python-telegram-bot/telegram/ext/jobqueue.py

#!/usr/bin/env python
#
# A library that provides a Python interface to the Telegram Bot API
# Copyright (C) 2015-2016
# Leandro Toledo de Souza <devs@python-telegram-bot.org>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU Lesser Public License for more details.
#
# You should have received a copy of the GNU Lesser Public License
# along with this program.  If not, see [http://www.gnu.org/licenses/].
"""This module contains the classes JobQueue and Job."""

import logging
import time
import warnings
import datetime
from numbers import Number
from threading import Thread, Lock, Event
from queue import PriorityQueue, Empty


class Days(object):
    MON, TUE, WED, THU, FRI, SAT, SUN = range(7)
    EVERY_DAY = tuple(range(7))


class JobQueue(object):
    """This class allows you to periodically perform tasks with the bot.

    Attributes:
        queue (PriorityQueue):
        bot (telegram.Bot):

    Args:
        bot (telegram.Bot): The bot instance that should be passed to the jobs

    Deprecated: 5.2
        prevent_autostart (Optional[bool]): Thread does not start during initialisation.
        Use `start` method instead.
    """

    def __init__(self, bot, prevent_autostart=None):
        if prevent_autostart is not None:
            warnings.warn("prevent_autostart is being deprecated, use `start` method instead.")

        self.queue = PriorityQueue()
        self.bot = bot
        self.logger = logging.getLogger(self.__class__.__name__)
        self.__start_lock = Lock()
        self.__next_peek_lock = Lock()  # to protect self._next_peek & self.__tick
        self.__tick = Event()
        self.__thread = None
        """:type: Thread"""
        self._next_peek = None
        """:type: float"""
        self._running = False

    def put(self, job, next_t=None):
        """Queue a new job.

        Args:
            job (telegram.ext.Job): The ``Job`` instance representing the new job
            next_t (Optional[int, float, datetime.timedelta, datetime.datetime, datetime.time]):
                Time in or at which the job should be executed first. Defaults to ``job.interval``.
                If it is an ``int`` or a ``float``, it will be interpreted as seconds. If it is
                a ``datetime.datetime``, it will be executed at the specified date and time. If it
                is a ``datetime.time``, it will execute at the specified time today or, if the time
                has already passed, tomorrow.

        """
        job.job_queue = self

        if next_t is None:
            interval = job.interval

            if isinstance(interval, Number):
                next_t = interval
            elif isinstance(interval, datetime.timedelta):
                next_t = interval.total_seconds()
            else:
                raise ValueError("The interval argument should be of type datetime.timedelta,"
                                 " int or float")

        elif isinstance(next_t, datetime.datetime):
            next_t = next_t - datetime.datetime.now()

        elif isinstance(next_t, datetime.time):
            next_datetime = datetime.datetime.combine(datetime.date.today(), next_t)

            if datetime.datetime.now().time() > next_t:
                next_datetime += datetime.timedelta(days=1)

            next_t = next_datetime - datetime.datetime.now()

        if isinstance(next_t, datetime.timedelta):
            next_t = next_t.total_seconds()

        now = time.time()
        next_t += now

        self.logger.debug('Putting job %s with t=%f', job.name, next_t)
        self.queue.put((next_t, job))

        # Wake up the loop if this job should be executed next
        self._set_next_peek(next_t)

    def _set_next_peek(self, t):
        """
        Set next peek if not defined or `t` is before next peek.
        In case the next peek was set, also trigger the `self.__tick` event.

        """
        with self.__next_peek_lock:
            if not self._next_peek or self._next_peek > t:
                self._next_peek = t
                self.__tick.set()

    def tick(self):
        """
        Run all jobs that are due and re-enqueue them with their interval.

