# Iterating through a range of dates in Python

I have the following code to do this, but how can I do it better? Right now I think it's better than nested loops, but it starts to get Perl-one-linerish when you have a generator in a list comprehension.

``````day_count = (end_date - start_date).days + 1
for single_date in [d for d in (start_date + timedelta(n) for n in range(day_count)) if d <= end_date]:
print strftime("%Y-%m-%d", single_date.timetuple())
``````

## Notes

• I'm not actually using this to print. That's just for demo purposes.
• The `start_date` and `end_date` variables are `datetime.date` objects because I don't need the timestamps. (They're going to be used to generate a report).

## Sample Output

For a start date of `2009-05-30` and an end date of `2009-06-09`:

``````2009-05-30
2009-05-31
2009-06-01
2009-06-02
2009-06-03
2009-06-04
2009-06-05
2009-06-06
2009-06-07
2009-06-08
2009-06-09
``````

Why are there two nested iterations? For me it produces the same list of data with only one iteration:

``````for single_date in (start_date + timedelta(n) for n in range(day_count)):
print ...
``````

And no list gets stored, only one generator is iterated over. Also the "if" in the generator seems to be unnecessary.

After all, a linear sequence should only require one iterator, not two.

## Update after discussion with John Machin:

Maybe the most elegant solution is using a generator function to completely hide/abstract the iteration over the range of dates:

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

def daterange(start_date, end_date):
for n in range(int((end_date - start_date).days)):
yield start_date + timedelta(n)

start_date = date(2013, 1, 1)
end_date = date(2015, 6, 2)
for single_date in daterange(start_date, end_date):
print(single_date.strftime("%Y-%m-%d"))
``````

NB: For consistency with the built-in `range()` function this iteration stops before reaching the `end_date`. So for inclusive iteration use the next day, as you would with `range()`.

• @John Machin: Okay. I do however prever an iteration over while loops with explicit incrementation of some counter or value. The interation pattern is more pythonic (at least in my personal view) and also more general, as it allows to express an iteration while hiding the details of how that iteration is done.
– Ber
Jun 30, 2009 at 9:57
• @Ber: I don't like it at all; it's DOUBLY bad. You ALREADY had an iteration! By wrapping the complained-about constructs in a generator, you have added even more execution overhead plus diverted the user's attention to somewhere else to read your 3-liner's code and/or docs. -2 Jun 30, 2009 at 10:36
• @John Machin: I disagree. The point is not about reducing the number of lines to the absolute minimum. After all, we're not talking Perl here. Also, my code does only one iteration (that's how the generator works, but I guess you know that). *** My point is about abstracting concepts for re-use and self explanatory code. I maintain that this is far more worthwhile than have the shortest code possible.
– Ber
Jun 30, 2009 at 10:58
• If you're going for terseness you can use a generator expression: `(start_date + datetime.timedelta(n) for n in range((end_date - start_date).days))` Apr 3, 2012 at 19:35
• `for n in range(int ((end_date - start_date).days+1)):` For the end_date to be included Jan 30, 2018 at 14:42

This might be more clear:

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

start_date = date(2019, 1, 1)
end_date = date(2020, 1, 1)
delta = timedelta(days=1)
while start_date <= end_date:
print(start_date.strftime("%Y-%m-%d"))
start_date += delta
``````
• Very clear and short, but doesn't work well if you want to use continue Jun 2, 2017 at 2:51

Use the `dateutil` library:

``````from datetime import date
from dateutil.rrule import rrule, DAILY

a = date(2009, 5, 30)
b = date(2009, 6, 9)

for dt in rrule(DAILY, dtstart=a, until=b):
print dt.strftime("%Y-%m-%d")
``````

This python library has many more advanced features, some very useful, like `relative delta`s—and is implemented as a single file (module) that's easily included into a project.

• Note that the final date in the for loop here is inclusive of `until` whereas the final date of the `daterange` method in Ber's answer is exclusive of `end_date`. May 23, 2015 at 16:33
– qwr
Dec 27, 2019 at 0:33

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

``````import pandas as pd
daterange = pd.date_range(start_date, end_date)
``````

You can then loop over the daterange to print the date:

``````for single_date in daterange:
print (single_date.strftime("%Y-%m-%d"))
``````

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 http://pandas.pydata.org/pandas-docs/stable/timeseries.html#generating-ranges-of-timestamps

The power of Pandas is really its dataframes, which support vectorized operations (much like numpy) that make operations across large quantities of data very fast and easy.

