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             serialize.py
        
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      """serialization utilities for apply messages

      Authors:

      * Min RK

      """

      #-----------------------------------------------------------------------------

      #  Copyright (C) 2010-2011  The IPython Development Team

      #

      #  Distributed under the terms of the BSD License.  The full license is in

      #  the file COPYING, distributed as part of this software.

      #-----------------------------------------------------------------------------

      #-----------------------------------------------------------------------------

      # Imports

      #-----------------------------------------------------------------------------

      try:

          import cPickle

          pickle = cPickle

      except:

          cPickle = None

          import pickle

      # IPython imports

      from IPython.utils import py3compat

      from IPython.utils.data import flatten

      from IPython.utils.pickleutil import (

          can, uncan, can_sequence, uncan_sequence, CannedObject,

          istype, sequence_types,

      )

      if py3compat.PY3:

          buffer = memoryview

      #-----------------------------------------------------------------------------

      # Serialization Functions

      #-----------------------------------------------------------------------------

      # default values for the thresholds:

      MAX_ITEMS = 64

      MAX_BYTES = 1024

      def _extract_buffers(obj, threshold=MAX_BYTES):

          """extract buffers larger than a certain threshold"""

          buffers = []

          if isinstance(obj, CannedObject) and obj.buffers:

              for i,buf in enumerate(obj.buffers):

                  if len(buf) > threshold:

                      # buffer larger than threshold, prevent pickling

                      obj.buffers[i] = None

                      buffers.append(buf)

                  elif isinstance(buf, buffer):

                      # buffer too small for separate send, coerce to bytes

                      # because pickling buffer objects just results in broken pointers

                      obj.buffers[i] = bytes(buf)

          return buffers

      def _restore_buffers(obj, buffers):

          """restore buffers extracted by """

          if isinstance(obj, CannedObject) and obj.buffers:

              for i,buf in enumerate(obj.buffers):

                  if buf is None:

                      obj.buffers[i] = buffers.pop(0)

      def serialize_object(obj, buffer_threshold=MAX_BYTES, item_threshold=MAX_ITEMS):

          """Serialize an object into a list of sendable buffers.

          Parameters

          ----------

          obj : object

              The object to be serialized

          buffer_threshold : int

              The threshold (in bytes) for pulling out data buffers

              to avoid pickling them.

          item_threshold : int

              The maximum number of items over which canning will iterate.

              Containers (lists, dicts) larger than this will be pickled without

              introspection.

          Returns

          -------

          [bufs] : list of buffers representing the serialized object.

          """

          buffers = []

          if istype(obj, sequence_types) and len(obj) < item_threshold:

              cobj = can_sequence(obj)

              for c in cobj:

                  buffers.extend(_extract_buffers(c, buffer_threshold))

          elif istype(obj, dict) and len(obj) < item_threshold:

              cobj = {}

              for k in sorted(obj.iterkeys()):

                  c = can(obj[k])

                  buffers.extend(_extract_buffers(c, buffer_threshold))

                  cobj[k] = c

          else:

              cobj = can(obj)

              buffers.extend(_extract_buffers(cobj, buffer_threshold))

          buffers.insert(0, pickle.dumps(cobj,-1))

          return buffers

      def unserialize_object(buffers, g=None):

          """reconstruct an object serialized by serialize_object from data buffers.

          Parameters

          ----------

          bufs : list of buffers/bytes

          g : globals to be used when uncanning

          Returns

          -------

          (newobj, bufs) : unpacked object, and the list of remaining unused buffers.

          """

          bufs = list(buffers)

          pobj = bufs.pop(0)

          if not isinstance(pobj, bytes):

              # a zmq message

              pobj = bytes(pobj)

          canned = pickle.loads(pobj)

          if istype(canned, sequence_types) and len(canned) < MAX_ITEMS:

              for c in canned:

                  _restore_buffers(c, bufs)

              newobj = uncan_sequence(canned, g)

          elif istype(canned, dict) and len(canned) < MAX_ITEMS:

              newobj = {}

              for k in sorted(canned.iterkeys()):

                  c = canned[k]

                  _restore_buffers(c, bufs)

                  newobj[k] = uncan(c, g)

          else:

              _restore_buffers(canned, bufs)

              newobj = uncan(canned, g)

          return newobj, bufs

      def pack_apply_message(f, args, kwargs, buffer_threshold=MAX_BYTES, item_threshold=MAX_ITEMS):

          """pack up a function, args, and kwargs to be sent over the wire

          Each element of args/kwargs will be canned for special treatment,

          but inspection will not go any deeper than that.

