919 lines
36 KiB
ReStructuredText
919 lines
36 KiB
ReStructuredText
:mod:`pickle` --- Python object serialization
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=============================================
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.. index::
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single: persistence
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pair: persistent; objects
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pair: serializing; objects
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pair: marshalling; objects
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pair: flattening; objects
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pair: pickling; objects
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.. module:: pickle
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:synopsis: Convert Python objects to streams of bytes and back.
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.. sectionauthor:: Jim Kerr <jbkerr@sr.hp.com>.
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.. sectionauthor:: Barry Warsaw <barry@python.org>
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The :mod:`pickle` module implements binary protocols for serializing and
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de-serializing a Python object structure. *"Pickling"* is the process
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whereby a Python object hierarchy is converted into a byte stream, and
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*"unpickling"* is the inverse operation, whereby a byte stream
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(from a :term:`binary file` or :term:`bytes-like object`) is converted
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back into an object hierarchy. Pickling (and unpickling) is alternatively
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known as "serialization", "marshalling," [#]_ or "flattening"; however, to
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avoid confusion, the terms used here are "pickling" and "unpickling".
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.. warning::
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The :mod:`pickle` module is not secure against erroneous or maliciously
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constructed data. Never unpickle data received from an untrusted or
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unauthenticated source.
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Relationship to other Python modules
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------------------------------------
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Comparison with ``marshal``
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Python has a more primitive serialization module called :mod:`marshal`, but in
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general :mod:`pickle` should always be the preferred way to serialize Python
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objects. :mod:`marshal` exists primarily to support Python's :file:`.pyc`
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files.
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The :mod:`pickle` module differs from :mod:`marshal` in several significant ways:
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* The :mod:`pickle` module keeps track of the objects it has already serialized,
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so that later references to the same object won't be serialized again.
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:mod:`marshal` doesn't do this.
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This has implications both for recursive objects and object sharing. Recursive
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objects are objects that contain references to themselves. These are not
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handled by marshal, and in fact, attempting to marshal recursive objects will
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crash your Python interpreter. Object sharing happens when there are multiple
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references to the same object in different places in the object hierarchy being
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serialized. :mod:`pickle` stores such objects only once, and ensures that all
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other references point to the master copy. Shared objects remain shared, which
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can be very important for mutable objects.
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* :mod:`marshal` cannot be used to serialize user-defined classes and their
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instances. :mod:`pickle` can save and restore class instances transparently,
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however the class definition must be importable and live in the same module as
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when the object was stored.
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* The :mod:`marshal` serialization format is not guaranteed to be portable
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across Python versions. Because its primary job in life is to support
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:file:`.pyc` files, the Python implementers reserve the right to change the
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serialization format in non-backwards compatible ways should the need arise.
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The :mod:`pickle` serialization format is guaranteed to be backwards compatible
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across Python releases.
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Comparison with ``json``
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^^^^^^^^^^^^^^^^^^^^^^^^
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There are fundamental differences between the pickle protocols and
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`JSON (JavaScript Object Notation) <http://json.org>`_:
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* JSON is a text serialization format (it outputs unicode text, although
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most of the time it is then encoded to ``utf-8``), while pickle is
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a binary serialization format;
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* JSON is human-readable, while pickle is not;
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* JSON is interoperable and widely used outside of the Python ecosystem,
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while pickle is Python-specific;
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* JSON, by default, can only represent a subset of the Python built-in
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types, and no custom classes; pickle can represent an extremely large
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number of Python types (many of them automatically, by clever usage
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of Python's introspection facilities; complex cases can be tackled by
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implementing :ref:`specific object APIs <pickle-inst>`).
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.. seealso::
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The :mod:`json` module: a standard library module allowing JSON
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serialization and deserialization.
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.. _pickle-protocols:
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Data stream format
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------------------
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.. index::
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single: External Data Representation
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The data format used by :mod:`pickle` is Python-specific. This has the
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advantage that there are no restrictions imposed by external standards such as
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JSON or XDR (which can't represent pointer sharing); however it means that
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non-Python programs may not be able to reconstruct pickled Python objects.
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By default, the :mod:`pickle` data format uses a relatively compact binary
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representation. If you need optimal size characteristics, you can efficiently
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:doc:`compress <archiving>` pickled data.
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The module :mod:`pickletools` contains tools for analyzing data streams
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generated by :mod:`pickle`. :mod:`pickletools` source code has extensive
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comments about opcodes used by pickle protocols.
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There are currently 5 different protocols which can be used for pickling.
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The higher the protocol used, the more recent the version of Python needed
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to read the pickle produced.