EDIT: You could also completely skip the for loop and just print it directly, which is easier and more efficient:

``````print(daterange)
``````
• "much like numpy" - Pandas is built on numpy :P Nov 16, 2015 at 19:04
• You can also use floor, round,ceil to start on exact dates: pd.date_range(start=start_date.floor('d'),end=end_date.floor('d'), freq = 'd')
– ntg
Aug 30, 2022 at 18:53

This is the most human-readable solution I can think of.

``````import datetime

def daterange(start, end, step=datetime.timedelta(1)):
curr = start
while curr < end:
yield curr
curr += step
``````
``````import datetime

def daterange(start, stop, step=datetime.timedelta(days=1), inclusive=False):
# inclusive=False to behave like range by default
if step.days > 0:
while start < stop:
yield start
start = start + step
# not +=! don't modify object passed in if it's mutable
# since this function is not restricted to
# only types from datetime module
elif step.days < 0:
while start > stop:
yield start
start = start + step
if inclusive and start == stop:
yield start

# ...

for date in daterange(start_date, end_date, inclusive=True):
print strftime("%Y-%m-%d", date.timetuple())
``````

This function does more than you strictly require, by supporting negative step, etc. As long as you factor out your range logic, then you don't need the separate `day_count` and most importantly the code becomes easier to read as you call the function from multiple places.

• Thanks, renamed to more closely match range's parameters, forgot to change in the body.
– Roger Pate
Jun 29, 2009 at 20:56
• +1 ... but as you are allowing the step to be a timedelta, you should either (a) call it dateTIMErange() and make steps of e.g. timedelta(hours=12) and timedelta(hours=36) work properly or (b) trap steps that aren't an integral number of days or (c) save the caller the hassle and express the step as a number of days instead of a timedelta. Jun 30, 2009 at 11:57
• Any timedelta should work already, but I did add datetime_range and date_range to my personal scrap collection after writing this, because of (a). Not sure another function is worthwhile for (c), the most common case of days=1 is already taken care of, and having to pass an explicit timedelta avoids confusion. Maybe uploading it somewhere is best: bitbucket.org/kniht/scraps/src/tip/python/gen_range.py
– Roger Pate
Jun 30, 2009 at 20:49
• to make this work on increments other than days you should check against step.total_seconds(), and not step.days May 11, 2016 at 5:37

Why not try:

``````import datetime as dt

start_date = dt.datetime(2012, 12,1)
end_date = dt.datetime(2012, 12,5)

total_days = (end_date - start_date).days + 1 #inclusive 5 days

for day_number in range(total_days):
current_date = (start_date + dt.timedelta(days = day_number)).date()
print current_date
``````

Numpy's `arange` function can be applied to dates:

``````import numpy as np
from datetime import datetime, timedelta
d0 = datetime(2009, 1,1)
d1 = datetime(2010, 1,1)
dt = timedelta(days = 1)
dates = np.arange(d0, d1, dt).astype(datetime)
``````

The use of `astype` is to convert from `numpy.datetime64` to an array of `datetime.datetime` objects.

• Super lean construction ! The last line works for me with `dates = np.arange(d0, d1, dt).astype(datetime.datetime)` Aug 9, 2017 at 7:11
• +1 for posting a generic one-liner solution which allows any timedelta, instead of a fixed rounded step such as hourly/minutely/… . Aug 29, 2018 at 16:39

For completeness, Pandas also has a `period_range` function for timestamps that are out of bounds:

``````import pandas as pd

pd.period_range(start='1/1/1626', end='1/08/1627', freq='D')
``````

Show the last n days from today:

``````import datetime
for i in range(0, 100):
print((datetime.date.today() + datetime.timedelta(i)).isoformat())
``````

