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test_schedule.py
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test_schedule.py
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"""Unit tests for schedule.py"""
import datetime
import functools
from unittest import mock, TestCase
import os
import time
# Silence "missing docstring", "method could be a function",
# "class already defined", and "too many public methods" messages:
# pylint: disable-msg=R0201,C0111,E0102,R0904,R0901
import schedule
from schedule import (
every,
repeat,
ScheduleError,
ScheduleValueError,
IntervalError,
)
# POSIX TZ string format
TZ_BERLIN = "CET-1CEST,M3.5.0,M10.5.0/3"
TZ_AUCKLAND = "NZST-12NZDT,M9.5.0,M4.1.0/3"
TZ_CHATHAM = "<+1245>-12:45<+1345>,M9.5.0/2:45,M4.1.0/3:45"
TZ_UTC = "UTC0"
# Set timezone to Europe/Berlin (CEST) to ensure global reproducibility
os.environ["TZ"] = TZ_BERLIN
time.tzset()
def make_mock_job(name=None):
job = mock.Mock()
job.__name__ = name or "job"
return job
class mock_datetime:
"""
Monkey-patch datetime for predictable results
"""
def __init__(self, year, month, day, hour, minute, second=0, zone=None, fold=0):
self.year = year
self.month = month
self.day = day
self.hour = hour
self.minute = minute
self.second = second
self.zone = zone
self.fold = fold
self.original_datetime = None
self.original_zone = None
def __enter__(self):
class MockDate(datetime.datetime):
@classmethod
def today(cls):
return cls(self.year, self.month, self.day)
@classmethod
def now(cls, tz=None):
mock_date = cls(
self.year,
self.month,
self.day,
self.hour,
self.minute,
self.second,
fold=self.fold,
)
if tz:
return mock_date.astimezone(tz)
return mock_date
self.original_datetime = datetime.datetime
datetime.datetime = MockDate
self.original_zone = os.environ.get("TZ")
if self.zone:
os.environ["TZ"] = self.zone
time.tzset()
return MockDate(
self.year, self.month, self.day, self.hour, self.minute, self.second
)
def __exit__(self, *args, **kwargs):
datetime.datetime = self.original_datetime
if self.original_zone:
os.environ["TZ"] = self.original_zone
time.tzset()
class SchedulerTests(TestCase):
def setUp(self):
schedule.clear()
def make_tz_mock_job(self, name=None):
try:
import pytz
except ModuleNotFoundError:
self.skipTest("pytz unavailable")
return
return make_mock_job(name)
def test_time_units(self):
assert every().seconds.unit == "seconds"
assert every().minutes.unit == "minutes"
assert every().hours.unit == "hours"
assert every().days.unit == "days"
assert every().weeks.unit == "weeks"
job_instance = schedule.Job(interval=2)
# without a context manager, it incorrectly raises an error because
# it is not callable
with self.assertRaises(IntervalError):
job_instance.minute
with self.assertRaises(IntervalError):
job_instance.hour
with self.assertRaises(IntervalError):
job_instance.day
with self.assertRaises(IntervalError):
job_instance.week
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.monday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.monday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.monday
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.tuesday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.tuesday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.tuesday
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.wednesday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.wednesday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.wednesday
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.thursday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.thursday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.thursday
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.friday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.friday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.friday
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.saturday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.saturday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.saturday
with self.assertRaisesRegex(
IntervalError,
(
r"Scheduling \.sunday\(\) jobs is only allowed for weekly jobs\. "
r"Using \.sunday\(\) on a job scheduled to run every 2 or more "
r"weeks is not supported\."