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* Protocol version 0 is the original "human-readable" protocol and is
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backwards compatible with earlier versions of Python.
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* Protocol version 1 is an old binary format which is also compatible with
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earlier versions of Python.
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* Protocol version 2 was introduced in Python 2.3. It provides much more
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efficient pickling of :term:`new-style class`\es. Refer to :pep:`307` for
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information about improvements brought by protocol 2.
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* Protocol version 3 was added in Python 3.0. It has explicit support for
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:class:`bytes` objects and cannot be unpickled by Python 2.x. This is
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the default protocol, and the recommended protocol when compatibility with
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other Python 3 versions is required.
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* Protocol version 4 was added in Python 3.4. It adds support for very large
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objects, pickling more kinds of objects, and some data format
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optimizations. Refer to :pep:`3154` for information about improvements
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brought by protocol 4.
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.. note::
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Serialization is a more primitive notion than persistence; although
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:mod:`pickle` reads and writes file objects, it does not handle the issue of
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naming persistent objects, nor the (even more complicated) issue of concurrent
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access to persistent objects. The :mod:`pickle` module can transform a complex
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object into a byte stream and it can transform the byte stream into an object
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with the same internal structure. Perhaps the most obvious thing to do with
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these byte streams is to write them onto a file, but it is also conceivable to
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send them across a network or store them in a database. The :mod:`shelve`
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module provides a simple interface to pickle and unpickle objects on
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DBM-style database files.
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Module Interface
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----------------
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To serialize an object hierarchy, you simply call the :func:`dumps` function.
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Similarly, to de-serialize a data stream, you call the :func:`loads` function.
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However, if you want more control over serialization and de-serialization,
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you can create a :class:`Pickler` or an :class:`Unpickler` object, respectively.
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The :mod:`pickle` module provides the following constants:
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.. data:: HIGHEST_PROTOCOL
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An integer, the highest :ref:`protocol version <pickle-protocols>`
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available. This value can be passed as a *protocol* value to functions
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:func:`dump` and :func:`dumps` as well as the :class:`Pickler`
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constructor.
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.. data:: DEFAULT_PROTOCOL
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An integer, the default :ref:`protocol version <pickle-protocols>` used
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for pickling. May be less than :data:`HIGHEST_PROTOCOL`. Currently the
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default protocol is 3, a new protocol designed for Python 3.
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The :mod:`pickle` module provides the following functions to make the pickling
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process more convenient:
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.. function:: dump(obj, file, protocol=None, \*, fix_imports=True)
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Write a pickled representation of *obj* to the open :term:`file object` *file*.
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This is equivalent to ``Pickler(file, protocol).dump(obj)``.
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The optional *protocol* argument, an integer, tells the pickler to use
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the given protocol; supported protocols are 0 to :data:`HIGHEST_PROTOCOL`.
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If not specified, the default is :data:`DEFAULT_PROTOCOL`. If a negative
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number is specified, :data:`HIGHEST_PROTOCOL` is selected.
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The *file* argument must have a write() method that accepts a single bytes
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argument. It can thus be an on-disk file opened for binary writing, a
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:class:`io.BytesIO` instance, or any other custom object that meets this
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interface.
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If *fix_imports* is true and *protocol* is less than 3, pickle will try to
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map the new Python 3 names to the old module names used in Python 2, so
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that the pickle data stream is readable with Python 2.
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.. function:: dumps(obj, protocol=None, \*, fix_imports=True)
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Return the pickled representation of the object as a :class:`bytes` object,
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instead of writing it to a file.
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Arguments *protocol* and *fix_imports* have the same meaning as in
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:func:`dump`.
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.. function:: load(file, \*, fix_imports=True, encoding="ASCII", errors="strict")
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Read a pickled object representation from the open :term:`file object`
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*file* and return the reconstituted object hierarchy specified therein.
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This is equivalent to ``Unpickler(file).load()``.
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The protocol version of the pickle is detected automatically, so no
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protocol argument is needed. Bytes past the pickled object's
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representation are ignored.
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The argument *file* must have two methods, a read() method that takes an
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integer argument, and a readline() method that requires no arguments. Both
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methods should return bytes. Thus *file* can be an on-disk file opened for
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binary reading, a :class:`io.BytesIO` object, or any other custom object
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that meets this interface.
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Optional keyword arguments are *fix_imports*, *encoding* and *errors*,
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which are used to control compatibility support for pickle stream generated
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by Python 2. If *fix_imports* is true, pickle will try to map the old
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Python 2 names to the new names used in Python 3. The *encoding* and
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*errors* tell pickle how to decode 8-bit string instances pickled by Python
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2; these default to 'ASCII' and 'strict', respectively. The *encoding* can
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be 'bytes' to read these 8-bit string instances as bytes objects.
