| :mod:`pickle` --- Python object serialization |
| ============================================= |
| |
| .. index:: |
| single: persistence |
| pair: persistent; objects |
| pair: serializing; objects |
| pair: marshalling; objects |
| pair: flattening; objects |
| pair: pickling; objects |
| |
| .. module:: pickle |
| :synopsis: Convert Python objects to streams of bytes and back. |
| .. sectionauthor:: Jim Kerr <jbkerr@sr.hp.com>. |
| .. sectionauthor:: Barry Warsaw <barry@zope.com> |
| |
| The :mod:`pickle` module implements a fundamental, but powerful algorithm for |
| serializing and de-serializing a Python object structure. "Pickling" is the |
| process whereby a Python object hierarchy is converted into a byte stream, and |
| "unpickling" is the inverse operation, whereby a byte stream is converted back |
| into an object hierarchy. Pickling (and unpickling) is alternatively known as |
| "serialization", "marshalling," [#]_ or "flattening", however, to avoid |
| confusion, the terms used here are "pickling" and "unpickling". |
| |
| This documentation describes both the :mod:`pickle` module and the |
| :mod:`cPickle` module. |
| |
| |
| Relationship to other Python modules |
| ------------------------------------ |
| |
| The :mod:`pickle` module has an optimized cousin called the :mod:`cPickle` |
| module. As its name implies, :mod:`cPickle` is written in C, so it can be up to |
| 1000 times faster than :mod:`pickle`. However it does not support subclassing |
| of the :func:`Pickler` and :func:`Unpickler` classes, because in :mod:`cPickle` |
| these are functions, not classes. Most applications have no need for this |
| functionality, and can benefit from the improved performance of :mod:`cPickle`. |
| Other than that, the interfaces of the two modules are nearly identical; the |
| common interface is described in this manual and differences are pointed out |
| where necessary. In the following discussions, we use the term "pickle" to |
| collectively describe the :mod:`pickle` and :mod:`cPickle` modules. |
| |
| The data streams the two modules produce are guaranteed to be interchangeable. |
| |
| Python has a more primitive serialization module called :mod:`marshal`, but in |
| general :mod:`pickle` should always be the preferred way to serialize Python |
| objects. :mod:`marshal` exists primarily to support Python's :file:`.pyc` |
| files. |
| |
| The :mod:`pickle` module differs from :mod:`marshal` several significant ways: |
| |
| * The :mod:`pickle` module keeps track of the objects it has already serialized, |
| so that later references to the same object won't be serialized again. |
| :mod:`marshal` doesn't do this. |
| |
| This has implications both for recursive objects and object sharing. Recursive |
| objects are objects that contain references to themselves. These are not |
| handled by marshal, and in fact, attempting to marshal recursive objects will |
| crash your Python interpreter. Object sharing happens when there are multiple |
| references to the same object in different places in the object hierarchy being |
| serialized. :mod:`pickle` stores such objects only once, and ensures that all |
| other references point to the master copy. Shared objects remain shared, which |
| can be very important for mutable objects. |
| |
| * :mod:`marshal` cannot be used to serialize user-defined classes and their |
| instances. :mod:`pickle` can save and restore class instances transparently, |
| however the class definition must be importable and live in the same module as |
| when the object was stored. |
| |
| * The :mod:`marshal` serialization format is not guaranteed to be portable |
| across Python versions. Because its primary job in life is to support |
| :file:`.pyc` files, the Python implementers reserve the right to change the |
| serialization format in non-backwards compatible ways should the need arise. |
| The :mod:`pickle` serialization format is guaranteed to be backwards compatible |
| across Python releases. |
| |
| .. warning:: |
| |
| The :mod:`pickle` module is not intended to be secure against erroneous or |
| maliciously constructed data. Never unpickle data received from an untrusted |
| or unauthenticated source. |
| |
| Note that serialization is a more primitive notion than persistence; although |
| :mod:`pickle` reads and writes file objects, it does not handle the issue of |
| naming persistent objects, nor the (even more complicated) issue of concurrent |
| access to persistent objects. The :mod:`pickle` module can transform a complex |
