Doc/library/sched.rst - platform/external/python/cpython3 - Gitiles

 :mod:`sched` --- Event scheduler
 ================================

 .. module:: sched
    :synopsis: General purpose event scheduler.
 .. sectionauthor:: Moshe Zadka <moshez@zadka.site.co.il>

 .. index:: single: event scheduling

 The :mod:`sched` module defines a class which implements a general purpose event
 scheduler:


 .. class:: scheduler(timefunc, delayfunc)

    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.

 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)

    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)``.  *argument* must be a
    sequence holding the parameters for *action*.

    Return value is an event which may be used for later cancellation of the event
    (see :meth:`cancel`).


 .. method:: scheduler.enter(delay, priority, action, argument)

    Schedule an event for *delay* more time units. Other then the relative time, the
    other arguments, the effect and the return value are the same as those for
    :meth:`enterabs`.


 .. 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.
	:mod:`sched` --- Event scheduler
	================================

	.. module:: sched
	:synopsis: General purpose event scheduler.
	.. sectionauthor:: Moshe Zadka <moshez@zadka.site.co.il>

	.. index:: single: event scheduling

	The :mod:`sched` module defines a class which implements a general purpose event
	scheduler:


	.. class:: scheduler(timefunc, delayfunc)

	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.

	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)

	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)``. argument* must be a
	sequence holding the parameters for action.

	Return value is an event which may be used for later cancellation of the event
	(see :meth:`cancel`).


	.. method:: scheduler.enter(delay, priority, action, argument)

	Schedule an event for delay more time units. Other then the relative time, the
	other arguments, the effect and the return value are the same as those for
	:meth:`enterabs`.


	.. 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.