/usr/lib/python3/dist-packages/gevent/threadpool.py is in python3-gevent 1.2.2-2.
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from __future__ import absolute_import
import sys
import os
from gevent._compat import integer_types
from gevent.hub import get_hub, getcurrent, sleep, _get_hub
from gevent.event import AsyncResult
from gevent.greenlet import Greenlet
from gevent.pool import GroupMappingMixin
from gevent.lock import Semaphore
from gevent._threading import Lock, Queue, start_new_thread
__all__ = ['ThreadPool',
'ThreadResult']
class ThreadPool(GroupMappingMixin):
"""
.. note:: The method :meth:`apply_async` will always return a new
greenlet, bypassing the threadpool entirely.
"""
def __init__(self, maxsize, hub=None):
if hub is None:
hub = get_hub()
self.hub = hub
self._maxsize = 0
self.manager = None
self.pid = os.getpid()
self.fork_watcher = hub.loop.fork(ref=False)
self._init(maxsize)
def _set_maxsize(self, maxsize):
if not isinstance(maxsize, integer_types):
raise TypeError('maxsize must be integer: %r' % (maxsize, ))
if maxsize < 0:
raise ValueError('maxsize must not be negative: %r' % (maxsize, ))
difference = maxsize - self._maxsize
self._semaphore.counter += difference
self._maxsize = maxsize
self.adjust()
# make sure all currently blocking spawn() start unlocking if maxsize increased
self._semaphore._start_notify()
def _get_maxsize(self):
return self._maxsize
maxsize = property(_get_maxsize, _set_maxsize)
def __repr__(self):
return '<%s at 0x%x %s/%s/%s>' % (self.__class__.__name__, id(self), len(self), self.size, self.maxsize)
def __len__(self):
# XXX just do unfinished_tasks property
return self.task_queue.unfinished_tasks
def _get_size(self):
return self._size
def _set_size(self, size):
if size < 0:
raise ValueError('Size of the pool cannot be negative: %r' % (size, ))
if size > self._maxsize:
raise ValueError('Size of the pool cannot be bigger than maxsize: %r > %r' % (size, self._maxsize))
if self.manager:
self.manager.kill()
while self._size < size:
self._add_thread()
delay = 0.0001
while self._size > size:
while self._size - size > self.task_queue.unfinished_tasks:
self.task_queue.put(None)
if getcurrent() is self.hub:
break
sleep(delay)
delay = min(delay * 2, .05)
if self._size:
self.fork_watcher.start(self._on_fork)
else:
self.fork_watcher.stop()
size = property(_get_size, _set_size)
def _init(self, maxsize):
self._size = 0
self._semaphore = Semaphore(1)
self._lock = Lock()
self.task_queue = Queue()
self._set_maxsize(maxsize)
def _on_fork(self):
# fork() only leaves one thread; also screws up locks;
# let's re-create locks and threads.
# NOTE: See comment in gevent.hub.reinit.
pid = os.getpid()
if pid != self.pid:
self.pid = pid
# Do not mix fork() and threads; since fork() only copies one thread
# all objects referenced by other threads has refcount that will never
# go down to 0.
self._init(self._maxsize)
def join(self):
"""Waits until all outstanding tasks have been completed."""
delay = 0.0005
while self.task_queue.unfinished_tasks > 0:
sleep(delay)
delay = min(delay * 2, .05)
def kill(self):
self.size = 0
def _adjust_step(self):
# if there is a possibility & necessity for adding a thread, do it
while self._size < self._maxsize and self.task_queue.unfinished_tasks > self._size:
self._add_thread()
# while the number of threads is more than maxsize, kill one
# we do not check what's already in task_queue - it could be all Nones
while self._size - self._maxsize > self.task_queue.unfinished_tasks:
self.task_queue.put(None)
if self._size:
self.fork_watcher.start(self._on_fork)
else:
self.fork_watcher.stop()
def _adjust_wait(self):
delay = 0.0001
while True:
self._adjust_step()
if self._size <= self._maxsize:
return
sleep(delay)
delay = min(delay * 2, .05)
def adjust(self):
self._adjust_step()
if not self.manager and self._size > self._maxsize:
# might need to feed more Nones into the pool
self.manager = Greenlet.spawn(self._adjust_wait)
def _add_thread(self):
with self._lock:
self._size += 1
try:
start_new_thread(self._worker, ())
except:
with self._lock:
self._size -= 1
raise
def spawn(self, func, *args, **kwargs):
"""
Add a new task to the threadpool that will run ``func(*args, **kwargs)``.