| object into a byte stream and it can transform the byte stream into an object |
| with the same internal structure. Perhaps the most obvious thing to do with |
| these byte streams is to write them onto a file, but it is also conceivable to |
| send them across a network or store them in a database. The module |
| :mod:`shelve` provides a simple interface to pickle and unpickle objects on |
| DBM-style database files. |
| |
| |
| Data stream format |
| ------------------ |
| |
| .. index:: |
| single: XDR |
| single: External Data Representation |
| |
| The data format used by :mod:`pickle` is Python-specific. This has the |
| advantage that there are no restrictions imposed by external standards such as |
| XDR (which can't represent pointer sharing); however it means that non-Python |
| programs may not be able to reconstruct pickled Python objects. |
| |
| By default, the :mod:`pickle` data format uses a printable ASCII representation. |
| This is slightly more voluminous than a binary representation. The big |
| advantage of using printable ASCII (and of some other characteristics of |
| :mod:`pickle`'s representation) is that for debugging or recovery purposes it is |
| possible for a human to read the pickled file with a standard text editor. |
| |
| There are currently 3 different protocols which can be used for pickling. |
| |
| * Protocol version 0 is the original ASCII protocol and is backwards compatible |
| with earlier versions of Python. |
| |
| * Protocol version 1 is the old binary format which is also compatible with |
| earlier versions of Python. |
| |
| * Protocol version 2 was introduced in Python 2.3. It provides much more |
| efficient pickling of :term:`new-style class`\es. |
| |
| Refer to :pep:`307` for more information. |
| |
| If a *protocol* is not specified, protocol 0 is used. If *protocol* is specified |
| as a negative value or :const:`HIGHEST_PROTOCOL`, the highest protocol version |
| available will be used. |
| |
| .. versionchanged:: 2.3 |
| Introduced the *protocol* parameter. |
| |
| A binary format, which is slightly more efficient, can be chosen by specifying a |
| *protocol* version >= 1. |
| |
| |
| Usage |
| ----- |
| |
| To serialize an object hierarchy, you first create a pickler, then you call the |
| pickler's :meth:`dump` method. To de-serialize a data stream, you first create |
| an unpickler, then you call the unpickler's :meth:`load` method. The |
| :mod:`pickle` module provides the following constant: |
| |
| |
| .. data:: HIGHEST_PROTOCOL |
| |
| The highest protocol version available. This value can be passed as a |
| *protocol* value. |
| |
| .. versionadded:: 2.3 |
| |
| .. note:: |
| |
| Be sure to always open pickle files created with protocols >= 1 in binary mode. |
| For the old ASCII-based pickle protocol 0 you can use either text mode or binary |
| mode as long as you stay consistent. |
| |
| A pickle file written with protocol 0 in binary mode will contain lone linefeeds |
| as line terminators and therefore will look "funny" when viewed in Notepad or |
| other editors which do not support this format. |
| |
| The :mod:`pickle` module provides the following functions to make the pickling |
| process more convenient: |
| |
| |
| .. function:: dump(obj, file[, protocol]) |
| |
| Write a pickled representation of *obj* to the open file object *file*. This is |
| equivalent to ``Pickler(file, protocol).dump(obj)``. |
| |
| If the *protocol* parameter is omitted, protocol 0 is used. If *protocol* is |
| specified as a negative value or :const:`HIGHEST_PROTOCOL`, the highest protocol |
| version will be used. |
| |
| .. versionchanged:: 2.3 |
| Introduced the *protocol* parameter. |
| |
| *file* must have a :meth:`write` method that accepts a single string argument. |
| It can thus be a file object opened for writing, a :mod:`StringIO` object, or |
| any other custom object that meets this interface. |
| |
| |
| .. function:: load(file) |
| |
| Read a string from the open file object *file* and interpret it as a pickle data |
| stream, reconstructing and returning the original object hierarchy. This is |
| equivalent to ``Unpickler(file).load()``. |
| |
| *file* must have two methods, a :meth:`read` method that takes an integer |
| argument, and a :meth:`readline` method that requires no arguments. Both |
| methods should return a string. Thus *file* can be a file object opened for |
| reading, a :mod:`StringIO` object, or any other custom object that meets this |
| interface. |
| |
| This function automatically determines whether the data stream was written in |
