Develop Reference

How to combine dates and times?

I want to add a time to a datetime. My initial datetime is: initial_datetime='2015-11-03 08:05:22' and is a string and this_hour and this_min are strings too. I use:
time='-7:00'
time = time.split(':')
this_hour = time[0]
this_min = time[1]
initial_datetime='2015-11-03 08:05:22'
new_date = datetime.combine(initial_datetime, time(this_hour, this_min))
+ timedelta(hours=4)
But there comes an error:
'str' object is not callable.
My desired output is the initial_datetime plus my time (in this case -7 hours ) and then add 4 hours. So, in my example, the new date should be '2015-11-03 05:05:22'.

datetime.combine is typically used to combine a date object with a time object rather than incrementing or decrementing a datetime object. In your case, you need to convert your datetime string to a datetime object and convert the parts of your time string to integers so you can add them to your datetime with timedelta. As an aside, be careful about using variable names, like time, that conflict with your imports.
from datetime import datetime, timedelta
dtstr = '2015-11-03 08:05:22'
tstr = '-7:00'
hours, minutes = [int(t) for t in tstr.split(':')]
dt = datetime.strptime(dtstr, '%Y-%m-%d %H:%M:%S') + timedelta(hours=hours+4, minutes=minutes)
print(dt)
# 2015-11-03 05:05:22

What is the quickest way to increment date string YYYY-MM-DD in Python?

In Pandas, I am using dates with string format YYYY-MM-DD
What is the quickest way to increment the date with the result in YYYY-MM-DD format?
d1 = '2018-02-10'
I want to increment it by 1 and get the result back as a string:
d1_inc = '2018-02-11'

Pure Python
You can use the datetime module, part of the standard library. There are 3 steps:
Convert string to datetime object via strptime.
Add a day via timedelta.
Convert resulting datetime object back to string via strftime.
Here's a demo:
from datetime import datetime, timedelta
x = '2017-05-15'
res = (datetime.strptime(x, '%Y-%m-%d') + timedelta(days=1)).strftime('%Y-%m-%d')
print(res)
# 2017-05-16
Pandas
The equivalent steps can be performed using 3rd party Pandas:
x = '2017-05-15'
# choose some combination of below methods
res = (pd.Timestamp(x) + pd.DateOffset(days=1)).strftime('%Y-%m-%d')
res = (pd.to_datetime(x) + pd.Timedelta('1 day')).strftime('%Y-%m-%d')
print(res)
# 2017-05-16

Using pd.to_datetime, pd.TimeDelta and strftime:
fmt = '%Y-%m-%d'
(pd.to_datetime(<your series or column>, format=fmt) + pd.Timedelta('1 days')).dt.strftime(date_format=fmt)
Example
df = pd.DataFrame({'date': ['2017-04-02', '2017-04-23']})
fmt = '%Y-%m-%d'
>>> (pd.to_datetime(df.date, format=fmt) + pd.Timedelta('1 days')).dt.strftime(date_format=fmt)
0 2017-04-03
1 2017-04-24
Name: date, dtype: object

You can perform arithmetic operations with datetime and timedelta objects.
from datetime import datetime, timedelta
d = datetime(year=2018, month=3, day=1)
t = timedelta(days=1)
d + t
# datetime.datetime(2018, 3, 2, 0, 0)
d + t + t
# datetime.datetime(2018, 3, 3, 0, 0)
for i in range(30):
d += 1
print(d)
# datetime.datetime(2018, 3, 31, 0, 0)

You mean like this
date = datetime.date(2015,5,15)
date += datetime.timedelta(days=1)

It depends on what you mean by quickest. I'm assuming you mean the quickest way to program this, not the shortest program execution time (which might be relevant when you're doing lots of these).
from datetime import datetime, timedelta
original_date = '2018-5-15'
print('The original date is {}, the date one day later is: {}'.
format(original_date, (datetime.strptime(original_date, '%Y-%m-%d') +
timedelta(days=1)).strftime('%Y-%m-%d')
Step by step version:
Create a datetime object from the string, note the string that shows python the formatting (see the documentation for more information)
dt = datetime.strptime(original_date, '%Y-%m-%d')
Add a day
dt += timedelta(days=1)
Reformat it back to the requested string
print(dt.strftime('%Y-%m-%d'))
That's all!

