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diff --git a/_shm/shm_wrapper.py b/_shm/shm_wrapper.py
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--- a/_shm/shm_wrapper.py
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@@ -1,302 +0,0 @@
-# shm_wrapper - A wrapper for the shm module which provides access
-# to System V shared memory and semaphores on *nix systems.
-#
-# Copyright (c) 2007 by Philip Semanchuk
-# Contact info at http://NikitaTheSpider.com/
-#
-# This program is free software; you can redistribute it and/or
-# modify it under the terms of the GNU General Public License
-# as published by the Free Software Foundation; either version 2
-# of the License, or (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program; if not, write to the Free Software
-# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
-
-# Python modules
-import random
-import sys
-
-# Third party modules
-import shm
-from shm import error as shmerror
-
-r"""shm_wrapper - A wrapper for the shm module which provides access
-to System V shared memory and semaphores on *nix systems.
-
-The module shm is a Python wrapper around system functions like shmget. This
-module in turn offers higher-level, more Pythonic access to shared memory and
-semaphores.
-
-Full documentation is online at http://NikitaTheSpider.com/python/shm/
-
-"""
-
-def create_memory(size, permissions = 0666, InitCharacter = ' '):
-    """ Creates a new shared memory segment. One can destroy it either by calling the
-    module-level method remove_memory() or by calling the .remove() method of a handle to
-    said memory.
-    """
-    memory = None
-
-    # I create the memory using a randomly-generated key. I keep trying until I find one
-    # that works or until I hit an error.
-    while not memory:
-        key = random.randint(1, sys.maxint - 1)
-        try:
-            memory = shm.create_memory(key, size, permissions)
-        except shmerror, ExtraData:
-            if shm.memory_haskey(key):
-                # Oops, bad luck, the key exists. I'll try another. I can't call
-                # memory_haskey() before calling create_memory() because that would create
-                # a race condition where I could verify a key is not used but then another
-                # process could call create_memory() with that key before I got a chance to
-                # do so.
-                pass
-            else:
-                # Uh-oh, something fundamental is wrong.
-                raise shmerror, ExtraData
-
-    # Here I implicitly discard the memory handle object returned to me by shm and instead
-    # return my own handle to the shared memory segment.
-    memory = SharedMemoryHandle(key)
-
-    memory.write(InitCharacter[0] * memory.size)
-
-    return memory
-
-
-def remove_memory(key):
-    # Destroys the shared memory segment. Raises KeyError if the key doesn't exist.
-    shm.remove_memory(shm.getshmid(key))
-
-
-class SharedMemoryHandle(object):
-    def __init__(self, key):
-        self._MemoryHandle = None
-
-        # getshmid will raise a KeyError if there's no memory segment with this key.
-        shmid = shm.getshmid(key)
-        self._MemoryHandle = shm.memory(shmid)
-
-
-    def __del__(self):
-        if self._MemoryHandle:
-            # This will raise an error if the memory has been destroyed.
-            try:
-                if self._MemoryHandle.attached:
-                    self._MemoryHandle.detach()
-            except shmerror:
-                pass
-
-
-    def remove(self):
-        if self._MemoryHandle:
-            if self._MemoryHandle.attached:
-                self._MemoryHandle.detach()
-
-            shm.remove_memory(self._MemoryHandle.shmid)
-            self._MemoryHandle = None
-
-
-    def read(self, NumberOfBytes = 0, offset = 0):
-        if not self._MemoryHandle.attached:
-            self._MemoryHandle.attach()
-
-        if not NumberOfBytes:
-            NumberOfBytes = self._MemoryHandle.size - offset
-
-        return self._MemoryHandle.read(NumberOfBytes, offset)
-
-
-    def write(self, s, offset = 0):
-        if not self._MemoryHandle.attached:
-            self._MemoryHandle.attach()
-
-        self._MemoryHandle.write(s, offset)
-
-
-    # Properties start here ================================================================
-
-    # key
-    def __get_key(self): return self._MemoryHandle.key
-    def __set_key(self, foo): raise AttributeError
-    key = property(__get_key, __set_key)
-
-    # size of segment
-    def __get_size(self): return self._MemoryHandle.size
-    def __set_size(self, foo): raise AttributeError
-    size = property(__get_size, __set_size)
-
-    # permissions
-    def __get_permissions(self): return self._MemoryHandle.perm
-    def __set_permissions(self, permissions): self._MemoryHandle.setperm(permissions)
-    permissions = property(__get_permissions, __set_permissions)
-
-    # The number of processes currently attached to this memory segment.
-    def __get_number_attached(self): return self._MemoryHandle.nattch
-    def __set_number_attached(self, foo): raise AttributeError
-    number_attached = property(__get_number_attached, __set_number_attached)
-
-    # segment's uid
-    def __get_uid(self): return self._MemoryHandle.uid
-    def __set_uid(self, uid): self._MemoryHandle.setuid(uid)
-    uid = property(__get_uid, __set_uid)
-
-    # segment's gid
-    def __get_gid(self): return self._MemoryHandle.gid
-    def __set_gid(self, gid): self._MemoryHandle.setgid(gid)
-    gid = property(__get_gid, __set_gid)
-
-    # Creator uid (read-only)
-    def __get_creator_uid(self): return self._MemoryHandle.cuid
-    def __set_creator_uid(self, foo): raise AttributeError
-    creator_uid = property(__get_creator_uid, __set_creator_uid)
-
-    # Creator gid (read-only)
-    def __get_creator_gid(self): return self._MemoryHandle.cgid
-    def __set_creator_gid(self, foo): raise AttributeError
-    creator_gid = property(__get_creator_gid, __set_creator_gid)
-
-    # Creator pid (read-only)
-    def __get_creator_pid(self): return self._MemoryHandle.cpid
-    def __set_creator_pid(self, foo): raise AttributeError
-    creator_pid = property(__get_creator_pid, __set_creator_pid)
-
-    # pid of last process to operate on this segment (read-only)
-    def __get_last_pid(self): return self._MemoryHandle.lpid
-    def __set_last_pid(self, foo): raise AttributeError
-    last_pid = property(__get_last_pid, __set_last_pid)
-
-
-
-def create_semaphore(InitialValue = 1, permissions = 0666):
-    """ Creates a new semaphore. One can destroy it either by calling the
-    module-level method remove_semaphore() or by calling the .remove() method of a
-    handle to said semaphore.
