clang-r416183/python3/Lib/multiprocessing/util.py - platform/prebuilts/clang/host/windows-x86 - Git at Google

 #
 # Module providing various facilities to other parts of the package
 #
 # multiprocessing/util.py
 #
 # Copyright (c) 2006-2008, R Oudkerk
 # Licensed to PSF under a Contributor Agreement.
 #

 import os
 import itertools
 import sys
 import weakref
 import atexit
 import threading        # we want threading to install it's
                         # cleanup function before multiprocessing does
 from subprocess import _args_from_interpreter_flags

 from . import process

 __all__ = [
     'sub_debug', 'debug', 'info', 'sub_warning', 'get_logger',
     'log_to_stderr', 'get_temp_dir', 'register_after_fork',
     'is_exiting', 'Finalize', 'ForkAwareThreadLock', 'ForkAwareLocal',
     'close_all_fds_except', 'SUBDEBUG', 'SUBWARNING',
     ]

 #
 # Logging
 #

 NOTSET = 0
 SUBDEBUG = 5
 DEBUG = 10
 INFO = 20
 SUBWARNING = 25

 LOGGER_NAME = 'multiprocessing'
 DEFAULT_LOGGING_FORMAT = '[%(levelname)s/%(processName)s] %(message)s'

 _logger = None
 _log_to_stderr = False

 def sub_debug(msg, *args):
     if _logger:
         _logger.log(SUBDEBUG, msg, *args)

 def debug(msg, *args):
     if _logger:
         _logger.log(DEBUG, msg, *args)

 def info(msg, *args):
     if _logger:
         _logger.log(INFO, msg, *args)

 def sub_warning(msg, *args):
     if _logger:
         _logger.log(SUBWARNING, msg, *args)

 def get_logger():
     '''
     Returns logger used by multiprocessing
     '''
     global _logger
     import logging

     logging._acquireLock()
     try:
         if not _logger:

             _logger = logging.getLogger(LOGGER_NAME)
             _logger.propagate = 0

             # XXX multiprocessing should cleanup before logging
             if hasattr(atexit, 'unregister'):
                 atexit.unregister(_exit_function)
                 atexit.register(_exit_function)
             else:
                 atexit._exithandlers.remove((_exit_function, (), {}))
                 atexit._exithandlers.append((_exit_function, (), {}))

     finally:
         logging._releaseLock()

     return _logger

 def log_to_stderr(level=None):
     '''
     Turn on logging and add a handler which prints to stderr
     '''
     global _log_to_stderr
     import logging

     logger = get_logger()
     formatter = logging.Formatter(DEFAULT_LOGGING_FORMAT)
     handler = logging.StreamHandler()
     handler.setFormatter(formatter)
     logger.addHandler(handler)

     if level:
         logger.setLevel(level)
     _log_to_stderr = True
     return _logger


 # Abstract socket support

 def _platform_supports_abstract_sockets():
     if sys.platform == "linux":
         return True
     if hasattr(sys, 'getandroidapilevel'):
         return True
     return False


 def is_abstract_socket_namespace(address):
     if not address:
         return False
     if isinstance(address, bytes):
         return address[0] == 0
     elif isinstance(address, str):
         return address[0] == "\0"
     raise TypeError('address type of {address!r} unrecognized')


 abstract_sockets_supported = _platform_supports_abstract_sockets()

 #
 # Function returning a temp directory which will be removed on exit
 #

 def _remove_temp_dir(rmtree, tempdir):
     rmtree(tempdir)

     current_process = process.current_process()
     # current_process() can be None if the finalizer is called
     # late during Python finalization
     if current_process is not None:
         current_process._config['tempdir'] = None

 def get_temp_dir():
     # get name of a temp directory which will be automatically cleaned up
     tempdir = process.current_process()._config.get('tempdir')
     if tempdir is None:
         import shutil, tempfile
         tempdir = tempfile.mkdtemp(prefix='pymp-')
         info('created temp directory %s', tempdir)
         # keep a strong reference to shutil.rmtree(), since the finalizer
         # can be called late during Python shutdown
         Finalize(None, _remove_temp_dir, args=(shutil.rmtree, tempdir),
                  exitpriority=-100)
         process.current_process()._config['tempdir'] = tempdir
     return tempdir