),
):
job_instance.sunday
# test an invalid unit
job_instance.unit = "foo"
self.assertRaises(ScheduleValueError, job_instance.at, "1:0:0")
self.assertRaises(ScheduleValueError, job_instance._schedule_next_run)
# test start day exists but unit is not 'weeks'
job_instance.unit = "days"
job_instance.start_day = 1
self.assertRaises(ScheduleValueError, job_instance._schedule_next_run)
# test weeks with an invalid start day
job_instance.unit = "weeks"
job_instance.start_day = "bar"
self.assertRaises(ScheduleValueError, job_instance._schedule_next_run)
# test a valid unit with invalid hours/minutes/seconds
job_instance.unit = "days"
self.assertRaises(ScheduleValueError, job_instance.at, "25:00:00")
self.assertRaises(ScheduleValueError, job_instance.at, "00:61:00")
self.assertRaises(ScheduleValueError, job_instance.at, "00:00:61")
# test invalid time format
self.assertRaises(ScheduleValueError, job_instance.at, "25:0:0")
self.assertRaises(ScheduleValueError, job_instance.at, "0:61:0")
self.assertRaises(ScheduleValueError, job_instance.at, "0:0:61")
# test self.latest >= self.interval
job_instance.latest = 1
self.assertRaises(ScheduleError, job_instance._schedule_next_run)
job_instance.latest = 3
self.assertRaises(ScheduleError, job_instance._schedule_next_run)
def test_next_run_with_tag(self):
with mock_datetime(2014, 6, 28, 12, 0):
job1 = every(5).seconds.do(make_mock_job(name="job1")).tag("tag1")
job2 = every(2).hours.do(make_mock_job(name="job2")).tag("tag1", "tag2")
job3 = (
every(1)
.minutes.do(make_mock_job(name="job3"))
.tag("tag1", "tag3", "tag2")
)
assert schedule.next_run("tag1") == job1.next_run
assert schedule.default_scheduler.get_next_run("tag2") == job3.next_run
assert schedule.next_run("tag3") == job3.next_run
assert schedule.next_run("tag4") is None
def test_singular_time_units_match_plural_units(self):
assert every().second.unit == every().seconds.unit
assert every().minute.unit == every().minutes.unit
assert every().hour.unit == every().hours.unit
assert every().day.unit == every().days.unit
assert every().week.unit == every().weeks.unit
def test_time_range(self):
with mock_datetime(2014, 6, 28, 12, 0):
mock_job = make_mock_job()
# Choose a sample size large enough that it's unlikely the
# same value will be chosen each time.
minutes = set(
[
every(5).to(30).minutes.do(mock_job).next_run.minute
for i in range(100)
]
)
assert len(minutes) > 1
assert min(minutes) >= 5
assert max(minutes) <= 30
def test_time_range_repr(self):
mock_job = make_mock_job()
with mock_datetime(2014, 6, 28, 12, 0):
job_repr = repr(every(5).to(30).minutes.do(mock_job))
assert job_repr.startswith("Every 5 to 30 minutes do job()")
def test_at_time(self):
mock_job = make_mock_job()
assert every().day.at("10:30").do(mock_job).next_run.hour == 10
assert every().day.at("10:30").do(mock_job).next_run.minute == 30
assert every().day.at("20:59").do(mock_job).next_run.minute == 59
assert every().day.at("10:30:50").do(mock_job).next_run.second == 50
self.assertRaises(ScheduleValueError, every().day.at, "2:30:000001")
self.assertRaises(ScheduleValueError, every().day.at, "::2")
self.assertRaises(ScheduleValueError, every().day.at, ".2")
self.assertRaises(ScheduleValueError, every().day.at, "2")
self.assertRaises(ScheduleValueError, every().day.at, ":2")
self.assertRaises(ScheduleValueError, every().day.at, " 2:30:00")
self.assertRaises(ScheduleValueError, every().day.at, "59:59")
self.assertRaises(ScheduleValueError, every().do, lambda: 0)
self.assertRaises(TypeError, every().day.at, 2)
# without a context manager, it incorrectly raises an error because
# it is not callable
with self.assertRaises(IntervalError):
every(interval=2).second
with self.assertRaises(IntervalError):
every(interval=2).minute
with self.assertRaises(IntervalError):
every(interval=2).hour
with self.assertRaises(IntervalError):
every(interval=2).day
with self.assertRaises(IntervalError):
every(interval=2).week
with self.assertRaises(IntervalError):
every(interval=2).monday
with self.assertRaises(IntervalError):
every(interval=2).tuesday
with self.assertRaises(IntervalError):
every(interval=2).wednesday
with self.assertRaises(IntervalError):
every(interval=2).thursday
with self.assertRaises(IntervalError):
