upstream/ipython Files · IPython/zmq/serialize.py

Merge pull request from dopplershift/pylab-switch...

Merge pull request from dopplershift/pylab-switch Enable switching %pylab mode between inline and a single gui mode in a single notebook. With this merge, `%pylab` can be called interactively to toggle inline/GUI (matplotlib floating windows) mode. After initializing `%pylab inline`, now one can call `%pylab` without arguments to activate the default GUI or ask for a specific one as usual. IPython will detect if a different GUI is requested if one was already activated and will refuse to do so (to prevent multiple event loops from running concurrently, which often leads to problems).

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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

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

      # Standard library imports

      import logging

      import os

      import re

      import socket

      import sys

      try:

          import cPickle

          pickle = cPickle

      except:

          cPickle = None

          import pickle

      # IPython imports

      from IPython.utils import py3compat

      from IPython.utils.pickleutil import can, uncan, canSequence, uncanSequence

      from IPython.utils.newserialized import serialize, unserialize

      if py3compat.PY3:

          buffer = memoryview

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

      # Serialization Functions

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

      def serialize_object(obj, threshold=64e-6):

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

          Parameters

          ----------

          obj : object

              The object to be serialized

          threshold : float

              The threshold for not double-pickling the content.

          Returns

          -------

          ('pmd', [bufs]) :

              where pmd is the pickled metadata wrapper,

              bufs is a list of data buffers

          """

          databuffers = []

          if isinstance(obj, (list, tuple)):

              clist = canSequence(obj)

              slist = map(serialize, clist)

              for s in slist:

                  if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold:

                      databuffers.append(s.getData())

                      s.data = None

              return pickle.dumps(slist,-1), databuffers

          elif isinstance(obj, dict):

              sobj = {}

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

                  s = serialize(can(obj[k]))

                  if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold:

                      databuffers.append(s.getData())

                      s.data = None

                  sobj[k] = s

              return pickle.dumps(sobj,-1),databuffers

          else:

              s = serialize(can(obj))

              if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold:

                  databuffers.append(s.getData())

                  s.data = None

              return pickle.dumps(s,-1),databuffers

      def unserialize_object(bufs):

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

          bufs = list(bufs)

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

          if isinstance(sobj, (list, tuple)):

              for s in sobj:

                  if s.data is None:

                      s.data = bufs.pop(0)

              return uncanSequence(map(unserialize, sobj)), bufs

          elif isinstance(sobj, dict):

              newobj = {}

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

                  s = sobj[k]

                  if s.data is None:

                      s.data = bufs.pop(0)

                  newobj[k] = uncan(unserialize(s))

              return newobj, bufs

          else:

              if sobj.data is None:

                  sobj.data = bufs.pop(0)

              return uncan(unserialize(sobj)), bufs

      def pack_apply_message(f, args, kwargs, threshold=64e-6):

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

          as a series of buffers. Any object whose data is larger than `threshold`

          will not have their data copied (currently only numpy arrays support zero-copy)"""

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

          databuffers = [] # for large objects

          sargs, bufs = serialize_object(args,threshold)

          msg.append(sargs)

          databuffers.extend(bufs)

          skwargs, bufs = serialize_object(kwargs,threshold)

          msg.append(skwargs)

          databuffers.extend(bufs)

          msg.extend(databuffers)

          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) >= 3, "not enough buffers!"

          if not copy:

              for i in range(3):

                  bufs[i] = bufs[i].bytes

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

          sargs = list(pickle.loads(bufs.pop(0)))

          skwargs = dict(pickle.loads(bufs.pop(0)))

          # print sargs, skwargs

          f = uncan(cf, g)

          for sa in sargs:

              if sa.data is None:

                  m = bufs.pop(0)

                  if sa.getTypeDescriptor() in ('buffer', 'ndarray'):

                      # always use a buffer, until memoryviews get sorted out

                      sa.data = buffer(m)

                      # disable memoryview support

                      # if copy:

                      #     sa.data = buffer(m)

                      # else:

                      #     sa.data = m.buffer

                  else:

                      if copy:

                          sa.data = m

                      else:

                          sa.data = m.bytes

          args = uncanSequence(map(unserialize, sargs), g)

          kwargs = {}

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

              sa = skwargs[k]

              if sa.data is None:

                  m = bufs.pop(0)

                  if sa.getTypeDescriptor() in ('buffer', 'ndarray'):

                      # always use a buffer, until memoryviews get sorted out

                      sa.data = buffer(m)

                      # disable memoryview support

                      # if copy:

                      #     sa.data = buffer(m)

                      # else:

                      #     sa.data = m.buffer

                  else:

                      if copy:

                          sa.data = m

                      else:

                          sa.data = m.bytes

              kwargs[k] = uncan(unserialize(sa), g)

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

				# Standard library imports
				import logging
				import os
				import re
				import socket
				import sys

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


				# IPython imports
				from IPython.utils import py3compat
				from IPython.utils.pickleutil import can, uncan, canSequence, uncanSequence
				from IPython.utils.newserialized import serialize, unserialize

				if py3compat.PY3:
				buffer = memoryview

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

				def serialize_object(obj, threshold=64e-6):
				"""Serialize an object into a list of sendable buffers.

