def test_remaining():
# Relative
remaining(datetime.utcnow(), timedelta(hours=1), relative=True)
"""
The upcoming cases check whether the next run is calculated correctly
"""
eastern_tz = pytz.timezone("US/Eastern")
tokyo_tz = pytz.timezone("Asia/Tokyo")
# Case 1: `start` in UTC and `now` in other timezone
start = datetime.now(pytz.utc)
now = datetime.now(eastern_tz)
delta = timedelta(hours=1)
assert str(start.tzinfo) == str(pytz.utc)
assert str(now.tzinfo) == str(eastern_tz)
rem_secs = remaining(start, delta, now).total_seconds()
# assert remaining time is approximately equal to delta
assert rem_secs == pytest.approx(delta.total_seconds(), abs=1)
# Case 2: `start` and `now` in different timezones (other than UTC)
start = datetime.now(eastern_tz)
now = datetime.now(tokyo_tz)
delta = timedelta(hours=1)
assert str(start.tzinfo) == str(eastern_tz)
assert str(now.tzinfo) == str(tokyo_tz)
rem_secs = remaining(start, delta, now).total_seconds()
assert rem_secs == pytest.approx(delta.total_seconds(), abs=1)
"""
Case 3: DST check
Suppose start (which is last_run_time) is in EST while next_run is in EDT,
then check whether the `next_run` is actually the time specified in the
start (i.e. there is not an hour diff due to DST).
In 2019, DST starts on March 10
"""
start = eastern_tz.localize(
datetime(month=3, day=9, year=2019, hour=10, minute=0)) # EST
now = eastern_tz.localize(
datetime(day=11, month=3, year=2019, hour=1, minute=0)) # EDT
delta = ffwd(hour=10,
year=2019,
microsecond=0,
minute=0,
second=0,
day=11,
weeks=0,
month=3)
# `next_actual_time` is the next time to run (derived from delta)
next_actual_time = eastern_tz.localize(
datetime(day=11, month=3, year=2019, hour=10, minute=0)) # EDT
assert start.tzname() == "EST"
assert now.tzname() == "EDT"
assert next_actual_time.tzname() == "EDT"
rem_time = remaining(start, delta, now)
next_run = now + rem_time
assert next_run == next_actual_time
def remaining_estimate(self, last_run_at):
return remaining(
self.maybe_make_aware(last_run_at),
self.run_every,
self.maybe_make_aware(self.now()),
self.relative,
)
def test_remaining():
# Relative
remaining(datetime.utcnow(), timedelta(hours=1), relative=True)
"""
The upcoming cases check whether the next run is calculated correctly
"""
eastern_tz = pytz.timezone("US/Eastern")
tokyo_tz = pytz.timezone("Asia/Tokyo")
# Case 1: `start` in UTC and `now` in other timezone
start = datetime.now(pytz.utc)
now = datetime.now(eastern_tz)
delta = timedelta(hours=1)
assert str(start.tzinfo) == str(pytz.utc)
assert str(now.tzinfo) == str(eastern_tz)
rem_secs = remaining(start, delta, now).total_seconds()
# assert remaining time is approximately equal to delta
assert rem_secs == pytest.approx(delta.total_seconds(), abs=1)
# Case 2: `start` and `now` in different timezones (other than UTC)
start = datetime.now(eastern_tz)
now = datetime.now(tokyo_tz)
delta = timedelta(hours=1)
assert str(start.tzinfo) == str(eastern_tz)
assert str(now.tzinfo) == str(tokyo_tz)
rem_secs = remaining(start, delta, now).total_seconds()
assert rem_secs == pytest.approx(delta.total_seconds(), abs=1)
"""
Case 3: DST check
Suppose start (which is last_run_time) is in EST while next_run is in EDT, then
check whether the `next_run` is actually the time specified in the start (i.e. there is not an hour diff due to DST).
In 2019, DST starts on March 10
"""
start = eastern_tz.localize(datetime(month=3, day=9, year=2019, hour=10, minute=0)) # EST
now = eastern_tz.localize(datetime(day=11, month=3, year=2019, hour=1, minute=0)) # EDT
delta = ffwd(hour=10, year=2019, microsecond=0, minute=0, second=0, day=11, weeks=0, month=3)
# `next_actual_time` is the next time to run (derived from delta)
next_actual_time = eastern_tz.localize(datetime(day=11, month=3, year=2019, hour=10, minute=0)) # EDT
assert start.tzname() == "EST"
assert now.tzname() == "EDT"
assert next_actual_time.tzname() == "EDT"
rem_time = remaining(start, delta, now)
next_run = now + rem_time
assert next_run == next_actual_time
def remaining_estimate(self, last_run_at, ffwd=ffwd):
"""Estimate of next run time.
Returns when the periodic task should run next as a
:class:`~datetime.timedelta`.
"""
# pylint: disable=redefined-outer-name
# caching global ffwd
return remaining(*self.remaining_delta(last_run_at, ffwd=ffwd))
def test_remaining_relative():
remaining(datetime.utcnow(), timedelta(hours=1), relative=True)
def test_remaining_relative():
remaining(datetime.utcnow(), timedelta(hours=1), relative=True)
