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# -*- coding: utf-8 -*- # cython: auto_pickle=False,embedsignature=True,always_allow_keywords=False """ Internal module, support for the linkable protocol for "event" like objects. """ from __future__ import absolute_import from __future__ import division from __future__ import print_function import sys from gevent._hub_local import get_hub_noargs as get_hub from gevent.exceptions import InvalidSwitchError from gevent.timeout import Timeout locals()['getcurrent'] = __import__('greenlet').getcurrent locals()['greenlet_init'] = lambda: None __all__ = [ 'AbstractLinkable', ] class AbstractLinkable(object): # Encapsulates the standard parts of the linking and notifying # protocol common to both repeatable events (Event, Semaphore) and # one-time events (AsyncResult). __slots__ = ('hub', '_links', '_notifier', '_notify_all', '__weakref__') def __init__(self): # Before this implementation, AsyncResult and Semaphore # maintained the order of notifications, but Event did not. # In gevent 1.3, before Semaphore extended this class, # that was changed to not maintain the order. It was done because # Event guaranteed to only call callbacks once (a set) but # AsyncResult had no such guarantees. # Semaphore likes to maintain order of callbacks, though, # so when it was added we went back to a list implementation # for storing callbacks. But we want to preserve the unique callback # property, so we manually check. # We generally don't expect to have so many waiters (for any of those # objects) that testing membership and removing is a bottleneck. # In PyPy 2.6.1 with Cython 0.23, `cdef public` or `cdef # readonly` or simply `cdef` attributes of type `object` can appear to leak if # a Python subclass is used (this is visible simply # instantiating this subclass if _links=[]). Our _links and # _notifier are such attributes, and gevent.thread subclasses # this class. Thus, we carefully manage the lifetime of the # objects we put in these attributes so that, in the normal # case of a semaphore used correctly (deallocated when it's not # locked and no one is waiting), the leak goes away (because # these objects are back to None). This can also be solved on PyPy # by simply not declaring these objects in the pxd file, but that doesn't work for # CPython ("No attribute...") # See https://github.com/gevent/gevent/issues/660 self._links = set() self._notifier = None # This is conceptually a class attribute, defined here for ease of access in # cython. If it's true, when notifiers fire, all existing callbacks are called. # If its false, we only call callbacks as long as ready() returns true. self._notify_all = True # we don't want to do get_hub() here to allow defining module-level objects # without initializing the hub self.hub = None def linkcount(self): # For testing: how many objects are linked to this one? return len(self._links) def ready(self): # Instances must define this raise NotImplementedError def _check_and_notify(self): # If this object is ready to be notified, begin the process. if self.ready() and self._links and not self._notifier: if self.hub is None: self.hub = get_hub() self._notifier = self.hub.loop.run_callback(self._notify_links) def rawlink(self, callback): """ Register a callback to call when this object is ready. *callback* will be called in the :class:`Hub <gevent.hub.Hub>`, so it must not use blocking gevent API. *callback* will be passed one argument: this instance. """ if not callable(callback): raise TypeError('Expected callable: %r' % (callback, )) self._links.add(callback) self._check_and_notify() def unlink(self, callback): """Remove the callback set by :meth:`rawlink`""" self._links.discard(callback) if not self._links and self._notifier is not None: # If we currently have one queued, de-queue it. # This will break a reference cycle. # (self._notifier -> self._notify_links -> self) # But we can't set it to None in case it was actually running. self._notifier.stop() def _notify_links(self): # We release self._notifier here. We are called by it # at the end of the loop, and it is now false in a boolean way (as soon # as this method returns). notifier = self._notifier # We were ready() at the time this callback was scheduled; # we may not be anymore, and that status may change during # callback processing. Some of our subclasses will want to # notify everyone that the status was once true, even though not it # may not be anymore. todo = set(self._links) try: for link in todo: if not self._notify_all and not self.ready(): break if link not in self._links: # Been removed already by some previous link. OK, fine. continue try: link(self) except: # pylint:disable=bare-except # We're running in the hub, so getcurrent() returns # a hub. self.hub.handle_error((link, self), *sys.exc_info()) # pylint:disable=undefined-variable finally: if getattr(link, 'auto_unlink', None): # This attribute can avoid having to keep a reference to the function # *in* the function, which is a cycle self.unlink(link) finally: # We should not have created a new notifier even if callbacks # released us because we loop through *all* of our links on the # same callback while self._notifier is still true. assert self._notifier is notifier self._notifier = None # Our set of active links changed, and we were told to stop on the first # time we went unready. See if we're ready, and if so, go around # again. if not self._notify_all and todo != self._links: self._check_and_notify() def _wait_core(self, timeout, catch=Timeout): # The core of the wait implementation, handling # switching and linking. If *catch* is set to (), # a timeout that elapses will be allowed to be raised. # Returns a true value if the wait succeeded without timing out. switch = getcurrent().switch # pylint:disable=undefined-variable self.rawlink(switch) try: with Timeout._start_new_or_dummy(timeout) as timer: try: if self.hub is None: self.hub = get_hub() result = self.hub.switch() if result is not self: # pragma: no cover raise InvalidSwitchError('Invalid switch into Event.wait(): %r' % (result, )) return True except catch as ex: if ex is not timer: raise # test_set_and_clear and test_timeout in test_threading # rely on the exact return values, not just truthish-ness return False finally: self.unlink(switch) def _wait_return_value(self, waited, wait_success): # pylint:disable=unused-argument # Subclasses should override this to return a value from _wait. # By default we return None. return None # pragma: no cover all extent subclasses override def _wait(self, timeout=None): if self.ready(): return self._wait_return_value(False, False) gotit = self._wait_core(timeout) return self._wait_return_value(True, gotit) def _init(): greenlet_init() # pylint:disable=undefined-variable _init() from gevent._util import import_c_accel import_c_accel(globals(), 'gevent.__abstract_linkable')