 #
 # Support for reinitialization of objects when bootstrapping a child process
 #

 _afterfork_registry = weakref.WeakValueDictionary()
 _afterfork_counter = itertools.count()

 def _run_after_forkers():
     items = list(_afterfork_registry.items())
     items.sort()
     for (index, ident, func), obj in items:
         try:
             func(obj)
         except Exception as e:
             info('after forker raised exception %s', e)

 def register_after_fork(obj, func):
     _afterfork_registry[(next(_afterfork_counter), id(obj), func)] = obj

 #
 # Finalization using weakrefs
 #

 _finalizer_registry = {}
 _finalizer_counter = itertools.count()


 class Finalize(object):
     '''
     Class which supports object finalization using weakrefs
     '''
     def __init__(self, obj, callback, args=(), kwargs=None, exitpriority=None):
         if (exitpriority is not None) and not isinstance(exitpriority,int):
             raise TypeError(
                 "Exitpriority ({0!r}) must be None or int, not {1!s}".format(
                     exitpriority, type(exitpriority)))

         if obj is not None:
             self._weakref = weakref.ref(obj, self)
         elif exitpriority is None:
             raise ValueError("Without object, exitpriority cannot be None")

         self._callback = callback
         self._args = args
         self._kwargs = kwargs or {}
         self._key = (exitpriority, next(_finalizer_counter))
         self._pid = os.getpid()

         _finalizer_registry[self._key] = self

     def __call__(self, wr=None,
                  # Need to bind these locally because the globals can have
                  # been cleared at shutdown
                  _finalizer_registry=_finalizer_registry,
                  sub_debug=sub_debug, getpid=os.getpid):
         '''
         Run the callback unless it has already been called or cancelled
         '''
         try:
             del _finalizer_registry[self._key]
         except KeyError:
             sub_debug('finalizer no longer registered')
         else:
             if self._pid != getpid():
                 sub_debug('finalizer ignored because different process')
                 res = None
             else:
                 sub_debug('finalizer calling %s with args %s and kwargs %s',
                           self._callback, self._args, self._kwargs)
                 res = self._callback(*self._args, **self._kwargs)
             self._weakref = self._callback = self._args = \
                             self._kwargs = self._key = None
             return res

     def cancel(self):
         '''
         Cancel finalization of the object
         '''
         try:
             del _finalizer_registry[self._key]
         except KeyError:
             pass
         else:
             self._weakref = self._callback = self._args = \
                             self._kwargs = self._key = None

     def still_active(self):
         '''
         Return whether this finalizer is still waiting to invoke callback
         '''
         return self._key in _finalizer_registry

     def __repr__(self):
         try:
             obj = self._weakref()
         except (AttributeError, TypeError):
             obj = None

         if obj is None:
             return '<%s object, dead>' % self.__class__.__name__

         x = '<%s object, callback=%s' % (
                 self.__class__.__name__,
                 getattr(self._callback, '__name__', self._callback))
         if self._args:
             x += ', args=' + str(self._args)
         if self._kwargs:
             x += ', kwargs=' + str(self._kwargs)
         if self._key[0] is not None:
             x += ', exitpriority=' + str(self._key[0])
         return x + '>'


 def _run_finalizers(minpriority=None):
     '''
     Run all finalizers whose exit priority is not None and at least minpriority

     Finalizers with highest priority are called first; finalizers with
     the same priority will be called in reverse order of creation.
     '''
     if _finalizer_registry is None:
         # This function may be called after this module's globals are
         # destroyed.  See the _exit_function function in this module for more
         # notes.
         return

     if minpriority is None:
         f = lambda p : p[0] is not None
     else:
         f = lambda p : p[0] is not None and p[0] >= minpriority

     # Careful: _finalizer_registry may be mutated while this function
     # is running (either by a GC run or by another thread).

     # list(_finalizer_registry) should be atomic, while
     # list(_finalizer_registry.items()) is not.
     keys = [key for key in list(_finalizer_registry) if f(key)]
     keys.sort(reverse=True)

     for key in keys:
         finalizer = _finalizer_registry.get(key)
         # key may have been removed from the registry
         if finalizer is not None:
             sub_debug('calling %s', finalizer)
             try:
                 finalizer()
             except Exception:
                 import traceback
                 traceback.print_exc()

     if minpriority is None:
         _finalizer_registry.clear()

 #
 # Clean up on exit
 #

 def is_exiting():
     '''
     Returns true if the process is shutting down
     '''
     return _exiting or _exiting is None

