I want to create a list of dates, starting with today, and going back an arbitrary number of days, say, in my example 100 days. Is there a better way to do it than this?

import datetime

a = datetime.datetime.today()
numdays = 100
dateList = []
for x in range (0, numdays):
    dateList.append(a - datetime.timedelta(days = x))
print dateList

24 Answers 24


Marginally better...

base = datetime.datetime.today()
date_list = [base - datetime.timedelta(days=x) for x in range(numdays)]
  • What if I want to get the previous 7 dates excluding the todays date? @S.Lott Commented Jan 20, 2021 at 4:01
  • 1
    @MohammadAmir date_list = [base - datetime.timedelta(days=x+1) for x in range(7)]
    – Corvax
    Commented Oct 14, 2021 at 16:07
  • 5
    "Marginally better..." Correction: A Lott better.
    – Jonah
    Commented Nov 25, 2021 at 15:58
  • In case this helps anyone. Here is something I use often to get T-1 to T-14 Business Days. from pandas.tseries.offsets import * base = pd.Timestamp.today() date_list = [base - BusinessDay(x+1) for x in range(14)] Commented Feb 16 at 16:01

Pandas is great for time series in general, and has direct support for date ranges.

For example pd.date_range():

import pandas as pd
from datetime import datetime

datelist = pd.date_range(datetime.today(), periods=100).tolist()

It also has lots of options to make life easier. For example if you only wanted weekdays, you would just swap in bdate_range.

See date range documentation

In addition it fully supports pytz timezones and can smoothly span spring/autumn DST shifts.


If you need actual python datetimes, as opposed to Pandas timestamps:

import pandas as pd
from datetime import datetime

pd.date_range(end = datetime.today(), periods = 100).to_pydatetime().tolist()



This uses the "end" parameter to match the original question, but if you want descending dates:

pd.date_range(datetime.today(), periods=100).to_pydatetime().tolist()
  • ...and if you want to convert the data range into a DataFrame (since it's a DatetimeIndex), you can just use the to_frame() method: pd.date_range(start='2018-09-09', end='2020-02-02').to_frame(name='dates')
    – Bilbottom
    Commented Jun 23, 2022 at 5:58
  • Any idea why pd.date_range is going to be deprecated if there isn't an equivalent method in Python datetime? FutureWarning: The pandas.datetime class is deprecated and will be removed from pandas in a future version.
    – Bill
    Commented Dec 20, 2022 at 17:58
  • Yeah, I was wondering why there isn''d a strictly datetime solution to this, but I can't find this same fucntion in datetime at all. Commented Feb 6, 2023 at 23:54
  • @Bill I don't get that warning for pd.date_range on pandas 1.5.3; maybe you're using pd.datetime somewhere? See stackoverflow.com/a/60856931/3427777 Commented Apr 27, 2023 at 23:40
  • @fantabolous, yeah I don't know what I was doing there. I think I was confused. Please ignore my comment.
    – Bill
    Commented Apr 28, 2023 at 4:15

Get range of dates between specified start and end date (Optimized for time & space complexity):

import datetime

start = datetime.datetime.strptime("21-06-2014", "%d-%m-%Y")
end = datetime.datetime.strptime("07-07-2014", "%d-%m-%Y")
date_generated = [start + datetime.timedelta(days=x) for x in range(0, (end-start).days)]

for date in date_generated:
    print date.strftime("%d-%m-%Y")
  • 9
    Initial suggestion is to use () instead of [] to get a date_generator. Efficient in the sense there will be no need to store the whole array of dates and generate one only when needed.
    – Sandeep
    Commented Jul 17, 2014 at 11:42
  • 3
    Note the end_date is not generated. Commented Sep 25, 2014 at 12:16
  • 10
    use (end-start+1) to get the end date.
    – Sandeep
    Commented Jul 23, 2015 at 15:57
  • 9
    Doesn't answers the OP's question, but that's what I was after :)
    – Thierry J
    Commented May 24, 2016 at 22:53
  • 13
    (end-start+1) doesn't work, you can't add a timedelta and int. You could use (end-start).days + 1 though. Commented Jan 17, 2020 at 13:59

You can write a generator function that returns date objects starting from today:

import datetime

def date_generator():
  from_date = datetime.datetime.today()
  while True:
    yield from_date
    from_date = from_date - datetime.timedelta(days=1)

This generator returns dates starting from today and going backwards one day at a time. Here is how to take the first 3 dates:

>>> import itertools
>>> dates = itertools.islice(date_generator(), 3)
>>> list(dates)
[datetime.datetime(2009, 6, 14, 19, 12, 21, 703890), datetime.datetime(2009, 6, 13, 19, 12, 21, 703890), datetime.datetime(2009, 6, 12, 19, 12, 21, 703890)]

The advantage of this approach over a loop or list comprehension is that you can go back as many times as you want.