| binary mode or not. |
| |
| |
| .. function:: dumps(obj[, protocol]) |
| |
| Return the pickled representation of the object as a string, instead of writing |
| it to a file. |
| |
| If the *protocol* parameter is omitted, protocol 0 is used. If *protocol* is |
| specified as a negative value or :const:`HIGHEST_PROTOCOL`, the highest protocol |
| version will be used. |
| |
| .. versionchanged:: 2.3 |
| The *protocol* parameter was added. |
| |
| |
| .. function:: loads(string) |
| |
| Read a pickled object hierarchy from a string. Characters in the string past |
| the pickled object's representation are ignored. |
| |
| The :mod:`pickle` module also defines three exceptions: |
| |
| |
| .. exception:: PickleError |
| |
| A common base class for the other exceptions defined below. This inherits from |
| :exc:`Exception`. |
| |
| |
| .. exception:: PicklingError |
| |
| This exception is raised when an unpicklable object is passed to the |
| :meth:`dump` method. |
| |
| |
| .. exception:: UnpicklingError |
| |
| This exception is raised when there is a problem unpickling an object. Note that |
| other exceptions may also be raised during unpickling, including (but not |
| necessarily limited to) :exc:`AttributeError`, :exc:`EOFError`, |
| :exc:`ImportError`, and :exc:`IndexError`. |
| |
| The :mod:`pickle` module also exports two callables [#]_, :class:`Pickler` and |
| :class:`Unpickler`: |
| |
| |
| .. class:: Pickler(file[, protocol]) |
| |
| This takes a file-like object to which it will write a pickle data stream. |
| |
| If the *protocol* parameter is omitted, protocol 0 is used. If *protocol* is |
| specified as a negative value or :const:`HIGHEST_PROTOCOL`, the highest |
| protocol version will be used. |
| |
| .. versionchanged:: 2.3 |
| Introduced the *protocol* parameter. |
| |
| *file* must have a :meth:`write` method that accepts a single string argument. |
| It can thus be an open file object, a :mod:`StringIO` object, or any other |
| custom object that meets this interface. |
| |
| :class:`Pickler` objects define one (or two) public methods: |
| |
| |
| .. method:: dump(obj) |
| |
| Write a pickled representation of *obj* to the open file object given in the |
| constructor. Either the binary or ASCII format will be used, depending on the |
| value of the *protocol* argument passed to the constructor. |
| |
| |
| .. method:: clear_memo() |
| |
| Clears the pickler's "memo". The memo is the data structure that remembers |
| which objects the pickler has already seen, so that shared or recursive objects |
| pickled by reference and not by value. This method is useful when re-using |
| picklers. |
| |
| .. note:: |
| |
| Prior to Python 2.3, :meth:`clear_memo` was only available on the picklers |
| created by :mod:`cPickle`. In the :mod:`pickle` module, picklers have an |
| instance variable called :attr:`memo` which is a Python dictionary. So to clear |
| the memo for a :mod:`pickle` module pickler, you could do the following:: |
| |
| mypickler.memo.clear() |
| |
| Code that does not need to support older versions of Python should simply use |
| :meth:`clear_memo`. |
| |
| It is possible to make multiple calls to the :meth:`dump` method of the same |
| :class:`Pickler` instance. These must then be matched to the same number of |
| calls to the :meth:`load` method of the corresponding :class:`Unpickler` |
| instance. If the same object is pickled by multiple :meth:`dump` calls, the |
| :meth:`load` will all yield references to the same object. [#]_ |
| |
| :class:`Unpickler` objects are defined as: |
| |
| |
| .. class:: Unpickler(file) |
| |
| This takes a file-like object from which it will read a pickle data stream. |
| This class automatically determines whether the data stream was written in |
| binary mode or not, so it does not need a flag as in the :class:`Pickler` |
| factory. |
| |
| *file* must have two methods, a :meth:`read` method that takes an integer |
| argument, and a :meth:`readline` method that requires no arguments. Both |
| methods should return a string. Thus *file* can be a file object opened for |
| reading, a :mod:`StringIO` object, or any other custom object that meets this |
| interface. |
| |
| :class:`Unpickler` objects have one (or two) public methods: |
| |
| |
| .. method:: load() |
| |
| Read a pickled object representation from the open file object given in |
| the constructor, and return the reconstituted object hierarchy specified |
| therein. |
| |
| This method automatically determines whether the data stream was written |