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.. function:: loads(bytes_object, \*, fix_imports=True, encoding="ASCII", errors="strict")
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Read a pickled object hierarchy from a :class:`bytes` object and return the
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reconstituted object hierarchy specified therein
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The protocol version of the pickle is detected automatically, so no
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protocol argument is needed. Bytes past the pickled object's
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representation are ignored.
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Optional keyword arguments are *fix_imports*, *encoding* and *errors*,
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which are used to control compatibility support for pickle stream generated
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by Python 2. If *fix_imports* is true, pickle will try to map the old
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Python 2 names to the new names used in Python 3. The *encoding* and
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*errors* tell pickle how to decode 8-bit string instances pickled by Python
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2; these default to 'ASCII' and 'strict', respectively. The *encoding* can
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be 'bytes' to read these 8-bit string instances as bytes objects.
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The :mod:`pickle` module defines three exceptions:
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.. exception:: PickleError
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Common base class for the other pickling exceptions. It inherits
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:exc:`Exception`.
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.. exception:: PicklingError
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Error raised when an unpicklable object is encountered by :class:`Pickler`.
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It inherits :exc:`PickleError`.
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Refer to :ref:`pickle-picklable` to learn what kinds of objects can be
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pickled.
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.. exception:: UnpicklingError
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Error raised when there is a problem unpickling an object, such as a data
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corruption or a security violation. It inherits :exc:`PickleError`.
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Note that other exceptions may also be raised during unpickling, including
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(but not necessarily limited to) AttributeError, EOFError, ImportError, and
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IndexError.
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The :mod:`pickle` module exports two classes, :class:`Pickler` and
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:class:`Unpickler`:
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.. class:: Pickler(file, protocol=None, \*, fix_imports=True)
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This takes a binary file for writing a pickle data stream.
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The optional *protocol* argument, an integer, tells the pickler to use
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the given protocol; supported protocols are 0 to :data:`HIGHEST_PROTOCOL`.
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If not specified, the default is :data:`DEFAULT_PROTOCOL`. If a negative
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number is specified, :data:`HIGHEST_PROTOCOL` is selected.
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The *file* argument must have a write() method that accepts a single bytes
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argument. It can thus be an on-disk file opened for binary writing, a
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:class:`io.BytesIO` instance, or any other custom object that meets this
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interface.
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If *fix_imports* is true and *protocol* is less than 3, pickle will try to
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map the new Python 3 names to the old module names used in Python 2, so
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that the pickle data stream is readable with Python 2.
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.. method:: dump(obj)
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Write a pickled representation of *obj* to the open file object given in
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the constructor.
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.. method:: persistent_id(obj)
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Do nothing by default. This exists so a subclass can override it.
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If :meth:`persistent_id` returns ``None``, *obj* is pickled as usual. Any
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other value causes :class:`Pickler` to emit the returned value as a
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persistent ID for *obj*. The meaning of this persistent ID should be
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defined by :meth:`Unpickler.persistent_load`. Note that the value
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returned by :meth:`persistent_id` cannot itself have a persistent ID.
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See :ref:`pickle-persistent` for details and examples of uses.
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.. attribute:: dispatch_table
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A pickler object's dispatch table is a registry of *reduction
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functions* of the kind which can be declared using
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:func:`copyreg.pickle`. It is a mapping whose keys are classes
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and whose values are reduction functions. A reduction function
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takes a single argument of the associated class and should
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conform to the same interface as a :meth:`__reduce__`
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method.
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By default, a pickler object will not have a
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:attr:`dispatch_table` attribute, and it will instead use the
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global dispatch table managed by the :mod:`copyreg` module.
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However, to customize the pickling for a specific pickler object
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one can set the :attr:`dispatch_table` attribute to a dict-like
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object. Alternatively, if a subclass of :class:`Pickler` has a
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:attr:`dispatch_table` attribute then this will be used as the
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default dispatch table for instances of that class.
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See :ref:`pickle-dispatch` for usage examples.
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.. versionadded:: 3.3
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.. attribute:: fast
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Deprecated. Enable fast mode if set to a true value. The fast mode
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disables the usage of memo, therefore speeding the pickling process by not
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generating superfluous PUT opcodes. It should not be used with
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self-referential objects, doing otherwise will cause :class:`Pickler` to
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recurse infinitely.
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Use :func:`pickletools.optimize` if you need more compact pickles.
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.. class:: Unpickler(file, \*, fix_imports=True, encoding="ASCII", errors="strict")
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This takes a binary file for reading a pickle data stream.