every(interval=2).friday
with self.assertRaises(IntervalError):
every(interval=2).saturday
with self.assertRaises(IntervalError):
every(interval=2).sunday
def test_until_time(self):
mock_job = make_mock_job()
# Check argument parsing
with mock_datetime(2020, 1, 1, 10, 0, 0) as m:
assert every().day.until(datetime.datetime(3000, 1, 1, 20, 30)).do(
mock_job
).cancel_after == datetime.datetime(3000, 1, 1, 20, 30, 0)
assert every().day.until(datetime.datetime(3000, 1, 1, 20, 30, 50)).do(
mock_job
).cancel_after == datetime.datetime(3000, 1, 1, 20, 30, 50)
assert every().day.until(datetime.time(12, 30)).do(
mock_job
).cancel_after == m.replace(hour=12, minute=30, second=0, microsecond=0)
assert every().day.until(datetime.time(12, 30, 50)).do(
mock_job
).cancel_after == m.replace(hour=12, minute=30, second=50, microsecond=0)
assert every().day.until(
datetime.timedelta(days=40, hours=5, minutes=12, seconds=42)
).do(mock_job).cancel_after == datetime.datetime(2020, 2, 10, 15, 12, 42)
assert every().day.until("10:30").do(mock_job).cancel_after == m.replace(
hour=10, minute=30, second=0, microsecond=0
)
assert every().day.until("10:30:50").do(mock_job).cancel_after == m.replace(
hour=10, minute=30, second=50, microsecond=0
)
assert every().day.until("3000-01-01 10:30").do(
mock_job
).cancel_after == datetime.datetime(3000, 1, 1, 10, 30, 0)
assert every().day.until("3000-01-01 10:30:50").do(
mock_job
).cancel_after == datetime.datetime(3000, 1, 1, 10, 30, 50)
assert every().day.until(datetime.datetime(3000, 1, 1, 10, 30, 50)).do(
mock_job
).cancel_after == datetime.datetime(3000, 1, 1, 10, 30, 50)
# Invalid argument types
self.assertRaises(TypeError, every().day.until, 123)
self.assertRaises(ScheduleValueError, every().day.until, "123")
self.assertRaises(ScheduleValueError, every().day.until, "01-01-3000")
# Using .until() with moments in the passed
self.assertRaises(
ScheduleValueError,
every().day.until,
datetime.datetime(2019, 12, 31, 23, 59),
)
self.assertRaises(
ScheduleValueError, every().day.until, datetime.timedelta(minutes=-1)
)
one_hour_ago = datetime.datetime.now() - datetime.timedelta(hours=1)
self.assertRaises(ScheduleValueError, every().day.until, one_hour_ago)
# Unschedule job after next_run passes the deadline
schedule.clear()
with mock_datetime(2020, 1, 1, 11, 35, 10):
mock_job.reset_mock()
every(5).seconds.until(datetime.time(11, 35, 20)).do(mock_job)
with mock_datetime(2020, 1, 1, 11, 35, 15):
schedule.run_pending()
assert mock_job.call_count == 1
assert len(schedule.jobs) == 1
with mock_datetime(2020, 1, 1, 11, 35, 20):
schedule.run_all()
assert mock_job.call_count == 2
assert len(schedule.jobs) == 0
# Unschedule job because current execution time has passed deadline
schedule.clear()
with mock_datetime(2020, 1, 1, 11, 35, 10):
mock_job.reset_mock()
every(5).seconds.until(datetime.time(11, 35, 20)).do(mock_job)
with mock_datetime(2020, 1, 1, 11, 35, 50):
schedule.run_pending()
assert mock_job.call_count == 0
assert len(schedule.jobs) == 0
def test_weekday_at_todady(self):
mock_job = make_mock_job()
# This date is a wednesday
with mock_datetime(2020, 11, 25, 22, 38, 5):
job = every().wednesday.at("22:38:10").do(mock_job)
assert job.next_run.hour == 22
assert job.next_run.minute == 38
assert job.next_run.second == 10
assert job.next_run.year == 2020
assert job.next_run.month == 11
assert job.next_run.day == 25
job = every().wednesday.at("22:39").do(mock_job)
assert job.next_run.hour == 22
assert job.next_run.minute == 39
assert job.next_run.second == 00
assert job.next_run.year == 2020
assert job.next_run.month == 11
assert job.next_run.day == 25
def test_at_time_hour(self):
with mock_datetime(2010, 1, 6, 12, 20):
mock_job = make_mock_job()
assert every().hour.at(":30").do(mock_job).next_run.hour == 12
assert every().hour.at(":30").do(mock_job).next_run.minute == 30
assert every().hour.at(":30").do(mock_job).next_run.second == 0
assert every().hour.at(":10").do(mock_job).next_run.hour == 13
assert every().hour.at(":10").do(mock_job).next_run.minute == 10
assert every().hour.at(":10").do(mock_job).next_run.second == 0
assert every().hour.at(":00").do(mock_job).next_run.hour == 13
assert every().hour.at(":00").do(mock_job).next_run.minute == 0
