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-.. PyZMQ serialization doc, by Min Ragan-Kelley, 2011
-
-.. _serialization:
-
-Serializing messages with PyZMQ
-===============================
-
-When sending messages over a network, you often need to marshall your data into bytes.
-
-
-Builtin serialization
----------------------
-
-PyZMQ is primarily bindings for libzmq, but we do provide three builtin serialization
-methods for convenience, to help Python developers learn libzmq. Python has two primary
-packages for serializing objects: :py:mod:`json` and :py:mod:`pickle`, so we provide
-simple convenience methods for sending and receiving objects serialized with these
-modules. A socket has the methods :meth:`~.Socket.send_json` and
-:meth:`~.Socket.send_pyobj`, which correspond to sending an object over the wire after
-serializing with json and pickle respectively, and any object sent via those
-methods can be reconstructed with the :meth:`~.Socket.recv_json` and
-:meth:`~.Socket.recv_pyobj` methods.
-
-
-These methods designed for convenience, not for performance, so developers who do want 
-to emphasize performance should use their own serialized send/recv methods.
-
-Using your own serialization
-----------------------------
-
-In general, you will want to provide your own serialization that is optimized for your
-application or library availability.  This may include using your own preferred
-serialization ([msgpack]_, [protobuf]_), or adding compression via [zlib]_ in the standard
-library, or the super fast [blosc]_ library.
-
-There are two simple models for implementing your own serialization: write a function
-that takes the socket as an argument, or subclass Socket for use in your own apps.
-
-For instance, pickles can often be reduced substantially in size by compressing the data.
-The following will send *compressed* pickles over the wire:
-
-.. sourcecode:: python
-
-    import zlib, cPickle as pickle
-
-    def send_zipped_pickle(socket, obj, flags=0, protocol=-1):
-        """pickle an object, and zip the pickle before sending it"""
-        p = pickle.dumps(obj, protocol)
-        z = zlib.compress(p)
-        return socket.send(z, flags=flags)
-
-    def recv_zipped_pickle(socket, flags=0, protocol=-1):
-        """inverse of send_zipped_pickle"""
-        z = socket.recv(flags)
-        p = zlib.decompress(z)
-        return pickle.loads(p)
-
-A common data structure in Python is the numpy array.  PyZMQ supports sending
-numpy arrays without copying any data, since they provide the Python buffer interface.
-However just the buffer is not enough information to reconstruct the array on the
-receiving side.  Here is an example of a send/recv that allow non-copying
-sends/recvs of numpy arrays including the dtype/shape data necessary for reconstructing
-the array.
-
-.. sourcecode:: python
-
-    import numpy
-
-    def send_array(socket, A, flags=0, copy=True, track=False):
-        """send a numpy array with metadata"""
-        md = dict(
-            dtype = str(A.dtype),
-            shape = A.shape,
-        )
-        socket.send_json(md, flags|zmq.SNDMORE)
-        return socket.send(A, flags, copy=copy, track=track)
-
-    def recv_array(socket, flags=0, copy=True, track=False):
-        """recv a numpy array"""
-        md = socket.recv_json(flags=flags)
-        msg = socket.recv(flags=flags, copy=copy, track=track)
-        buf = buffer(msg)
-        A = numpy.frombuffer(buf, dtype=md['dtype'])
-        return A.reshape(md['shape'])
-
-
-.. [msgpack] Message Pack serialization library http://msgpack.org
-.. [protobuf] Google Protocol Buffers http://code.google.com/p/protobuf
-.. [zlib] Python stdlib module for zip compression: :py:mod:`zlib`
-.. [blosc] Blosc: A blocking, shuffling and loss-less (and crazy-fast) compression library http://blosc.pytables.org/trac