 _exiting = False

 def _exit_function(info=info, debug=debug, _run_finalizers=_run_finalizers,
                    active_children=process.active_children,
                    current_process=process.current_process):
     # We hold on to references to functions in the arglist due to the
     # situation described below, where this function is called after this
     # module's globals are destroyed.

     global _exiting

     if not _exiting:
         _exiting = True

         info('process shutting down')
         debug('running all "atexit" finalizers with priority >= 0')
         _run_finalizers(0)

         if current_process() is not None:
             # We check if the current process is None here because if
             # it's None, any call to ``active_children()`` will raise
             # an AttributeError (active_children winds up trying to
             # get attributes from util._current_process).  One
             # situation where this can happen is if someone has
             # manipulated sys.modules, causing this module to be
             # garbage collected.  The destructor for the module type
             # then replaces all values in the module dict with None.
             # For instance, after setuptools runs a test it replaces
             # sys.modules with a copy created earlier.  See issues
             # #9775 and #15881.  Also related: #4106, #9205, and
             # #9207.

             for p in active_children():
                 if p.daemon:
                     info('calling terminate() for daemon %s', p.name)
                     p._popen.terminate()

             for p in active_children():
                 info('calling join() for process %s', p.name)
                 p.join()

         debug('running the remaining "atexit" finalizers')
         _run_finalizers()

 atexit.register(_exit_function)

 #
 # Some fork aware types
 #

 class ForkAwareThreadLock(object):
     def __init__(self):
         self._lock = threading.Lock()
         self.acquire = self._lock.acquire
         self.release = self._lock.release
         register_after_fork(self, ForkAwareThreadLock._at_fork_reinit)

     def _at_fork_reinit(self):
         self._lock._at_fork_reinit()

     def __enter__(self):
         return self._lock.__enter__()

     def __exit__(self, *args):
         return self._lock.__exit__(*args)


 class ForkAwareLocal(threading.local):
     def __init__(self):
         register_after_fork(self, lambda obj : obj.__dict__.clear())
     def __reduce__(self):
         return type(self), ()

 #
 # Close fds except those specified
 #

 try:
     MAXFD = os.sysconf("SC_OPEN_MAX")
 except Exception:
     MAXFD = 256

 def close_all_fds_except(fds):
     fds = list(fds) + [-1, MAXFD]
     fds.sort()
     assert fds[-1] == MAXFD, 'fd too large'
     for i in range(len(fds) - 1):
         os.closerange(fds[i]+1, fds[i+1])
 #
 # Close sys.stdin and replace stdin with os.devnull
 #

 def _close_stdin():
     if sys.stdin is None:
         return

     try:
         sys.stdin.close()
     except (OSError, ValueError):
         pass

     try:
         fd = os.open(os.devnull, os.O_RDONLY)
         try:
             sys.stdin = open(fd, closefd=False)
         except:
             os.close(fd)
             raise
     except (OSError, ValueError):
         pass

 #
 # Flush standard streams, if any
 #

 def _flush_std_streams():
     try:
         sys.stdout.flush()
     except (AttributeError, ValueError):
         pass
     try:
         sys.stderr.flush()
     except (AttributeError, ValueError):
         pass

 #
 # Start a program with only specified fds kept open
 #

 def spawnv_passfds(path, args, passfds):
     import _posixsubprocess
     passfds = tuple(sorted(map(int, passfds)))
     errpipe_read, errpipe_write = os.pipe()
     try:
         return _posixsubprocess.fork_exec(
             args, [os.fsencode(path)], True, passfds, None, None,
             -1, -1, -1, -1, -1, -1, errpipe_read, errpipe_write,
             False, False, None, None, None, -1, None)
     finally:
         os.close(errpipe_read)
         os.close(errpipe_write)


 def close_fds(*fds):
     """Close each file descriptor given as an argument"""
     for fd in fds:
         os.close(fd)


 def _cleanup_tests():
     """Cleanup multiprocessing resources when multiprocessing tests
     completed."""

     from test import support

     # cleanup multiprocessing
     process._cleanup()

     # Stop the ForkServer process if it's running
     from multiprocessing import forkserver
     forkserver._forkserver._stop()

     # Stop the ResourceTracker process if it's running
     from multiprocessing import resource_tracker
     resource_tracker._resource_tracker._stop()

