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/usr/lib/python2.7/dist-packages/billiard/context.py is in python-billiard 3.5.0.3-1.

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from __future__ import absolute_import

import os
import sys
import threading
import warnings

from . import process

__all__ = []            # things are copied from here to __init__.py


W_NO_EXECV = """\
force_execv is not supported as the billiard C extension \
is not installed\
"""


#
# Exceptions
#

from .exceptions import (  # noqa
    ProcessError,
    BufferTooShort,
    TimeoutError,
    AuthenticationError,
    TimeLimitExceeded,
    SoftTimeLimitExceeded,
    WorkerLostError,
)


#
# Base type for contexts
#

class BaseContext(object):

    ProcessError = ProcessError
    BufferTooShort = BufferTooShort
    TimeoutError = TimeoutError
    AuthenticationError = AuthenticationError
    TimeLimitExceeded = TimeLimitExceeded
    SoftTimeLimitExceeded = SoftTimeLimitExceeded
    WorkerLostError = WorkerLostError

    current_process = staticmethod(process.current_process)
    active_children = staticmethod(process.active_children)

    if hasattr(os, 'cpu_count'):
        def cpu_count(self):
            '''Returns the number of CPUs in the system'''
            num = os.cpu_count()
            if num is None:
                raise NotImplementedError('cannot determine number of cpus')
            else:
                return num
    else:
        def cpu_count(self):  # noqa
            if sys.platform == 'win32':
                try:
                    num = int(os.environ['NUMBER_OF_PROCESSORS'])
                except (ValueError, KeyError):
                    num = 0
            elif 'bsd' in sys.platform or sys.platform == 'darwin':
                comm = '/sbin/sysctl -n hw.ncpu'
                if sys.platform == 'darwin':
                    comm = '/usr' + comm
                try:
                    with os.popen(comm) as p:
                        num = int(p.read())
                except ValueError:
                    num = 0
            else:
                try:
                    num = os.sysconf('SC_NPROCESSORS_ONLN')
                except (ValueError, OSError, AttributeError):
                    num = 0

            if num >= 1:
                return num
            else:
                raise NotImplementedError('cannot determine number of cpus')

    def Manager(self):
        '''Returns a manager associated with a running server process

        The managers methods such as `Lock()`, `Condition()` and `Queue()`
        can be used to create shared objects.
        '''
        from .managers import SyncManager
        m = SyncManager(ctx=self.get_context())
        m.start()
        return m

    def Pipe(self, duplex=True, rnonblock=False, wnonblock=False):
        '''Returns two connection object connected by a pipe'''
        from .connection import Pipe
        return Pipe(duplex, rnonblock, wnonblock)

    def Lock(self):
        '''Returns a non-recursive lock object'''
        from .synchronize import Lock
        return Lock(ctx=self.get_context())

    def RLock(self):
        '''Returns a recursive lock object'''
        from .synchronize import RLock
        return RLock(ctx=self.get_context())

    def Condition(self, lock=None):
        '''Returns a condition object'''
        from .synchronize import Condition
        return Condition(lock, ctx=self.get_context())

    def Semaphore(self, value=1):
        '''Returns a semaphore object'''
        from .synchronize import Semaphore
        return Semaphore(value, ctx=self.get_context())

    def BoundedSemaphore(self, value=1):
        '''Returns a bounded semaphore object'''
        from .synchronize import BoundedSemaphore
        return BoundedSemaphore(value, ctx=self.get_context())

    def Event(self):
        '''Returns an event object'''
        from .synchronize import Event
        return Event(ctx=self.get_context())

    def Barrier(self, parties, action=None, timeout=None):
        '''Returns a barrier object'''
        from .synchronize import Barrier
        return Barrier(parties, action, timeout, ctx=self.get_context())

    def Queue(self, maxsize=0):
        '''Returns a queue object'''
        from .queues import Queue
        return Queue(maxsize, ctx=self.get_context())

