Introduction ============ .. contents:: croniter provides iteration for the datetime object with a cron like format. :: _ _ ___ _ __ ___ _ __ (_) |_ ___ _ __ / __| '__/ _ \| '_ \| | __/ _ \ '__| | (__| | | (_) | | | | | || __/ | \___|_| \___/|_| |_|_|\__\___|_| Website: https://github.com/kiorky/croniter Build Badge =========== .. image:: https://github.com/kiorky/croniter/actions/workflows/cicd.yml/badge.svg :target: https://github.com/kiorky/croniter/actions/workflows/cicd.yml Usage ============ A simple example:: >>> from croniter import croniter >>> from datetime import datetime >>> base = datetime(2010, 1, 25, 4, 46) >>> iter = croniter('*/5 * * * *', base) # every 5 minutes >>> print(iter.get_next(datetime)) # 2010-01-25 04:50:00 >>> print(iter.get_next(datetime)) # 2010-01-25 04:55:00 >>> print(iter.get_next(datetime)) # 2010-01-25 05:00:00 >>> >>> iter = croniter('2 4 * * mon,fri', base) # 04:02 on every Monday and Friday >>> print(iter.get_next(datetime)) # 2010-01-26 04:02:00 >>> print(iter.get_next(datetime)) # 2010-01-30 04:02:00 >>> print(iter.get_next(datetime)) # 2010-02-02 04:02:00 >>> >>> iter = croniter('2 4 1 * wed', base) # 04:02 on every Wednesday OR on 1st day of month >>> print(iter.get_next(datetime)) # 2010-01-27 04:02:00 >>> print(iter.get_next(datetime)) # 2010-02-01 04:02:00 >>> print(iter.get_next(datetime)) # 2010-02-03 04:02:00 >>> >>> iter = croniter('2 4 1 * wed', base, day_or=False) # 04:02 on every 1st day of the month if it is a Wednesday >>> print(iter.get_next(datetime)) # 2010-09-01 04:02:00 >>> print(iter.get_next(datetime)) # 2010-12-01 04:02:00 >>> print(iter.get_next(datetime)) # 2011-06-01 04:02:00 >>> >>> iter = croniter('0 0 * * sat#1,sun#2', base) # 1st Saturday, and 2nd Sunday of the month >>> print(iter.get_next(datetime)) # 2010-02-06 00:00:00 >>> >>> iter = croniter('0 0 * * 5#3,L5', base) # 3rd and last Friday of the month >>> print(iter.get_next(datetime)) # 2010-01-29 00:00:00 >>> print(iter.get_next(datetime)) # 2010-02-19 00:00:00 All you need to know is how to use the constructor and the ``get_next`` method, the signature of these methods are listed below:: >>> def __init__(self, cron_format, start_time=time.time(), day_or=True) croniter iterates along with ``cron_format`` from ``start_time``. ``cron_format`` is **min hour day month day_of_week**, you can refer to http://en.wikipedia.org/wiki/Cron for more details. The ``day_or`` switch is used to control how croniter handles **day** and **day_of_week** entries. Default option is the cron behaviour, which connects those values using **OR**. If the switch is set to False, the values are connected using **AND**. This behaves like fcron and enables you to e.g. define a job that executes each 2nd Friday of a month by setting the days of month and the weekday. :: >>> def get_next(self, ret_type=float) get_next calculates the next value according to the cron expression and returns an object of type ``ret_type``. ``ret_type`` should be a ``float`` or a ``datetime`` object. Supported added for ``get_prev`` method. (>= 0.2.0):: >>> base = datetime(2010, 8, 25) >>> itr = croniter('0 0 1 * *', base) >>> print(itr.get_prev(datetime)) # 2010-08-01 00:00:00 >>> print(itr.get_prev(datetime)) # 2010-07-01 00:00:00 >>> print(itr.get_prev(datetime)) # 2010-06-01 00:00:00 You can validate your crons using ``is_valid`` class method. (>= 0.3.18):: >>> croniter.is_valid('0 0 1 * *') # True >>> croniter.is_valid('0 wrong_value 1 * *') # False About DST ========= Be sure to init your croniter instance with a TZ aware datetime for this to work! Example using pytz:: >>> import pytz >>> tz = pytz.timezone("Europe/Paris") >>> local_date = tz.localize(datetime(2017, 3, 26)) >>> val = croniter('0 0 * * *', local_date).get_next(datetime) Example using python_dateutil:: >>> import dateutil.tz >>> tz = dateutil.tz.gettz('Asia/Tokyo') >>> local_date = datetime(2017, 3, 26, tzinfo=tz) >>> val = croniter('0 0 * * *', local_date).get_next(datetime) Example using python built in module:: >>> from datetime import datetime, timezone >>> local_date = datetime(2017, 3, 26, tzinfo=timezone.utc) >>> val = croniter('0 0 * * *', local_date).get_next(datetime) About second repeats ===================== Croniter is able to do second repetition crontabs form:: >>> croniter('* * * * * 1', local_date).get_next(datetime) >>> base = datetime(2012, 4, 6, 13, 26, 10) >>> itr = croniter('* * * * * 15,25', base) >>> itr.get_next(datetime) # 4/6 13:26:15 >>> itr.get_next(datetime) # 4/6 13:26:25 >>> itr.get_next(datetime) # 4/6 13:27:15 You can also note that this expression will repeat every second from the start datetime.:: >>> croniter('* * * * * *', local_date).get_next(datetime) Testing if a date matches a crontab =================================== Test for a match with (>=0.3.32):: >>> croniter.match("0 0 * * *", datetime(2019, 1, 14, 0, 0, 0, 0)) True >>> croniter.match("0 0 * * *", datetime(2019, 1, 14, 0, 2, 0, 0)) False >>> >>> croniter.match("2 4 1 * wed", datetime(2019, 1, 1, 4, 2, 0, 0)) # 04:02 on every Wednesday OR on 1st day of month True >>> croniter.match("2 4 1 * wed", datetime(2019, 1, 1, 4, 2, 0, 