          Any object whose data is larger than `threshold`  will not have their data copied

          (only numpy arrays and bytes/buffers support zero-copy)

          Message will be a list of bytes/buffers of the format:

          [ cf, pinfo, <arg_bufs>, <kwarg_bufs> ]

          With length at least two + len(args) + len(kwargs)

          """

          arg_bufs = flatten(serialize_object(arg, buffer_threshold, item_threshold) for arg in args)

          kw_keys = sorted(kwargs.keys())

          kwarg_bufs = flatten(serialize_object(kwargs[key], buffer_threshold, item_threshold) for key in kw_keys)

          info = dict(nargs=len(args), narg_bufs=len(arg_bufs), kw_keys=kw_keys)

          msg = [pickle.dumps(can(f),-1)]

          msg.append(pickle.dumps(info, -1))

          msg.extend(arg_bufs)

          msg.extend(kwarg_bufs)

          return msg

      def unpack_apply_message(bufs, g=None, copy=True):

          """unpack f,args,kwargs from buffers packed by pack_apply_message()

          Returns: original f,args,kwargs"""

          bufs = list(bufs) # allow us to pop

          assert len(bufs) >= 2, "not enough buffers!"

          if not copy:

              for i in range(2):

                  bufs[i] = bufs[i].bytes

          f = uncan(pickle.loads(bufs.pop(0)), g)

          info = pickle.loads(bufs.pop(0))

          arg_bufs, kwarg_bufs = bufs[:info['narg_bufs']], bufs[info['narg_bufs']:]

          args = []

          for i in range(info['nargs']):

              arg, arg_bufs = unserialize_object(arg_bufs, g)

              args.append(arg)

          args = tuple(args)

          assert not arg_bufs, "Shouldn't be any arg bufs left over"

          kwargs = {}

          for key in info['kw_keys']:

              kwarg, kwarg_bufs = unserialize_object(kwarg_bufs, g)

              kwargs[key] = kwarg

          assert not kwarg_bufs, "Shouldn't be any kwarg bufs left over"

          return f,args,kwargs

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				"""serialization utilities for apply messages

				Authors:

				* Min RK
				"""
				#-----------------------------------------------------------------------------
				# Copyright (C) 2010-2011 The IPython Development Team
				#
				# Distributed under the terms of the BSD License. The full license is in
				# the file COPYING, distributed as part of this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------

				try:
				import cPickle
				pickle = cPickle
				except:
				cPickle = None
				import pickle


				# IPython imports
				from IPython.utils import py3compat
				from IPython.utils.data import flatten
				from IPython.utils.pickleutil import (
				can, uncan, can_sequence, uncan_sequence, CannedObject,
				istype, sequence_types,
				)

				if py3compat.PY3:
				buffer = memoryview

				#-----------------------------------------------------------------------------
				# Serialization Functions
				#-----------------------------------------------------------------------------

				# default values for the thresholds:
				MAX_ITEMS = 64
				MAX_BYTES = 1024

				def _extract_buffers(obj, threshold=MAX_BYTES):
				"""extract buffers larger than a certain threshold"""
				buffers = []
				if isinstance(obj, CannedObject) and obj.buffers:
				for i,buf in enumerate(obj.buffers):
				if len(buf) > threshold:
				# buffer larger than threshold, prevent pickling
				obj.buffers[i] = None
				buffers.append(buf)
				elif isinstance(buf, buffer):
				# buffer too small for separate send, coerce to bytes
				# because pickling buffer objects just results in broken pointers
				obj.buffers[i] = bytes(buf)
				return buffers

				def _restore_buffers(obj, buffers):
				"""restore buffers extracted by """
				if isinstance(obj, CannedObject) and obj.buffers:
				for i,buf in enumerate(obj.buffers):
				if buf is None:
				obj.buffers[i] = buffers.pop(0)

				def serialize_object(obj, buffer_threshold=MAX_BYTES, item_threshold=MAX_ITEMS):
				"""Serialize an object into a list of sendable buffers.

