# -*- coding: utf-8 -*- # Copyright (C) 2013 Yahoo! Inc. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import collections import multiprocessing import sys import threading import six from six.moves import _thread if sys.version_info[0:2] == (2, 6): # This didn't return that was/wasn't set in 2.6, since we actually care # whether it did or didn't add that feature by taking the code from 2.7 # that added this functionality... # # TODO(harlowja): remove when we can drop 2.6 support. class Event(threading._Event): def wait(self, timeout=None): self.__cond.acquire() try: if not self.__flag: self.__cond.wait(timeout) return self.__flag finally: self.__cond.release() else: Event = threading.Event def is_alive(thread): """Helper to determine if a thread is alive (handles none safely).""" if not thread: return False return thread.is_alive() def get_ident(): """Return the 'thread identifier' of the current thread.""" return _thread.get_ident() def get_optimal_thread_count(): """Try to guess optimal thread count for current system.""" try: return multiprocessing.cpu_count() + 1 except NotImplementedError: # NOTE(harlowja): apparently may raise so in this case we will # just setup two threads since it's hard to know what else we # should do in this situation. return 2 def daemon_thread(target, *args, **kwargs): """Makes a daemon thread that calls the given target when started.""" thread = threading.Thread(target=target, args=args, kwargs=kwargs) # NOTE(skudriashev): When the main thread is terminated unexpectedly # and thread is still alive - it will prevent main thread from exiting # unless the daemon property is set to True. thread.daemon = True return thread # Container for thread creator + associated callbacks. _ThreadBuilder = collections.namedtuple('_ThreadBuilder', ['thread_factory', 'before_start', 'after_start', 'before_join', 'after_join']) _ThreadBuilder.callables = tuple([ # Attribute name -> none allowed as a valid value... ('thread_factory', False), ('before_start', True), ('after_start', True), ('before_join', True), ('after_join', True), ]) class ThreadBundle(object): """A group/bundle of threads that start/stop together.""" def __init__(self): self._threads = [] self._lock = threading.Lock() def bind(self, thread_factory, before_start=None, after_start=None, before_join=None, after_join=None): """Adds a thread (to-be) into this bundle (with given callbacks). NOTE(harlowja): callbacks provided should not attempt to call mutating methods (:meth:`.stop`, :meth:`.start`, :meth:`.bind` ...) on this object as that will result in dead-lock since the lock on this object is not meant to be (and is not) reentrant... """ builder = _ThreadBuilder(thread_factory, before_start, after_start, before_join, after_join) for attr_name, none_allowed in builder.callables: cb = getattr(builder, attr_name) if cb is None and none_allowed: continue if not six.callable(cb): raise ValueError("Provided callback for argument" " '%s' must be callable" % attr_name) with self._lock: self._threads.append([ builder, # The built thread. None, # Whether the built thread was started (and should have # ran or still be running). False, ]) @staticmethod def _trigger_callback(callback, thread): if callback is not None: callback(thread) def start(self): """Creates & starts all associated threads (that are not running).""" count = 0 with self._lock: for i, (builder, thread, started) in enumerate(self._threads): if thread and started: continue if not thread: self._threads[i][1] = thread = builder.thread_factory() self._trigger_callback(builder.before_start, thread) thread.start() count += 1 try: self._trigger_callback(builder.after_start, thread) finally: # Just incase the 'after_start' callback blows up make sure # we always set this... self._threads[i][2] = started = True return count def stop(self): """Stops & joins all associated threads (that have been started).""" count = 0 with self._lock: for i, (builder, thread, started) in enumerate(self._threads): if not thread or not started: continue self._trigger_callback(builder.before_join, thread) thread.join() count += 1 try: self._trigger_callback(builder.after_join, thread) finally: # Just incase the 'after_join' callback blows up make sure # we always set/reset these... self._threads[i][1] = thread = None self._threads[i][2] = started = False return count def __len__(self): """Returns how many threads (to-be) are in this bundle.""" return len(self._threads)