Python count start date + days

I am making a program where I input start date to dataStart(example 21.10.2000) and then input int days dateEnd and I convert it to another date (example 3000 = 0008-02-20)... Now I need to count these dates together, but I didn't managed myself how to do that. Here is my code.
from datetime import date
start=str(input("type start date (DD.MM.YYYY)"))
end=int(input("how many days from it?"))
dataStart=start.split(".")
days=int(dataStart[0])
months=int(dataStart[1])
years=int(dataStart[2])
endYears=0
endMonths=0
endDays=0
dateStart = date(years, months, days)
while end>=365:
end-=365
endYears+=1
else:
while end>=30:
end-=30
endMonths+=1
else:
while end>=1:
end-=1
endDays+=1
dateEnd = date(endYears, endMonths, endDays)

For adding days into date, you need to user datetime.timedelta
start=str(input("type start date (DD.MM.YYYY)"))
end=int(input("how many days from it?"))
date = datetime.strptime(start, "%d.%m.%Y")
modified_date = date + timedelta(days=end)
print(datetime.strftime(modified_date, "%d.%m.%Y"))

You may use datetime.timedelta to add certain units of time to your datetime object.
See the answers here for code snippets: Adding 5 days to a date in Python
Alternatively, you may wish to use the third-party dateutil library if you need support for time additions in units larger than weeks. For example:
>>> from datetime import datetime
>>> from dateutil import relativedelta
>>> one_month_later = datetime(2017, 5, 1) + relativedelta.relativedelta(months=1)
>>> one_month_later
>>> datetime.datetime(2017, 6, 1, 0, 0)

It will be easier to convert to datetime using datetime.datetime.strptime and for the part about adding days just use datetime.timedelta.
Below is a small snippet on how to use it:
import datetime
start = "21.10.2000"
end = 8
dateStart = datetime.datetime.strptime(start, "%d.%m.%Y")
dateEnd = dateStart + datetime.timedelta(days=end)
dateEnd.date() # to get the date format of the endDate
If you have any doubts please look at the documentation python3/python2.

how to shift a datetime object by 12 hours in python

Datetime objects hurt my head for some reason. I am writing to figure out how to shift a date time object by 12 hours. I also need to know how to figure out if two date time object's differ by say 1 minute or more.

The datetime library has a timedelta object specifically for this kind of thing:
import datetime
mydatetime = datetime.now() # or whatever value you want
twelvelater = mydatetime + datetime.timedelta(hours=12)
twelveearlier = mydatetime - datetime.timedelta(hours=12)
difference = abs(some_datetime_A - some_datetime_B)
# difference is now a timedelta object
# there are a couple of ways to do this comparision:
if difference > timedelta(minutes=1):
print "Timestamps were more than a minute apart"
# or:
if difference.total_seconds() > 60:
print "Timestamps were more than a minute apart"

You'd use datetime.timedelta for something like this.
from datetime import timedelta
datetime arithmetic works kind of like normal arithmetic: you can add a timedelta object to a datetime object to shift its time:
dt = # some datetime object
dt_plus_12 = dt + timedelta(hours=12)
Also you can subtract two datetime objects to get a timedelta representing the difference between them:
dt2 = # some other datetime object
ONE_MINUTE = timedelta(minutes=1)
if abs(dt2 - dt) > ONE_MINUTE:
# do something

Generate a random date between two other dates

How would I generate a random date that has to be between two other given dates?
The function's signature should be something like this:
random_date("1/1/2008 1:30 PM", "1/1/2009 4:50 AM", 0.34)
^ ^ ^
date generated has date generated has a random number
to be after this to be before this
and would return a date such as: 2/4/2008 7:20 PM

Convert both strings to timestamps (in your chosen resolution, e.g. milliseconds, seconds, hours, days, whatever), subtract the earlier from the later, multiply your random number (assuming it is distributed in the range [0, 1]) with that difference, and add again to the earlier one. Convert the timestamp back to date string and you have a random time in that range.
Python example (output is almost in the format you specified, other than 0 padding - blame the American time format conventions):
import random
import time
def str_time_prop(start, end, time_format, prop):
"""Get a time at a proportion of a range of two formatted times.
start and end should be strings specifying times formatted in the
given format (strftime-style), giving an interval [start, end].
prop specifies how a proportion of the interval to be taken after
start. The returned time will be in the specified format.
"""
stime = time.mktime(time.strptime(start, time_format))
etime = time.mktime(time.strptime(end, time_format))
ptime = stime + prop * (etime - stime)
return time.strftime(time_format, time.localtime(ptime))
def random_date(start, end, prop):
return str_time_prop(start, end, '%m/%d/%Y %I:%M %p', prop)
print(random_date("1/1/2008 1:30 PM", "1/1/2009 4:50 AM", random.random()))