| in binary mode or not. |
| |
| |
| .. method:: noload() |
| |
| This is just like :meth:`load` except that it doesn't actually create any |
| objects. This is useful primarily for finding what's called "persistent |
| ids" that may be referenced in a pickle data stream. See section |
| :ref:`pickle-protocol` below for more details. |
| |
| **Note:** the :meth:`noload` method is currently only available on |
| :class:`Unpickler` objects created with the :mod:`cPickle` module. |
| :mod:`pickle` module :class:`Unpickler`\ s do not have the :meth:`noload` |
| method. |
| |
| |
| What can be pickled and unpickled? |
| ---------------------------------- |
| |
| The following types can be pickled: |
| |
| * ``None``, ``True``, and ``False`` |
| |
| * integers, long integers, floating point numbers, complex numbers |
| |
| * normal and Unicode strings |
| |
| * tuples, lists, sets, and dictionaries containing only picklable objects |
| |
| * functions defined at the top level of a module |
| |
| * built-in functions defined at the top level of a module |
| |
| * classes that are defined at the top level of a module |
| |
| * instances of such classes whose :attr:`__dict__` or :meth:`__setstate__` is |
| picklable (see section :ref:`pickle-protocol` for details) |
| |
| Attempts to pickle unpicklable objects will raise the :exc:`PicklingError` |
| exception; when this happens, an unspecified number of bytes may have already |
| been written to the underlying file. Trying to pickle a highly recursive data |
| structure may exceed the maximum recursion depth, a :exc:`RuntimeError` will be |
| raised in this case. You can carefully raise this limit with |
| :func:`sys.setrecursionlimit`. |
| |
| Note that functions (built-in and user-defined) are pickled by "fully qualified" |
| name reference, not by value. This means that only the function name is |
| pickled, along with the name of module the function is defined in. Neither the |
| function's code, nor any of its function attributes are pickled. Thus the |
| defining module must be importable in the unpickling environment, and the module |
| must contain the named object, otherwise an exception will be raised. [#]_ |
| |
| Similarly, classes are pickled by named reference, so the same restrictions in |
| the unpickling environment apply. Note that none of the class's code or data is |
| pickled, so in the following example the class attribute ``attr`` is not |
| restored in the unpickling environment:: |
| |
| class Foo: |
| attr = 'a class attr' |
| |
| picklestring = pickle.dumps(Foo) |
| |
| These restrictions are why picklable functions and classes must be defined in |
| the top level of a module. |
| |
| Similarly, when class instances are pickled, their class's code and data are not |
| pickled along with them. Only the instance data are pickled. This is done on |
| purpose, so you can fix bugs in a class or add methods to the class and still |
| load objects that were created with an earlier version of the class. If you |
| plan to have long-lived objects that will see many versions of a class, it may |
| be worthwhile to put a version number in the objects so that suitable |
| conversions can be made by the class's :meth:`__setstate__` method. |
| |
| |
| .. _pickle-protocol: |
| |
| The pickle protocol |
| ------------------- |
| |
| .. currentmodule:: None |
| |
| This section describes the "pickling protocol" that defines the interface |
| between the pickler/unpickler and the objects that are being serialized. This |
| protocol provides a standard way for you to define, customize, and control how |
| your objects are serialized and de-serialized. The description in this section |
| doesn't cover specific customizations that you can employ to make the unpickling |
| environment slightly safer from untrusted pickle data streams; see section |
| :ref:`pickle-sub` for more details. |
| |
| |
| .. _pickle-inst: |
| |
| Pickling and unpickling normal class instances |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| .. method:: object.__getinitargs__() |
| |
| When a pickled class instance is unpickled, its :meth:`__init__` method is |
| normally *not* invoked. If it is desirable that the :meth:`__init__` method |
| be called on unpickling, an old-style class can define a method |
| :meth:`__getinitargs__`, which should return a *tuple* containing the |
| arguments to be passed to the class constructor (:meth:`__init__` for |
| example). The :meth:`__getinitargs__` method is called at pickle time; the |