     # bpo-37421: Explicitly call _run_finalizers() to remove immediately
     # temporary directories created by multiprocessing.util.get_temp_dir().
     _run_finalizers()
     support.gc_collect()

     support.reap_children()
	#
	# Module providing various facilities to other parts of the package
	#
	# multiprocessing/util.py
	#
	# Copyright (c) 2006-2008, R Oudkerk
	# Licensed to PSF under a Contributor Agreement.
	#

	import os
	import itertools
	import sys
	import weakref
	import atexit
	import threading # we want threading to install it's
	# cleanup function before multiprocessing does
	from subprocess import _args_from_interpreter_flags

	from . import process

	__all__ = [
	'sub_debug', 'debug', 'info', 'sub_warning', 'get_logger',
	'log_to_stderr', 'get_temp_dir', 'register_after_fork',
	'is_exiting', 'Finalize', 'ForkAwareThreadLock', 'ForkAwareLocal',
	'close_all_fds_except', 'SUBDEBUG', 'SUBWARNING',
	]

	#
	# Logging
	#

	NOTSET = 0
	SUBDEBUG = 5
	DEBUG = 10
	INFO = 20
	SUBWARNING = 25

	LOGGER_NAME = 'multiprocessing'
	DEFAULT_LOGGING_FORMAT = '[%(levelname)s/%(processName)s] %(message)s'

	_logger = None
	_log_to_stderr = False

	def sub_debug(msg, *args):
	if _logger:
	_logger.log(SUBDEBUG, msg, *args)

	def debug(msg, *args):
	if _logger:
	_logger.log(DEBUG, msg, *args)

	def info(msg, *args):
	if _logger:
	_logger.log(INFO, msg, *args)

	def sub_warning(msg, *args):
	if _logger:
	_logger.log(SUBWARNING, msg, *args)

	def get_logger():
	'''
	Returns logger used by multiprocessing
	'''
	global _logger
	import logging

	logging._acquireLock()
	try:
	if not _logger:

	_logger = logging.getLogger(LOGGER_NAME)
	_logger.propagate = 0

	# XXX multiprocessing should cleanup before logging
	if hasattr(atexit, 'unregister'):
	atexit.unregister(_exit_function)
	atexit.register(_exit_function)
	else:
	atexit._exithandlers.remove((_exit_function, (), {}))
	atexit._exithandlers.append((_exit_function, (), {}))

	finally:
	logging._releaseLock()

	return _logger

	def log_to_stderr(level=None):
	'''
	Turn on logging and add a handler which prints to stderr
	'''
	global _log_to_stderr
	import logging

	logger = get_logger()
	formatter = logging.Formatter(DEFAULT_LOGGING_FORMAT)
	handler = logging.StreamHandler()
	handler.setFormatter(formatter)
	logger.addHandler(handler)

	if level:
	logger.setLevel(level)
	_log_to_stderr = True
	return _logger


	# Abstract socket support

	def _platform_supports_abstract_sockets():
	if sys.platform == "linux":
	return True
	if hasattr(sys, 'getandroidapilevel'):
	return True
	return False


	def is_abstract_socket_namespace(address):
	if not address:
	return False
	if isinstance(address, bytes):
	return address[0] == 0
	elif isinstance(address, str):
	return address[0] == "\0"
	raise TypeError('address type of {address!r} unrecognized')


	abstract_sockets_supported = _platform_supports_abstract_sockets()

	#
	# Function returning a temp directory which will be removed on exit
	#

	def _remove_temp_dir(rmtree, tempdir):
	rmtree(tempdir)

	current_process = process.current_process()
	# current_process() can be None if the finalizer is called
	# late during Python finalization
	if current_process is not None:
	current_process._config['tempdir'] = None

	def get_temp_dir():
	# get name of a temp directory which will be automatically cleaned up
	tempdir = process.current_process()._config.get('tempdir')
	if tempdir is None:
	import shutil, tempfile
	tempdir = tempfile.mkdtemp(prefix='pymp-')
	info('created temp directory %s', tempdir)
	# keep a strong reference to shutil.rmtree(), since the finalizer
	# can be called late during Python shutdown
	Finalize(None, _remove_temp_dir, args=(shutil.rmtree, tempdir),
	exitpriority=-100)
	process.current_process()._config['tempdir'] = tempdir
	return tempdir