from random import randrange
from datetime import timedelta
def random_date(start, end):
"""
This function will return a random datetime between two datetime
objects.
"""
delta = end - start
int_delta = (delta.days * 24 * 60 * 60) + delta.seconds
random_second = randrange(int_delta)
return start + timedelta(seconds=random_second)
The precision is seconds. You can increase precision up to microseconds, or decrease to, say, half-hours, if you want. For that just change the last line's calculation.
example run:
from datetime import datetime
d1 = datetime.strptime('1/1/2008 1:30 PM', '%m/%d/%Y %I:%M %p')
d2 = datetime.strptime('1/1/2009 4:50 AM', '%m/%d/%Y %I:%M %p')
print(random_date(d1, d2))
output:
2008-12-04 01:50:17

Updated answer
It's even more simple using Faker.
Installation
pip install faker
Usage:
from faker import Faker
fake = Faker()
fake.date_between(start_date='today', end_date='+30y')
# datetime.date(2025, 3, 12)
fake.date_time_between(start_date='-30y', end_date='now')
# datetime.datetime(2007, 2, 28, 11, 28, 16)
# Or if you need a more specific date boundaries, provide the start
# and end dates explicitly.
import datetime
start_date = datetime.date(year=2015, month=1, day=1)
fake.date_between(start_date=start_date, end_date='+30y')
Old answer
It's very simple using radar
Installation
pip install radar
Usage
import datetime
import radar
# Generate random datetime (parsing dates from str values)
radar.random_datetime(start='2000-05-24', stop='2013-05-24T23:59:59')
# Generate random datetime from datetime.datetime values
radar.random_datetime(
start = datetime.datetime(year=2000, month=5, day=24),
stop = datetime.datetime(year=2013, month=5, day=24)
)
# Just render some random datetime. If no range is given, start defaults to
# 1970-01-01 and stop defaults to datetime.datetime.now()
radar.random_datetime()

A tiny version.
import datetime
import random
def random_date(start, end):
"""Generate a random datetime between `start` and `end`"""
return start + datetime.timedelta(
# Get a random amount of seconds between `start` and `end`
seconds=random.randint(0, int((end - start).total_seconds())),
)
Note that both start and end arguments should be datetime objects. If
you've got strings instead, it's fairly easy to convert. The other answers point
to some ways to do so.

This is a different approach - that sort of works..
from random import randint
import datetime
date=datetime.date(randint(2005,2025), randint(1,12),randint(1,28))
BETTER APPROACH
startdate=datetime.date(YYYY,MM,DD)
date=startdate+datetime.timedelta(randint(1,365))

Since Python 3 timedelta supports multiplication with floats, so now you can do:
import random
random_date = start + (end - start) * random.random()
given that start and end are of the type datetime.datetime. For example, to generate a random datetime within the next day:
import random
from datetime import datetime, timedelta
start = datetime.now()
end = start + timedelta(days=1)
random_date = start + (end - start) * random.random()

To chip in a pandas-based solution I use:
import pandas as pd
import numpy as np
def random_date(start, end, position=None):
start, end = pd.Timestamp(start), pd.Timestamp(end)
delta = (end - start).total_seconds()
if position is None:
offset = np.random.uniform(0., delta)
else:
offset = position * delta
offset = pd.offsets.Second(offset)
t = start + offset
return t
I like it, because of the nice pd.Timestamp features that allow me to throw different stuff and formats at it. Consider the following few examples...
Your signature.
>>> random_date(start="1/1/2008 1:30 PM", end="1/1/2009 4:50 AM", position=0.34)
Timestamp('2008-05-04 21:06:48', tz=None)
Random position.
>>> random_date(start="1/1/2008 1:30 PM", end="1/1/2009 4:50 AM")
Timestamp('2008-10-21 05:30:10', tz=None)
Different format.
>>> random_date('2008-01-01 13:30', '2009-01-01 4:50')
Timestamp('2008-11-18 17:20:19', tz=None)
Passing pandas/datetime objects directly.
>>> random_date(pd.datetime.now(), pd.datetime.now() + pd.offsets.Hour(3))
Timestamp('2014-03-06 14:51:16.035965', tz=None)

Convert your dates into timestamps and call random.randint with the timestamps, then convert the randomly generated timestamp back into a date:
from datetime import datetime
import random
def random_date(first_date, second_date):
first_timestamp = int(first_date.timestamp())
second_timestamp = int(second_date.timestamp())
random_timestamp = random.randint(first_timestamp, second_timestamp)
return datetime.fromtimestamp(random_timestamp)
Then you can use it like this
from datetime import datetime
d1 = datetime.strptime("1/1/2018 1:30 PM", "%m/%d/%Y %I:%M %p")
d2 = datetime.strptime("1/1/2019 4:50 AM", "%m/%d/%Y %I:%M %p")
random_date(d1, d2)
random_date(d2, d1) # ValueError because the first date comes after the second date
If you care about timezones you should just use date_time_between_dates from the Faker library, where I stole this code from, as a different answer already suggests.