0), day_or=False) # 04:02 on every 1st day of the month if it is a Wednesday False Gaps between date matches ========================= For performance reasons, croniter limits the amount of CPU cycles spent attempting to find the next match. Starting in v0.3.35, this behavior is configurable via the ``max_years_between_matches`` parameter, and the default window has been increased from 1 year to 50 years. The defaults should be fine for many use cases. Applications that evaluate multiple cron expressions or handle cron expressions from untrusted sources or end-users should use this parameter. Iterating over sparse cron expressions can result in increased CPU consumption or a raised ``CroniterBadDateError`` exception which indicates that croniter has given up attempting to find the next (or previous) match. Explicitly specifying ``max_years_between_matches`` provides a way to limit CPU utilization and simplifies the iterable interface by eliminating the need for ``CroniterBadDateError``. The difference in the iterable interface is based on the reasoning that whenever ``max_years_between_matches`` is explicitly agreed upon, there is no need for croniter to signal that it has given up; simply stopping the iteration is preferable. This example matches 4 AM Friday, January 1st. Since January 1st isn't often a Friday, there may be a few years between each occurrence. Setting the limit to 15 years ensures all matches:: >>> it = croniter("0 4 1 1 fri", datetime(2000,1,1), day_or=False, max_years_between_matches=15).all_next(datetime) >>> for i in range(5): ... print(next(it)) ... 2010-01-01 04:00:00 2016-01-01 04:00:00 2021-01-01 04:00:00 2027-01-01 04:00:00 2038-01-01 04:00:00 However, when only concerned with dates within the next 5 years, simply set ``max_years_between_matches=5`` in the above example. This will result in no matches found, but no additional cycles will be wasted on unwanted matches far in the future. Iterating over a range using cron ================================= Find matches within a range using the ``croniter_range()`` function. This is much like the builtin ``range(start,stop,step)`` function, but for dates. The `step` argument is a cron expression. Added in (>=0.3.34) List the first Saturday of every month in 2019:: >>> from croniter import croniter_range >>> for dt in croniter_range(datetime(2019, 1, 1), datetime(2019, 12, 31), "0 0 * * sat#1"): >>> print(dt) Hashed expressions ================== croniter supports Jenkins-style hashed expressions, using the "H" definition keyword and the required hash_id keyword argument. Hashed expressions remain consistent, given the same hash_id, but different hash_ids will evaluate completely different to each other. This allows, for example, for an even distribution of differently-named jobs without needing to manually spread them out. >>> itr = croniter("H H * * *", hash_id="hello") >>> itr.get_next(datetime) datetime.datetime(2021, 4, 10, 11, 10) >>> itr.get_next(datetime) datetime.datetime(2021, 4, 11, 11, 10) >>> itr = croniter("H H * * *", hash_id="hello") >>> itr.get_next(datetime) datetime.datetime(2021, 4, 10, 11, 10) >>> itr = croniter("H H * * *", hash_id="bonjour") >>> itr.get_next(datetime) datetime.datetime(2021, 4, 10, 20, 52) Random expressions ================== Random "R" definition keywords are supported, and remain consistent only within their croniter() instance. >>> itr = croniter("R R * * *") >>> itr.get_next(datetime) datetime.datetime(2021, 4, 10, 22, 56) >>> itr.get_next(datetime) datetime.datetime(2021, 4, 11, 22, 56) >>> itr = croniter("R R * * *") >>> itr.get_next(datetime) datetime.datetime(2021, 4, 11, 4, 19) Keyword expressions =================== Vixie cron-style "@" keyword expressions are supported. What they evaluate to depends on whether you supply hash_id: no hash_id corresponds to Vixie cron definitions (exact times, minute resolution), while with hash_id corresponds to Jenkins definitions (hashed within the period, second resolution). ============ ============ ================ Keyword No hash_id With hash_id ============ ============ ================ @midnight 0 0 * * * H H(0-2) * * * H @hourly 0 * * * * H * * * * H @daily 0 0 * * * H H * * * H @weekly 0 0 * * 0 H H * * H H @monthly 0 0 1 * * H H H * * H @yearly 0 0 1 1 * H H H H * H @annually 0 0 1 1 * H H H H * H ============ ============ ================ Develop this package ==================== :: git clone https://github.com/kiorky/croniter.git cd croniter virtualenv --no-site-packages venv . venv/bin/activate pip install --upgrade -r requirements/test.txt py.test src Make a new release ==================== We use zest.fullreleaser, a great release infrastructure. Do and follow these instructions :: . venv/bin/activate pip install --upgrade -r requirements/release.txt ./release.sh Contributors =============== Thanks to all who have contributed to this project! If you have contributed and your name is not listed below please let me know. - mrmachine - Hinnack - shazow - kiorky - jlsandell - mag009 - djmitche - GreatCombinator - chris-baynes - ipartola - yuzawa-san - lowell80 (Kintyre) - scop - zed2015 - Ryan Finnie (rfinnie)