# Add one year in current date

I have fetched a date from database with the following variable

``````{{ i.operation_date }}
``````

with which I got a value like

``````April 1, 2013
``````

I need to add one year to the above, so that I can get

``````April 1, 2014
``````

Please suggest, how can I do this?

• If you want to do this in the templates only, then see this stackoverflow.com/questions/10715253/…. You can now write a template tag that can add one year to the current value. Commented Apr 1, 2013 at 11:49

AGSM's answer shows a convenient way of solving this problem using the `python-dateutil` package. But what if you don't want to install that package? You could solve the problem in vanilla Python like this:

``````from datetime import date

"""Return a date that's `years` years after the date (or datetime)
object `d`. Return the same calendar date (month and day) in the
destination year, if it exists, otherwise use the following day
(thus changing February 29 to March 1).

"""
try:
return d.replace(year = d.year + years)
except ValueError:
return d + (date(d.year + years, 1, 1) - date(d.year, 1, 1))
``````

If you want the other possibility (changing February 29 to February 28) then the last line should be changed to:

``````        return d + (date(d.year + years, 3, 1) - date(d.year, 3, 1))
``````
• Correct, I hope they will add. Commented May 12, 2014 at 8:16
• the answers are different: `relativedelta()` keeps the last of day of the month i.e., `date(2016, 2, 29) + relativedelta(years=1) == date(2017, 2, 28)`. Your solution yields (as documented) the first day of the next month: `add_years(date(2016,2,29), 1) == date(2017, 3, 1)`
– jfs
Commented Aug 22, 2015 at 15:05
• How about changing the last line to: `return date(d.year + years, 3, 1)`. Much easier to read that way. Commented Aug 14, 2019 at 18:55
• How to use this?
– user14009914
Commented Aug 11, 2020 at 11:53

You can use Python-dateutil's `relativedelta` to increment a `datetime` object while remaining sensitive to things like leap years and month lengths. Python-dateutil comes packaged with matplotlib if you already have that. You can do the following:

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

new_date = old_date + relativedelta(years=1)
``````

(This answer was given by @Max to a similar question).

But if your date is a string (i.e. not already a `datetime` object) you can convert it using datetime:

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

your_date_string = "April 1, 2012"
format_string = "%B %d, %Y"

datetime_object = datetime.strptime(your_date_string, format_string).date()
new_date = datetime_object + relativedelta(years=1)
new_date_string = datetime.strftime(new_date, format_string).replace(' 0', ' ')
``````

`new_date_string` will contain "April 1, 2013".

NB: Unfortunately, `datetime` only outputs day values as "decimal numbers" - i.e. with leading zeros if they're single digit numbers. The `.replace()` at the end is a workaround to deal with this issue copied from @Alex Martelli (see this question for his and other approaches to this problem).

• The only issue I know about when adding whole years to a date is to do with leap years and Feb 29. Saying "things" in the plural and mentioning "month lengths" in the plural as well as if it's something additional to leap years is misleading. I believe as long as you account for Feb 29 in leap years the job is done. There is a question about what you mean by a year: either a fixed length of time such as 365.25 days for instance, or if you just mean "the same date on the subsequent year", but that's a different question, not a different problem in the solution space. Commented Mar 15 at 10:18

It seems from your question that you would like to simply increment the year of your given date rather than worry about leap year implications. You can use the date class to do this by accessing its member year.

``````from datetime import date
startDate = date(2012, 12, 21)

# reconstruct date fully
endDate = date(startDate.year + 1, startDate.month, startDate.day)
# replace year only
endDate = startDate.replace(startDate.year + 1)
``````

If you're having problems creating one given your format, let us know.

