This document describes the current stable version of Celery (5.2). For development docs, go here.
celery.schedules
¶
Schedules define the intervals at which periodic tasks run.
- exception celery.schedules.ParseException[source]¶
Raised by
crontab_parser
when the input can’t be parsed.
- class celery.schedules.crontab(minute='*', hour='*', day_of_week='*', day_of_month='*', month_of_year='*', **kwargs)[source]¶
Crontab schedule.
A Crontab can be used as the
run_every
value of a periodic task entry to add crontab(5)-like scheduling.Like a cron(5)-job, you can specify units of time of when you’d like the task to execute. It’s a reasonably complete implementation of cron’s features, so it should provide a fair degree of scheduling needs.
You can specify a minute, an hour, a day of the week, a day of the month, and/or a month in the year in any of the following formats:
- minute¶
A (list of) integers from 0-59 that represent the minutes of an hour of when execution should occur; or
A string representing a Crontab pattern. This may get pretty advanced, like
minute='*/15'
(for every quarter) orminute='1,13,30-45,50-59/2'
.
- hour¶
A (list of) integers from 0-23 that represent the hours of a day of when execution should occur; or
A string representing a Crontab pattern. This may get pretty advanced, like
hour='*/3'
(for every three hours) orhour='0,8-17/2'
(at midnight, and every two hours during office hours).
- day_of_week¶
A (list of) integers from 0-6, where Sunday = 0 and Saturday = 6, that represent the days of a week that execution should occur.
A string representing a Crontab pattern. This may get pretty advanced, like
day_of_week='mon-fri'
(for weekdays only). (Beware thatday_of_week='*/2'
does not literally mean ‘every two days’, but ‘every day that is divisible by two’!)
- day_of_month¶
A (list of) integers from 1-31 that represents the days of the month that execution should occur.
A string representing a Crontab pattern. This may get pretty advanced, such as
day_of_month='2-30/2'
(for every even numbered day) orday_of_month='1-7,15-21'
(for the first and third weeks of the month).
- month_of_year¶
A (list of) integers from 1-12 that represents the months of the year during which execution can occur.
A string representing a Crontab pattern. This may get pretty advanced, such as
month_of_year='*/3'
(for the first month of every quarter) ormonth_of_year='2-12/2'
(for every even numbered month).
- app¶
The Celery app instance.
It’s important to realize that any day on which execution should occur must be represented by entries in all three of the day and month attributes. For example, if
day_of_week
is 0 andday_of_month
is every seventh day, only months that begin on Sunday and are also in themonth_of_year
attribute will have execution events. Or,day_of_week
is 1 andday_of_month
is ‘1-7,15-21’ means every first and third Monday of every month present inmonth_of_year
.- is_due(last_run_at)[source]¶
Return tuple of
(is_due, next_time_to_run)
.Note
Next time to run is in seconds.
- SeeAlso:
celery.schedules.schedule.is_due()
for more information.
- class celery.schedules.crontab_parser(max_=60, min_=0)[source]¶
Parser for Crontab expressions.
Any expression of the form ‘groups’ (see BNF grammar below) is accepted and expanded to a set of numbers. These numbers represent the units of time that the Crontab needs to run on:
digit :: '0'..'9' dow :: 'a'..'z' number :: digit+ | dow+ steps :: number range :: number ( '-' number ) ? numspec :: '*' | range expr :: numspec ( '/' steps ) ? groups :: expr ( ',' expr ) *
The parser is a general purpose one, useful for parsing hours, minutes and day of week expressions. Example usage:
>>> minutes = crontab_parser(60).parse('*/15') [0, 15, 30, 45] >>> hours = crontab_parser(24).parse('*/4') [0, 4, 8, 12, 16, 20] >>> day_of_week = crontab_parser(7).parse('*') [0, 1, 2, 3, 4, 5, 6]
It can also parse day of month and month of year expressions if initialized with a minimum of 1. Example usage:
>>> days_of_month = crontab_parser(31, 1).parse('*/3') [1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31] >>> months_of_year = crontab_parser(12, 1).parse('*/2') [1, 3, 5, 7, 9, 11] >>> months_of_year = crontab_parser(12, 1).parse('2-12/2') [2, 4, 6, 8, 10, 12]
The maximum possible expanded value returned is found by the formula:
- exception ParseException¶
Raised by
crontab_parser
when the input can’t be parsed.
- celery.schedules.maybe_schedule(s, relative=False, app=None)[source]¶
Return schedule from number, timedelta, or actual schedule.
- class celery.schedules.schedule(run_every=None, relative=False, nowfun=None, app=None)[source]¶
Schedule for periodic task.
- Parameters:
- property human_seconds¶
- is_due(last_run_at)[source]¶
Return tuple of
(is_due, next_time_to_check)
.Notes
next time to check is in seconds.
(True, 20)
, means the task should be run now, and the nexttime to check is in 20 seconds.
(False, 12.3)
, means the task is not due, but that the scheduler should check again in 12.3 seconds.
The next time to check is used to save energy/CPU cycles, it does not need to be accurate but will influence the precision of your schedule. You must also keep in mind the value of
beat_max_loop_interval
, that decides the maximum number of seconds the scheduler can sleep between re-checking the periodic task intervals. So if you have a task that changes schedule at run-time then your next_run_at check will decide how long it will take before a change to the schedule takes effect. The max loop interval takes precedence over the next check at value returned.Scheduler max interval variance
The default max loop interval may vary for different schedulers. For the default scheduler the value is 5 minutes, but for example the django-celery-beat database scheduler the value is 5 seconds.
- relative = False¶
- property seconds¶
- class celery.schedules.solar(event, lat, lon, **kwargs)[source]¶
Solar event.
A solar event can be used as the
run_every
value of a periodic task entry to schedule based on certain solar events.Notes
Available event valus are:
dawn_astronomical
dawn_nautical
dawn_civil
sunrise
solar_noon
sunset
dusk_civil
dusk_nautical
dusk_astronomical
- Parameters:
- is_due(last_run_at)[source]¶
Return tuple of
(is_due, next_time_to_run)
.Note
next time to run is in seconds.
See also
celery.schedules.schedule.is_due()
for more information.