assert every().hour.at(":00").do(mock_job).next_run.second == 0
self.assertRaises(ScheduleValueError, every().hour.at, "2:30:00")
self.assertRaises(ScheduleValueError, every().hour.at, "::2")
self.assertRaises(ScheduleValueError, every().hour.at, ".2")
self.assertRaises(ScheduleValueError, every().hour.at, "2")
self.assertRaises(ScheduleValueError, every().hour.at, " 2:30")
self.assertRaises(ScheduleValueError, every().hour.at, "61:00")
self.assertRaises(ScheduleValueError, every().hour.at, "00:61")
self.assertRaises(ScheduleValueError, every().hour.at, "01:61")
self.assertRaises(TypeError, every().hour.at, 2)
# test the 'MM:SS' format
assert every().hour.at("30:05").do(mock_job).next_run.hour == 12
assert every().hour.at("30:05").do(mock_job).next_run.minute == 30
assert every().hour.at("30:05").do(mock_job).next_run.second == 5
assert every().hour.at("10:25").do(mock_job).next_run.hour == 13
assert every().hour.at("10:25").do(mock_job).next_run.minute == 10
assert every().hour.at("10:25").do(mock_job).next_run.second == 25
assert every().hour.at("00:40").do(mock_job).next_run.hour == 13
assert every().hour.at("00:40").do(mock_job).next_run.minute == 0
assert every().hour.at("00:40").do(mock_job).next_run.second == 40
def test_at_time_minute(self):
with mock_datetime(2010, 1, 6, 12, 20, 30):
mock_job = make_mock_job()
assert every().minute.at(":40").do(mock_job).next_run.hour == 12
assert every().minute.at(":40").do(mock_job).next_run.minute == 20
assert every().minute.at(":40").do(mock_job).next_run.second == 40
assert every().minute.at(":10").do(mock_job).next_run.hour == 12
assert every().minute.at(":10").do(mock_job).next_run.minute == 21
assert every().minute.at(":10").do(mock_job).next_run.second == 10
self.assertRaises(ScheduleValueError, every().minute.at, "::2")
self.assertRaises(ScheduleValueError, every().minute.at, ".2")
self.assertRaises(ScheduleValueError, every().minute.at, "2")
self.assertRaises(ScheduleValueError, every().minute.at, "2:30:00")
self.assertRaises(ScheduleValueError, every().minute.at, "2:30")
self.assertRaises(ScheduleValueError, every().minute.at, " :30")
self.assertRaises(TypeError, every().minute.at, 2)
def test_next_run_time(self):
with mock_datetime(2010, 1, 6, 12, 15):
mock_job = make_mock_job()
assert schedule.next_run() is None
assert every().minute.do(mock_job).next_run.minute == 16
assert every(5).minutes.do(mock_job).next_run.minute == 20
assert every().hour.do(mock_job).next_run.hour == 13
assert every().day.do(mock_job).next_run.day == 7
assert every().day.at("09:00").do(mock_job).next_run.day == 7
assert every().day.at("12:30").do(mock_job).next_run.day == 6
assert every().week.do(mock_job).next_run.day == 13
assert every().monday.do(mock_job).next_run.day == 11
assert every().tuesday.do(mock_job).next_run.day == 12
assert every().wednesday.do(mock_job).next_run.day == 13
assert every().thursday.do(mock_job).next_run.day == 7
assert every().friday.do(mock_job).next_run.day == 8
assert every().saturday.do(mock_job).next_run.day == 9
assert every().sunday.do(mock_job).next_run.day == 10
assert (
every().minute.until(datetime.time(12, 17)).do(mock_job).next_run.minute
== 16
)
def test_next_run_time_day_end(self):
mock_job = make_mock_job()
# At day 1, schedule job to run at daily 23:30
with mock_datetime(2010, 12, 1, 23, 0, 0):
job = every().day.at("23:30").do(mock_job)
# first occurrence same day
assert job.next_run.day == 1
assert job.next_run.hour == 23
# Running the job 01:00 on day 2, afterwards the job should be
# scheduled at 23:30 the same day. This simulates a job that started
# on day 1 at 23:30 and took 1,5 hours to finish
with mock_datetime(2010, 12, 2, 1, 0, 0):
job.run()
assert job.next_run.day == 2
assert job.next_run.hour == 23
# Run the job at 23:30 on day 2, afterwards the job should be
# scheduled at 23:30 the next day
with mock_datetime(2010, 12, 2, 23, 30, 0):
job.run()
assert job.next_run.day == 3
assert job.next_run.hour == 23
def test_next_run_time_hour_end(self):
try:
import pytz
except ModuleNotFoundError:
self.skipTest("pytz unavailable")
self.tst_next_run_time_hour_end(None, 0)
def test_next_run_time_hour_end_london(self):
try:
import pytz