Here is an answer to the literal meaning of the title rather than the body of this question:
import time
import datetime
import random
def date_to_timestamp(d) :
return int(time.mktime(d.timetuple()))
def randomDate(start, end):
"""Get a random date between two dates"""
stime = date_to_timestamp(start)
etime = date_to_timestamp(end)
ptime = stime + random.random() * (etime - stime)
return datetime.date.fromtimestamp(ptime)
This code is based loosely on the accepted answer.

You can Use Mixer,
pip install mixer
and,
from mixer import generators as gen
print gen.get_datetime(min_datetime=(1900, 1, 1, 0, 0, 0), max_datetime=(2020, 12, 31, 23, 59, 59))

Just to add another one:
datestring = datetime.datetime.strftime(datetime.datetime( \
random.randint(2000, 2015), \
random.randint(1, 12), \
random.randint(1, 28), \
random.randrange(23), \
random.randrange(59), \
random.randrange(59), \
random.randrange(1000000)), '%Y-%m-%d %H:%M:%S')
The day handling needs some considerations. With 28 you are on the secure site.

#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""Create random datetime object."""
from datetime import datetime
import random
def create_random_datetime(from_date, to_date, rand_type='uniform'):
"""
Create random date within timeframe.
Parameters
----------
from_date : datetime object
to_date : datetime object
rand_type : {'uniform'}
Examples
--------
>>> random.seed(28041990)
>>> create_random_datetime(datetime(1990, 4, 28), datetime(2000, 12, 31))
datetime.datetime(1998, 12, 13, 23, 38, 0, 121628)
>>> create_random_datetime(datetime(1990, 4, 28), datetime(2000, 12, 31))
datetime.datetime(2000, 3, 19, 19, 24, 31, 193940)
"""
delta = to_date - from_date
if rand_type == 'uniform':
rand = random.random()
else:
raise NotImplementedError('Unknown random mode \'{}\''
.format(rand_type))
return from_date + rand * delta
if __name__ == '__main__':
import doctest
doctest.testmod()

# needed to create data for 1000 fictitious employees for testing code
# code relating to randomly assigning forenames, surnames, and genders
# has been removed as not germaine to the question asked above but FYI
# genders were randomly assigned, forenames/surnames were web scrapped,
# there is no accounting for leap years, and the data stored in mySQL
import random
from datetime import datetime
from datetime import timedelta
for employee in range(1000):
# assign a random date of birth (employees are aged between sixteen and sixty five)
dlt = random.randint(365*16, 365*65)
dob = datetime.today() - timedelta(days=dlt)
# assign a random date of hire sometime between sixteenth birthday and today
doh = datetime.today() - timedelta(days=random.randint(0, dlt-365*16))
print("born {} hired {}".format(dob.strftime("%d-%m-%y"), doh.strftime("%d-%m-%y")))

Convert your input dates to numbers
(int, float, whatever is best for
your usage)
Choose a number between your two date numbers.
Convert this number back to a date.
Many algorithms for converting date to and from numbers are already available in many operating systems.

What do you need the random number for? Usually (depending on the language) you can get the number of seconds/milliseconds from the Epoch from a date. So for a randomd date between startDate and endDate you could do:
compute the time in ms between
startDate and endDate
(endDate.toMilliseconds() -
startDate.toMilliseconds())
generate a number between 0 and the number you obtained in 1
generate a new Date with time offset = startDate.toMilliseconds() + number obtained in 2

The easiest way of doing this is to convert both numbers to timestamps, then set these as the minimum and maximum bounds on a random number generator.
A quick PHP example would be:
// Find a randomDate between $start_date and $end_date
function randomDate($start_date, $end_date)
{
// Convert to timetamps
$min = strtotime($start_date);
$max = strtotime($end_date);
// Generate random number using above bounds
$val = rand($min, $max);
// Convert back to desired date format
return date('Y-m-d H:i:s', $val);
}
This function makes use of strtotime() to convert a datetime description into a Unix timestamp, and date() to make a valid date out of the random timestamp which has been generated.