				Parameters
				----------

				obj : object
				The object to be serialized
				buffer_threshold : int
				The threshold (in bytes) for pulling out data buffers
				to avoid pickling them.
				item_threshold : int
				The maximum number of items over which canning will iterate.
				Containers (lists, dicts) larger than this will be pickled without
				introspection.

				Returns
				-------
				[bufs] : list of buffers representing the serialized object.
				"""
				buffers = []
				if istype(obj, sequence_types) and len(obj) < item_threshold:
				cobj = can_sequence(obj)
				for c in cobj:
				buffers.extend(_extract_buffers(c, buffer_threshold))
				elif istype(obj, dict) and len(obj) < item_threshold:
				cobj = {}
				for k in sorted(obj.iterkeys()):
				c = can(obj[k])
				buffers.extend(_extract_buffers(c, buffer_threshold))
				cobj[k] = c
				else:
				cobj = can(obj)
				buffers.extend(_extract_buffers(cobj, buffer_threshold))

				buffers.insert(0, pickle.dumps(cobj,-1))
				return buffers

				def unserialize_object(buffers, g=None):
				"""reconstruct an object serialized by serialize_object from data buffers.

				Parameters
				----------

				bufs : list of buffers/bytes

				g : globals to be used when uncanning

				Returns
				-------

				(newobj, bufs) : unpacked object, and the list of remaining unused buffers.
				"""
				bufs = list(buffers)
				pobj = bufs.pop(0)
				if not isinstance(pobj, bytes):
				# a zmq message
				pobj = bytes(pobj)
				canned = pickle.loads(pobj)
				if istype(canned, sequence_types) and len(canned) < MAX_ITEMS:
				for c in canned:
				_restore_buffers(c, bufs)
				newobj = uncan_sequence(canned, g)
				elif istype(canned, dict) and len(canned) < MAX_ITEMS:
				newobj = {}
				for k in sorted(canned.iterkeys()):
				c = canned[k]
				_restore_buffers(c, bufs)
				newobj[k] = uncan(c, g)
				else:
				_restore_buffers(canned, bufs)
				newobj = uncan(canned, g)

				return newobj, bufs

				def pack_apply_message(f, args, kwargs, buffer_threshold=MAX_BYTES, item_threshold=MAX_ITEMS):
				"""pack up a function, args, and kwargs to be sent over the wire

				Each element of args/kwargs will be canned for special treatment,
				but inspection will not go any deeper than that.

				Any object whose data is larger than `threshold` will not have their data copied
				(only numpy arrays and bytes/buffers support zero-copy)

				Message will be a list of bytes/buffers of the format:

				[ cf, pinfo, <arg_bufs>, <kwarg_bufs> ]

				With length at least two + len(args) + len(kwargs)
				"""

				arg_bufs = flatten(serialize_object(arg, buffer_threshold, item_threshold) for arg in args)

				kw_keys = sorted(kwargs.keys())
				kwarg_bufs = flatten(serialize_object(kwargs[key], buffer_threshold, item_threshold) for key in kw_keys)

				info = dict(nargs=len(args), narg_bufs=len(arg_bufs), kw_keys=kw_keys)

				msg = [pickle.dumps(can(f),-1)]
				msg.append(pickle.dumps(info, -1))
				msg.extend(arg_bufs)
				msg.extend(kwarg_bufs)

				return msg

				def unpack_apply_message(bufs, g=None, copy=True):
				"""unpack f,args,kwargs from buffers packed by pack_apply_message()
				Returns: original f,args,kwargs"""
				bufs = list(bufs) # allow us to pop
				assert len(bufs) >= 2, "not enough buffers!"
				if not copy:
				for i in range(2):
				bufs[i] = bufs[i].bytes
				f = uncan(pickle.loads(bufs.pop(0)), g)
				info = pickle.loads(bufs.pop(0))
				arg_bufs, kwarg_bufs = bufs[:info['narg_bufs']], bufs[info['narg_bufs']:]

				args = []
				for i in range(info['nargs']):
				arg, arg_bufs = unserialize_object(arg_bufs, g)
				args.append(arg)
				args = tuple(args)
				assert not arg_bufs, "Shouldn't be any arg bufs left over"

				kwargs = {}
				for key in info['kw_keys']:
				kwarg, kwarg_bufs = unserialize_object(kwarg_bufs, g)
				kwargs[key] = kwarg
				assert not kwarg_bufs, "Shouldn't be any kwarg bufs left over"

				return f,args,kwargs