| tuple it returns is incorporated in the pickle for the instance. |
| |
| .. method:: object.__getnewargs__() |
| |
| New-style types can provide a :meth:`__getnewargs__` method that is used for |
| protocol 2. Implementing this method is needed if the type establishes some |
| internal invariants when the instance is created, or if the memory allocation |
| is affected by the values passed to the :meth:`__new__` method for the type |
| (as it is for tuples and strings). Instances of a :term:`new-style class` |
| ``C`` are created using :: |
| |
| obj = C.__new__(C, *args) |
| |
| where *args* is the result of calling :meth:`__getnewargs__` on the original |
| object; if there is no :meth:`__getnewargs__`, an empty tuple is assumed. |
| |
| .. 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 return state is |
| pickled as the contents for the instance, instead of the contents of the |
| instance's dictionary. If there is no :meth:`__getstate__` method, the |
| instance's :attr:`__dict__` is pickled. |
| |
| .. method:: object.__setstate__() |
| |
| Upon unpickling, if the class also defines the method :meth:`__setstate__`, |
| it is called with the unpickled state. [#]_ If there is no |
| :meth:`__setstate__` method, the pickled state must be a dictionary and its |
| items are assigned to the new instance's dictionary. If a class defines both |
| :meth:`__getstate__` and :meth:`__setstate__`, the state object needn't be a |
| dictionary and these methods can do what they want. [#]_ |
| |
| .. note:: |
| |
| For :term:`new-style class`\es, if :meth:`__getstate__` returns a false |
| value, the :meth:`__setstate__` method will not be called. |
| |
| .. 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 either :meth:`__getinitargs__` or |
| :meth:`__getnewargs__` to establish such an invariant; otherwise, neither |
| :meth:`__new__` nor :meth:`__init__` will be called. |
| |
| |
| Pickling and unpickling extension types |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| .. method:: object.__reduce__() |
| |
| When the :class:`Pickler` encounters an object of a type it knows nothing |
| about --- such as an extension type --- it looks in two places for a hint of |
| how to pickle it. One alternative is for the object to implement a |
| :meth:`__reduce__` method. If provided, at pickling time :meth:`__reduce__` |
| will be called with no arguments, and it must return either a string or a |
| tuple. |
| |
| If a string is returned, it names a global variable whose contents are |
| pickled as normal. The string returned by :meth:`__reduce__` should be the |
| object's local name relative to its module; the pickle module searches the |
| module namespace to determine the object's module. |
| |
| When a tuple is returned, it must be between two and five elements long. |
| Optional elements can either be omitted, or ``None`` can be provided as their |
| value. The contents of this tuple are pickled as normal and used to |
| reconstruct the object at unpickling time. The semantics of each element |
| are: |
| |
| * A callable object that will be called to create the initial version of the |
| object. The next element of the tuple will provide arguments for this |
| callable, and later elements provide additional state information that will |
| subsequently be used to fully reconstruct the pickled data. |
| |
| In the unpickling environment this object must be either a class, a |
| callable registered as a "safe constructor" (see below), or it must have an |
| attribute :attr:`__safe_for_unpickling__` with a true value. Otherwise, an |
| :exc:`UnpicklingError` will be raised in the unpickling environment. Note |
| that as usual, the callable itself is pickled by name. |
| |
| * A tuple of arguments for the callable object. |
| |
| .. versionchanged:: 2.5 |
| Formerly, this argument could also be ``None``. |
| |
| * Optionally, the object's state, which will be passed to the object's |
| :meth:`__setstate__` method as described in section :ref:`pickle-inst`. If |
| the object has no :meth:`__setstate__` method, then, as above, the value |
| must be a dictionary and it will be added to the object's :attr:`__dict__`. |
| |
| * Optionally, an iterator (and not a sequence) yielding successive list |
| items. These list items will be pickled, and appended to the object using |
| either ``obj.append(item)`` or ``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 dictionary |
| items, which should be tuples of the form ``(key, value)``. These items |