except ModuleNotFoundError:
self.skipTest("pytz unavailable")
self.tst_next_run_time_hour_end("Europe/London", 0)
def test_next_run_time_hour_end_katmandu(self):
try:
import pytz
except ModuleNotFoundError:
self.skipTest("pytz unavailable")
# 12:00 in Berlin is 15:45 in Kathmandu
# this test schedules runs at :10 minutes, so job runs at
# 16:10 in Kathmandu, which is 13:25 in Berlin
# in local time we don't run at :10, but at :25, offset of 15 minutes
self.tst_next_run_time_hour_end("Asia/Kathmandu", 15)
def tst_next_run_time_hour_end(self, tz, offsetMinutes):
mock_job = make_mock_job()
# So a job scheduled to run at :10 in Kathmandu, runs always 25 minutes
with mock_datetime(2010, 10, 10, 12, 0, 0):
job = every().hour.at(":10", tz).do(mock_job)
assert job.next_run.hour == 12
assert job.next_run.minute == 10 + offsetMinutes
with mock_datetime(2010, 10, 10, 13, 0, 0):
job.run()
assert job.next_run.hour == 13
assert job.next_run.minute == 10 + offsetMinutes
with mock_datetime(2010, 10, 10, 13, 30, 0):
job.run()
assert job.next_run.hour == 14
assert job.next_run.minute == 10 + offsetMinutes
def test_next_run_time_minute_end(self):
self.tst_next_run_time_minute_end(None)
def test_next_run_time_minute_end_london(self):
try:
import pytz
except ModuleNotFoundError:
self.skipTest("pytz unavailable")
self.tst_next_run_time_minute_end("Europe/London")
def test_next_run_time_minute_end_katmhandu(self):
try:
import pytz
except ModuleNotFoundError:
self.skipTest("pytz unavailable")
self.tst_next_run_time_minute_end("Asia/Kathmandu")
def tst_next_run_time_minute_end(self, tz):
mock_job = make_mock_job()
with mock_datetime(2010, 10, 10, 10, 10, 0):
job = every().minute.at(":15", tz).do(mock_job)
assert job.next_run.minute == 10
assert job.next_run.second == 15
with mock_datetime(2010, 10, 10, 10, 10, 59):
job.run()
assert job.next_run.minute == 11
assert job.next_run.second == 15
with mock_datetime(2010, 10, 10, 10, 12, 14):
job.run()
assert job.next_run.minute == 12
assert job.next_run.second == 15
with mock_datetime(2010, 10, 10, 10, 12, 16):
job.run()
assert job.next_run.minute == 13
assert job.next_run.second == 15
def test_tz(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2022, 2, 1, 23, 15):
# Current Berlin time: feb-1 23:15 (local)
# Current India time: feb-2 03:45
# Expected to run India time: feb-2 06:30
# Next run Berlin time: feb-2 02:00
next = every().day.at("06:30", "Asia/Kolkata").do(mock_job).next_run
assert next.day == 2
assert next.hour == 2
assert next.minute == 0
def test_tz_daily_midnight(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 4, 14, 4, 50):
# Current Berlin time: april-14 04:50 (local) (during daylight saving)
# Current US/Central time: april-13 21:50
# Expected to run US/Central time: april-14 00:00
# Next run Berlin time: april-14 07:00
next = every().day.at("00:00", "US/Central").do(mock_job).next_run
assert next.day == 14
assert next.hour == 7
assert next.minute == 0
def test_tz_daily_half_hour_offset(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2022, 4, 8, 10, 0):
# Current Berlin time: 10:00 (local) (during daylight saving)
# Current NY time: 04:00
# Expected to run NY time: 10:30
# Next run Berlin time: 16:30
next = every().day.at("10:30", "America/New_York").do(mock_job).next_run
assert next.hour == 16
assert next.minute == 30
def test_tz_daily_dst(self):
mock_job = self.make_tz_mock_job()
import pytz
with mock_datetime(2022, 3, 20, 10, 0):
# Current Berlin time: 10:00 (local) (NOT during daylight saving)
# Current NY time: 04:00 (during daylight saving)
# Expected to run NY time: 10:30
# Next run Berlin time: 15:30
tz = pytz.timezone("America/New_York")
next = every().day.at("10:30", tz).do(mock_job).next_run
assert next.hour == 15
assert next.minute == 30
def test_tz_daily_dst_skip_hour(self):
mock_job = self.make_tz_mock_job()
# Test the DST-case that is described in the documentation
with mock_datetime(2023, 3, 26, 1, 30):
# Current Berlin time: 01:30 (NOT during daylight saving)
# Expected to run: 02:30 - this time doesn't exist
# because clock moves from 02:00 to 03:00
# Next run: 03:30
job = every().day.at("02:30", "Europe/Berlin").do(mock_job)
assert job.next_run.day == 26
assert job.next_run.hour == 3
