# -*- coding: utf-8 -*- import threading import sys import six from six import string_types # Python3 queue support. try: import Queue except ImportError: import queue as Queue from telebot import logger class WorkerThread(threading.Thread): count = 0 def __init__(self, exception_callback=None, queue=None, name=None): if not name: name = "WorkerThread{0}".format(self.__class__.count + 1) self.__class__.count += 1 if not queue: queue = Queue.Queue() threading.Thread.__init__(self, name=name) self.queue = queue self.daemon = True self.received_task_event = threading.Event() self.done_event = threading.Event() self.exception_event = threading.Event() self.continue_event = threading.Event() self.exception_callback = exception_callback self.exc_info = None self._running = True self.start() def run(self): while self._running: try: task, args, kwargs = self.queue.get(block=True, timeout=.5) self.continue_event.clear() self.received_task_event.clear() self.done_event.clear() self.exception_event.clear() logger.debug("Received task") self.received_task_event.set() task(*args, **kwargs) logger.debug("Task complete") self.done_event.set() except Queue.Empty: pass except: logger.debug("Exception occurred") self.exc_info = sys.exc_info() self.exception_event.set() if self.exception_callback: self.exception_callback(self, self.exc_info) self.continue_event.wait() def put(self, task, *args, **kwargs): self.queue.put((task, args, kwargs)) def raise_exceptions(self): if self.exception_event.is_set(): six.reraise(self.exc_info[0], self.exc_info[1], self.exc_info[2]) def clear_exceptions(self): self.exception_event.clear() self.continue_event.set() def stop(self): self._running = False class ThreadPool: def __init__(self, num_threads=2): self.tasks = Queue.Queue() self.workers = [WorkerThread(self.on_exception, self.tasks) for _ in range(num_threads)] self.num_threads = num_threads self.exception_event = threading.Event() self.exc_info = None def put(self, func, *args, **kwargs): self.tasks.put((func, args, kwargs)) def on_exception(self, worker_thread, exc_info): self.exc_info = exc_info self.exception_event.set() worker_thread.continue_event.set() def raise_exceptions(self): if self.exception_event.is_set(): six.reraise(self.exc_info[0], self.exc_info[1], self.exc_info[2]) def clear_exceptions(self): self.exception_event.clear() def close(self): for worker in self.workers: worker.stop() for worker in self.workers: worker.join() class AsyncTask: def __init__(self, target, *args, **kwargs): self.target = target self.args = args self.kwargs = kwargs self.done = False self.thread = threading.Thread(target=self._run) self.thread.start() def _run(self): try: self.result = self.target(*self.args, **self.kwargs) except: self.result = sys.exc_info() self.done = True def wait(self): if not self.done: self.thread.join() if isinstance(self.result, BaseException): six.reraise(self.result[0], self.result[1], self.result[2]) else: return self.result def async(): def decorator(fn): def wrapper(*args, **kwargs): return AsyncTask(fn, *args, **kwargs) return wrapper return decorator def is_string(var): return isinstance(var, string_types) def is_command(text): """ Checks if `text` is a command. Telegram chat commands start with the '/' character. :param text: Text to check. :return: True if `text` is a command, else False. """ return text.startswith('/') def extract_command(text): """ Extracts the command from `text` (minus the '/') if `text` is a command (see is_command). If `text` is not a command, this function returns None. Examples: extract_command('/help'): 'help' extract_command('/help@BotName'): 'help' extract_command('/search black eyed peas'): 'search' extract_command('Good day to you'): None :param text: String to extract the command from :return: the command if `text` is a command (according to is_command), else None. """ return text.split()[0].split('@')[0][1:] if is_command(text) else None def split_string(text, chars_per_string): """ Splits one string into multiple strings, with a maximum amount of `chars_per_string` characters per string. This is very useful for splitting one giant message into multiples. :param text: The text to split :param chars_per_string: The number of characters per line the text is split into. :return: The splitted text as a list of strings. """ return [text[i:i + chars_per_string] for i in range(0, len(text), chars_per_string)] # CREDITS TO http://stackoverflow.com/questions/12317940#answer-12320352 def or_set(self): self._set() self.changed() def or_clear(self): self._clear() self.changed() def orify(e, changed_callback): e._set = e.set e._clear = e.clear e.changed = changed_callback e.set = lambda: or_set(e) e.clear = lambda: or_clear(e) def OrEvent(*events): or_event = threading.Event() def changed(): bools = [e.is_set() for e in events] if any(bools): or_event.set() else: or_event.clear() def busy_wait(): while not or_event.is_set(): or_event._wait(3) for e in events: orify(e, changed) or_event._wait = or_event.wait or_event.wait = busy_wait changed() return or_event def extract_arguments(text): """ Returns the argument after the command. Examples: extract_arguments("/get name"): 'name' extract_arguments("/get"): '' extract_arguments("/get@botName name"): 'name' :param text: String to extract the arguments from a command :return: the arguments if `text` is a command (according to is_command), else None. """ regexp = re.compile("\/\w*(@\w*)*\s*([\s\S]*)",re.IGNORECASE) result = regexp.match(text) return result.group(2) if is_command(text) else None