| will be pickled and 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) |
| |
| It is sometimes useful to know the protocol version when implementing |
| :meth:`__reduce__`. This can be done by implementing a method named |
| :meth:`__reduce_ex__` instead of :meth:`__reduce__`. :meth:`__reduce_ex__`, |
| when it exists, is called in preference over :meth:`__reduce__` (you may |
| still provide :meth:`__reduce__` for backwards compatibility). The |
| :meth:`__reduce_ex__` method will be called with a single integer argument, |
| the protocol version. |
| |
| The :class:`object` class implements both :meth:`__reduce__` and |
| :meth:`__reduce_ex__`; however, if a subclass overrides :meth:`__reduce__` |
| but not :meth:`__reduce_ex__`, the :meth:`__reduce_ex__` implementation |
| detects this and calls :meth:`__reduce__`. |
| |
| An alternative to implementing a :meth:`__reduce__` method on the object to be |
| pickled, is to register the callable with the :mod:`copy_reg` module. This |
| module provides a way for programs to register "reduction functions" and |
| constructors for user-defined types. Reduction functions have the same |
| semantics and interface as the :meth:`__reduce__` method described above, except |
| that they are called with a single argument, the object to be pickled. |
| |
| The registered constructor is deemed a "safe constructor" for purposes of |
| unpickling as described above. |
| |
| |
| Pickling and unpickling 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 is just an arbitrary string |
| of printable ASCII characters. The resolution of such names is not defined by |
| the :mod:`pickle` module; it will delegate this resolution to user defined |
| functions on the pickler and unpickler. [#]_ |
| |
| To define external persistent id resolution, you need to set the |
| :attr:`persistent_id` attribute of the pickler object and the |
| :attr:`persistent_load` attribute of the unpickler object. |
| |
| To pickle objects that have an external persistent id, the pickler must have a |
| custom :func:`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 string, along with a marker so |
| that the unpickler will recognize the string as a persistent id. |
| |
| To unpickle external objects, the unpickler must have a custom |
| :func:`persistent_load` function that takes a persistent id string and returns |
| the referenced object. |
| |
| Here's a silly example that *might* shed more light:: |
| |
| import pickle |
| from cStringIO import StringIO |
| |
| src = StringIO() |
| p = pickle.Pickler(src) |
| |
| def persistent_id(obj): |
| if hasattr(obj, 'x'): |
| return 'the value %d' % obj.x |
| else: |
| return None |
| |
| p.persistent_id = persistent_id |
| |
| class Integer: |
| def __init__(self, x): |
| self.x = x |
| def __str__(self): |
| return 'My name is integer %d' % self.x |
| |
| i = Integer(7) |
| print i |
| p.dump(i) |
| |
| datastream = src.getvalue() |
| print repr(datastream) |
| dst = StringIO(datastream) |
| |
| up = pickle.Unpickler(dst) |
| |
| class FancyInteger(Integer): |
| def __str__(self): |
| return 'I am the integer %d' % self.x |
| |
| def persistent_load(persid): |
| if persid.startswith('the value '): |
| value = int(persid.split()[2]) |
| return FancyInteger(value) |
| else: |
| raise pickle.UnpicklingError, 'Invalid persistent id' |
| |
| up.persistent_load = persistent_load |
| |
| j = up.load() |
| print j |
| |
| In the :mod:`cPickle` module, the unpickler's :attr:`persistent_load` attribute |
| can also be set to a Python list, in which case, when the unpickler reaches a |
| persistent id, the persistent id string will simply be appended to this list. |
| This functionality exists so that a pickle data stream can be "sniffed" for |
| object references without actually instantiating all the objects in a pickle. |
| [#]_ Setting :attr:`persistent_load` to a list is usually used in conjunction |
| with the :meth:`noload` method on the Unpickler. |
| |
| .. BAW: Both pickle and cPickle support something called inst_persistent_id() |
| which appears to give unknown types a second shot at producing a persistent |
| id. Since Jim Fulton can't remember why it was added or what it's for, I'm |
| leaving it undocumented. |
| |
| |
| .. _pickle-sub: |
| |
| Subclassing Unpicklers |
| ---------------------- |
| |
| .. index:: |
| single: load_global() (pickle protocol) |
| single: find_global() (pickle protocol) |
| |
| By default, unpickling will import any class that it finds in the pickle data. |
| You can control exactly what gets unpickled and what gets called by customizing |