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The protocol version of the pickle is detected automatically, so no
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protocol argument is needed.
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The argument *file* must have two methods, a read() method that takes an
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integer argument, and a readline() method that requires no arguments. Both
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methods should return bytes. Thus *file* can be an on-disk file object
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opened for binary reading, a :class:`io.BytesIO` object, or any other
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custom object that meets this interface.
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Optional keyword arguments are *fix_imports*, *encoding* and *errors*,
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which are used to control compatibility support for pickle stream generated
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by Python 2. If *fix_imports* is true, pickle will try to map the old
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Python 2 names to the new names used in Python 3. The *encoding* and
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*errors* tell pickle how to decode 8-bit string instances pickled by Python
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2; these default to 'ASCII' and 'strict', respectively. The *encoding* can
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be 'bytes' to read these ß8-bit string instances as bytes objects.
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.. method:: load()
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Read a pickled object representation from the open file object given in
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the constructor, and return the reconstituted object hierarchy specified
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therein. Bytes past the pickled object's representation are ignored.
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.. method:: persistent_load(pid)
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Raise an :exc:`UnpicklingError` by default.
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If defined, :meth:`persistent_load` should return the object specified by
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the persistent ID *pid*. If an invalid persistent ID is encountered, an
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:exc:`UnpicklingError` should be raised.
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See :ref:`pickle-persistent` for details and examples of uses.
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.. method:: find_class(module, name)
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Import *module* if necessary and return the object called *name* from it,
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where the *module* and *name* arguments are :class:`str` objects. Note,
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unlike its name suggests, :meth:`find_class` is also used for finding
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functions.
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Subclasses may override this to gain control over what type of objects and
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how they can be loaded, potentially reducing security risks. Refer to
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:ref:`pickle-restrict` for details.
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.. _pickle-picklable:
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What can be pickled and unpickled?
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----------------------------------
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The following types can be pickled:
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* ``None``, ``True``, and ``False``
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* integers, floating point numbers, complex numbers
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* strings, bytes, bytearrays
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* tuples, lists, sets, and dictionaries containing only picklable objects
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* functions defined at the top level of a module (using :keyword:`def`, not
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:keyword:`lambda`)
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* built-in functions defined at the top level of a module
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* classes that are defined at the top level of a module
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* instances of such classes whose :attr:`~object.__dict__` or the result of
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calling :meth:`__getstate__` is picklable (see section :ref:`pickle-inst` for
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details).
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Attempts to pickle unpicklable objects will raise the :exc:`PicklingError`
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exception; when this happens, an unspecified number of bytes may have already
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been written to the underlying file. Trying to pickle a highly recursive data
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structure may exceed the maximum recursion depth, a :exc:`RuntimeError` will be
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raised in this case. You can carefully raise this limit with
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:func:`sys.setrecursionlimit`.
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Note that functions (built-in and user-defined) are pickled by "fully qualified"
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name reference, not by value. [#]_ This means that only the function name is
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pickled, along with the name of the module the function is defined in. Neither
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the function's code, nor any of its function attributes are pickled. Thus the
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defining module must be importable in the unpickling environment, and the module
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must contain the named object, otherwise an exception will be raised. [#]_
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Similarly, classes are pickled by named reference, so the same restrictions in
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the unpickling environment apply. Note that none of the class's code or data is
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pickled, so in the following example the class attribute ``attr`` is not
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restored in the unpickling environment::
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class Foo:
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attr = 'A class attribute'
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picklestring = pickle.dumps(Foo)
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These restrictions are why picklable functions and classes must be defined in
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the top level of a module.
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Similarly, when class instances are pickled, their class's code and data are not
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pickled along with them. Only the instance data are pickled. This is done on
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purpose, so you can fix bugs in a class or add methods to the class and still
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load objects that were created with an earlier version of the class. If you
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plan to have long-lived objects that will see many versions of a class, it may
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be worthwhile to put a version number in the objects so that suitable
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conversions can be made by the class's :meth:`__setstate__` method.
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.. _pickle-inst:
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Pickling Class Instances
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------------------------
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.. currentmodule:: None
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In this section, we describe the general mechanisms available to you to define,
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customize, and control how class instances are pickled and unpickled.