Waits until a slot is available. Creates a new thread if necessary.
:return: A :class:`gevent.event.AsyncResult`.
"""
while True:
semaphore = self._semaphore
semaphore.acquire()
if semaphore is self._semaphore:
break
thread_result = None
try:
task_queue = self.task_queue
result = AsyncResult()
# XXX We're calling the semaphore release function in the hub, otherwise
# we get LoopExit (why?). Previously it was done with a rawlink on the
# AsyncResult and the comment that it is "competing for order with get(); this is not
# good, just make ThreadResult release the semaphore before doing anything else"
thread_result = ThreadResult(result, hub=self.hub, call_when_ready=semaphore.release)
task_queue.put((func, args, kwargs, thread_result))
self.adjust()
except:
if thread_result is not None:
thread_result.destroy()
semaphore.release()
raise
return result
def _decrease_size(self):
if sys is None:
return
_lock = getattr(self, '_lock', None)
if _lock is not None:
with _lock:
self._size -= 1
_destroy_worker_hub = False
def _worker(self):
# pylint:disable=too-many-branches
need_decrease = True
try:
while True:
task_queue = self.task_queue
task = task_queue.get()
try:
if task is None:
need_decrease = False
self._decrease_size()
# we want first to decrease size, then decrease unfinished_tasks
# otherwise, _adjust might think there's one more idle thread that
# needs to be killed
return
func, args, kwargs, thread_result = task
try:
value = func(*args, **kwargs)
except: # pylint:disable=bare-except
exc_info = getattr(sys, 'exc_info', None)
if exc_info is None:
return
thread_result.handle_error((self, func), exc_info())
else:
if sys is None:
return
thread_result.set(value)
del value
finally:
del func, args, kwargs, thread_result, task
finally:
if sys is None:
return # pylint:disable=lost-exception
task_queue.task_done()
finally:
if need_decrease:
self._decrease_size()
if sys is not None and self._destroy_worker_hub:
hub = _get_hub()
if hub is not None:
hub.destroy(True)
del hub
def apply_e(self, expected_errors, function, args=None, kwargs=None):
"""
.. deprecated:: 1.1a2
Identical to :meth:`apply`; the ``expected_errors`` argument is ignored.
"""
# pylint:disable=unused-argument
# Deprecated but never documented. In the past, before
# self.apply() allowed all errors to be raised to the caller,
# expected_errors allowed a caller to specify a set of errors
# they wanted to be raised, through the wrap_errors function.
# In practice, it always took the value Exception or
# BaseException.
return self.apply(function, args, kwargs)
def _apply_immediately(self):
# If we're being called from a different thread than the one that
# created us, e.g., because a worker task is trying to use apply()
# recursively, we have no choice but to run the task immediately;
# if we try to AsyncResult.get() in the worker thread, it's likely to have
# nothing to switch to and lead to a LoopExit.
return get_hub() is not self.hub
def _apply_async_cb_spawn(self, callback, result):
callback(result)
def _apply_async_use_greenlet(self):
# Always go to Greenlet because our self.spawn uses threads
return True
class ThreadResult(object):
# Using slots here helps to debug reference cycles/leaks
__slots__ = ('exc_info', 'async', '_call_when_ready', 'value',
'context', 'hub', 'receiver')
def __init__(self, receiver, hub=None, call_when_ready=None):
if hub is None:
hub = get_hub()
self.receiver = receiver
self.hub = hub
self.context = None
self.value = None
self.exc_info = ()
self.async = hub.loop.async()
self._call_when_ready = call_when_ready
self.async.start(self._on_async)
@property
def exception(self):
return self.exc_info[1] if self.exc_info else None
def _on_async(self):
self.async.stop()
if self._call_when_ready:
# Typically this is pool.semaphore.release and we have to
# call this in the Hub; if we don't we get the dreaded
# LoopExit (XXX: Why?)
self._call_when_ready()
try:
if self.exc_info:
self.hub.handle_error(self.context, *self.exc_info)
self.context = None
self.async = None
self.hub = None
self._call_when_ready = None
if self.receiver is not None:
self.receiver(self)
finally:
self.receiver = None
self.value = None
if self.exc_info:
self.exc_info = (self.exc_info[0], self.exc_info[1], None)
def destroy(self):
if self.async is not None:
self.async.stop()
self.async = None
self.context = None
self.hub = None
self._call_when_ready = None
self.receiver = None
def _ready(self):
if self.async is not None:
self.async.send()
def set(self, value):
self.value = value
self._ready()
def handle_error(self, context, exc_info):
self.context = context
self.exc_info = exc_info
self._ready()
# link protocol:
def successful(self):
return self.exception is None
def wrap_errors(errors, function, args, kwargs):
"""
.. deprecated:: 1.1a2
Previously used by ThreadPool.apply_e.