| your unpickler. Unfortunately, exactly how you do this is different depending |
| on whether you're using :mod:`pickle` or :mod:`cPickle`. [#]_ |
| |
| In the :mod:`pickle` module, you need to derive a subclass from |
| :class:`Unpickler`, overriding the :meth:`load_global` method. |
| :meth:`load_global` should read two lines from the pickle data stream where the |
| first line will the name of the module containing the class and the second line |
| will be the name of the instance's class. It then looks up the class, possibly |
| importing the module and digging out the attribute, then it appends what it |
| finds to the unpickler's stack. Later on, this class will be assigned to the |
| :attr:`__class__` attribute of an empty class, as a way of magically creating an |
| instance without calling its class's :meth:`__init__`. Your job (should you |
| choose to accept it), would be to have :meth:`load_global` push onto the |
| unpickler's stack, a known safe version of any class you deem safe to unpickle. |
| It is up to you to produce such a class. Or you could raise an error if you |
| want to disallow all unpickling of instances. If this sounds like a hack, |
| you're right. Refer to the source code to make this work. |
| |
| Things are a little cleaner with :mod:`cPickle`, but not by much. To control |
| what gets unpickled, you can set the unpickler's :attr:`find_global` attribute |
| to a function or ``None``. If it is ``None`` then any attempts to unpickle |
| instances will raise an :exc:`UnpicklingError`. If it is a function, then it |
| should accept a module name and a class name, and return the corresponding class |
| object. It is responsible for looking up the class and performing any necessary |
| imports, and it may raise an error to prevent instances of the class from being |
| unpickled. |
| |
| The moral of the story is that you should be really careful about the source of |
| the strings your application unpickles. |
| |
| |
| .. _pickle-example: |
| |
| Example |
| ------- |
| |
| For the simplest code, use the :func:`dump` and :func:`load` functions. Note |
| that a self-referencing list is pickled and restored correctly. :: |
| |
| import pickle |
| |
| data1 = {'a': [1, 2.0, 3, 4+6j], |
| 'b': ('string', u'Unicode string'), |
| 'c': None} |
| |
| selfref_list = [1, 2, 3] |
| selfref_list.append(selfref_list) |
| |
| output = open('data.pkl', 'wb') |
| |
| # Pickle dictionary using protocol 0. |
| pickle.dump(data1, output) |
| |
| # Pickle the list using the highest protocol available. |
| pickle.dump(selfref_list, output, -1) |
| |
| output.close() |
| |
| The following example reads the resulting pickled data. When reading a |
| pickle-containing file, you should open the file in binary mode because you |
| can't be sure if the ASCII or binary format was used. :: |
| |
| import pprint, pickle |
| |
| pkl_file = open('data.pkl', 'rb') |
| |
| data1 = pickle.load(pkl_file) |
| pprint.pprint(data1) |
| |
| data2 = pickle.load(pkl_file) |
| pprint.pprint(data2) |
| |
| pkl_file.close() |
| |
| Here's a larger 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. :: |
| |
| #!/usr/local/bin/python |
| |
| class TextReader: |
| """Print and number lines in a text file.""" |
| def __init__(self, file): |
| self.file = file |
| self.fh = open(file) |
| self.lineno = 0 |
| |
| def readline(self): |
| self.lineno = self.lineno + 1 |
| line = self.fh.readline() |
| if not line: |
| return None |
| if line.endswith("\n"): |
| line = line[:-1] |
| return "%d: %s" % (self.lineno, line) |
| |
| def __getstate__(self): |
| odict = self.__dict__.copy() # copy the dict since we change it |
| del odict['fh'] # remove filehandle entry |
| return odict |
| |
| def __setstate__(self, dict): |
| fh = open(dict['file']) # reopen file |
| count = dict['lineno'] # read from file... |
| while count: # until line count is restored |
| fh.readline() |
| count = count - 1 |
| self.__dict__.update(dict) # update attributes |
| self.fh = fh # save the file object |
| |
| A sample usage might be something like this:: |
| |
| >>> import TextReader |
| >>> obj = TextReader.TextReader("TextReader.py") |
| >>> obj.readline() |
| '1: #!/usr/local/bin/python' |
| >>> obj.readline() |
| '2: ' |
| >>> obj.readline() |
| '3: class TextReader:' |
| >>> import pickle |
| >>> pickle.dump(obj, open('save.p', 'wb')) |
| |
| If you want to see that :mod:`pickle` works across Python processes, start |
| another Python session, before continuing. What follows can happen from either |
