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Current File : /proc/3/cwd/proc/3/cwd/srv/modoboa/env/lib64/python3.5/site-packages/gevent/threading.py
"""
Implementation of the standard :mod:`threading` using greenlets.

.. note::

    This module is a helper for :mod:`gevent.monkey` and is not
    intended to be used directly. For spawning greenlets in your
    applications, prefer higher level constructs like
    :class:`gevent.Greenlet` class or :func:`gevent.spawn`. Attributes
    in this module like ``__threading__`` are implementation artifacts subject
    to change at any time.

.. versionchanged:: 1.2.3

   Defer adjusting the stdlib's list of active threads until we are
   monkey patched. Previously this was done at import time. We are
   documented to only be used as a helper for monkey patching, so this should
   functionally be the same, but some applications ignore the documentation and
   directly import this module anyway.

   A positive consequence is that ``import gevent.threading,
   threading; threading.current_thread()`` will no longer return a DummyThread
   before monkey-patching.
"""
from __future__ import absolute_import


__implements__ = [
    'local',
    '_start_new_thread',
    '_allocate_lock',
    'Lock',
    '_get_ident',
    '_sleep',
    '_DummyThread',
]


import threading as __threading__
_DummyThread_ = __threading__._DummyThread
from gevent.local import local
from gevent.thread import start_new_thread as _start_new_thread, allocate_lock as _allocate_lock, get_ident as _get_ident
from gevent.hub import sleep as _sleep, getcurrent

# Exports, prevent unused import warnings
local = local
start_new_thread = _start_new_thread
allocate_lock = _allocate_lock
_get_ident = _get_ident
_sleep = _sleep
getcurrent = getcurrent

Lock = _allocate_lock


def _cleanup(g):
    __threading__._active.pop(_get_ident(g), None)

def _make_cleanup_id(gid):
    def _(_r):
        __threading__._active.pop(gid, None)
    return _

_weakref = None

class _DummyThread(_DummyThread_):
    # We avoid calling the superclass constructor. This makes us about
    # twice as fast (1.16 vs 0.68usec on PyPy, 29.3 vs 17.7usec on
    # CPython 2.7), and has the important effect of avoiding
    # allocation and then immediate deletion of _Thread__block, a
    # lock. This is especially important on PyPy where locks go
    # through the cpyext API and Cython, which is known to be slow and
    # potentially buggy (e.g.,
    # https://bitbucket.org/pypy/pypy/issues/2149/memory-leak-for-python-subclass-of-cpyext#comment-22347393)

    # These objects are constructed quite frequently in some cases, so
    # the optimization matters: for example, in gunicorn, which uses
    # pywsgi.WSGIServer, every request is handled in a new greenlet,
    # and every request uses a logging.Logger to write the access log,
    # and every call to a log method captures the current thread (by
    # default).
    #
    # (Obviously we have to duplicate the effects of the constructor,
    # at least for external state purposes, which is potentially
    # slightly fragile.)

    # For the same reason, instances of this class will cleanup their own entry
    # in ``threading._active``

    # This class also solves a problem forking process with subprocess: after forking,
    # Thread.__stop is called, which throws an exception when __block doesn't
    # exist.

    # Capture the static things as class vars to save on memory/
    # construction time.
    # In Py2, they're all private; in Py3, they become protected
    _Thread__stopped = _is_stopped = _stopped = False
    _Thread__initialized = _initialized = True
    _Thread__daemonic = _daemonic = True
    _Thread__args = _args = ()
    _Thread__kwargs = _kwargs = None
    _Thread__target = _target = None
    _Thread_ident = _ident = None
    _Thread__started = _started = __threading__.Event()
    _Thread__started.set()
    _tstate_lock = None

    def __init__(self): # pylint:disable=super-init-not-called
        #_DummyThread_.__init__(self)