It's modified method of #(Tom Alsberg). I modified it to get date with milliseconds.
import random
import time
import datetime
def random_date(start_time_string, end_time_string, format_string, random_number):
"""
Get a time at a proportion of a range of two formatted times.
start and end should be strings specifying times formated in the
given format (strftime-style), giving an interval [start, end].
prop specifies how a proportion of the interval to be taken after
start. The returned time will be in the specified format.
"""
dt_start = datetime.datetime.strptime(start_time_string, format_string)
dt_end = datetime.datetime.strptime(end_time_string, format_string)
start_time = time.mktime(dt_start.timetuple()) + dt_start.microsecond / 1000000.0
end_time = time.mktime(dt_end.timetuple()) + dt_end.microsecond / 1000000.0
random_time = start_time + random_number * (end_time - start_time)
return datetime.datetime.fromtimestamp(random_time).strftime(format_string)
Example:
print TestData.TestData.random_date("2000/01/01 00:00:00.000000", "2049/12/31 23:59:59.999999", '%Y/%m/%d %H:%M:%S.%f', random.random())
Output: 2028/07/08 12:34:49.977963

Here's a solution modified from emyller's approach which returns an array of random dates at any resolution
import numpy as np
def random_dates(start, end, size=1, resolution='s'):
"""
Returns an array of random dates in the interval [start, end]. Valid
resolution arguments are numpy date/time units, as documented at:
https://docs.scipy.org/doc/numpy-dev/reference/arrays.datetime.html
"""
start, end = np.datetime64(start), np.datetime64(end)
delta = (end-start).astype('timedelta64[{}]'.format(resolution))
delta_mat = np.random.randint(0, delta.astype('int'), size)
return start + delta_mat.astype('timedelta64[{}]'.format(resolution))
Part of what's nice about this approach is that np.datetime64 is really good at coercing things to dates, so you can specify your start/end dates as strings, datetimes, pandas timestamps... pretty much anything will work.

Alternative way to create random dates between two dates using np.random.randint(), pd.Timestamp().value and pd.to_datetime() with for loop:
# Import libraries
import pandas as pd
# Initialize
start = '2020-01-01' # Specify start date
end = '2020-03-10' # Specify end date
n = 10 # Specify number of dates needed
# Get random dates
x = np.random.randint(pd.Timestamp(start).value, pd.Timestamp(end).value,n)
random_dates = [pd.to_datetime((i/10**9)/(60*60)/24, unit='D').strftime('%Y-%m-%d') for i in x]
print(random_dates)
Output
['2020-01-06',
'2020-03-08',
'2020-01-23',
'2020-02-03',
'2020-01-30',
'2020-01-05',
'2020-02-16',
'2020-03-08',
'2020-02-09',
'2020-01-04']

Get random date between start_date and end_date.
If any of them is None, then get random date between
today and past 100 years.
class GetRandomDateMixin:
def get_random_date(self, start_date=None, end_date=None):
"""
get random date between start_date and end_date.
If any of them is None, then get random date between
today and past 100 years.
:param start_date: datetime obj.
eg: datetime.datetime(1940, 1, 1).date()
:param end_date: datetime obj
:return: random date
"""
if start_date is None or end_date is None:
end_date = datetime.datetime.today().date()
start_date = end_date - datetime.timedelta(
days=(100 * 365)
)
delta = end_date - start_date
random_days = random.randint(1, delta.days)
new_date = start_date + datetime.timedelta(
days=random_days
)
return new_date

Building off of #Pieter Bos 's answer:
import random
import datetime
start = datetime.date(1980, 1, 1)
end = datetime.date(2000, 1, 1)
random_date = start + (end - start) * random.random()
random_date = datetime.datetime.combine(random_date, datetime.datetime.min.time())

Use my randomtimestamp module. It has 3 functions, randomtimestamp, random_time, and random_date.
Below is the signature of randomtimestamp function. It can generate a random timestamp between two years, or two datetime objects (if you like precision).
There's option to get the timestamp as a datetime object or string. Custom patterns are also supported (like strftime)
randomtimestamp(
start_year: int = 1950,
end_year: int = None,
text: bool = False,
start: datetime.datetime = None,
end: datetime.datetime = None,
pattern: str = "%d-%m-%Y %H:%M:%S"
) -> Union[datetime, str]:
Example:
>>> randomtimestamp(start_year=2020, end_year=2021)
datetime.datetime(2021, 1, 10, 5, 6, 19)
>>> start = datetime.datetime(2020, 1, 1, 0, 0, 0)
>>> end = datetime.datetime(2021, 12, 31, 0, 0, 0)
>>> randomtimestamp(start=start, end=end)
datetime.datetime(2020, 7, 14, 14, 12, 32)
Why not faker?
Because randomtimestamp is lightweight and fast. As long as random timestamps are the only thing you need, faker is an overkill and also heavy (being feature rich).