    def JoinableQueue(self, maxsize=0):
        '''Returns a queue object'''
        from .queues import JoinableQueue
        return JoinableQueue(maxsize, ctx=self.get_context())

    def SimpleQueue(self):
        '''Returns a queue object'''
        from .queues import SimpleQueue
        return SimpleQueue(ctx=self.get_context())

    def Pool(self, processes=None, initializer=None, initargs=(),
             maxtasksperchild=None, timeout=None, soft_timeout=None,
             lost_worker_timeout=None, max_restarts=None,
             max_restart_freq=1, on_process_up=None, on_process_down=None,
             on_timeout_set=None, on_timeout_cancel=None, threads=True,
             semaphore=None, putlocks=False, allow_restart=False):
        '''Returns a process pool object'''
        from .pool import Pool
        return Pool(processes, initializer, initargs, maxtasksperchild,
                    timeout, soft_timeout, lost_worker_timeout,
                    max_restarts, max_restart_freq, on_process_up,
                    on_process_down, on_timeout_set, on_timeout_cancel,
                    threads, semaphore, putlocks, allow_restart,
                    context=self.get_context())

    def RawValue(self, typecode_or_type, *args):
        '''Returns a shared object'''
        from .sharedctypes import RawValue
        return RawValue(typecode_or_type, *args)

    def RawArray(self, typecode_or_type, size_or_initializer):
        '''Returns a shared array'''
        from .sharedctypes import RawArray
        return RawArray(typecode_or_type, size_or_initializer)

    def Value(self, typecode_or_type, *args, **kwargs):
        '''Returns a synchronized shared object'''
        from .sharedctypes import Value
        lock = kwargs.get('lock', True)
        return Value(typecode_or_type, *args, lock=lock,
                     ctx=self.get_context())

    def Array(self, typecode_or_type, size_or_initializer, *args, **kwargs):
        '''Returns a synchronized shared array'''
        from .sharedctypes import Array
        lock = kwargs.get('lock', True)
        return Array(typecode_or_type, size_or_initializer, lock=lock,
                     ctx=self.get_context())

    def freeze_support(self):
        '''Check whether this is a fake forked process in a frozen executable.
        If so then run code specified by commandline and exit.
        '''
        if sys.platform == 'win32' and getattr(sys, 'frozen', False):
            from .spawn import freeze_support
            freeze_support()

    def get_logger(self):
        '''Return package logger -- if it does not already exist then
        it is created.
        '''
        from .util import get_logger
        return get_logger()

    def log_to_stderr(self, level=None):
        '''Turn on logging and add a handler which prints to stderr'''
        from .util import log_to_stderr
        return log_to_stderr(level)

    def allow_connection_pickling(self):
        '''Install support for sending connections and sockets
        between processes
        '''
        # This is undocumented.  In previous versions of multiprocessing
        # its only effect was to make socket objects inheritable on Windows.
        from . import connection  # noqa

    def set_executable(self, executable):
        '''Sets the path to a python.exe or pythonw.exe binary used to run
        child processes instead of sys.executable when using the 'spawn'
        start method.  Useful for people embedding Python.
        '''
        from .spawn import set_executable
        set_executable(executable)

    def set_forkserver_preload(self, module_names):
        '''Set list of module names to try to load in forkserver process.
        This is really just a hint.
        '''
        from .forkserver import set_forkserver_preload
        set_forkserver_preload(module_names)

    def get_context(self, method=None):
        if method is None:
            return self
        try:
            ctx = _concrete_contexts[method]
        except KeyError:
            raise ValueError('cannot find context for %r' % method)
        ctx._check_available()
        return ctx

    def get_start_method(self, allow_none=False):
        return self._name

    def set_start_method(self, method=None):
        raise ValueError('cannot set start method of concrete context')

    def forking_is_enabled(self):
        # XXX for compatibility with billiard <3.4
        return (self.get_start_method() or 'fork') == 'fork'