"""
try:
return True, function(*args, **kwargs)
except errors as ex:
return False, ex
try:
import concurrent.futures
except ImportError:
pass
else:
__all__.append("ThreadPoolExecutor")
from gevent.timeout import Timeout as GTimeout
from gevent._util import Lazy
from concurrent.futures import _base as cfb
def _wrap_error(future, fn):
def cbwrap(_):
del _
# we're called with the async result, but
# be sure to pass in ourself. Also automatically
# unlink ourself so that we don't get called multiple
# times.
try:
fn(future)
except Exception: # pylint: disable=broad-except
future.hub.print_exception((fn, future), *sys.exc_info())
cbwrap.auto_unlink = True
return cbwrap
def _wrap(future, fn):
def f(_):
fn(future)
f.auto_unlink = True
return f
class _FutureProxy(object):
def __init__(self, asyncresult):
self.asyncresult = asyncresult
# Internal implementation details of a c.f.Future
@Lazy
def _condition(self):
from gevent import monkey
if monkey.is_module_patched('threading') or self.done():
import threading
return threading.Condition()
# We can only properly work with conditions
# when we've been monkey-patched. This is necessary
# for the wait/as_completed module functions.
raise AttributeError("_condition")
@Lazy
def _waiters(self):
self.asyncresult.rawlink(self.__when_done)
return []
def __when_done(self, _):
# We should only be called when _waiters has
# already been accessed.
waiters = getattr(self, '_waiters')
for w in waiters: # pylint:disable=not-an-iterable
if self.successful():
w.add_result(self)
else:
w.add_exception(self)
__when_done.auto_unlink = True
@property
def _state(self):
if self.done():
return cfb.FINISHED
return cfb.RUNNING
def set_running_or_notify_cancel(self):
# Does nothing, not even any consistency checks. It's
# meant to be internal to the executor and we don't use it.
return
def result(self, timeout=None):
try:
return self.asyncresult.result(timeout=timeout)
except GTimeout:
# XXX: Theoretically this could be a completely
# unrelated timeout instance. Do we care about that?
raise concurrent.futures.TimeoutError()
def exception(self, timeout=None):
try:
self.asyncresult.get(timeout=timeout)
return self.asyncresult.exception
except GTimeout:
raise concurrent.futures.TimeoutError()
def add_done_callback(self, fn):
if self.done():
fn(self)
else:
self.asyncresult.rawlink(_wrap_error(self, fn))
def rawlink(self, fn):
self.asyncresult.rawlink(_wrap(self, fn))
def __str__(self):
return str(self.asyncresult)
def __getattr__(self, name):
return getattr(self.asyncresult, name)
class ThreadPoolExecutor(concurrent.futures.ThreadPoolExecutor):
"""
A version of :class:`concurrent.futures.ThreadPoolExecutor` that
always uses native threads, even when threading is monkey-patched.
The ``Future`` objects returned from this object can be used
with gevent waiting primitives like :func:`gevent.wait`.
.. caution:: If threading is *not* monkey-patched, then the ``Future``
objects returned by this object are not guaranteed to work with
:func:`~concurrent.futures.as_completed` and :func:`~concurrent.futures.wait`.
The individual blocking methods like :meth:`~concurrent.futures.Future.result`
and :meth:`~concurrent.futures.Future.exception` will always work.
.. versionadded:: 1.2a1
This is a provisional API.
"""
def __init__(self, max_workers):
super(ThreadPoolExecutor, self).__init__(max_workers)
self._threadpool = ThreadPool(max_workers)
self._threadpool._destroy_worker_hub = True
def submit(self, fn, *args, **kwargs):
with self._shutdown_lock: # pylint:disable=not-context-manager
if self._shutdown:
raise RuntimeError('cannot schedule new futures after shutdown')
future = self._threadpool.spawn(fn, *args, **kwargs)
return _FutureProxy(future)
def shutdown(self, wait=True):
super(ThreadPoolExecutor, self).shutdown(wait)
# XXX: We don't implement wait properly
kill = getattr(self._threadpool, 'kill', None)
if kill: # pylint:disable=using-constant-test
self._threadpool.kill()
self._threadpool = None
kill = shutdown # greentest compat
def _adjust_thread_count(self):
# Does nothing. We don't want to spawn any "threads",
# let the threadpool handle that.
pass
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