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In most cases, no additional code is needed to make instances picklable. By
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default, pickle will retrieve the class and the attributes of an instance via
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introspection. When a class instance is unpickled, its :meth:`__init__` method
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is usually *not* invoked. The default behaviour first creates an uninitialized
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instance and then restores the saved attributes. The following code shows an
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implementation of this behaviour::
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def save(obj):
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return (obj.__class__, obj.__dict__)
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def load(cls, attributes):
|
|
obj = cls.__new__(cls)
|
|
obj.__dict__.update(attributes)
|
|
return obj
|
|
|
|
Classes can alter the default behaviour by providing one or several special
|
|
methods:
|
|
|
|
.. method:: object.__getnewargs_ex__()
|
|
|
|
In protocols 4 and newer, classes that implements the
|
|
:meth:`__getnewargs_ex__` method can dictate the values passed to the
|
|
:meth:`__new__` method upon unpickling. The method must return a pair
|
|
``(args, kwargs)`` where *args* is a tuple of positional arguments
|
|
and *kwargs* a dictionary of named arguments for constructing the
|
|
object. Those will be passed to the :meth:`__new__` method upon
|
|
unpickling.
|
|
|
|
You should implement this method if the :meth:`__new__` method of your
|
|
class requires keyword-only arguments. Otherwise, it is recommended for
|
|
compatibility to implement :meth:`__getnewargs__`.
|
|
|
|
|
|
.. method:: object.__getnewargs__()
|
|
|
|
This method serve a similar purpose as :meth:`__getnewargs_ex__` but
|
|
for protocols 2 and newer. It must return a tuple of arguments ``args``
|
|
which will be passed to the :meth:`__new__` method upon unpickling.
|
|
|
|
In protocols 4 and newer, :meth:`__getnewargs__` will not be called if
|
|
:meth:`__getnewargs_ex__` is defined.
|
|
|
|
|
|
.. method:: object.__getstate__()
|
|
|
|
Classes can further influence how their instances are pickled; if the class
|
|
defines the method :meth:`__getstate__`, it is called and the returned object
|
|
is pickled as the contents for the instance, instead of the contents of the
|
|
instance's dictionary. If the :meth:`__getstate__` method is absent, the
|
|
instance's :attr:`~object.__dict__` is pickled as usual.
|
|
|
|
|
|
.. method:: object.__setstate__(state)
|
|
|
|
Upon unpickling, if the class defines :meth:`__setstate__`, it is called with
|
|
the unpickled state. In that case, there is no requirement for the state
|
|
object to be a dictionary. Otherwise, the pickled state must be a dictionary
|
|
and its items are assigned to the new instance's dictionary.
|
|
|
|
.. note::
|
|
|
|
If :meth:`__getstate__` returns a false value, the :meth:`__setstate__`
|
|
method will not be called upon unpickling.
|
|
|
|
|
|
Refer to the section :ref:`pickle-state` for more information about how to use
|
|
the methods :meth:`__getstate__` and :meth:`__setstate__`.
|
|
|
|
.. note::
|
|
|
|
At unpickling time, some methods like :meth:`__getattr__`,
|
|
:meth:`__getattribute__`, or :meth:`__setattr__` may be called upon the
|
|
instance. In case those methods rely on some internal invariant being
|
|
true, the type should implement :meth:`__getnewargs__` or
|
|
:meth:`__getnewargs_ex__` to establish such an invariant; otherwise,
|
|
neither :meth:`__new__` nor :meth:`__init__` will be called.
|
|
|
|
.. index:: pair: copy; protocol
|
|
|
|
As we shall see, pickle does not use directly the methods described above. In
|
|
fact, these methods are part of the copy protocol which implements the
|
|
:meth:`__reduce__` special method. The copy protocol provides a unified
|
|
interface for retrieving the data necessary for pickling and copying
|
|
objects. [#]_
|
|
|
|
Although powerful, implementing :meth:`__reduce__` directly in your classes is
|
|
error prone. For this reason, class designers should use the high-level
|
|
interface (i.e., :meth:`__getnewargs_ex__`, :meth:`__getstate__` and
|
|
:meth:`__setstate__`) whenever possible. We will show, however, cases where
|
|
using :meth:`__reduce__` is the only option or leads to more efficient pickling
|
|
or both.
|
|
|
|
.. method:: object.__reduce__()
|
|
|
|
The interface is currently defined as follows. The :meth:`__reduce__` method
|
|
takes no argument and shall return either a string or preferably a tuple (the
|
|
returned object is often referred to as the "reduce value").
|
|
|
|
If a string is returned, the string should be interpreted as the name of a
|
|
global variable. It should be the object's local name relative to its
|
|
module; the pickle module searches the module namespace to determine the
|
|
object's module. This behaviour is typically useful for singletons.
|
|
|
|
When a tuple is returned, it must be between two and five items long.
|
|
Optional items can either be omitted, or ``None`` can be provided as their
|
|
value. The semantics of each item are in order:
|
|
|
|
.. XXX Mention __newobj__ special-case?