A more compact version using a generator expression instead of a function:

date_generator = (datetime.datetime.today() - datetime.timedelta(days=i) for i in itertools.count())


>>> dates = itertools.islice(date_generator, 3)
>>> list(dates)
[datetime.datetime(2009, 6, 15, 1, 32, 37, 286765), datetime.datetime(2009, 6, 14, 1, 32, 37, 286836), datetime.datetime(2009, 6, 13, 1, 32, 37, 286859)]
  • 2
    Generators is the ideal way of doing this, if the number of days is arbitrary.
    – xssChauhan
    Commented Oct 15, 2017 at 16:19

If using an external dependency is OK, check https://pypi.org/project/python-dateutil and its rrule module: https://dateutil.readthedocs.io/en/stable/rrule.html.

from dateutil import rrule
from datetime import datetime

  • 32
    Requires labix.org/python-dateutil. Looks nice but hardly worth an external dependency just to save one line. Commented Jul 11, 2012 at 16:31
  • 2
    Can't believe anyone things the other answers are very pythonic. While rrule is a terrible name, this one is at least easy on the eyes.
    – boatcoder
    Commented Sep 23, 2015 at 11:44
  • 10
    @BeniCherniavsky-Paskin: it is very easy to introduce subtle bugs while implementing period (calendar) arithmetic. dateutil.rrule implements iCalendar RFC -- it is easier to use functions with a well-defined behavior instead of multiple implementations of almost the same functionality that are ever so slightly different. dateutil.rrule allows to limit bug fixing to a single place.
    – jfs
    Commented Sep 28, 2015 at 17:37
  • 5
    @Mark0978: rrule name is not arbitrary; it is from the corresponding rfc
    – jfs
    Commented Sep 28, 2015 at 17:37
  • 2
    @BeniCherniavsky-Paskin gist.github.com/Asday/be44c79fa5ead8461e8da8da2b93c30e there's your bug. That date doesn't exist. Commented Feb 28, 2020 at 10:43

You can also use the day ordinal to make it simpler:

def date_range(start_date, end_date):
    for ordinal in range(start_date.toordinal(), end_date.toordinal()):
        yield datetime.date.fromordinal(ordinal)

Or as suggested in the comments you can create a list like this:

date_range = [
    for ordinal in range(

From the title of this question I was expecting to find something like range(), that would let me specify two dates and create a list with all the dates in between. That way one does not need to calculate the number of days between those two dates, if one does not know it beforehand.

So with the risk of being slightly off-topic, this one-liner does the job:

import datetime
start_date = datetime.date(2011, 1, 1)
end_date   = datetime.date(2014, 1, 1)

dates_2011_2013 = [ start_date + datetime.timedelta(n) for n in range(int ((end_date - start_date).days))]

All credits to this answer!

  • 3
    That is not a one liner any more than many of the other answers to the question. Commented Apr 16, 2016 at 16:48
  • 11
    I have never pretended that this was more a one-liner than the others answers, neither that this was a better solution. I showed a piece of code that does something slightly different than what you asked for but that I would have been glad to find here given the title of the question. Commented Apr 16, 2016 at 17:43

Here's a slightly different answer building off of S.Lott's answer that gives a list of dates between two dates start and end. In the example below, from the start of 2017 to today.

start = datetime.datetime(2017,1,1)
end = datetime.datetime.today()
daterange = [start + datetime.timedelta(days=x) for x in range(0, (end-start).days)]

If there are two dates and you need the range try

from dateutil import rrule, parser
date1 = '1995-01-01'
date2 = '1995-02-28'
datesx = list(rrule.rrule(rrule.DAILY, dtstart=parser.parse(date1), until=parser.parse(date2)))

Based on answers I wrote for myself this:

import datetime;
print [(datetime.date.today() - datetime.timedelta(days=x)).strftime('%Y-%m-%d') for x in range(-5, 0)]


['2017-12-11', '2017-12-10', '2017-12-09', '2017-12-08', '2017-12-07']

The difference is that I get the 'date' object, not the 'datetime.datetime' one.