Output:

``````2016-06-29
2016-06-30
2016-07-01
2016-07-02
2016-07-03
2016-07-04
``````
• Please add round brackets, like `print((datetime.date.today() + datetime.timedelta(i)).isoformat())` Jan 21, 2018 at 15:13
• @TitanFighter please feel free to do edits, I'll accept them. Jan 21, 2018 at 18:11
• I tried. Editing requires minimum 6 chars, but in this case it is necessary to add just 2 chars, "(" and ")" Jan 21, 2018 at 18:21
• `print((datetime.date.today() + datetime.timedelta(i)))` without the .isoformat() gives exactly the same output. I need my script to print YYMMDD. Anyone know how to do that? Mar 12, 2019 at 21:19
• Just do this in the for loop instead of the print statement `d = datetime.date.today() + datetime.timedelta(i); d.strftime("%Y%m%d")` Mar 14, 2019 at 1:03
``````import datetime

def daterange(start, stop, step_days=1):
current = start
step = datetime.timedelta(step_days)
if step_days > 0:
while current < stop:
yield current
current += step
elif step_days < 0:
while current > stop:
yield current
current += step
else:
raise ValueError("daterange() step_days argument must not be zero")

if __name__ == "__main__":
from pprint import pprint as pp
lo = datetime.date(2008, 12, 27)
hi = datetime.date(2009, 1, 5)
pp(list(daterange(lo, hi)))
pp(list(daterange(hi, lo, -1)))
pp(list(daterange(lo, hi, 7)))
pp(list(daterange(hi, lo, -7)))
assert not list(daterange(lo, hi, -1))
assert not list(daterange(hi, lo))
assert not list(daterange(lo, hi, -7))
assert not list(daterange(hi, lo, 7))
``````

You can generate a series of date between two dates using the pandas library simply and trustfully

``````import pandas as pd

print pd.date_range(start='1/1/2010', end='1/08/2018', freq='M')
``````

You can change the frequency of generating dates by setting freq as D, M, Q, Y (daily, monthly, quarterly, yearly )

``````for i in range(16):
print datetime.date.today() + datetime.timedelta(days=i)
``````

I have a similar problem, but I need to iterate monthly instead of daily.

This is my solution

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

def days_in_month(dt):
return calendar.monthrange(dt.year, dt.month)[1]

def monthly_range(dt_start, dt_end):
forward = dt_end >= dt_start
finish = False
dt = dt_start

while not finish:
yield dt.date()
if forward:
days = days_in_month(dt)
dt = dt + timedelta(days=days)
finish = dt > dt_end
else:
_tmp_dt = dt.replace(day=1) - timedelta(days=1)
dt = (_tmp_dt.replace(day=dt.day))
finish = dt < dt_end
``````

Example #1

``````date_start = datetime(2016, 6, 1)
date_end = datetime(2017, 1, 1)

for p in monthly_range(date_start, date_end):
print(p)
``````

Output

``````2016-06-01
2016-07-01
2016-08-01
2016-09-01
2016-10-01
2016-11-01
2016-12-01
2017-01-01
``````

Example #2

``````date_start = datetime(2017, 1, 1)
date_end = datetime(2016, 6, 1)

for p in monthly_range(date_start, date_end):
print(p)
``````

Output

``````2017-01-01
2016-12-01
2016-11-01
2016-10-01
2016-09-01
2016-08-01
2016-07-01
2016-06-01
``````
``````import datetime
from dateutil.rrule import DAILY,rrule

date=datetime.datetime(2019,1,10)

date1=datetime.datetime(2019,2,2)

for i in rrule(DAILY , dtstart=date,until=date1):
print(i.strftime('%Y%b%d'),sep='\n')
``````

OUTPUT:

``````2019Jan10
2019Jan11
2019Jan12
2019Jan13
2019Jan14
2019Jan15
2019Jan16
2019Jan17
2019Jan18
2019Jan19
2019Jan20
2019Jan21
2019Jan22
2019Jan23
2019Jan24
2019Jan25
2019Jan26
2019Jan27
2019Jan28
2019Jan29
2019Jan30
2019Jan31
2019Feb01
2019Feb02
``````
• Welcome to Stack Overflow! While this code may solve the question, including an explanation of how and why this solves the problem, especially on questions with too many good answers, would really help to improve the quality of your post, and probably result in more upvotes. Remember that you are answering the question for readers in the future, not just the person asking now. Please edit your answer to add explanations and give an indication of what limitations and assumptions apply. From Review Jun 2, 2020 at 16:31

Using pendulum.period:

``````import pendulum

start = pendulum.from_format('2020-05-01', 'YYYY-MM-DD', formatter='alternative')
end = pendulum.from_format('2020-05-02', 'YYYY-MM-DD', formatter='alternative')

period = pendulum.period(start, end)

for dt in period:
print(dt.to_date_string())
``````

For those who are interested in Pythonic functional way:

``````from datetime import date, timedelta
from itertools import count, takewhile

for d in takewhile(lambda x: x<=date(2009,6,9), map(lambda x:date(2009,5,30)+timedelta(days=x), count())):
print(d)
``````
``````> pip install DateTimeRange

from datetimerange import DateTimeRange

def dateRange(start, end, step):
rangeList = []
time_range = DateTimeRange(start, end)
for value in time_range.range(datetime.timedelta(days=step)):
rangeList.append(value.strftime('%m/%d/%Y'))
return rangeList

dateRange("2018-09-07", "2018-12-25", 7)