|
|
|
|
* A callable object that will be called to create the initial version of the
|
|
object.
|
|
|
|
* A tuple of arguments for the callable object. An empty tuple must be given
|
|
if the callable does not accept any argument.
|
|
|
|
* Optionally, the object's state, which will be passed to the object's
|
|
:meth:`__setstate__` method as previously described. If the object has no
|
|
such method then, the value must be a dictionary and it will be added to
|
|
the object's :attr:`~object.__dict__` attribute.
|
|
|
|
* Optionally, an iterator (and not a sequence) yielding successive items.
|
|
These items will be appended to the object either using
|
|
``obj.append(item)`` or, in batch, using ``obj.extend(list_of_items)``.
|
|
This is primarily used for list subclasses, but may be used by other
|
|
classes as long as they have :meth:`append` and :meth:`extend` methods with
|
|
the appropriate signature. (Whether :meth:`append` or :meth:`extend` is
|
|
used depends on which pickle protocol version is used as well as the number
|
|
of items to append, so both must be supported.)
|
|
|
|
* Optionally, an iterator (not a sequence) yielding successive key-value
|
|
pairs. These items will be stored to the object using ``obj[key] =
|
|
value``. This is primarily used for dictionary subclasses, but may be used
|
|
by other classes as long as they implement :meth:`__setitem__`.
|
|
|
|
|
|
.. method:: object.__reduce_ex__(protocol)
|
|
|
|
Alternatively, a :meth:`__reduce_ex__` method may be defined. The only
|
|
difference is this method should take a single integer argument, the protocol
|
|
version. When defined, pickle will prefer it over the :meth:`__reduce__`
|
|
method. In addition, :meth:`__reduce__` automatically becomes a synonym for
|
|
the extended version. The main use for this method is to provide
|
|
backwards-compatible reduce values for older Python releases.
|
|
|
|
.. currentmodule:: pickle
|
|
|
|
.. _pickle-persistent:
|
|
|
|
Persistence of External Objects
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. index::
|
|
single: persistent_id (pickle protocol)
|
|
single: persistent_load (pickle protocol)
|
|
|
|
For the benefit of object persistence, the :mod:`pickle` module supports the
|
|
notion of a reference to an object outside the pickled data stream. Such
|
|
objects are referenced by a persistent ID, which should be either a string of
|
|
alphanumeric characters (for protocol 0) [#]_ or just an arbitrary object (for
|
|
any newer protocol).
|
|
|
|
The resolution of such persistent IDs is not defined by the :mod:`pickle`
|
|
module; it will delegate this resolution to the user defined methods on the
|
|
pickler and unpickler, :meth:`~Pickler.persistent_id` and
|
|
:meth:`~Unpickler.persistent_load` respectively.
|
|
|
|
To pickle objects that have an external persistent id, the pickler must have a
|
|
custom :meth:`~Pickler.persistent_id` method that takes an object as an
|
|
argument and returns either ``None`` or the persistent id for that object.
|
|
When ``None`` is returned, the pickler simply pickles the object as normal.
|
|
When a persistent ID string is returned, the pickler will pickle that object,
|
|
along with a marker so that the unpickler will recognize it as a persistent ID.
|
|
|
|
To unpickle external objects, the unpickler must have a custom
|
|
:meth:`~Unpickler.persistent_load` method that takes a persistent ID object and
|
|
returns the referenced object.
|
|
|
|
Here is a comprehensive example presenting how persistent ID can be used to
|
|
pickle external objects by reference.
|
|
|
|
.. literalinclude:: ../includes/dbpickle.py
|
|
|
|
.. _pickle-dispatch:
|
|
|
|
Dispatch Tables
|
|
^^^^^^^^^^^^^^^
|
|
|
|
If one wants to customize pickling of some classes without disturbing
|
|
any other code which depends on pickling, then one can create a
|
|
pickler with a private dispatch table.
|
|
|
|
The global dispatch table managed by the :mod:`copyreg` module is
|
|
available as :data:`copyreg.dispatch_table`. Therefore, one may
|
|
choose to use a modified copy of :data:`copyreg.dispatch_table` as a
|
|
private dispatch table.