| the same process or a new process. :: |
| |
| >>> import pickle |
| >>> reader = pickle.load(open('save.p', 'rb')) |
| >>> reader.readline() |
| '4: """Print and number lines in a text file."""' |
| |
| |
| .. seealso:: |
| |
| Module :mod:`copy_reg` |
| Pickle interface constructor registration for extension types. |
| |
| 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. |
| |
| |
| :mod:`cPickle` --- A faster :mod:`pickle` |
| ========================================= |
| |
| .. module:: cPickle |
| :synopsis: Faster version of pickle, but not subclassable. |
| .. moduleauthor:: Jim Fulton <jim@zope.com> |
| .. sectionauthor:: Fred L. Drake, Jr. <fdrake@acm.org> |
| |
| |
| .. index:: module: pickle |
| |
| The :mod:`cPickle` module supports serialization and de-serialization of Python |
| objects, providing an interface and functionality nearly identical to the |
| :mod:`pickle` module. There are several differences, the most important being |
| performance and subclassability. |
| |
| First, :mod:`cPickle` can be up to 1000 times faster than :mod:`pickle` because |
| the former is implemented in C. Second, in the :mod:`cPickle` module the |
| callables :func:`Pickler` and :func:`Unpickler` are functions, not classes. |
| This means that you cannot use them to derive custom pickling and unpickling |
| subclasses. Most applications have no need for this functionality and should |
| benefit from the greatly improved performance of the :mod:`cPickle` module. |
| |
| The pickle data stream produced by :mod:`pickle` and :mod:`cPickle` are |
| identical, so it is possible to use :mod:`pickle` and :mod:`cPickle` |
| interchangeably with existing pickles. [#]_ |
| |
| There are additional minor differences in API between :mod:`cPickle` and |
| :mod:`pickle`, however for most applications, they are interchangeable. More |
| documentation is provided in the :mod:`pickle` module documentation, which |
| includes a list of the documented differences. |
| |
| .. rubric:: Footnotes |
| |
| .. [#] Don't confuse this with the :mod:`marshal` module |
| |
| .. [#] In the :mod:`pickle` module these callables are classes, which you could |
| subclass to customize the behavior. However, in the :mod:`cPickle` module these |
| callables are factory functions and so cannot be subclassed. One common reason |
| to subclass is to control what objects can actually be unpickled. See section |
| :ref:`pickle-sub` for more details. |
| |
| .. [#] *Warning*: this is intended for pickling multiple objects without intervening |
| modifications to the objects or their parts. If you modify an object and then |
| pickle it again using the same :class:`Pickler` instance, the object is not |
| pickled again --- a reference to it is pickled and the :class:`Unpickler` will |
| return the old value, not the modified one. There are two problems here: (1) |
| detecting changes, and (2) marshalling a minimal set of changes. Garbage |
| Collection may also become a problem here. |
| |
| .. [#] The exception raised will likely be an :exc:`ImportError` or an |
| :exc:`AttributeError` but it could be something else. |
| |
| .. [#] These methods can also be used to implement copying class instances. |
| |
| .. [#] This protocol is also used by the shallow and deep copying operations defined in |
| the :mod:`copy` module. |
| |
| .. [#] The actual mechanism for associating these user defined functions is slightly |
| different for :mod:`pickle` and :mod:`cPickle`. The description given here |
| works the same for both implementations. Users of the :mod:`pickle` module |
| could also use subclassing to effect the same results, overriding the |
| :meth:`persistent_id` and :meth:`persistent_load` methods in the derived |
| classes. |
| |
| .. [#] We'll leave you with the image of Guido and Jim sitting around sniffing pickles |
| in their living rooms. |
| |
| .. [#] A word of caution: the mechanisms described here use internal attributes and |
| methods, which are subject to change in future versions of Python. We intend to |
| someday provide a common interface for controlling this behavior, which will |
| work in either :mod:`pickle` or :mod:`cPickle`. |
| |
| .. [#] Since the pickle data format is actually a tiny stack-oriented programming |
| language, and some freedom is taken in the encodings of certain objects, it is |
| possible that the two modules produce different data streams for the same input |
| objects. However it is guaranteed that they will always be able to read each |
| other's data streams. |
| |