• @AntonyHatchkins: can you explain why the code in this answer is poor? It looks right to me. Commented Apr 1, 2013 at 12:21
• `z = datetime(2012,02,29); z.replace(z.year+1)` -> `ValueError: day is out of range for month` Commented Apr 1, 2013 at 12:24
• while `z + relativedelta(years=1)` -> `datetime.datetime(2013, 2, 28, 0, 0)` Commented Apr 1, 2013 at 12:26

You can replace the year in a date and get the expected result

``````import datetime
date_now = datetime.date.today()

date_1 = date_now.strftime('%Y-%m-%d')

print(date_1)
print(date_2)

# 2021-08-03
# 2022-08-03
``````
• There's already a lot of good answers, not sure if this one really adds anything to the question. Commented Aug 4, 2021 at 5:51
• Does this work on a leap day? Commented Jun 23 at 14:17

Another way would be to use pandas "DateOffset" class

Using ASGM's code(above in the answers):

``````from datetime import datetime
import pandas as pd

your_date_string = "April 1, 2012"
format_string = "%B %d, %Y"

datetime_object = datetime.strptime(your_date_string, format_string).date()
new_date = datetime_object + pd.DateOffset(years=1)

new_date.date()
``````

It will return the datetime object with the added year.

Something like this:-

``````datetime.date(2013, 4, 1)
``````

Here's one more answer that I've found to be pretty concise and doesn't use external packages:

``````import datetime as dt
import calendar

# Today, in `dt.date` type
day = dt.datetime.now().date()

one_year_delta = dt.timedelta(days=366 if ((day.month >= 3 and calendar.isleap(day.year+1)) or
(day.month < 3 and calendar.isleap(day.year))) else 365)

# Add one year to the current date
print(day + one_year_delta)
``````

This is what I do when I need to add months or years and don't want to import more libraries. Just create a datetime.date() object, call add_month(date) to add a month and add_year(date) to add a year.

``````import datetime
__author__ = 'Daniel Margarido'

# Check if the int given year is a leap year
# return true if leap year or false otherwise
def is_leap_year(year):
if (year % 4) == 0:
if (year % 100) == 0:
if (year % 400) == 0:
return True
else:
return False
else:
return True
else:
return False

THIRTY_DAYS_MONTHS = [4, 6, 9, 11]
THIRTYONE_DAYS_MONTHS = [1, 3, 5, 7, 8, 10, 12]

# Inputs -> month, year Booth integers
# Return the number of days of the given month
def get_month_days(month, year):
if month in THIRTY_DAYS_MONTHS:   # April, June, September, November
return 30
elif month in THIRTYONE_DAYS_MONTHS:   # January, March, May, July, August, October, December
return 31
else:   # February
if is_leap_year(year):
return 29
else:
return 28

# Checks the month of the given date
# Selects the number of days it needs to add one month
# return the date with one month added
current_month_days = get_month_days(date.month, date.year)
next_month_days = get_month_days(date.month + 1, date.year)

delta = datetime.timedelta(days=current_month_days)
if date.day > next_month_days:
delta = delta - datetime.timedelta(days=(date.day - next_month_days) - 1)

return date + delta

if is_leap_year(date.year):
delta = datetime.timedelta(days=366)
else:
delta = datetime.timedelta(days=365)

return date + delta

# Validates if the expected_value is equal to the given value
def test_equal(expected_value, value):
if expected_value == value:
print "Test Passed"
return True

print "Test Failed : " + str(expected_value) + " is not equal to " str(value)
return False

# Test leap year
print "---------- Test leap year ----------"
test_equal(True, is_leap_year(2012))
test_equal(True, is_leap_year(2000))
test_equal(False, is_leap_year(1900))
test_equal(False, is_leap_year(2002))
test_equal(False, is_leap_year(2100))
test_equal(True, is_leap_year(2400))
test_equal(True, is_leap_year(2016))

print "---------- Test add month ----------"
test_equal(datetime.date(2016, 2, 1), add_month(datetime.date(2016, 1, 1)))
test_equal(datetime.date(2016, 6, 16), add_month(datetime.date(2016, 5, 16)))
test_equal(datetime.date(2016, 3, 15), add_month(datetime.date(2016, 2, 15)))
test_equal(datetime.date(2017, 1, 12), add_month(datetime.date(2016, 12, 12)))
test_equal(datetime.date(2016, 3, 1), add_month(datetime.date(2016, 1, 31)))
test_equal(datetime.date(2015, 3, 1), add_month(datetime.date(2015, 1, 31)))
test_equal(datetime.date(2016, 3, 1), add_month(datetime.date(2016, 1, 30)))
test_equal(datetime.date(2016, 4, 30), add_month(datetime.date(2016, 3, 30)))
test_equal(datetime.date(2016, 5, 1), add_month(datetime.date(2016, 3, 31)))

print "---------- Test add year ----------"
test_equal(datetime.date(2016, 2, 2), add_year(datetime.date(2015, 2, 2)))
test_equal(datetime.date(2001, 2, 2), add_year(datetime.date(2000, 2, 2)))
test_equal(datetime.date(2100, 2, 2), add_year(datetime.date(2099, 2, 2)))
test_equal(datetime.date(2101, 2, 2), add_year(datetime.date(2100, 2, 2)))
test_equal(datetime.date(2401, 2, 2), add_year(datetime.date(2400, 2, 2)))
``````
• `add_year` does not work well if it's a lap year and your date is on March or afterwards. In other words, this test fails: `test_equal(datetime.date(2021, 4, 2), add_year(datetime.date(2020, 4, 2)))` Commented Aug 7, 2020 at 15:37
• Also: the year before a lap year will fail too: this test also fails: `test_equal(datetime.date(2020, 4, 2), add_year(datetime.date(2019, 4, 2)))` Commented Aug 7, 2020 at 15:39