|
|
|
|
For example ::
|
|
|
|
f = io.BytesIO()
|
|
p = pickle.Pickler(f)
|
|
p.dispatch_table = copyreg.dispatch_table.copy()
|
|
p.dispatch_table[SomeClass] = reduce_SomeClass
|
|
|
|
creates an instance of :class:`pickle.Pickler` with a private dispatch
|
|
table which handles the ``SomeClass`` class specially. Alternatively,
|
|
the code ::
|
|
|
|
class MyPickler(pickle.Pickler):
|
|
dispatch_table = copyreg.dispatch_table.copy()
|
|
dispatch_table[SomeClass] = reduce_SomeClass
|
|
f = io.BytesIO()
|
|
p = MyPickler(f)
|
|
|
|
does the same, but all instances of ``MyPickler`` will by default
|
|
share the same dispatch table. The equivalent code using the
|
|
:mod:`copyreg` module is ::
|
|
|
|
copyreg.pickle(SomeClass, reduce_SomeClass)
|
|
f = io.BytesIO()
|
|
p = pickle.Pickler(f)
|
|
|
|
.. _pickle-state:
|
|
|
|
Handling Stateful Objects
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. index::
|
|
single: __getstate__() (copy protocol)
|
|
single: __setstate__() (copy protocol)
|
|
|
|
Here's an example that shows how to modify pickling behavior for a class.
|
|
The :class:`TextReader` class opens a text file, and returns the line number and
|
|
line contents each time its :meth:`!readline` method is called. If a
|
|
:class:`TextReader` instance is pickled, all attributes *except* the file object
|
|
member are saved. When the instance is unpickled, the file is reopened, and
|
|
reading resumes from the last location. The :meth:`__setstate__` and
|
|
:meth:`__getstate__` methods are used to implement this behavior. ::
|
|
|
|
class TextReader:
|
|
"""Print and number lines in a text file."""
|
|
|
|
def __init__(self, filename):
|
|
self.filename = filename
|
|
self.file = open(filename)
|
|
self.lineno = 0
|
|
|
|
def readline(self):
|
|
self.lineno += 1
|
|
line = self.file.readline()
|
|
if not line:
|
|
return None
|
|
if line.endswith('\n'):
|
|
line = line[:-1]
|
|
return "%i: %s" % (self.lineno, line)
|
|
|
|
def __getstate__(self):
|
|
# Copy the object's state from self.__dict__ which contains
|
|
# all our instance attributes. Always use the dict.copy()
|
|
# method to avoid modifying the original state.
|
|
state = self.__dict__.copy()
|
|
# Remove the unpicklable entries.
|
|
del state['file']
|
|
return state
|
|
|
|
def __setstate__(self, state):
|
|
# Restore instance attributes (i.e., filename and lineno).
|
|
self.__dict__.update(state)
|
|
# Restore the previously opened file's state. To do so, we need to
|
|
# reopen it and read from it until the line count is restored.
|
|
file = open(self.filename)
|
|
for _ in range(self.lineno):
|
|
file.readline()
|
|
# Finally, save the file.
|
|
self.file = file
|
|
|
|
|
|
A sample usage might be something like this::
|
|
|
|
>>> reader = TextReader("hello.txt")
|
|
>>> reader.readline()
|
|
'1: Hello world!'
|
|
>>> reader.readline()
|
|
'2: I am line number two.'
|
|
>>> new_reader = pickle.loads(pickle.dumps(reader))
|
|
>>> new_reader.readline()
|
|
'3: Goodbye!'
|
|
|
|
|
|
.. _pickle-restrict:
|
|
|
|
Restricting Globals
|
|
-------------------
|
|
|
|
.. index::
|
|
single: find_class() (pickle protocol)
|
|
|
|
By default, unpickling will import any class or function that it finds in the
|
|
pickle data. For many applications, this behaviour is unacceptable as it
|
|
permits the unpickler to import and invoke arbitrary code. Just consider what
|
|
this hand-crafted pickle data stream does when loaded::
|
|
|
|
>>> import pickle
|
|
>>> pickle.loads(b"cos\nsystem\n(S'echo hello world'\ntR.")
|
|
hello world
|
|
0
|
|
|
|
In this example, the unpickler imports the :func:`os.system` function and then
|
|
apply the string argument "echo hello world". Although this example is
|
|
inoffensive, it is not difficult to imagine one that could damage your system.
|
|
|
|
For this reason, you may want to control what gets unpickled by customizing
|
|
:meth:`Unpickler.find_class`. Unlike its name suggests,
|
|
:meth:`Unpickler.find_class` is called whenever a global (i.e., a class or
|
|
a function) is requested. Thus it is possible to either completely forbid
|
|
globals or restrict them to a safe subset.
