FreezeGun is a library that allows your Python tests to travel through time by mocking the datetime module.
Once the decorator or context manager have been invoked, all calls to datetime.datetime.now(), datetime.datetime.utcnow(), datetime.date.today(), time.time(), time.localtime(), time.gmtime(), and time.strftime() will return the time that has been frozen.
from freezegun import freeze_time
import datetime
import unittest
@freeze_time("2012-01-14")
def test():
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14)
# Or a unittest TestCase - freezes for every test, from the start of setUpClass to the end of tearDownClass
@freeze_time("1955-11-12")
class MyTests(unittest.TestCase):
def test_the_class(self):
assert datetime.datetime.now() == datetime.datetime(1955, 11, 12)
# Or any other class - freezes around each callable (may not work in every case)
@freeze_time("2012-01-14")
class Tester(object):
def test_the_class(self):
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14)
from freezegun import freeze_time
def test():
assert datetime.datetime.now() != datetime.datetime(2012, 1, 14)
with freeze_time("2012-01-14"):
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14)
assert datetime.datetime.now() != datetime.datetime(2012, 1, 14)
from freezegun import freeze_time
freezer = freeze_time("2012-01-14 12:00:01")
freezer.start()
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14, 12, 0, 1)
freezer.stop()
from freezegun import freeze_time
@freeze_time("2012-01-14 03:21:34", tz_offset=-4)
def test():
assert datetime.datetime.utcnow() == datetime.datetime(2012, 1, 14, 3, 21, 34)
assert datetime.datetime.now() == datetime.datetime(2012, 1, 13, 23, 21, 34)
# datetime.date.today() uses local time
assert datetime.date.today() == datetime.date(2012, 1, 13)
@freeze_time("2012-01-14 03:21:34", tz_offset=-datetime.timedelta(hours=3, minutes=30))
def test_timedelta_offset():
assert datetime.datetime.now() == datetime.datetime(2012, 1, 13, 23, 51, 34)
FreezeGun uses dateutil behind the scenes so you can have nice-looking datetimes.
@freeze_time("Jan 14th, 2012")
def test_nice_datetime():
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14)
FreezeGun is able to handle function and generator objects.
def test_lambda():
with freeze_time(lambda: datetime.datetime(2012, 1, 14)):
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14)
def test_generator():
datetimes = (datetime.datetime(year, 1, 1) for year in range(2010, 2012))
with freeze_time(datetimes):
assert datetime.datetime.now() == datetime.datetime(2010, 1, 1)
with freeze_time(datetimes):
assert datetime.datetime.now() == datetime.datetime(2011, 1, 1)
# The next call to freeze_time(datetimes) would raise a StopIteration exception.
FreezeGun has an additional tick
argument which will restart time at the given
value, but then time will keep ticking. This is alternative to the default
parameters which will keep time stopped.
@freeze_time("Jan 14th, 2020", tick=True)
def test_nice_datetime():
assert datetime.datetime.now() > datetime.datetime(2020, 1, 14)
FreezeGun has an additional auto_tick_seconds
argument which will autoincrement the
value every time by the given amount from the start value. This is alternative to the default
parameters which will keep time stopped. Note that given auto_tick_seconds
the tick
parameter will be ignored.
@freeze_time("Jan 14th, 2020", auto_tick_seconds=15)
def test_nice_datetime():
first_time = datetime.datetime.now()
auto_incremented_time = datetime.datetime.now()
assert first_time + datetime.timedelta(seconds=15) == auto_incremented_time
FreezeGun allows for the time to be manually forwarded as well.
def test_manual_increment():
initial_datetime = datetime.datetime(year=1, month=7, day=12,
hour=15, minute=6, second=3)
with freeze_time(initial_datetime) as frozen_datetime:
assert frozen_datetime() == initial_datetime
frozen_datetime.tick()
initial_datetime += datetime.timedelta(seconds=1)
assert frozen_datetime() == initial_datetime
frozen_datetime.tick(delta=datetime.timedelta(seconds=10))
initial_datetime += datetime.timedelta(seconds=10)
assert frozen_datetime() == initial_datetime
FreezeGun allows moving time to specific dates.
def test_move_to():
initial_datetime = datetime.datetime(year=1, month=7, day=12,
hour=15, minute=6, second=3)
other_datetime = datetime.datetime(year=2, month=8, day=13,
hour=14, minute=5, second=0)
with freeze_time(initial_datetime) as frozen_datetime:
assert frozen_datetime() == initial_datetime
frozen_datetime.move_to(other_datetime)
assert frozen_datetime() == other_datetime
frozen_datetime.move_to(initial_datetime)
assert frozen_datetime() == initial_datetime
@freeze_time("2012-01-14", as_arg=True)
def test(frozen_time):
assert datetime.datetime.now() == datetime.datetime(2012, 1, 14)
frozen_time.move_to("2014-02-12")
assert datetime.datetime.now() == datetime.datetime(2014, 2, 12)
Parameter for move_to
can be any valid freeze_time
date (string, date, datetime).
Note that FreezeGun will not modify default arguments. The following code will print the current date. See here for why.
from freezegun import freeze_time
import datetime as dt
def test(default=dt.date.today()):
print(default)
with freeze_time('2000-1-1'):
test()
To install FreezeGun, simply:
$ pip install freezegun
On Debian (Testing and Unstable) systems:
$ sudo apt-get install python-freezegun