    def forking_enable(self, value):
        # XXX for compatibility with billiard <3.4
        if not value:
            from ._ext import supports_exec
            if supports_exec:
                self.set_start_method('spawn', force=True)
            else:
                warnings.warn(RuntimeWarning(W_NO_EXECV))

    def _check_available(self):
        pass

#
# Type of default context -- underlying context can be set at most once
#


class Process(process.BaseProcess):
    _start_method = None

    @staticmethod
    def _Popen(process_obj):
        return _default_context.get_context().Process._Popen(process_obj)


class DefaultContext(BaseContext):
    Process = Process

    def __init__(self, context):
        self._default_context = context
        self._actual_context = None

    def get_context(self, method=None):
        if method is None:
            if self._actual_context is None:
                self._actual_context = self._default_context
            return self._actual_context
        else:
            return super(DefaultContext, self).get_context(method)

    def set_start_method(self, method, force=False):
        if self._actual_context is not None and not force:
            raise RuntimeError('context has already been set')
        if method is None and force:
            self._actual_context = None
            return
        self._actual_context = self.get_context(method)

    def get_start_method(self, allow_none=False):
        if self._actual_context is None:
            if allow_none:
                return None
            self._actual_context = self._default_context
        return self._actual_context._name

    def get_all_start_methods(self):
        if sys.platform == 'win32':
            return ['spawn']
        else:
            from . import reduction
            if reduction.HAVE_SEND_HANDLE:
                return ['fork', 'spawn', 'forkserver']
            else:
                return ['fork', 'spawn']

DefaultContext.__all__ = list(x for x in dir(DefaultContext) if x[0] != '_')

#
# Context types for fixed start method
#

if sys.platform != 'win32':

    class ForkProcess(process.BaseProcess):
        _start_method = 'fork'

        @staticmethod
        def _Popen(process_obj):
            from .popen_fork import Popen
            return Popen(process_obj)

    class SpawnProcess(process.BaseProcess):
        _start_method = 'spawn'

        @staticmethod
        def _Popen(process_obj):
            from .popen_spawn_posix import Popen
            return Popen(process_obj)

    class ForkServerProcess(process.BaseProcess):
        _start_method = 'forkserver'

        @staticmethod
        def _Popen(process_obj):
            from .popen_forkserver import Popen
            return Popen(process_obj)

    class ForkContext(BaseContext):
        _name = 'fork'
        Process = ForkProcess

    class SpawnContext(BaseContext):
        _name = 'spawn'
        Process = SpawnProcess

    class ForkServerContext(BaseContext):
        _name = 'forkserver'
        Process = ForkServerProcess

        def _check_available(self):
            from . import reduction
            if not reduction.HAVE_SEND_HANDLE:
                raise ValueError('forkserver start method not available')

    _concrete_contexts = {
        'fork': ForkContext(),
        'spawn': SpawnContext(),
        'forkserver': ForkServerContext(),
    }
    _default_context = DefaultContext(_concrete_contexts['fork'])

else:

    class SpawnProcess(process.BaseProcess):
        _start_method = 'spawn'

        @staticmethod
        def _Popen(process_obj):
            from .popen_spawn_win32 import Popen
            return Popen(process_obj)

    class SpawnContext(BaseContext):
        _name = 'spawn'
        Process = SpawnProcess

    _concrete_contexts = {
        'spawn': SpawnContext(),
    }
    _default_context = DefaultContext(_concrete_contexts['spawn'])

#
# Force the start method
#


def _force_start_method(method):
    _default_context._actual_context = _concrete_contexts[method]

#
# Check that the current thread is spawning a child process
#

_tls = threading.local()


def get_spawning_popen():
    return getattr(_tls, 'spawning_popen', None)


def set_spawning_popen(popen):
    _tls.spawning_popen = popen


def assert_spawning(obj):
    if get_spawning_popen() is None:
        raise RuntimeError(
            '%s objects should only be shared between processes'
            ' through inheritance' % type(obj).__name__
        )