assert job.next_run.minute == 30
with mock_datetime(2023, 3, 27, 1, 30):
# the next day the job shall again run at 02:30
job.run()
assert job.next_run.day == 27
assert job.next_run.hour == 2
assert job.next_run.minute == 30
def test_tz_daily_dst_overlap_hour(self):
mock_job = self.make_tz_mock_job()
# Test the DST-case that is described in the documentation
with mock_datetime(2023, 10, 29, 1, 30):
# Current Berlin time: 01:30 (during daylight saving)
# Expected to run: 02:30 - this time exists twice
# because clock moves from 03:00 to 02:00
# Next run should be at the first occurrence of 02:30
job = every().day.at("02:30", "Europe/Berlin").do(mock_job)
assert job.next_run.day == 29
assert job.next_run.hour == 2
assert job.next_run.minute == 30
with mock_datetime(2023, 10, 29, 2, 35):
# After the job runs, the next run should be scheduled on the next day at 02:30
job.run()
assert job.next_run.day == 30
assert job.next_run.hour == 2
assert job.next_run.minute == 30
def test_tz_daily_exact_future_scheduling(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2022, 3, 20, 10, 0):
# Current Berlin time: 10:00 (local) (NOT during daylight saving)
# Current Krasnoyarsk time: 16:00
# Expected to run Krasnoyarsk time: mar-21 11:00
# Next run Berlin time: mar-21 05:00
# Expected idle seconds: 68400
schedule.clear()
every().day.at("11:00", "Asia/Krasnoyarsk").do(mock_job)
expected_delta = (
datetime.datetime(2022, 3, 21, 5, 0) - datetime.datetime.now()
)
assert schedule.idle_seconds() == expected_delta.total_seconds()
def test_tz_daily_utc(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 9, 18, 10, 59, 0, TZ_AUCKLAND):
# Testing issue #598
# Current Auckland time: 10:59 (local) (NOT during daylight saving)
# Current UTC time: 21:59 (17 september)
# Expected to run UTC time: sept-18 00:00
# Next run Auckland time: sept-18 12:00
schedule.clear()
next = every().day.at("00:00", "UTC").do(mock_job).next_run
assert next.day == 18
assert next.hour == 12
assert next.minute == 0
# Test that .day.at() and .monday.at() are equivalent in this case
schedule.clear()
next = every().monday.at("00:00", "UTC").do(mock_job).next_run
assert next.day == 18
assert next.hour == 12
assert next.minute == 0
def test_tz_daily_issue_592(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 7, 15, 13, 0, 0, TZ_UTC):
# Testing issue #592
# Current UTC time: 13:00
# Expected to run US East time: 9:45 (daylight saving active)
# Next run UTC time: july-15 13:45
schedule.clear()
next = every().day.at("09:45", "US/Eastern").do(mock_job).next_run
assert next.day == 15
assert next.hour == 13
assert next.minute == 45
def test_tz_daily_exact_seconds_precision(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 10, 19, 15, 0, 0, TZ_UTC):
# Testing issue #603
# Current UTC: oktober-19 15:00
# Current Amsterdam: oktober-19 17:00 (daylight saving active)
# Expected run Amsterdam: oktober-20 00:00:20 (daylight saving active)
# Next run UTC time: oktober-19 22:00:20
schedule.clear()
next = every().day.at("00:00:20", "Europe/Amsterdam").do(mock_job).next_run
assert next.day == 19
assert next.hour == 22
assert next.minute == 00
assert next.second == 20
def test_tz_weekly_sunday_conversion(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 10, 22, 23, 0, 0, TZ_UTC):
# Current UTC: sunday 22-okt 23:00
# Current Amsterdam: monday 23-okt 01:00 (daylight saving active)
# Expected run Amsterdam: sunday 29 oktober 23:00 (daylight saving NOT active)
# Next run UTC time: oktober-29 22:00
schedule.clear()
next = every().sunday.at("23:00", "Europe/Amsterdam").do(mock_job).next_run
assert next.day == 29
assert next.hour == 22
assert next.minute == 00
def test_tz_daily_new_year_offset(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 12, 31, 23, 0, 0):
# Current Berlin time: dec-31 23:00 (local)
# Current Sydney time: jan-1 09:00 (next day)
# Expected to run Sydney time: jan-1 12:00
# Next run Berlin time: jan-1 02:00
next = every().day.at("12:00", "Australia/Sydney").do(mock_job).next_run
assert next.day == 1
assert next.hour == 2
assert next.minute == 0
def test_tz_daily_end_year_cross_continent(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 12, 31, 23, 50):