	#
	# Support for reinitialization of objects when bootstrapping a child process
	#

	_afterfork_registry = weakref.WeakValueDictionary()
	_afterfork_counter = itertools.count()

	def _run_after_forkers():
	items = list(_afterfork_registry.items())
	items.sort()
	for (index, ident, func), obj in items:
	try:
	func(obj)
	except Exception as e:
	info('after forker raised exception %s', e)

	def register_after_fork(obj, func):
	_afterfork_registry[(next(_afterfork_counter), id(obj), func)] = obj

	#
	# Finalization using weakrefs
	#

	_finalizer_registry = {}
	_finalizer_counter = itertools.count()


	class Finalize(object):
	'''
	Class which supports object finalization using weakrefs
	'''
	def __init__(self, obj, callback, args=(), kwargs=None, exitpriority=None):
	if (exitpriority is not None) and not isinstance(exitpriority,int):
	raise TypeError(
	"Exitpriority ({0!r}) must be None or int, not {1!s}".format(
	exitpriority, type(exitpriority)))

	if obj is not None:
	self._weakref = weakref.ref(obj, self)
	elif exitpriority is None:
	raise ValueError("Without object, exitpriority cannot be None")

	self._callback = callback
	self._args = args
	self._kwargs = kwargs or {}
	self._key = (exitpriority, next(_finalizer_counter))
	self._pid = os.getpid()

	_finalizer_registry[self._key] = self

	def __call__(self, wr=None,
	# Need to bind these locally because the globals can have
	# been cleared at shutdown
	_finalizer_registry=_finalizer_registry,
	sub_debug=sub_debug, getpid=os.getpid):
	'''
	Run the callback unless it has already been called or cancelled
	'''
	try:
	del _finalizer_registry[self._key]
	except KeyError:
	sub_debug('finalizer no longer registered')
	else:
	if self._pid != getpid():
	sub_debug('finalizer ignored because different process')
	res = None
	else:
	sub_debug('finalizer calling %s with args %s and kwargs %s',
	self._callback, self._args, self._kwargs)
	res = self._callback(self._args, *self._kwargs)
	self._weakref = self._callback = self._args = \
	self._kwargs = self._key = None
	return res

	def cancel(self):
	'''
	Cancel finalization of the object
	'''
	try:
	del _finalizer_registry[self._key]
	except KeyError:
	pass
	else:
	self._weakref = self._callback = self._args = \
	self._kwargs = self._key = None

	def still_active(self):
	'''
	Return whether this finalizer is still waiting to invoke callback
	'''
	return self._key in _finalizer_registry

	def __repr__(self):
	try:
	obj = self._weakref()
	except (AttributeError, TypeError):
	obj = None

	if obj is None:
	return '<%s object, dead>' % self.__class__.__name__

	x = '<%s object, callback=%s' % (
	self.__class__.__name__,
	getattr(self._callback, '__name__', self._callback))
	if self._args:
	x += ', args=' + str(self._args)
	if self._kwargs:
	x += ', kwargs=' + str(self._kwargs)
	if self._key[0] is not None:
	x += ', exitpriority=' + str(self._key[0])
	return x + '>'


	def _run_finalizers(minpriority=None):
	'''
	Run all finalizers whose exit priority is not None and at least minpriority

	Finalizers with highest priority are called first; finalizers with
	the same priority will be called in reverse order of creation.
	'''
	if _finalizer_registry is None:
	# This function may be called after this module's globals are
	# destroyed. See the _exit_function function in this module for more
	# notes.
	return

	if minpriority is None:
	f = lambda p : p[0] is not None
	else:
	f = lambda p : p[0] is not None and p[0] >= minpriority

	# Careful: _finalizer_registry may be mutated while this function
	# is running (either by a GC run or by another thread).

	# list(_finalizer_registry) should be atomic, while
	# list(_finalizer_registry.items()) is not.
	keys = [key for key in list(_finalizer_registry) if f(key)]
	keys.sort(reverse=True)

	for key in keys:
	finalizer = _finalizer_registry.get(key)
	# key may have been removed from the registry
	if finalizer is not None:
	sub_debug('calling %s', finalizer)
	try:
	finalizer()
	except Exception:
	import traceback
	traceback.print_exc()

	if minpriority is None:
	_finalizer_registry.clear()

	#
	# Clean up on exit
	#

	def is_exiting():
	'''
	Returns true if the process is shutting down
	'''
	return _exiting or _exiting is None