        """
        now = time.time()

        self.logger.debug('Ticking jobs with t=%f', now)

        while True:
            try:
                t, job = self.queue.get(False)
            except Empty:
                break

            self.logger.debug('Peeked at %s with t=%f', job.name, t)

            if t > now:
                # we can get here in two conditions:
                # 1. At the second or later pass of the while loop, after we've already processed
                #    the job(s) we were supposed to at this time.
                # 2. At the first iteration of the loop only if `self.put()` had triggered
                #    `self.__tick` because `self._next_peek` wasn't set
                self.logger.debug("Next task isn't due yet. Finished!")
                self.queue.put((t, job))
                self._set_next_peek(t)
                break

            if job._remove.is_set():
                self.logger.debug('Removing job %s', job.name)
                continue

            if job.enabled:
                try:
                    current_week_day = datetime.datetime.now().weekday()
                    if any(day == current_week_day for day in job.days):
                        self.logger.debug('Running job %s', job.name)
                        job.run(self.bot)
                except:
                    self.logger.exception('An uncaught error was raised while executing job %s',
                                          job.name)

            else:
                self.logger.debug('Skipping disabled job %s', job.name)

            if job.repeat:
                self.put(job)

    def start(self):
        """
        Starts the job_queue thread.

        """
        self.__start_lock.acquire()

        if not self._running:
            self._running = True
            self.__start_lock.release()
            self.__thread = Thread(target=self._main_loop, name="job_queue")
            self.__thread.start()
            self.logger.debug('%s thread started', self.__class__.__name__)

        else:
            self.__start_lock.release()

    def _main_loop(self):
        """
        Thread target of thread ``job_queue``. Runs in background and performs ticks on the job
        queue.

        """
        while self._running:
            # self._next_peek may be (re)scheduled during self.tick() or self.put()
            with self.__next_peek_lock:
                tmout = self._next_peek and self._next_peek - time.time()
                self._next_peek = None
                self.__tick.clear()

            self.__tick.wait(tmout)

            # If we were woken up by self.stop(), just bail out
            if not self._running:
                break

            self.tick()

        self.logger.debug('%s thread stopped', self.__class__.__name__)

    def stop(self):
        """
        Stops the thread
        """
        with self.__start_lock:
            self._running = False

        self.__tick.set()
        if self.__thread is not None:
            self.__thread.join()

    def jobs(self):
        """Returns a tuple of all jobs that are currently in the ``JobQueue``"""
        return tuple(job[1] for job in self.queue.queue if job)


class Job(object):
    """This class encapsulates a Job

    Attributes:
        callback (function):
        interval (float):
        days: (tuple)
        repeat (bool):
        name (str):
        enabled (bool): Boolean property that decides if this job is currently active

    Args:
        callback (function): The callback function that should be executed by the Job. It should
            take two parameters ``bot`` and ``job``, where ``job`` is the ``Job`` instance. It
            can be used to terminate the job or modify its interval.
        interval (Optional[int, float, datetime.timedelta]): The interval in which the job will
            execute its callback function. ``int`` and ``float`` will be interpreted as seconds.
            If you don't set this value, you must set ``repeat=False`` and specify ``next_t`` when
            you put the job into the job queue.
        repeat (Optional[bool]): If this job should be periodically execute its callback function
            (``True``) or only once (``False``). Defaults to ``True``
        context (Optional[object]): Additional data needed for the callback function. Can be
            accessed through ``job.context`` in the callback. Defaults to ``None``
        days (Tuple): Defines on which days the job should be ran.

    """
    job_queue = None

    def __init__(self, callback, interval=None, repeat=True, context=None, days=Days.EVERY_DAY):
        self.callback = callback
        self.interval = interval
        self.repeat = repeat
        self.context = context

        if not isinstance(days, tuple):
            raise ValueError("The 'days argument should be of type 'tuple'")

        if not all(isinstance(day, int) for day in days):
            raise ValueError("The elements of the 'days' argument should be of type 'int'")

        if not all(0 <= day <= 6 for day in days):
            raise ValueError("The elements of the 'days' argument should be from 0 up to and "
                             "including 6")

        if interval is None and repeat:
            raise ValueError("You must either set an interval or set 'repeat' to 'False'")

        self.days = days
        self.name = callback.__name__
        self._remove = Event()
        self._enabled = Event()
        self._enabled.set()

    def run(self, bot):
        """Executes the callback function"""
        self.callback(bot, self)

    def schedule_removal(self):
        """
        Schedules this job for removal from the ``JobQueue``. It will be removed without executing
        its callback function again.

        """
        self._remove.set()

    def is_enabled(self):
        return self._enabled.is_set()

    def set_enabled(self, status):
        if status:
            self._enabled.set()
        else:
            self._enabled.clear()

    enabled = property(is_enabled, set_enabled)

    def __lt__(self, other):
        return False