[1]:
if lastMonth != 12:
while tmpTime.month <= lastMonth:
tmpTime += oneWeek
tmpTime = tmpTime.replace(day=1)
months.append(tmpTime)
lastMonth = tmpTime.month

else:
while tmpTime.month >= lastMonth:
tmpTime += oneWeek
tmpTime = tmpTime.replace(day=1)
months.append(tmpTime)
lastMonth = tmpTime.month
``````

So just to explain, what I'm doing here is taking the two dates and converting them from iso format into python datetime objects. Then I loop through adding a week to the start datetime object and check if the numerical value of the month is greater (unless the month is December then it checks if the date is less), If the value is greater I append it to the list of months and keep looping through until I get to my end date.

It works perfectly it just doesn't seem like a good way of doing it...

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Are you asking for the NUMBER of months between two dates, or what the actual months are? –  Charles Hooper Oct 28 '10 at 5:29
What the actual dates are... –  Joshkunz Oct 28 '10 at 5:48
in my solution: I am not increment by "a month's worth of number of seconds". I am merely incrementing the number 1 to 2, and then from 2 to 3 later on. –  太極者無極而生 Oct 28 '10 at 6:07
I just wanted you to know that even though you didn't like my answer because it "had a loop" you selected an answer that has TWO loops. List comprehensions are still loops. –  Charles Hooper Oct 31 '10 at 17:54

If adding by a week, then it will approximately do work 4.35 times the work as needed. Why not just:

``````1. get start date in array of integer, set it to i: [2008, 3, 12],
and change it to [2008, 3, 1]
2. get end date in array: [2010, 10, 26]
increment the month in i
if month is >= 13, then set it to 1, and increment the year by 1
until either the year in i is > year in end_date,
or (year in i == year in end_date and month in i > month in end_date)
``````

just pseduo code for now, haven't tested, but i think the idea along the same line will work.

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Ok, I see some problems with months like February if the incrementation is done by month.Rather than weeks. –  Joshkunz Oct 28 '10 at 5:24
I am not increment by "a month's worth of number of seconds". I am merely incrementing the number `1` to `2`, and then from `2` to `3` later on. –  太極者無極而生 Oct 28 '10 at 5:58

Start by defining some test cases, then you will see that the function is very simple and needs no loops

``````from datetime import datetime

def diff_month(d1, d2):
return (d1.year - d2.year)*12 + d1.month - d2.month

assert diff_month(datetime(2010,10,1), datetime(2010,9,1)) == 1
assert diff_month(datetime(2010,10,1), datetime(2009,10,1)) == 12
assert diff_month(datetime(2010,10,1), datetime(2009,11,1)) == 11
assert diff_month(datetime(2010,10,1), datetime(2009,8,1)) == 14
``````

You should add some testcases to your question, as there are lots of potential corner cases to cover - there is more than one way to define the number of months between two dates

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Beautiful answer! –  dotancohen Aug 24 '14 at 9:13
it gives wrong result. it results 1 month between "2015-04-30" and "2015-05-01" which is actually just 1 day. –  Rao Apr 13 at 4:42
@Rao. that's why I said "there is more than one way to define the number of months between two dates". The question still lacks a formal definition. This is also why I suggest testcases should be provided alongside the definition. –  John La Rooy Apr 13 at 5:05

Get the ending month (relative to the year and month of the start month ex: 2011 January = 13 if your start date starts on 2010 Oct) and then generate the datetimes beginning the start month and that end month like so:

``````dt1, dt2 = dateRange
start_month=dt1.month
end_months=(dt2.year-dt1.year)*12 + dt2.month+1
dates=[datetime.datetime(year=yr, month=mn, day=1) for (yr, mn) in (
((m - 1) / 12 + dt1.year, (m - 1) % 12 + 1) for m in range(start_month, end_months)
)]
``````

if both dates are on the same year, it could also be simply written as:

``````dates=[datetime.datetime(year=dt1.year, month=mn, day=1) for mn in range(dt1.month, dt2.month + 1)]
``````
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Perfect! Cut my time in half thanks a bunch :) –  Joshkunz Oct 28 '10 at 6:21

There is a simple solution based on 360 day years, where all months have 30 days. It fits most use cases where, given two dates, you need to calculate the number of full months plus the remaining days.

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

def months_between(start_date, end_date):
#Add 1 day to end date to solve different last days of month
s1, e1 = start_date , end_date  + timedelta(days=1)
#Convert to 360 days
s360 = (s1.year * 12 + s1.month) * 30 + s1.day
e360 = (e1.year * 12 + e1.month) * 30 + e1.day
#Count days between the two 360 dates and return tuple (months, days)
return divmod(e360 - s360, 30)

print "Counting full and half months"
print months_between( datetime(2012, 01, 1), datetime(2012, 03, 31)) #3m
print months_between( datetime(2012, 01, 1), datetime(2012, 03, 15)) #2m 15d
print months_between( datetime(2012, 01, 16), datetime(2012, 03, 31)) #2m 15d
print months_between( datetime(2012, 01, 16), datetime(2012, 03, 15)) #2m
print "Adding +1d and -1d to 31 day month"
print months_between( datetime(2011, 12, 01), datetime(2011, 12, 31)) #1m 0d
print months_between( datetime(2011, 12, 02), datetime(2011, 12, 31)) #-1d => 29d
print months_between( datetime(2011, 12, 01), datetime(2011, 12, 30)) #30d => 1m
print "Adding +1d and -1d to 29 day month"
print months_between( datetime(2012, 02, 01), datetime(2012, 02, 29)) #1m 0d
print months_between( datetime(2012, 02, 02), datetime(2012, 02, 29)) #-1d => 29d
print months_between( datetime(2012, 02, 01), datetime(2012, 02, 28)) #28d
print "Every month has 30 days - 26/M to 5/M+1 always counts 10 days"
print months_between( datetime(2011, 02, 26), datetime(2011, 03, 05))
print months_between( datetime(2012, 02, 26), datetime(2012, 03, 05))
print months_between( datetime(2012, 03, 26), datetime(2012, 04, 05))
``````
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Somewhat a little prettified solution by @Vin-G.

``````import datetime

def monthrange(start, finish):
months = (finish.year - start.year) * 12 + finish.month + 1
for i in xrange(start.month, months):
year  = (i - 1) / 12 + start.year
month = (i - 1) % 12 + 1
yield datetime.date(year, month, 1)
``````
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Try something like this. It presently includes the month if both dates happen to be in the same month.

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

def months_between(start,end):
months = []
cursor = start

while cursor <= end:
if cursor.month not in months:
months.append(cursor.month)
cursor += timedelta(weeks=1)

return months
``````

Output looks like:

``````>>> start = datetime.now() - timedelta(days=120)
>>> end = datetime.now()
>>> months_between(start,end)
[6, 7, 8, 9, 10]
``````
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This still takes the same looping approach though, so I don't necessarily see the benefit... –  Joshkunz Oct 28 '10 at 5:19
I don't see how that's a problem. Loops aren't your enemy. –  Charles Hooper Oct 28 '10 at 5:24
Well this has to been done every time their is an ajax query. I know that loops aren't the enemy but it seems like they are a slow solution to a problem that should be solved in a much easier way. –  Joshkunz Oct 28 '10 at 5:27
``````#This definition gives an array of months between two dates.
import datetime
def MonthsBetweenDates(BeginDate, EndDate):
firstyearmonths = [mn for mn in range(BeginDate.month, 13)]<p>
lastyearmonths = [mn for mn in range(1, EndDate.month+1)]<p>
months = [mn for mn in range(1, 13)]<p>
numberofyearsbetween = EndDate.year - BeginDate.year - 1<p>
return firstyearmonths + months * numberofyearsbetween + lastyearmonths<p>

#example
BD = datetime.datetime.strptime("2000-35", '%Y-%j')
ED = datetime.datetime.strptime("2004-200", '%Y-%j')
MonthsBetweenDates(BD, ED)
``````
-

You can easily calculate this using rrule from dateutil module:

``````from dateutil import rrule
from datetime import date

print(list(rrule.rrule(rrule.MONTHLY, dtstart=date(2013, 11, 1), until=date(2014, 2, 1))))
``````

will give you:

`````` [datetime.datetime(2013, 11, 1, 0, 0),
datetime.datetime(2013, 12, 1, 0, 0),
datetime.datetime(2014, 1, 1, 0, 0),
datetime.datetime(2014, 2, 1, 0, 0)]
``````
-

You can also use the arrow library. This is a simple example:

``````from datetime import datetime
import arrow

start = datetime(2014, 1, 17)
end = datetime(2014, 6, 20)

for d in arrow.Arrow.range('month', start, end):
print d.month, d.format('MMMM')
``````

This will print:

``````1 January
2 February
3 March
4 April
5 May
6 June
``````

Hope this helps!

-

One liner to find a list of datetimes, incremented by month, between two dates.

``````import datetime
from dateutil.rrule import rrule, MONTHLY

strt_dt = datetime.date(2001,1,1)
end_dt = datetime.date(2005,6,1)

dates = [dt for dt in rrule(MONTHLY, dtstart=strt_dt, until=end_dt)]
``````
-

Perhaps this works for you: http://bytes.com/topic/python/answers/803702-difference-between-two-dates

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I need to find the months between two dates not the number of months between two dates. –  Joshkunz Oct 28 '10 at 5:21

Assuming upperDate is always later than lowerDate and both are datetime.date objects:

``````if lowerDate.year == upperDate.year:
monthsInBetween = range( lowerDate.month + 1, upperDate.month )
elif upperDate.year > lowerDate.year:
monthsInBetween = range( lowerDate.month + 1, 12 )
for year in range( lowerDate.year + 1, upperDate.year ):
monthsInBetween.extend( range(1,13) )
monthsInBetween.extend( range( 1, upperDate.month ) )
``````

I haven't tested this thoroughly, but it looks like it should do the trick.

-

Define a "month" as 1/12 year, then do this:

``````def month_diff(d1, d2):
"""Return the number of months between d1 and d2,
such that d2 + month_diff(d1, d2) == d1
"""
diff = (12 * d1.year + d1.month) - (12 * d2.year + d2.month)
return diff
``````

You might try to define a month as "a period of either 29, 28, 30 or 31 days (depending on the year)". But you you do that, you have an additional problem to solve.

While it's usually clear that June 15th + 1 month should be July 15th, it's not usually not clear if January 30th + 1 month is in February or March. In the latter case, you may be compelled to compute the date as February 30th, then "correct" it to March 2nd. But when you do that, you'll find that March 2nd - 1 month is clearly February 2nd. Ergo, reductio ad absurdum (this operation is not well defined).

-

Try this:

``````dateRange = [datetime.strptime(dateRanges[0], "%Y-%m-%d"),
datetime.strptime(dateRanges[1], "%Y-%m-%d")]
delta_time = max(dateRange) - min(dateRange)
#Need to use min(dateRange).month to account for different length month
#Note that timedelta returns a number of days
delta_datetime = (datetime(1, min(dateRange).month, 1) + delta_time -
timedelta(days=1)) #min y/m/d are 1
months = ((delta_datetime.year - 1) * 12 + delta_datetime.month -
min(dateRange).month)
print months
``````

Shouldn't matter what order you input the dates, and it takes into account the difference in month lengths.

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Note this doesn't account for your dates being the same. Easiest way would be with if delta_time.days = 0: months = 0 else rest of routine. –  om_henners Oct 28 '10 at 6:18

Here is a method:

``````def months_between(start_dt, stop_dt):
month_list = []
total_months = 12*(stop_dt.year-start_dt.year)+(stop_dt.month-start_d.month)+1
if total_months > 0:
month_list=[ datetime.date(start_dt.year+int((start_dt+i-1)/12),
((start_dt-1+i)%12)+1,
1) for i in xrange(0,total_months) ]
return month_list
``````

This is first computing the total number of months between the two dates, inclusive. Then it creates a list using the first date as the base and performs modula arithmetic to create the date objects.

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I actually needed to do something pretty similar just now

Ended up writing a function which returns a list of tuples indicating the `start` and `end` of each month between two sets of dates so I could write some SQL queries off the back of it for monthly totals of sales etc.

I'm sure it can be improved by someone who knows what they're doing but hope it helps...

The returned value look as follows (generating for today - 365days until today as an example)

``````[   (datetime.date(2013, 5, 1), datetime.date(2013, 5, 31)),
(datetime.date(2013, 6, 1), datetime.date(2013, 6, 30)),
(datetime.date(2013, 7, 1), datetime.date(2013, 7, 31)),
(datetime.date(2013, 8, 1), datetime.date(2013, 8, 31)),
(datetime.date(2013, 9, 1), datetime.date(2013, 9, 30)),
(datetime.date(2013, 10, 1), datetime.date(2013, 10, 31)),
(datetime.date(2013, 11, 1), datetime.date(2013, 11, 30)),
(datetime.date(2013, 12, 1), datetime.date(2013, 12, 31)),
(datetime.date(2014, 1, 1), datetime.date(2014, 1, 31)),
(datetime.date(2014, 2, 1), datetime.date(2014, 2, 28)),
(datetime.date(2014, 3, 1), datetime.date(2014, 3, 31)),
(datetime.date(2014, 4, 1), datetime.date(2014, 4, 30)),
(datetime.date(2014, 5, 1), datetime.date(2014, 5, 31))]
``````

Code as follows (has some debug stuff which can be removed):

``````#! /usr/env/python
import datetime

def gen_month_ranges(start_date=None, end_date=None, debug=False):
today = datetime.date.today()
if not start_date: start_date = datetime.datetime.strptime(
"{0}/01/01".format(today.year),"%Y/%m/%d").date()  # start of this year
if not end_date: end_date = today
if debug: print("Start: {0} | End {1}".format(start_date, end_date))

# sense-check
if end_date < start_date:
print("Error. Start Date of {0} is greater than End Date of {1}?!".format(start_date, end_date))
return None

date_ranges = []  # list of tuples (month_start, month_end)

current_year = start_date.year
current_month = start_date.month

while current_year <= end_date.year:
next_month = current_month + 1
next_year = current_year
if next_month > 12:
next_month = 1
next_year = current_year + 1

month_start = datetime.datetime.strptime(
"{0}/{1}/01".format(current_year,
current_month),"%Y/%m/%d").date()  # start of month
month_end = datetime.datetime.strptime(
"{0}/{1}/01".format(next_year,
next_month),"%Y/%m/%d").date()  # start of next month
month_end  = month_end+datetime.timedelta(days=-1)  # start of next month less one day

range_tuple = (month_start, month_end)
if debug: print("Month runs from {0} --> {1}".format(
range_tuple[0], range_tuple[1]))
date_ranges.append(range_tuple)

if current_month == 12:
current_month = 1
current_year += 1
if debug: print("End of year encountered, resetting months")
else:
current_month += 1
if debug: print("Next iteration for {0}-{1}".format(
current_year, current_month))

if current_year == end_date.year and current_month > end_date.month:
if debug: print("Final month encountered. Terminating loop")
break

return date_ranges

if __name__ == '__main__':
print("Running in standalone mode. Debug set to True")
from pprint import pprint
pprint(gen_month_ranges(debug=True), indent=4)
pprint(gen_month_ranges(start_date=datetime.date.today()+datetime.timedelta(days=-365),
debug=True), indent=4)
``````
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You could use something like:

``````import datetime
days_in_month = 365.25 / 12  # represent the average of days in a month by year
month_diff = lambda end_date, start_date, precision=0: round((end_date - start_date).days / days_in_month, precision)
start_date = datetime.date(1978, 12, 15)
end_date = datetime.date(2012, 7, 9)
month_diff(end_date, start_date)  # should show 403.0 months
``````
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