A bit of a late answer I know, but I just had the same problem and decided that Python's internal range function was a bit lacking in this respect so I've overridden it in a util module of mine.

from __builtin__ import range as _range
from datetime import datetime, timedelta

def range(*args):
    if len(args) != 3:
        return _range(*args)
    start, stop, step = args
    if start < stop:
        cmp = lambda a, b: a < b
        inc = lambda a: a + step
        cmp = lambda a, b: a > b
        inc = lambda a: a - step
    output = [start]
    while cmp(start, stop):
        start = inc(start)

    return output

print range(datetime(2011, 5, 1), datetime(2011, 10, 1), timedelta(days=30))
  • 1
    I think you want output = [] and to swap the lines in the while cmp(...) loop. Compare range(0,10,1) and _range(0,10,1).
    – Dan Piponi
    Commented Mar 14, 2012 at 20:58
  • 4
    I think this answer would be better if you named the function date_range. Commented Dec 12, 2015 at 21:50

Here is gist I created, from my own code, this might help. (I know the question is too old, but others can use it)


(same thing below)

import datetime
from time import mktime

def convert_date_to_datetime(date_object):
    date_tuple = date_object.timetuple()
    date_timestamp = mktime(date_tuple)
    return datetime.datetime.fromtimestamp(date_timestamp)

def date_range(how_many=7):
    for x in range(0, how_many):
        some_date = datetime.datetime.today() - datetime.timedelta(days=x)
        some_datetime = convert_date_to_datetime(some_date.date())
        yield some_datetime

def pick_two_dates(how_many=7):
    a = b = convert_date_to_datetime(datetime.datetime.now().date())
    for each_date in date_range(how_many):
        b = a
        a = each_date
        if a == b:
        yield b, a

A generic method that allows to create date ranges on parameterised window size(day, minute, hour, seconds):

from datetime import datetime, timedelta

def create_date_ranges(start, end, **interval):
    start_ = start
    while start_ < end:
        end_ = start_ + timedelta(**interval)
        yield (start_, min(end_, end))
        start_ = end_


def main():
    tests = [
        ('2021-11-15:00:00:00', '2021-11-17:13:00:00', {'days': 1}),
        ('2021-11-15:00:00:00', '2021-11-16:13:00:00', {'hours': 12}),
        ('2021-11-15:00:00:00', '2021-11-15:01:45:00', {'minutes': 30}),
        ('2021-11-15:00:00:00', '2021-11-15:00:01:12', {'seconds': 30})
    for t in tests:
        print("\nInterval: %s, range(%s to %s)" % (t[2], t[0], t[1]))
        start = datetime.strptime(t[0], '%Y-%m-%d:%H:%M:%S')
        end =  datetime.strptime(t[1], '%Y-%m-%d:%H:%M:%S')
        ranges = list(create_date_ranges(start, end, **t[2]))        
        x = list(map(
            lambda x: (x[0].strftime('%Y-%m-%d:%H:%M:%S'), x[1].strftime('%Y-%m-%d:%H:%M:%S')),

Test output:

Interval: {'days': 1}, range(2021-11-15:00:00:00 to 2021-11-17:13:00:00)
[('2021-11-15:00:00:00', '2021-11-16:00:00:00'), ('2021-11-16:00:00:00', '2021-11-17:00:00:00'), ('2021-11-17:00:00:00', '2021-11-17:13:00:00')]

Interval: {'hours': 12}, range(2021-11-15:00:00:00 to 2021-11-16:13:00:00)
[('2021-11-15:00:00:00', '2021-11-15:12:00:00'), ('2021-11-15:12:00:00', '2021-11-16:00:00:00'), ('2021-11-16:00:00:00', '2021-11-16:12:00:00'), ('2021-11-16:12:00:00', '2021-11-16:13:00:00')]

