:mod:`sched` --- Event scheduler ================================ .. module:: sched :synopsis: General purpose event scheduler. .. sectionauthor:: Moshe Zadka .. index:: single: event scheduling **Source code:** :source:`Lib/sched.py` -------------- The :mod:`sched` module defines a class which implements a general purpose event scheduler: .. class:: scheduler(timefunc=time.time, delayfunc=time.sleep) The :class:`scheduler` class defines a generic interface to scheduling events. It needs two functions to actually deal with the "outside world" --- *timefunc* should be callable without arguments, and return a number (the "time", in any units whatsoever). The *delayfunc* function should be callable with one argument, compatible with the output of *timefunc*, and should delay that many time units. *delayfunc* will also be called with the argument ``0`` after each event is run to allow other threads an opportunity to run in multi-threaded applications. .. versionchanged:: 3.3 *timefunc* and *delayfunc* parameters are optional. Example:: >>> import sched, time >>> s = sched.scheduler(time.time, time.sleep) >>> def print_time(): print("From print_time", time.time()) ... >>> def print_some_times(): ... print(time.time()) ... s.enter(5, 1, print_time, ()) ... s.enter(10, 1, print_time, ()) ... s.run() ... print(time.time()) ... >>> print_some_times() 930343690.257 From print_time 930343695.274 From print_time 930343700.273 930343700.276 In multi-threaded environments, the :class:`scheduler` class has limitations with respect to thread-safety, inability to insert a new task before the one currently pending in a running scheduler, and holding up the main thread until the event queue is empty. Instead, the preferred approach is to use the :class:`threading.Timer` class instead. Example:: >>> import time >>> from threading import Timer >>> def print_time(): ... print("From print_time", time.time()) ... >>> def print_some_times(): ... print(time.time()) ... Timer(5, print_time, ()).start() ... Timer(10, print_time, ()).start() ... time.sleep(11) # sleep while time-delay events execute ... print(time.time()) ... >>> print_some_times() 930343690.257 From print_time 930343695.274 From print_time 930343700.273 930343701.301 .. _scheduler-objects: Scheduler Objects ----------------- :class:`scheduler` instances have the following methods and attributes: .. method:: scheduler.enterabs(time, priority, action, argument=[], kwargs={}) Schedule a new event. The *time* argument should be a numeric type compatible with the return value of the *timefunc* function passed to the constructor. Events scheduled for the same *time* will be executed in the order of their *priority*. Executing the event means executing ``action(*argument, **kwargs)``. *argument* must be a sequence holding the parameters for *action*. *kwargs* must be a dictionary holding the keyword parameters for *action*. Return value is an event which may be used for later cancellation of the event (see :meth:`cancel`). .. versionchanged:: 3.3 *argument* parameter is optional. .. versionadded:: 3.3 *kwargs* parameter was added. .. method:: scheduler.enter(delay, priority, action, argument=[], kwargs={}) Schedule an event for *delay* more time units. Other than the relative time, the other arguments, the effect and the return value are the same as those for :meth:`enterabs`. .. versionchanged:: 3.3 *argument* parameter is optional. .. versionadded:: 3.3 *kwargs* parameter was added. .. method:: scheduler.cancel(event) Remove the event from the queue. If *event* is not an event currently in the queue, this method will raise a :exc:`ValueError`. .. method:: scheduler.empty() Return true if the event queue is empty. .. method:: scheduler.run() Run all scheduled events. This function will wait (using the :func:`delayfunc` function passed to the constructor) for the next event, then execute it and so on until there are no more scheduled events. Either *action* or *delayfunc* can raise an exception. In either case, the scheduler will maintain a consistent state and propagate the exception. If an exception is raised by *action*, the event will not be attempted in future calls to :meth:`run`. If a sequence of events takes longer to run than the time available before the next event, the scheduler will simply fall behind. No events will be dropped; the calling code is responsible for canceling events which are no longer pertinent. .. attribute:: scheduler.queue Read-only attribute returning a list of upcoming events in the order they will be run. Each event is shown as a :term:`named tuple` with the following fields: time, priority, action, argument.