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cloudpickle makes it possible to serialize Python constructs not supported by the default pickle module from the Python standard library.

cloudpickle is especially useful for cluster computing where Python code is shipped over the network to execute on remote hosts, possibly close to the data.

Among other things, cloudpickle supports pickling for lambda functions along with functions and classes defined interactively in the __main__ module (for instance in a script, a shell or a Jupyter notebook).

Cloudpickle can only be used to send objects between the exact same version of Python.

Using cloudpickle for long-term object storage is not supported and strongly discouraged.

Security notice: one should only load pickle data from trusted sources as otherwise pickle.load can lead to arbitrary code execution resulting in a critical security vulnerability.

Installation

The latest release of cloudpickle is available from pypi:

pip install cloudpickle

Examples

Pickling a lambda expression:

>>> import cloudpickle
>>> squared = lambda x: x ** 2
>>> pickled_lambda = cloudpickle.dumps(squared)

>>> import pickle
>>> new_squared = pickle.loads(pickled_lambda)
>>> new_squared(2)
4

Pickling a function interactively defined in a Python shell session (in the __main__ module):

>>> CONSTANT = 42
>>> def my_function(data: int) -> int:
...     return data + CONSTANT
...
>>> pickled_function = cloudpickle.dumps(my_function)
>>> depickled_function = pickle.loads(pickled_function)
>>> depickled_function
<function __main__.my_function(data:int) -> int>
>>> depickled_function(43)
85

Overriding pickle's serialization mechanism for importable constructs:

An important difference between cloudpickle and pickle is that cloudpickle can serialize a function or class by value, whereas pickle can only serialize it by reference. Serialization by reference treats functions and classes as attributes of modules, and pickles them through instructions that trigger the import of their module at load time. Serialization by reference is thus limited in that it assumes that the module containing the function or class is available/importable in the unpickling environment. This assumption breaks when pickling constructs defined in an interactive session, a case that is automatically detected by cloudpickle, that pickles such constructs by value.

Another case where the importability assumption is expected to break is when developing a module in a distributed execution environment: the worker processes may not have access to the said module, for example if they live on a different machine than the process in which the module is being developed. By itself, cloudpickle cannot detect such "locally importable" modules and switch to serialization by value; instead, it relies on its default mode, which is serialization by reference. However, since cloudpickle 2.0.0, one can explicitly specify modules for which serialization by value should be used, using the register_pickle_by_value(module)//unregister_pickle_by_value(module) API:

>>> import cloudpickle
>>> import my_module
>>> cloudpickle.register_pickle_by_value(my_module)
>>> cloudpickle.dumps(my_module.my_function)  # my_function is pickled by value
>>> cloudpickle.unregister_pickle_by_value(my_module)
>>> cloudpickle.dumps(my_module.my_function)  # my_function is pickled by reference

Using this API, there is no need to re-install the new version of the module on all the worker nodes nor to restart the workers: restarting the client Python process with the new source code is enough.

Note that this feature is still experimental, and may fail in the following situations:

Running the tests

History

cloudpickle was initially developed by picloud.com and shipped as part of the client SDK.

A copy of cloudpickle.py was included as part of PySpark, the Python interface to Apache Spark. Davies Liu, Josh Rosen, Thom Neale and other Apache Spark developers improved it significantly, most notably to add support for PyPy and Python 3.

The aim of the cloudpickle project is to make that work available to a wider audience outside of the Spark ecosystem and to make it easier to improve it further notably with the help of a dedicated non-regression test suite.