Interval: {'minutes': 30}, range(2021-11-15:00:00:00 to 2021-11-15:01:45:00)
[('2021-11-15:00:00:00', '2021-11-15:00:30:00'), ('2021-11-15:00:30:00', '2021-11-15:01:00:00'), ('2021-11-15:01:00:00', '2021-11-15:01:30:00'), ('2021-11-15:01:30:00', '2021-11-15:01:45:00')]

Interval: {'seconds': 30}, range(2021-11-15:00:00:00 to 2021-11-15:00:01:12)
[('2021-11-15:00:00:00', '2021-11-15:00:00:30'), ('2021-11-15:00:00:30', '2021-11-15:00:01:00'), ('2021-11-15:00:01:00', '2021-11-15:00:01:12')]

Here's a one liner for bash scripts to get a list of weekdays, this is python 3. Easily modified for whatever, the int at the end is the number of days in the past you want.

python -c "import sys,datetime; print('\n'.join([(datetime.datetime.today() - datetime.timedelta(days=x)).strftime(\"%Y/%m/%d\") for x in range(0,int(sys.argv[1])) if (datetime.datetime.today() - datetime.timedelta(days=x)).isoweekday()<6]))" 10

Here is a variant to provide a start (or rather, end) date

python -c "import sys,datetime; print('\n'.join([(datetime.datetime.strptime(sys.argv[1],\"%Y/%m/%d\") - datetime.timedelta(days=x)).strftime(\"%Y/%m/%d \") for x in range(0,int(sys.argv[2])) if (datetime.datetime.today() - datetime.timedelta(days=x)).isoweekday()<6]))" 2015/12/30 10

Here is a variant for arbitrary start and end dates. not that this isn't terribly efficient, but is good for putting in a for loop in a bash script:

python -c "import sys,datetime; print('\n'.join([(datetime.datetime.strptime(sys.argv[1],\"%Y/%m/%d\") + datetime.timedelta(days=x)).strftime(\"%Y/%m/%d\") for x in range(0,int((datetime.datetime.strptime(sys.argv[2], \"%Y/%m/%d\") - datetime.datetime.strptime(sys.argv[1], \"%Y/%m/%d\")).days)) if (datetime.datetime.strptime(sys.argv[1], \"%Y/%m/%d\") + datetime.timedelta(days=x)).isoweekday()<6]))" 2015/12/15 2015/12/30
  • Might want to update your answer post with the code in your comment. Python gets mangled in comments, and kinda needs the formatting. Commented Dec 30, 2015 at 16:50

I know this has been answered, but I'll put down my answer for historical purposes, and since I think it is straight forward.

import numpy as np
import datetime as dt
listOfDates=[date for date in np.arange(firstDate,lastDate,dt.timedelta(days=x))]

Sure it won't win anything like code-golf, but I think it is elegant.

  • The arange with the steps is quite nice, but listOfDates consists of numpy datetime64 instead of python native datetimes.
    – F.Raab
    Commented Aug 29, 2018 at 16:27
  • 2
    However you can use np.arange(…).astype(dt.datetime) to make arange return native python datetime instead of numpy datetime64.
    – F.Raab
    Commented Aug 29, 2018 at 16:35
from datetime import datetime , timedelta, timezone

start_date = '2022_01_25'
end_date = '2022_01_30'

start = datetime.strptime(start_date, "%Y_%m_%d")
end =  datetime.strptime(end_date, "%Y_%m_%d")
##pDate = str(pDate).replace('-', '_')
number_of_days = (end - start).days

print("number_of_days: ", number_of_days)

date_list = []
for day in range(number_of_days):
    a_date = (start + timedelta(days = day)).astimezone(timezone.utc)
    a_date = a_date.strftime('%Y-%m-%d')

  • 1
    This is just a very verbose version of the main answer stackoverflow.com/a/993367/122792 with semantically almost no difference, however upvoting you for effort! Please also note that numdays is given and therefore your number_of_days derived from two dates diverges from the exact requirements of the question. Commented Feb 2, 2022 at 16:20

Matplotlib related

from matplotlib.dates import drange
import datetime

base = datetime.date.today()
end  = base + datetime.timedelta(days=100)
delta = datetime.timedelta(days=1)
l = drange(base, end, delta)

Another example that counts forwards or backwards, starting from Sandeep's answer.