|
|
|
|
Here is an example of an unpickler allowing only few safe classes from the
|
|
:mod:`builtins` module to be loaded::
|
|
|
|
import builtins
|
|
import io
|
|
import pickle
|
|
|
|
safe_builtins = {
|
|
'range',
|
|
'complex',
|
|
'set',
|
|
'frozenset',
|
|
'slice',
|
|
}
|
|
|
|
class RestrictedUnpickler(pickle.Unpickler):
|
|
|
|
def find_class(self, module, name):
|
|
# Only allow safe classes from builtins.
|
|
if module == "builtins" and name in safe_builtins:
|
|
return getattr(builtins, name)
|
|
# Forbid everything else.
|
|
raise pickle.UnpicklingError("global '%s.%s' is forbidden" %
|
|
(module, name))
|
|
|
|
def restricted_loads(s):
|
|
"""Helper function analogous to pickle.loads()."""
|
|
return RestrictedUnpickler(io.BytesIO(s)).load()
|
|
|
|
A sample usage of our unpickler working has intended::
|
|
|
|
>>> restricted_loads(pickle.dumps([1, 2, range(15)]))
|
|
[1, 2, range(0, 15)]
|
|
>>> restricted_loads(b"cos\nsystem\n(S'echo hello world'\ntR.")
|
|
Traceback (most recent call last):
|
|
...
|
|
pickle.UnpicklingError: global 'os.system' is forbidden
|
|
>>> restricted_loads(b'cbuiltins\neval\n'
|
|
... b'(S\'getattr(__import__("os"), "system")'
|
|
... b'("echo hello world")\'\ntR.')
|
|
Traceback (most recent call last):
|
|
...
|
|
pickle.UnpicklingError: global 'builtins.eval' is forbidden
|
|
|
|
|
|
.. XXX Add note about how extension codes could evade our protection
|
|
mechanism (e.g. cached classes do not invokes find_class()).
|
|
|
|
As our examples shows, you have to be careful with what you allow to be
|
|
unpickled. Therefore if security is a concern, you may want to consider
|
|
alternatives such as the marshalling API in :mod:`xmlrpc.client` or
|
|
third-party solutions.
|
|
|
|
|
|
Performance
|
|
-----------
|
|
|
|
Recent versions of the pickle protocol (from protocol 2 and upwards) feature
|
|
efficient binary encodings for several common features and built-in types.
|
|
Also, the :mod:`pickle` module has a transparent optimizer written in C.
|
|
|
|
|
|
.. _pickle-example:
|
|
|
|
Examples
|
|
--------
|
|
|
|
For the simplest code, use the :func:`dump` and :func:`load` functions. ::
|
|
|
|
import pickle
|
|
|
|
# An arbitrary collection of objects supported by pickle.
|
|
data = {
|
|
'a': [1, 2.0, 3, 4+6j],
|
|
'b': ("character string", b"byte string"),
|
|
'c': set([None, True, False])
|
|
}
|
|
|
|
with open('data.pickle', 'wb') as f:
|
|
# Pickle the 'data' dictionary using the highest protocol available.
|
|
pickle.dump(data, f, pickle.HIGHEST_PROTOCOL)
|
|
|
|
|
|
The following example reads the resulting pickled data. ::
|
|
|
|
import pickle
|
|
|
|
with open('data.pickle', 'rb') as f:
|
|
# The protocol version used is detected automatically, so we do not
|
|
# have to specify it.
|
|
data = pickle.load(f)
|
|
|
|
|
|
.. XXX: Add examples showing how to optimize pickles for size (like using
|
|
.. pickletools.optimize() or the gzip module).
|
|
|
|
|
|
.. seealso::
|
|
|
|
Module :mod:`copyreg`
|
|
Pickle interface constructor registration for extension types.
|
|
|
|
Module :mod:`pickletools`
|
|
Tools for working with and analyzing pickled data.
|
|
|
|
Module :mod:`shelve`
|
|
Indexed databases of objects; uses :mod:`pickle`.
|
|
|
|
Module :mod:`copy`
|
|
Shallow and deep object copying.
|
|
|
|
Module :mod:`marshal`
|
|
High-performance serialization of built-in types.
|
|
|
|
|
|
.. rubric:: Footnotes
|
|
|
|
.. [#] Don't confuse this with the :mod:`marshal` module
|
|
|
|
.. [#] This is why :keyword:`lambda` functions cannot be pickled: all
|
|
:keyword:`lambda` functions share the same name: ``<lambda>``.
|
|
|
|
.. [#] The exception raised will likely be an :exc:`ImportError` or an
|
|
:exc:`AttributeError` but it could be something else.
|
|
|
|
.. [#] The :mod:`copy` module uses this protocol for shallow and deep copying
|
|
operations.
|
|
|
|
.. [#] The limitation on alphanumeric characters is due to the fact
|
|
the persistent IDs, in protocol 0, are delimited by the newline
|
|
character. Therefore if any kind of newline characters occurs in
|
|
persistent IDs, the resulting pickle will become unreadable.
|