# End of the year in Berlin
# Current Berlin time: dec-31 23:50
# Current Tokyo time: jan-1 07:50 (next day)
# Expected to run Tokyo time: jan-1 09:00
# Next run Berlin time: jan-1 01:00
next = every().day.at("09:00", "Asia/Tokyo").do(mock_job).next_run
assert next.day == 1
assert next.hour == 1
assert next.minute == 0
def test_tz_daily_end_month_offset(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 2, 28, 23, 50):
# End of the month (non-leap year) in Berlin
# Current Berlin time: feb-28 23:50
# Current Sydney time: mar-1 09:50 (next day)
# Expected to run Sydney time: mar-1 10:00
# Next run Berlin time: mar-1 00:00
next = every().day.at("10:00", "Australia/Sydney").do(mock_job).next_run
assert next.day == 1
assert next.hour == 0
assert next.minute == 0
def test_tz_daily_leap_year(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2024, 2, 28, 23, 50):
# End of the month (leap year) in Berlin
# Current Berlin time: feb-28 23:50
# Current Dubai time: feb-29 02:50
# Expected to run Dubai time: feb-29 04:00
# Next run Berlin time: feb-29 01:00
next = every().day.at("04:00", "Asia/Dubai").do(mock_job).next_run
assert next.month == 2
assert next.day == 29
assert next.hour == 1
assert next.minute == 0
def test_tz_daily_issue_605(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 9, 18, 10, 00, 0, TZ_AUCKLAND):
schedule.clear()
# Testing issue #605
# Current time: Monday 18 September 10:00 NZST
# Current time UTC: Sunday 17 September 22:00
# We expect the job to run at 23:00 on Sunday 17 September NZST
# That is an expected idle time of 1 hour
# Expected next run in NZST: 2023-09-18 11:00:00
next = schedule.every().day.at("23:00", "UTC").do(mock_job).next_run
assert round(schedule.idle_seconds() / 3600) == 1
assert next.day == 18
assert next.hour == 11
assert next.minute == 0
def test_tz_daily_dst_starting_point(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 3, 26, 1, 30):
# Daylight Saving Time starts in Berlin
# In Berlin, 26 March 2023, 02:00:00 clocks were turned forward 1 hour
# In London, 26 March 2023, 01:00:00 clocks were turned forward 1 hour
# Current Berlin time: 26 March 01:30 (UTC+1)
# Current London time: 26 March 00:30 (UTC+0)
# Expected London time: 26 March 02:00 (UTC+1)
# Expected Berlin time: 26 March 03:00 (UTC+2)
next = every().day.at("01:00", "Europe/London").do(mock_job).next_run
assert next.day == 26
assert next.hour == 3
assert next.minute == 0
def test_tz_daily_dst_ending_point(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 10, 29, 2, 30, fold=1):
# Daylight Saving Time ends in Berlin
# Current Berlin time: oct-29 02:30 (after moving back to 02:00 due to DST end)
# Current Istanbul time: oct-29 04:30
# Expected to run Istanbul time: oct-29 06:00
# Next run Berlin time: oct-29 04:00
next = every().day.at("06:00", "Europe/Istanbul").do(mock_job).next_run
assert next.hour == 4
assert next.minute == 0
def test_tz_daily_issue_608_pre_dst(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 9, 18, 10, 00, 0, TZ_AUCKLAND):
# See ticket #608
# Testing timezone conversion the week before daylight saving comes into effect
# Current time: Monday 18 September 10:00 NZST
# Current time UTC: Sunday 17 September 22:00
# Expected next run in NZST: 2023-09-18 11:00:00
schedule.clear()
next = schedule.every().day.at("23:00", "UTC").do(mock_job).next_run
assert next.day == 18
assert next.hour == 11
assert next.minute == 0
def test_tz_daily_issue_608_post_dst(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2024, 4, 8, 10, 00, 0, TZ_AUCKLAND):
# See ticket #608
# Testing timezone conversion the week after daylight saving ends
# Current time: Monday 8 April 10:00 NZST
# Current time UTC: Sunday 7 April 22:00
# Expected next run in NZDT: 2023-04-08 11:00:00
schedule.clear()
next = schedule.every().day.at("23:00", "UTC").do(mock_job).next_run
assert next.day == 8
assert next.hour == 11
assert next.minute == 0
def test_tz_daily_issue_608_mid_dst(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2023, 9, 25, 10, 00, 0, TZ_AUCKLAND):
# See ticket #608
# Testing timezone conversion during the week after daylight saving comes into effect
# Current time: Monday 25 September 10:00 NZDT
# Current time UTC: Sunday 24 September 21:00
# Expected next run in UTC: 2023-09-24 23:00
# Expected next run in NZDT: 2023-09-25 12:00
schedule.clear()
