Is it possible to chain metaclasses?
I have class
Model which uses
__metaclass__=ModelBase to process its namespace dict. I'm going to inherit from it and "bind" another metaclass so it won't shade the original one.
First approach is to subclass
MyModel(Model): __metaclass__ = MyModelBase # inherits from `ModelBase`
But is it possible just to chain them like mixins, without explicit subclassing? Something like
class MyModel(Model): __metaclass__ = (MyMixin, super(Model).__metaclass__)
... or even better: create a MixIn that will use
__metaclass__ from the direct parent of the class that uses it:
class MyModel(Model): __metaclass__ = MyMetaMixin, # Automagically uses `Model.__metaclass__`
The reason: For more flexibility in extending existing apps, I want to create a global mechanism for hooking into the process of
Form, ... definitions in Django so it can be changed at runtime.
A common mechanism would be much better than implementing multiple metaclasses with callback mixins.
With your help I finally managed to come up to a solution: metaclass
The idea is: create a metaclass that invokes a callback to modify the namespace of the class being created, then, with the help of
__new__, mutate into a metaclass of one of the parents
#!/usr/bin/env python #-*- coding: utf-8 -*- # Magical metaclass class MetaProxy(type): """ Decorate the class being created & preserve __metaclass__ of the parent It executes two callbacks: before & after creation of a class, that allows you to decorate them. Between two callbacks, it tries to locate any `__metaclass__` in the parents (sorted in MRO). If found — with the help of `__new__` method it mutates to the found base metaclass. If not found — it just instantiates the given class. """ @classmethod def pre_new(cls, name, bases, attrs): """ Decorate a class before creation """ return (name, bases, attrs) @classmethod def post_new(cls, newclass): """ Decorate a class after creation """ return newclass @classmethod def _mrobases(cls, bases): """ Expand tuple of base-classes ``bases`` in MRO """ mrobases =  for base in bases: if base is not None: # We don't like `None` :) mrobases.extend(base.mro()) return mrobases @classmethod def _find_parent_metaclass(cls, mrobases): """ Find any __metaclass__ callable in ``mrobases`` """ for base in mrobases: if hasattr(base, '__metaclass__'): metacls = base.__metaclass__ if metacls and not issubclass(metacls, cls): # don't call self again return metacls#(name, bases, attrs) # Not found: use `type` return lambda name,bases,attrs: type.__new__(type, name, bases, attrs) def __new__(cls, name, bases, attrs): mrobases = cls._mrobases(bases) name, bases, attrs = cls.pre_new(name, bases, attrs) # Decorate, pre-creation newclass = cls._find_parent_metaclass(mrobases)(name, bases, attrs) return cls.post_new(newclass) # Decorate, post-creation # Testing if __name__ == '__main__': # Original classes. We won't touch them class ModelMeta(type): def __new__(cls, name, bases, attrs): attrs['parentmeta'] = name return super(ModelMeta, cls).__new__(cls, name, bases, attrs) class Model(object): __metaclass__ = ModelMeta # Try to subclass me but don't forget about `ModelMeta` # Decorator metaclass class MyMeta(MetaProxy): """ Decorate a class Being a subclass of `MetaProxyDecorator`, it will call base metaclasses after decorating """ @classmethod def pre_new(cls, name, bases, attrs): """ Set `washere` to classname """ attrs['washere'] = name return super(MyMeta, cls).pre_new(name, bases, attrs) @classmethod def post_new(cls, newclass): """ Append '!' to `.washere` """ newclass.washere += '!' return super(MyMeta, cls).post_new(newclass) # Here goes the inheritance... class MyModel(Model): __metaclass__ = MyMeta a=1 class MyNewModel(MyModel): __metaclass__ = MyMeta # Still have to declare it: __metaclass__ do not inherit a=2 class MyNewNewModel(MyNewModel): # Will use the original ModelMeta a=3 class A(object): __metaclass__ = MyMeta # No __metaclass__ in parents: just instantiate a=4 class B(A): pass # MyMeta is not called until specified explicitly # Make sure we did everything right assert MyModel.a == 1 assert MyNewModel.a == 2 assert MyNewNewModel.a == 3 assert A.a == 4 # Make sure callback() worked assert hasattr(MyModel, 'washere') assert hasattr(MyNewModel, 'washere') assert hasattr(MyNewNewModel, 'washere') # inherited assert hasattr(A, 'washere') assert MyModel.washere == 'MyModel!' assert MyNewModel.washere == 'MyNewModel!' assert MyNewNewModel.washere == 'MyNewModel!' # inherited, so unchanged assert A.washere == 'A!'