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This article has a snippet showing usage of __bases__ to dynamically change the inheritance hierarchy of some Python code, by adding a class to an existing classes collection of classes from which it inherits. Ok, that's hard to read, code is probably clearer:

class Friendly:
    def hello(self):
        print 'Hello'

class Person: pass

p = Person()
Person.__bases__ = (Friendly,)
p.hello()  # prints "Hello"

That is, Person doesn't inherit from Friendly at the source level, but rather this inheritance relation is added dynamically at runtime by modification of the __bases__attribute of the Person class. However, if you change Friendly and Person to be new style classes (by inherting from object), you get the following error:

TypeError: __bases__ assignment: 'Friendly' deallocator differs from 'object'

A bit of Googling on this seems to indicate some incompatibilities between new-style and old style classes in regards to changing the inheritance heirarchy at runtime. Specifically: "New-style class objects don't support assignment to their bases attribute"

My question, is it possible to make the above Friendly/Person example work using new-style classes in Python 2.7+, possibly by use of the __mro__ attribute?

Disclaimer: I fully realise that this is obscure code. I fully realize that in real production code tricks like this tend to border on unreadable, this is purely a thought experiment, and for funzies to learn something about how Python deals with issues related to multiple inheritance.

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6  
+1 for the disclaimer! We should all be so curious ... –  Samy Vilar Apr 2 '13 at 16:51
    
It's also nice for learners to read this if they are not familiar with metaclass, type(), ...: slideshare.net/gwiener/metaclasses-in-python :) –  loolooyyyy Jan 30 '14 at 11:30
    
Here's my use case. I'm importing a library that has class B inheriting from class A. –  FutureNerd Jun 25 '14 at 2:39
    
Here's my actual use case. I'm importing a library that has class B inheriting from class A. I want to create New_A inheriting from A, with new_A_method(). Now I want to create New_B inheriting from... well, from B as if B inherited from New_A, so that B's methods, A's methods, and new_A_method() are all available to instances of New_B. How can I do this without monkey-patching the existing class A? –  FutureNerd Jun 25 '14 at 2:49
    
Couldn't you have New_B inherit from both B and New_A? Remember Python supports multiple inheritance. –  Adam Parkin Jun 25 '14 at 16:28

5 Answers 5

up vote 21 down vote accepted

Ok, again, this is not something you should normally do, this is for informational purposes only.

Where Python looks for a method on an instance object is determined by the __mro__ attribute of the class which defines that object (the M ethod R esolution O rder attribute). Thus, if we could modify the __mro__ of Person, we'd get the desired behaviour. Something like:

setattr(Person, '__mro__', (Person, Friendly, object))

The problem is that __mro__ is a readonly attribute, and thus setattr won't work. Maybe if you're a Python guru there's a way around that, but clearly I fall short of guru status as I cannot think of one.

A possible workaround is to simply redefine the class:

def modify_Person_to_be_friendly():
    # so that we're modifying the global identifier 'Person'
    global Person

    # now just redefine the class using type(), specifying that the new
    # class should inherit from Friendly and have all attributes from
    # our old Person class
    Person = type('Person', (Friendly,), dict(Person.__dict__)) 

def main():
    modify_Person_to_be_friendly()
    p = Person()
    p.hello()  # works!

What this doesn't do is modify any previously created Person instances to have the hello() method. For example (just modifying main()):

def main():
    oldperson = Person()
    ModifyPersonToBeFriendly()
    p = Person()
    p.hello()  
    # works!  But:
    oldperson.hello()
    # does not

If the details of the type call aren't clear, then read e-satis' excellent answer on 'What is a metaclass in Python?'.

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I can not vouch for the consequences, but that this code does what you want at py2.7.2.

class Friendly(object):
    def hello(self):
        print 'Hello'

class Person(object): pass

# we can't change the original classes, so we replace them
class newFriendly: pass
newFriendly.__dict__ = dict(Friendly.__dict__)
Friendly = newFriendly
class newPerson: pass
newPerson.__dict__ = dict(Person.__dict__)
Person = newPerson

p = Person()
Person.__bases__ = (Friendly,)
p.hello()  # prints "Hello"

We know that this is possible. Cool. But we'll never use it!

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I've been struggling with this too, and was intrigued by your solution, but Python 3 takes it away from us:

    AttributeError: attribute '__dict__' of 'type' objects is not writable

I actually have a legitimate need for a decorator that replaces the (single) superclass of the decorated class. It would require too lengthy a description to include here (I tried, but couldn't get it to a reasonably length and limited complexity -- it came up in the context of the use by many Python applications of an Python-based enterprise server where different applications needed slightly different variations of some of the code.)

