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Suppose I have this snippet inside a module

def func(params):
   class MyClass(object):

How can I pickle an instance of the class MyClass ?

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Why don't you put your class into module scope? – XORcist Aug 4 '12 at 9:04
Since MyClass is local to func(), it must be returning either an instance of the class or the class itself, correct? – martineau Aug 4 '12 at 17:03

4 Answers 4

You can't, because picklable object's class definitions must reside in an imported module's scope. Just put your class inside module scope and you are good to go.

That said, in Python there is very little that can't be achieved with a bit of hacking the insides of the machinery (sys.modules in this case), but I wouldn't recommend that.

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The MyClass definition is local variable for the func function. You cannot directly create an instance of it, but you can map it's functions to a new class, and then to use the new class as it is the original one. Here's an example:

def func(params):
    class MyClass(object):
        some_param = 100
        def __init__(self, *args):
            print "args:", args
        def blabla(self):
            self.x = 123
            print self.some_param
        def getme(self):
            print self.x

func.func_code is the code of the func function, and func.func_code.co_consts[2] contains the bytecode of the MyClass definition:

In : func.func_code.co_consts
 <code object MyClass at 0x164dcb0, file "<ipython-input-35-f53bebe124be>", line 2>)

So we need the bytecode for the MyClass functions:

In : eval(func.func_code.co_consts[2])
{'blabla': <function blabla at 0x24689b0>,
 '__module__': '__main__',
 'getme': <function getme at 0x2468938>,
 'some_param': 100,
 '__init__': <function __init__ at 0x219e398>}

And finally we create a new class with metaclass, that assigns the MyClass functions to the new class:

def map_functions(name, bases, dict):
    return type(name, bases, dict)

class NewMyClass(object):
    __metaclass__ = map_functions

n = NewMyClass(1, 2, 3, 4, 5)
>> args: (1, 2, 3, 4, 5)

>> 100

>> 123
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Interesting...but it's unclear to me how this can be used to pickle an instance of the class defined in the function -- nor can you pickle code objects. – martineau Aug 4 '12 at 18:42

This is somewhat tough to do because the way Pickle does with objects from user defined classes by default is to create a new instance of the class - using the object's __class__.__name__ attribute to retrieve its type in the object's original module. Which means: pickling and unpickling only works (by default) for classes that have well defined names in the module they are defined.

When one defines a class inside a function, usulay there won't be a module level (i.e. global) variable holding the name of each class that was created inside the function.

The behavior for pickle and npickle can be customized through the __getstate__ and __setstate__ methods on the class - check the docs - but even them, doing it right for dynamic class can be tricky , but I managed to create a working implementation of it for another S.O. question - -check my answer here: Pickle a dynamically parameterized sub-class

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You can work around the pickle requirement that class definitions be importable by including the class definition as a string in the data pickled for the instance and executing it yourself when unpickling by adding a __reduce__() method that passes the class definition to a callable. Here's a trivial example of what I'm trying to describe that seems to work:

from textwrap import dedent

definition = dedent("""\
    class MyClass(object):
        def __reduce__(self):
            return make_class, (definition,)

def make_class(class_def):
    """ Create class and return instance of it."""
    exec class_def
    return MyClass()

def func(params):
    result = make_class(definition)
    return result

import pickle
from StringIO import StringIO
stream = StringIO()

obj = func(None)
print 'obj:', obj
pickler = pickle.Pickler(stream)
pickler.dump(obj) # rewind stream
unpickler = pickle.Unpickler(stream)
obj2 = unpickler.load()
print 'obj2:', obj2

print 'Done'

Obviously it's inefficient to pass the class definition string with every class instance pickled. Also, __reduce__() (and make_class()) would need to be modified if you wanted to pass specific or differing arguments to the class constructor.

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