Out[92]:
['09/07/2018',
'09/14/2018',
'09/21/2018',
'09/28/2018',
'10/05/2018',
'10/12/2018',
'10/19/2018',
'10/26/2018',
'11/02/2018',
'11/09/2018',
'11/16/2018',
'11/23/2018',
'11/30/2018',
'12/07/2018',
'12/14/2018',
'12/21/2018']
``````

You can use `Arrow`:

This is example from the docs, iterating over hours:

``````from arrow import Arrow

>>> start = datetime(2013, 5, 5, 12, 30)
>>> end = datetime(2013, 5, 5, 17, 15)
>>> for r in Arrow.range('hour', start, end):
...     print repr(r)
...
<Arrow [2013-05-05T12:30:00+00:00]>
<Arrow [2013-05-05T13:30:00+00:00]>
<Arrow [2013-05-05T14:30:00+00:00]>
<Arrow [2013-05-05T15:30:00+00:00]>
<Arrow [2013-05-05T16:30:00+00:00]>
``````

To iterate over days, you can use like this:

``````>>> start = Arrow(2013, 5, 5)
>>> end = Arrow(2013, 5, 5)
>>> for r in Arrow.range('day', start, end):
...     print repr(r)
``````

(Didn't check if you can pass `datetime.date` objects, but anyways `Arrow` objects are easier in general)

If you are going to use dynamic `timedelta` then you can use:

1. With while loop

``````def datetime_range(start: datetime, end: datetime, delta: timedelta) -> Generator[datetime, None, None]:
while start <= end:
yield start
start += delta
``````

2. With for loop

``````from datetime import datetime, timedelta
from typing import Generator

def datetime_range(start: datetime, end: datetime, delta: timedelta) -> Generator[datetime, None, None]:
delta_units = int((end - start) / delta)

for _ in range(delta_units + 1):
yield start
start += delta
``````

3. If you are using async/await

``````async def datetime_range(start: datetime, end: datetime, delta: timedelta) -> AsyncGenerator[datetime, None]:
delta_units = int((end - start) / delta)

for _ in range(delta_units + 1):
yield start
start += delta
``````

4. List comprehension

``````def datetime_range(start: datetime, end: datetime, delta: timedelta) -> List[datetime]:
delta_units = int((end - start) / delta)
return [start + (delta * index) for index in range(delta_units + 1)]
``````

Then 1 and 2 solutions simply can be used like this

``````start = datetime(2020, 10, 10, 10, 00)
end = datetime(2022, 10, 10, 18, 00)
delta = timedelta(minutes=30)

result = [time_part for time_part in datetime_range(start, end, delta)]
# or
for time_part in datetime_range(start, end, delta):
print(time_part)
``````

3-third solution can be used like this in async context. Because it retruns an async generator object, which can be used only in async context

``````start = datetime(2020, 10, 10, 10, 00)
end = datetime(2022, 10, 10, 18, 00)
delta = timedelta(minutes=30)

result = [time_part async for time_part in datetime_range(start, end, delta)]

async for time_part in datetime_range(start, end, delta):
print(time_part)
``````

The benefit of the solutions about is that all of them are using dynamic `timedelta`. This can be very usefull in cases when you do not know which time delta you will have.

What about the following for doing a range incremented by days:

``````for d in map( lambda x: startDate+datetime.timedelta(days=x), xrange( (stopDate-startDate).days ) ):
# Do stuff here
``````
• startDate and stopDate are datetime.date objects

For a generic version:

``````for d in map( lambda x: startTime+x*stepTime, xrange( (stopTime-startTime).total_seconds() / stepTime.total_seconds() ) ):
# Do stuff here
``````
• startTime and stopTime are datetime.date or datetime.datetime object (both should be the same type)
• stepTime is a timedelta object

Note that .total_seconds() is only supported after python 2.7 If you are stuck with an earlier version you can write your own function:

``````def total_seconds( td ):
return float(td.microseconds + (td.seconds + td.days * 24 * 3600) * 10**6) / 10**6
``````

This function has some extra features:

• can pass a string matching the DATE_FORMAT for start or end and it is converted to a date object
• can pass a date object for start or end
• error checking in case the end is older than the start

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

DATE_FORMAT = '%Y/%m/%d'

def daterange(start, end):
def convert(date):
try:
date = datetime.datetime.strptime(date, DATE_FORMAT)
return date.date()
except TypeError:
return date

def get_date(n):
return datetime.datetime.strftime(convert(start) + timedelta(days=n), DATE_FORMAT)

days = (convert(end) - convert(start)).days
if days <= 0:
raise ValueError('The start date must be before the end date.')
for n in range(0, days):
yield get_date(n)

start = '2014/12/1'
end = '2014/12/31'
print list(daterange(start, end))

start_ = datetime.date.today()
end = '2015/12/1'
print list(daterange(start, end))
``````

Here's code for a general date range function, similar to Ber's answer, but more flexible:

``````def count_timedelta(delta, step, seconds_in_interval):
"""Helper function for iterate.  Finds the number of intervals in the timedelta."""
return int(delta.total_seconds() / (seconds_in_interval * step))

def range_dt(start, end, step=1, interval='day'):
"""Iterate over datetimes or dates, similar to builtin range."""
intervals = functools.partial(count_timedelta, (end - start), step)

if interval == 'week':
for i in range(intervals(3600 * 24 * 7)):
yield start + datetime.timedelta(weeks=i) * step

elif interval == 'day':
for i in range(intervals(3600 * 24)):
yield start + datetime.timedelta(days=i) * step

elif interval == 'hour':
for i in range(intervals(3600)):
yield start + datetime.timedelta(hours=i) * step

elif interval == 'minute':
for i in range(intervals(60)):
yield start + datetime.timedelta(minutes=i) * step

elif interval == 'second':
for i in range(intervals(1)):
yield start + datetime.timedelta(seconds=i) * step

elif interval == 'millisecond':
for i in range(intervals(1 / 1000)):
yield start + datetime.timedelta(milliseconds=i) * step

elif interval == 'microsecond':
for i in range(intervals(1e-6)):
yield start + datetime.timedelta(microseconds=i) * step

else:
raise AttributeError("Interval must be 'week', 'day', 'hour' 'second', \
'microsecond' or 'millisecond'.")
``````
``````from datetime import date,timedelta
delta = timedelta(days=1)
start = date(2020,1,1)
end=date(2020,9,1)
loop_date = start
while loop_date<=end:
print(loop_date)
loop_date+=delta
``````

in polars it can be done as well, if `eager` is set to `True`

``````start = datetime.date(year=2009, month=5, day=30)
end = datetime.date(year=2009, month=6, day=9)
dates = pl.date_range(start, end, eager=True)

for date in dates:
print(date)
``````

Here is an alternative solution based on leftjoin solution.

For pendulum below 3.0.0

``````def test_iteration():
start = pendulum.from_format('2018-01', 'YYYY-MM')
end = pendulum.from_format('2020-01', 'YYYY-MM')

interval = pendulum.period(start, end)

for dt in interval.range('months'):
print(dt.format('YYYY-MM'))
``````

And for pendulum 3.0.0 and above (they have renamed period to interval) https://github.com/sdispater/pendulum/pull/676

``````def test_iteration():
start = pendulum.from_format('2018-01', 'YYYY-MM')
end = pendulum.from_format('2020-01', 'YYYY-MM')

interval = pendulum.interval(start, end)

for dt in interval.range('months'):
print(dt.format('YYYY-MM'))
``````

You can change de range values from the list on the documentation here : https://pendulum.eustace.io/docs/#range

``````Supported units for range() are: years, months, weeks, days, hours, minutes, seconds and microseconds
``````

Slightly different approach to reversible steps by storing `range` args in a tuple.

``````def date_range(start, stop, step=1, inclusive=False):
day_count = (stop - start).days
if inclusive:
day_count += 1

if step > 0:
range_args = (0, day_count, step)
elif step < 0:
range_args = (day_count - 1, -1, step)
else:
raise ValueError("date_range(): step arg must be non-zero")

for i in range(*range_args):
yield start + timedelta(days=i)
``````

Answer for Python API Call Loop

using datetime and timedelta from the datetime module

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

import requests

headers = {"accept": "application/json", "x-api-key": "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"}

delta = timedelta(days=30)
start = datetime(year=2022, month=1, day=1)
num_ranges = 10

for _ in range(num_ranges):
start_str = start.strftime("%Y-%m-%d")
end = start + delta
end_str = end.strftime("%Y-%m-%d")
url = f"https://apiendpoint.com/v2/dapps/xxxx/history/uaw?dateFrom={start_str}&dateTo={end_str}"