The simplest way would be to use `dateutil.relativedelta` as mentioned in another answer. However, if you don't want to add an extra dependency on `python-dateutil`, you can implement a similar logic using only standard library modules:

``````from calendar import isleap
from datetime import date

year = d.year + years
# if leap day and the new year is not leap, replace year and day
# otherwise, only replace year
if d.month == 2 and d.day == 29 and not isleap(year):
return d.replace(year=year, day=28)
return d.replace(year=year)

print(add_years(date(2023, 10, 26), 1))  # 2024-10-26
print(add_years(date(2000, 2, 29), 4))   # 2004-02-29
print(add_years(date(2000, 2, 29), 1))   # 2001-02-28
``````

Look at this:

``````#!/usr/bin/python

import datetime

result = date + datetime.timedelta(366 * years)
if years > 0:
while result.year - date.year > years or date.month < result.month or date.day < result.day:
result += datetime.timedelta(-1)
elif years < 0:
while result.year - date.year < years or date.month > result.month or date.day > result.day:
result += datetime.timedelta(1)
print "input: %s output: %s" % (date, result)
return result
``````

Example usage:

``````addYears(datetime.date(2012,1,1), -1)
``````

And output of this example:

``````input: 2012-01-01 output: 2011-01-01
input: 2012-01-01 output: 2012-01-01
input: 2012-01-01 output: 2013-01-01
input: 2012-01-01 output: 2002-01-01
input: 2012-01-01 output: 2012-01-01
input: 2012-01-01 output: 2022-01-01
``````

convert it into python datetime object if it isn't already. then add deltatime

``````one_years_later = Your_date + datetime.timedelta(days=(years*days_per_year))
``````

you can have condition to check if the year is leap or no and adjust days accordingly

you can add as many years as you want

• −1 because of leap years: `date(2012, 1, 1) + timedelta(days=365)``date(2012, 12, 31)` Commented Apr 1, 2013 at 11:24

Try this:

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

first=input()

second=int(input())

delta = timedelta(days=second*365)

format = "%b %d %Y"

datetime_str = datetime.strptime(first, format)

print(datetime_str+delta)
``````
• Do not post an answer with merely codes. While your solution can be useful, you should also explain why the code will fix the problem that was described in the question.
– 4b0
Commented Dec 17, 2022 at 6:14
• Not every year has 365 days Commented Jun 23 at 14:18