	_exiting = False

	def _exit_function(info=info, debug=debug, _run_finalizers=_run_finalizers,
	active_children=process.active_children,
	current_process=process.current_process):
	# We hold on to references to functions in the arglist due to the
	# situation described below, where this function is called after this
	# module's globals are destroyed.

	global _exiting

	if not _exiting:
	_exiting = True

	info('process shutting down')
	debug('running all "atexit" finalizers with priority >= 0')
	_run_finalizers(0)

	if current_process() is not None:
	# We check if the current process is None here because if
	# it's None, any call to ``active_children()`` will raise
	# an AttributeError (active_children winds up trying to
	# get attributes from util._current_process). One
	# situation where this can happen is if someone has
	# manipulated sys.modules, causing this module to be
	# garbage collected. The destructor for the module type
	# then replaces all values in the module dict with None.
	# For instance, after setuptools runs a test it replaces
	# sys.modules with a copy created earlier. See issues
	# #9775 and #15881. Also related: #4106, #9205, and
	# #9207.

	for p in active_children():
	if p.daemon:
	info('calling terminate() for daemon %s', p.name)
	p._popen.terminate()

	for p in active_children():
	info('calling join() for process %s', p.name)
	p.join()

	debug('running the remaining "atexit" finalizers')
	_run_finalizers()

	atexit.register(_exit_function)

	#
	# Some fork aware types
	#

	class ForkAwareThreadLock(object):
	def __init__(self):
	self._lock = threading.Lock()
	self.acquire = self._lock.acquire
	self.release = self._lock.release
	register_after_fork(self, ForkAwareThreadLock._at_fork_reinit)

	def _at_fork_reinit(self):
	self._lock._at_fork_reinit()

	def __enter__(self):
	return self._lock.__enter__()

	def __exit__(self, *args):
	return self._lock.__exit__(*args)


	class ForkAwareLocal(threading.local):
	def __init__(self):
	register_after_fork(self, lambda obj : obj.__dict__.clear())
	def __reduce__(self):
	return type(self), ()

	#
	# Close fds except those specified
	#

	try:
	MAXFD = os.sysconf("SC_OPEN_MAX")
	except Exception:
	MAXFD = 256

	def close_all_fds_except(fds):
	fds = list(fds) + [-1, MAXFD]
	fds.sort()
	assert fds[-1] == MAXFD, 'fd too large'
	for i in range(len(fds) - 1):
	os.closerange(fds[i]+1, fds[i+1])
	#
	# Close sys.stdin and replace stdin with os.devnull
	#

	def _close_stdin():
	if sys.stdin is None:
	return

	try:
	sys.stdin.close()
	except (OSError, ValueError):
	pass

	try:
	fd = os.open(os.devnull, os.O_RDONLY)
	try:
	sys.stdin = open(fd, closefd=False)
	except:
	os.close(fd)
	raise
	except (OSError, ValueError):
	pass

	#
	# Flush standard streams, if any
	#

	def _flush_std_streams():
	try:
	sys.stdout.flush()
	except (AttributeError, ValueError):
	pass
	try:
	sys.stderr.flush()
	except (AttributeError, ValueError):
	pass

	#
	# Start a program with only specified fds kept open
	#

	def spawnv_passfds(path, args, passfds):
	import _posixsubprocess
	passfds = tuple(sorted(map(int, passfds)))
	errpipe_read, errpipe_write = os.pipe()
	try:
	return _posixsubprocess.fork_exec(
	args, [os.fsencode(path)], True, passfds, None, None,
	-1, -1, -1, -1, -1, -1, errpipe_read, errpipe_write,
	False, False, None, None, None, -1, None)
	finally:
	os.close(errpipe_read)
	os.close(errpipe_write)


	def close_fds(*fds):
	"""Close each file descriptor given as an argument"""
	for fd in fds:
	os.close(fd)


	def _cleanup_tests():
	"""Cleanup multiprocessing resources when multiprocessing tests
	completed."""

	from test import support

	# cleanup multiprocessing
	process._cleanup()

	# Stop the ForkServer process if it's running
	from multiprocessing import forkserver
	forkserver._forkserver._stop()

	# Stop the ResourceTracker process if it's running
	from multiprocessing import resource_tracker
	resource_tracker._resource_tracker._stop()

	# bpo-37421: Explicitly call _run_finalizers() to remove immediately
	# temporary directories created by multiprocessing.util.get_temp_dir().
	_run_finalizers()
	support.gc_collect()

	support.reap_children()