from datetime import date, datetime, timedelta
from typing import Sequence
def range_of_dates(start_of_range: date, end_of_range: date) -> Sequence[date]:

    if start_of_range <= end_of_range:
        return [
            start_of_range + timedelta(days=x)
            for x in range(0, (end_of_range - start_of_range).days + 1)
    return [
        start_of_range - timedelta(days=x)
        for x in range(0, (start_of_range - end_of_range).days + 1)

start_of_range = datetime.today().date()
end_of_range = start_of_range + timedelta(days=3)
date_range = range_of_dates(start_of_range, end_of_range)


[datetime.date(2019, 12, 20), datetime.date(2019, 12, 21), datetime.date(2019, 12, 22), datetime.date(2019, 12, 23)]


start_of_range = datetime.today().date()
end_of_range = start_of_range - timedelta(days=3)
date_range = range_of_dates(start_of_range, end_of_range)


[datetime.date(2019, 12, 20), datetime.date(2019, 12, 19), datetime.date(2019, 12, 18), datetime.date(2019, 12, 17)]

Note that the start date is included in the return, so if you want four total dates, use timedelta(days=3)


A monthly date range generator with datetime and dateutil. Simple and easy to understand:

import datetime as dt
from dateutil.relativedelta import relativedelta

def month_range(start_date, n_months):
        for m in range(n_months):
            yield start_date + relativedelta(months=+m)

I wrote/maintain a package on pypi called dateroll specifically for this purpose.

It uses what we call "date schedule strings".

This can be accomplished in dateroll via the following:

pip install dateroll

>>> from dateroll import ddh #  date duration helper
>>> ddh("t-100d,t,1d").list
[Date(2024,1,6), Date(2024,1,7), Date(2024,1,8),...]

The function ddh takes a special string with 3 parts: a starting date, a stopping date, and an incremental date.

The dateroll.Date class inherits from datetime.Date so you can use them normally, or they have a property .date and .datetime to cast into python standard datetime.date and datetime.datetime

More complex examples in the docs:


  • This is a reasonable answer, and you've disclosed your association with the dateroll library... but take care not to run afoul of our anti-spam policy. Even if you disclose your association, make sure to follow this guideline: "Post good, relevant answers, and if some (but not all) happen to be about your product or website, that’s okay." You've answered other questions, but your three most recent answers all promote your library. This isn't the right way to promote it.
    – Chris
    Commented Apr 15 at 21:35
import datetime    
def date_generator():
    cur = base = datetime.date.today()
    end  = base + datetime.timedelta(days=100)
    delta = datetime.timedelta(days=1)
        base = base+delta
        print base

  • 1
    He wanted to go back, not forward.. So the end should be base - datetime.timedelta. Moreover... Why is this solution better than the original one?
    – frarugi87
    Commented Jul 16, 2015 at 11:31
from datetime import datetime, timedelta
from dateutil import parser
def getDateRange(begin, end):
    """  """
    beginDate = parser.parse(begin)
    endDate =  parser.parse(end)
    delta = endDate-beginDate
    numdays = delta.days + 1
    dayList = [datetime.strftime(beginDate + timedelta(days=x), '%Y%m%d') for x in range(0, numdays)]
    return dayList

From above answers i created this example for date generator

import datetime
date = datetime.datetime.now()
time = date.time()
def date_generator(date, delta):
  counter =0
  date = date - datetime.timedelta(days=delta)
  while counter <= delta:
    yield date
    date = date + datetime.timedelta(days=1)
    counter +=1

for date in date_generator(date, 30):
   if date.date() != datetime.datetime.now().date():
     start_date = datetime.datetime.combine(date, datetime.time())
     end_date = datetime.datetime.combine(date, datetime.time.max)
     start_date = datetime.datetime.combine(date, datetime.time())
     end_date = datetime.datetime.combine(date, time)

I thought I'd throw in my two cents with a simple (and not complete) implementation of a date range:

from datetime import date, timedelta, datetime

class DateRange:
    def __init__(self, start, end, step=timedelta(1)):
        self.start = start
        self.end = end
        self.step = step

    def __iter__(self):
        start = self.start
        step = self.step
        end = self.end

        n = int((end - start) / step)
        d = start

        for _ in range(n):
            yield d
            d += step

    def __contains__(self, value):
        return (
            (self.start <= value < self.end) and 
            ((value - self.start) % self.step == timedelta(0))

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