        # It'd be nice to use a pattern like "greenlet-%d", but maybe somebody out
        # there is checking thread names...
        self._name = self._Thread__name = __threading__._newname("DummyThread-%d")
        # All dummy threads in the same native thread share the same ident
        # (that of the native thread)
        self._set_ident()

        g = getcurrent()
        gid = _get_ident(g)
        __threading__._active[gid] = self
        rawlink = getattr(g, 'rawlink', None)
        if rawlink is not None:
            # raw greenlet.greenlet greenlets don't
            # have rawlink...
            rawlink(_cleanup)
        else:
            # ... so for them we use weakrefs.
            # See https://github.com/gevent/gevent/issues/918
            global _weakref
            if _weakref is None:
                _weakref = __import__('weakref')
            ref = _weakref.ref(g, _make_cleanup_id(gid))
            self.__raw_ref = ref

    def _Thread__stop(self):
        pass

    _stop = _Thread__stop # py3

    def _wait_for_tstate_lock(self, *args, **kwargs):
        # pylint:disable=arguments-differ
        pass

if hasattr(__threading__, 'main_thread'): # py 3.4+
    def main_native_thread():
        return __threading__.main_thread() # pylint:disable=no-member
else:
    def main_native_thread():
        main_threads = [v for v in __threading__._active.values()
                        if isinstance(v, __threading__._MainThread)]
        assert len(main_threads) == 1, "Too many main threads"

        return main_threads[0]

import sys
if sys.version_info[:2] >= (3, 4):
    # XXX: Issue 18808 breaks us on Python 3.4.
    # Thread objects now expect a callback from the interpreter itself
    # (threadmodule.c:release_sentinel). Because this never happens
    # when a greenlet exits, join() and friends will block forever.
    # The solution below involves capturing the greenlet when it is
    # started and deferring the known broken methods to it.

    class Thread(__threading__.Thread):
        _greenlet = None

        def is_alive(self):
            return bool(self._greenlet)

        isAlive = is_alive

        def _set_tstate_lock(self):
            self._greenlet = getcurrent()

        def run(self):
            try:
                super(Thread, self).run()
            finally:
                # avoid ref cycles, but keep in __dict__ so we can
                # distinguish the started/never-started case
                self._greenlet = None
                self._stop() # mark as finished

        def join(self, timeout=None):
            if '_greenlet' not in self.__dict__:
                raise RuntimeError("Cannot join an inactive thread")
            if self._greenlet is None:
                return
            self._greenlet.join(timeout=timeout)

        def _wait_for_tstate_lock(self, *args, **kwargs):
            # pylint:disable=arguments-differ
            raise NotImplementedError()

    __implements__.append('Thread')

    class Timer(Thread, __threading__.Timer): # pylint:disable=abstract-method,inherit-non-class
        pass

    __implements__.append('Timer')

    # The main thread is patched up with more care
    # in _gevent_will_monkey_patch

if sys.version_info[:2] >= (3, 3):
    __implements__.remove('_get_ident')
    __implements__.append('get_ident')
    get_ident = _get_ident
    __implements__.remove('_sleep')

    # Python 3 changed the implementation of threading.RLock
    # Previously it was a factory function around threading._RLock
    # which in turn used _allocate_lock. Now, it wants to use
    # threading._CRLock, which is imported from _thread.RLock and as such
    # is implemented in C. So it bypasses our _allocate_lock function.
    # Fortunately they left the Python fallback in place
    assert hasattr(__threading__, '_CRLock'), "Unsupported Python version"
    _CRLock = None
    __implements__.append('_CRLock')

def _gevent_will_monkey_patch(native_module, items, warn): # pylint:disable=unused-argument
    # Make sure the MainThread can be found by our current greenlet ID,
    # otherwise we get a new DummyThread, which cannot be joined.
    # Fixes tests in test_threading_2 under PyPy.
    main_thread = main_native_thread()
    if __threading__.current_thread() != main_thread:
        warn("Monkey-patching outside the main native thread. Some APIs "
             "will not be available. Expect a KeyError to be printed at shutdown.")
        return

    if _get_ident() not in __threading__._active:
        main_id = main_thread.ident
        del __threading__._active[main_id]
        main_thread._ident = main_thread._Thread__ident = _get_ident()
        __threading__._active[_get_ident()] = main_thread

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