				Parameters
				----------

				obj : object
				The object to be serialized
				threshold : float
				The threshold for not double-pickling the content.


				Returns
				-------
				('pmd', [bufs]) :
				where pmd is the pickled metadata wrapper,
				bufs is a list of data buffers
				"""
				databuffers = []
				if isinstance(obj, (list, tuple)):
				clist = canSequence(obj)
				slist = map(serialize, clist)
				for s in slist:
				if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold:
				databuffers.append(s.getData())
				s.data = None
				return pickle.dumps(slist,-1), databuffers
				elif isinstance(obj, dict):
				sobj = {}
				for k in sorted(obj.iterkeys()):
				s = serialize(can(obj[k]))
				if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold:
				databuffers.append(s.getData())
				s.data = None
				sobj[k] = s
				return pickle.dumps(sobj,-1),databuffers
				else:
				s = serialize(can(obj))
				if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold:
				databuffers.append(s.getData())
				s.data = None
				return pickle.dumps(s,-1),databuffers


				def unserialize_object(bufs):
				"""reconstruct an object serialized by serialize_object from data buffers."""
				bufs = list(bufs)
				sobj = pickle.loads(bufs.pop(0))
				if isinstance(sobj, (list, tuple)):
				for s in sobj:
				if s.data is None:
				s.data = bufs.pop(0)
				return uncanSequence(map(unserialize, sobj)), bufs
				elif isinstance(sobj, dict):
				newobj = {}
				for k in sorted(sobj.iterkeys()):
				s = sobj[k]
				if s.data is None:
				s.data = bufs.pop(0)
				newobj[k] = uncan(unserialize(s))
				return newobj, bufs
				else:
				if sobj.data is None:
				sobj.data = bufs.pop(0)
				return uncan(unserialize(sobj)), bufs

				def pack_apply_message(f, args, kwargs, threshold=64e-6):
				"""pack up a function, args, and kwargs to be sent over the wire
				as a series of buffers. Any object whose data is larger than `threshold`
				will not have their data copied (currently only numpy arrays support zero-copy)"""
				msg = [pickle.dumps(can(f),-1)]
				databuffers = [] # for large objects
				sargs, bufs = serialize_object(args,threshold)
				msg.append(sargs)
				databuffers.extend(bufs)
				skwargs, bufs = serialize_object(kwargs,threshold)
				msg.append(skwargs)
				databuffers.extend(bufs)
				msg.extend(databuffers)
				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) >= 3, "not enough buffers!"
				if not copy:
				for i in range(3):
				bufs[i] = bufs[i].bytes
				cf = pickle.loads(bufs.pop(0))
				sargs = list(pickle.loads(bufs.pop(0)))
				skwargs = dict(pickle.loads(bufs.pop(0)))
				# print sargs, skwargs
				f = uncan(cf, g)
				for sa in sargs:
				if sa.data is None:
				m = bufs.pop(0)
				if sa.getTypeDescriptor() in ('buffer', 'ndarray'):
				# always use a buffer, until memoryviews get sorted out
				sa.data = buffer(m)
				# disable memoryview support
				# if copy:
				# sa.data = buffer(m)
				# else:
				# sa.data = m.buffer
				else:
				if copy:
				sa.data = m
				else:
				sa.data = m.bytes

				args = uncanSequence(map(unserialize, sargs), g)
				kwargs = {}
				for k in sorted(skwargs.iterkeys()):
				sa = skwargs[k]
				if sa.data is None:
				m = bufs.pop(0)
				if sa.getTypeDescriptor() in ('buffer', 'ndarray'):
				# always use a buffer, until memoryviews get sorted out
				sa.data = buffer(m)
				# disable memoryview support
				# if copy:
				# sa.data = buffer(m)
				# else:
				# sa.data = m.buffer
				else:
				if copy:
				sa.data = m
				else:
				sa.data = m.bytes

				kwargs[k] = uncan(unserialize(sa), g)

				return f,args,kwargs