The discussion on this page and others like it provided hints that the problem of assigning to __bases__ only occurs for classes with no superclass defined (i.e., whose only superclass is object). I was able to solve this problem (for both Python 2.7 and 3.2) by defining the classes whose superclass I needed to replace as being subclasses of a trivial class:

## T is used so that the other classes are not direct subclasses of object,
## since classes whose base is object don't allow assignment to their __bases__ attribute.

class T: pass

class A(T):
    def __init__(self):
        print('Creating instance of {}'.format(self.__class__.__name__))

## ordinary inheritance
class B(A): pass

## dynamically specified inheritance
class C(T): pass

A()
B()
C.__bases__ = (A,)
C()

## Output is:
##     Creating instance of A
##     Creating instance of B
##     Creating instance of C
##

## attempt at dynamically specified inheritance starting with a direct subclass
## of object doesn't work
class D: pass

D.__bases__ = (A,)
D()

## Result is:
##     TypeError: __bases__ assignment: 'A' deallocator differs from 'object'
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Right of the bat, all the caveats of messing with class hierarchy dynamically are in effect.

But if it has to be done then, apparently, there is a hack that get's around the "deallocator differs from 'object" issue when modifying the __bases__ attribute for the new style classes.

You can define a class object

Class object(object): pass

Which derives a class from the built-in metaclass 'type'. That's it, now your new style classes can modify the __bases__ without any problem.

In my tests this actually worked very well as all existing (before changing the inheritance)instances of it and its derived classes felt the effect of the change including their mro getting updated.

For more detailed discussion please see the bug report alluded to by mgilson

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I needed a solution for this which:

  • Works with both Python 2 (>= 2.7) and Python 3 (>= 3.2).
  • Lets the class bases be changed after dynamically importing a dependency.
  • Lets the class bases be changed from unit test code.
  • Works with types that have a custom metaclass.
  • Still allows unittest.mock.patch to function as expected.

Here's what I came up with:

def ensure_class_bases_begin_with(namespace, class_name, base_class):
    """ Ensure the named class's bases start with the base class.

        :param namespace: The namespace containing the class name.
        :param class_name: The name of the class to alter.
        :param base_class: The type to be the first base class for the
            newly created type.
        :return: ``None``.

        Call this function after ensuring `base_class` is
        available, before using the class named by `class_name`.

        """
    existing_class = namespace[class_name]
    assert isinstance(existing_class, type)

    bases = list(existing_class.__bases__)
    if base_class is bases[0]:
        # Already bound to a type with the right bases.
        return
    bases.insert(0, base_class)

    new_class_namespace = existing_class.__dict__.copy()
    # Type creation will assign the correct ‘__dict__’ attribute.
    del new_class_namespace['__dict__']

    metaclass = existing_class.__metaclass__
    new_class = metaclass(class_name, tuple(bases), new_class_namespace)

    namespace[class_name] = new_class

Used like this within the application:

# foo.py

# Type `Bar` is not available at first, so can't inherit from it yet.
class Foo(object):
    __metaclass__ = type

    def __init__(self):
        self.frob = "spam"

    def __unicode__(self): return "Foo"

# … later …
import bar
ensure_class_bases_begin_with(
        namespace=globals(),
        class_name=str('Foo'),   # `str` type differs on Python 2 vs. 3.
        base_class=bar.Bar)

Use like this from within unit test code:

# test_foo.py

""" Unit test for `foo` module. """

import unittest
import mock

import foo
import bar

ensure_class_bases_begin_with(
        namespace=foo.__dict__,
        class_name=str('Foo'),   # `str` type differs on Python 2 vs. 3.
        base_class=bar.Bar)


class Foo_TestCase(unittest.TestCase):
    """ Test cases for `Foo` class. """

    def setUp(self):
        patcher_unicode = mock.patch.object(
                foo.Foo, '__unicode__')
        patcher_unicode.start()
        self.addCleanup(patcher_unicode.stop)

        self.test_instance = foo.Foo()

        patcher_frob = mock.patch.object(
                self.test_instance, 'frob')
        patcher_frob.start()
        self.addCleanup(patcher_frob.stop)

    def test_instantiate(self):
        """ Should create an instance of `Foo`. """
        instance = foo.Foo()
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