next = schedule.every().day.at("23:00", "UTC").do(mock_job).next_run
assert next.month == 9
assert next.day == 25
assert next.hour == 12
assert next.minute == 0
def test_tz_daily_issue_608_before_dst_end(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2024, 4, 1, 10, 00, 0, TZ_AUCKLAND):
# See ticket #608
# Testing timezone conversion during the week before daylight saving ends
# Current time: Monday 1 April 10:00 NZDT
# Current time UTC: Friday 31 March 21:00
# Expected next run in UTC: 2023-03-31 23:00
# Expected next run in NZDT: 2024-04-01 12:00
schedule.clear()
next = schedule.every().day.at("23:00", "UTC").do(mock_job).next_run
assert next.month == 4
assert next.day == 1
assert next.hour == 12
assert next.minute == 0
def test_tz_hourly_intermediate_conversion(self):
mock_job = self.make_tz_mock_job()
with mock_datetime(2024, 5, 4, 14, 37, 22, TZ_CHATHAM):
# Crurent time: 14:37:22 New Zealand, Chatham Islands (UTC +12:45)
# Current time: 3 may, 23:22:22 Canada, Newfoundland (UTC -2:30)
# Exected next run in Newfoundland: 4 may, 09:14:45
# Expected next run in Chatham: 5 may, 00:29:45
schedule.clear()
next = (
schedule.every(10)
.hours.at("14:45", "Canada/Newfoundland")
.do(mock_job)
.next_run
)
assert next.day == 5
assert next.hour == 0
assert next.minute == 29
assert next.second == 45
def test_tz_minutes_year_round(self):
mock_job = self.make_tz_mock_job()
# Test a full year of scheduling across timezones, where one timezone
# is in the northern hemisphere and the other in the southern hemisphere
# These two timezones are also a bit exotic (not the usual UTC+1, UTC-1)
# Local timezone: Newfoundland, Canada: UTC-2:30 / DST UTC-3:30
# Remote timezone: Chatham Islands, New Zealand: UTC+12:45 / DST UTC+13:45
schedule.clear()
job = schedule.every(20).minutes.at(":13", "Canada/Newfoundland").do(mock_job)
with mock_datetime(2024, 9, 29, 2, 20, 0, TZ_CHATHAM):
# First run, nothing special, no utc-offset change
# Current time: 29 sept, 02:20:00 Chatham
# Current time: 28 sept, 11:05:00 Newfoundland
# Expected time: 28 sept, 11:20:13 Newfoundland
# Expected time: 29 sept, 02:40:13 Chatham
job.run()
assert job.next_run.day == 29
assert job.next_run.hour == 2
assert job.next_run.minute == 40
assert job.next_run.second == 13
with mock_datetime(2024, 9, 29, 2, 40, 14, TZ_CHATHAM):
# next-schedule happens 1 second behind schedule
job.run()
# On 29 Sep, 02:45 2024, in Chatham, the clock is moved +1 hour
# Thus, the next run happens AFTER the local timezone exits DST
# Current time: 29 sept, 02:40:14 Chatham (UTC +12:45)
# Current time: 28 sept, 11:25:14 Newfoundland (UTC -2:30)
# Expected time: 28 sept, 11:45:13 Newfoundland (UTC -2:30)
# Expected time: 29 sept, 04:00:13 Chatham (UTC +13:45)
assert job.next_run.day == 29
assert job.next_run.hour == 4
assert job.next_run.minute == 00
assert job.next_run.second == 13
with mock_datetime(2024, 11, 3, 2, 23, 55, TZ_CHATHAM, fold=0):
# Time is right before Newfoundland exits DST
# Local time will move 1 hour back at 03:00
job.run()
# There are no timezone switches yet, nothing special going on:
# Current time: 3 Nov, 02:23:55 Chatham
# Expected time: 3 Nov, 02:43:13 Chatham
assert job.next_run.day == 3
assert job.next_run.hour == 2
assert job.next_run.minute == 43 # Within the fold, first occurrence
assert job.next_run.second == 13
with mock_datetime(2024, 11, 3, 2, 23, 55, TZ_CHATHAM, fold=1):
# Time is during the fold. Local time has moved back 1 hour, this is
# the second occurrence of the 02:23 time.
job.run()
# Current time: 3 Nov, 02:23:55 Chatham
# Expected time: 3 Nov, 02:43:13 Chatham
assert job.next_run.day == 3
assert job.next_run.hour == 2
assert job.next_run.minute == 43
assert job.next_run.second == 13
with mock_datetime(2025, 3, 9, 19, 00, 00, TZ_CHATHAM):
# Time is right before Newfoundland enters DST
# At 02:00, the remote clock will move forward 1 hour
job.run()
# Current time: 9 March, 19:00:00 Chatham (UTC +13:45)
# Current time: 9 March, 01:45:00 Newfoundland (UTC -3:30)
# Expected time: 9 March, 03:05:13 Newfoundland (UTC -2:30)
# Expected time 9 March, 19:20:13 Chatham (UTC +13:45)