-    """
-    semaphore = None
-
-    # I create the semaphore using a randomly-generated key. I keep trying until I find one
-    # that works or until I hit an error.
-    while not semaphore:
-        key = random.randint(1, sys.maxint - 1)
-        try:
-            semaphore = shm.create_semaphore(key, InitialValue, permissions)
-        except shmerror, ExtraData:
-            if shm.semaphore_haskey(key):
-                # Oops, bad luck, the key exists. I'll try another. I can't call
-                # memory_haskey() before calling create_semaphore() because that would create
-                # a race condition where I could verify a key is not used but then another
-                # process could call create_semaphore() with that key before I got a chance to
-                # do so.
-                pass
-            else:
-                # Uh-oh, something fundamental is wrong.
-                raise ExtraData
-
-    # Here I implicitly discard the semaphore object returned to me by shm and instead
-    # return my own handle to the semaphore.
-    return SemaphoreHandle(key)
-
-
-def remove_semaphore(key):
-    # Destroys the semaphore. Raises KeyError if the key doesn't exist.
-    shm.remove_semaphore(shm.getsemid(key))
-
-
-class SemaphoreHandle(object):
-    def __init__(self, key):
-        # getsemid will raise a KeyError if appropriate.
-        self._SemaphoreHandle = shm.semaphore(shm.getsemid(key))
-
-
-    def remove(self):
-        shm.remove_semaphore(self._SemaphoreHandle.semid)
-        self._SemaphoreHandle = None
-
-
-    def P(self):
-        # P = prolaag = probeer te verlagen (try to decrease)
-        self._SemaphoreHandle.P()
-
-
-    def V(self):
-        # V = verhoog (increase)
-        self._SemaphoreHandle.V()
-
-
-    def Z(self):
-        # Z = block until Zee semaphore is Zero
-        self._SemaphoreHandle.Z()
-
-
-    # Properties start here ================================================================
-    def __get_key(self): return self._SemaphoreHandle.key
-    def __set_key(self, foo): raise AttributeError
-    key = property(__get_key, __set_key)
-
-
-    def __get_value(self): return self._SemaphoreHandle.val
-    def __set_value(self, value): self._semaphore.setval(value)
-    value = property(__get_value, __set_value)
-
-
-    def __get_WaitingForZero(self): return self._SemaphoreHandle.zcnt
-    def __set_WaitingForZero(self, foo): raise AttributeError
-    WaitingForZero = property(__get_WaitingForZero, __set_WaitingForZero)
-
-
-    def __get_WaitingForNonZero(self): return self._SemaphoreHandle.ncnt
-    def __set_WaitingForNonZero(self, foo): raise AttributeError
-    WaitingForNonZero = property(__get_WaitingForNonZero, __set_WaitingForNonZero)
-
-
-    def __get_blocking(self): return self._SemaphoreHandle.blocking
-    def __set_blocking(self, block): self._SemaphoreHandle.setblocking(block)
-    blocking = property(__get_blocking, __set_blocking)
-
-
-    def __get_undo(self): raise AttributeError
-    def __set_undo(self, undo): self._SemaphoreHandle.setundo(undo)
-    undo = property(__get_undo, __set_undo)
-
-
-    # segment's uid
-    def __get_uid(self): return self._SemaphoreHandle.uid
-    def __set_uid(self, uid): self._SemaphoreHandle.setuid(uid)
-    uid = property(__get_uid, __set_uid)
-
-
-    # segment's gid
-    def __get_gid(self): return self._SemaphoreHandle.gid
-    def __set_gid(self, gid): self._SemaphoreHandle.setgid(gid)
-    gid = property(__get_gid, __set_gid)
-
-
-    # Creator uid (read-only)
-    def __get_creator_uid(self): return self._SemaphoreHandle.cuid
-    def __set_creator_uid(self, foo): raise AttributeError
-    creator_uid = property(__get_creator_uid, __set_creator_uid)
-
-
-    # Creator gid (read-only)
-    def __get_creator_gid(self): return self._SemaphoreHandle.cgid
-    def __set_creator_gid(self, foo): raise AttributeError
-    creator_gid = property(__get_creator_gid, __set_creator_gid)
-
-
-    # Creator pid -- since semaphores have a lot of the same properties as memory
-    # objects, one would expect creator PID to be exposed here, but it isn't
-    # made available by the system (true AFAICT for BSDs, OS X and Solaris).
-
-
-    # pid of last process to operate on this segment (read-only)
-    def __get_last_pid(self): return self._SemaphoreHandle.lpid
-    def __set_last_pid(self, foo): raise AttributeError
-    last_pid = property(__get_last_pid, __set_last_pid)