Conceptually it's quite simple. Depending on which language you're using you will be able to convert those dates into some reference 32 or 64 bit integer, typically representing seconds since epoch (1 January 1970) otherwise known as "Unix time" or milliseconds since some other arbitrary date. Simply generate a random 32 or 64 bit integer between those two values. This should be a one liner in any language.
On some platforms you can generate a time as a double (date is the integer part, time is the fractional part is one implementation). The same principle applies except you're dealing with single or double precision floating point numbers ("floats" or "doubles" in C, Java and other languages). Subtract the difference, multiply by random number (0 <= r <= 1), add to start time and done.

In python:
>>> from dateutil.rrule import rrule, DAILY
>>> import datetime, random
>>> random.choice(
list(
rrule(DAILY,
dtstart=datetime.date(2009,8,21),
until=datetime.date(2010,10,12))
)
)
datetime.datetime(2010, 2, 1, 0, 0)
(need python dateutil library – pip install python-dateutil)

I made this for another project using random and time. I used a general format from time you can view the documentation here for the first argument in strftime(). The second part is a random.randrange function. It returns an integer between the arguments. Change it to the ranges that match the strings you would like. You must have nice arguments in the tuple of the second arugment.
import time
import random
def get_random_date():
return strftime("%Y-%m-%d %H:%M:%S",(random.randrange(2000,2016),random.randrange(1,12),
random.randrange(1,28),random.randrange(1,24),random.randrange(1,60),random.randrange(1,60),random.randrange(1,7),random.randrange(0,366),1))

Pandas + numpy solution
import pandas as pd
import numpy as np
def RandomTimestamp(start, end):
dts = (end - start).total_seconds()
return start + pd.Timedelta(np.random.uniform(0, dts), 's')
dts is the difference between timestamps in seconds (float). It is then used to create a pandas timedelta between 0 and dts, that is added to the start timestamp.

Based on the answer by mouviciel, here is a vectorized solution using numpy. Convert the start and end dates to ints, generate an array of random numbers between them, and convert the whole array back to dates.
import time
import datetime
import numpy as np
n_rows = 10
start_time = "01/12/2011"
end_time = "05/08/2017"
date2int = lambda s: time.mktime(datetime.datetime.strptime(s,"%d/%m/%Y").timetuple())
int2date = lambda s: datetime.datetime.fromtimestamp(s).strftime('%Y-%m-%d %H:%M:%S')
start_time = date2int(start_time)
end_time = date2int(end_time)
random_ints = np.random.randint(low=start_time, high=end_time, size=(n_rows,1))
random_dates = np.apply_along_axis(int2date, 1, random_ints).reshape(n_rows,1)
print random_dates

start_timestamp = time.mktime(time.strptime('Jun 1 2010 01:33:00', '%b %d %Y %I:%M:%S'))
end_timestamp = time.mktime(time.strptime('Jun 1 2017 12:33:00', '%b %d %Y %I:%M:%S'))
time.strftime('%b %d %Y %I:%M:%S',time.localtime(randrange(start_timestamp,end_timestamp)))
refer

What about
import datetime
import random
def random_date(begin: datetime.datetime, end: datetime.datetime):
epoch = datetime.datetime(1970, 1, 1)
begin_seconds = int((begin - epoch).total_seconds())
end_seconds = int((end - epoch).total_seconds())
dt_seconds = random.randint(begin_seconds, end_seconds)
return datetime.datetime.fromtimestamp(dt_seconds)
Haven't tried it with "epoch" years different than 1970 but it does the job

Generates random dates between last 50 yrs to last 30 years. And generates date only.
import random
from datetime import date, timedelta
from dateutil.relativedelta import relativedelta
start_date = date.today() - relativedelta(years=50)
end_date = date.today() - relativedelta(years=20)
delta = end_date - start_date
print(delta.days)
random_number = random.randint(1, delta.days)
new_date = start_date + timedelta(days=random_number)
print (new_date)