Python Metaclass : Understanding the 'with_metaclass()'
I want to ask what the with_metaclass() call means in the definition of a class.
E.g.:
class Foo(with_metaclass(Cls1, Cls2)):
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UPDATE: the
six.with_metaclass()function has since been patched with a decorator variant, i.e.@six.add_metaclass(). This update fixes some mro issues related to the base objects. The new decorator would be applied as follows:import six @six.add_metaclass(Meta) class MyClass(Base): passHere are the patch notes and here is a similar, detailed example and explanation for using a decorator alternative.
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with_metaclass() is a utility class factory function provided by the six library to make it easier to develop code for both Python 2 and 3.
It uses a little slight of hand (see below) with a temporary metaclass, to attach a metaclass to a regular class in a way that's cross-compatible with both Python 2 and Python 3.
Quoting from the documentation:
Create a new class with base class base and metaclass metaclass. This is designed to be used in class declarations like this:
from six import with_metaclass class Meta(type): pass class Base(object): pass class MyClass(with_metaclass(Meta, Base)): passThis is needed because the syntax to attach a metaclass changed between Python 2 and 3:
Python 2:
class MyClass(object): __metaclass__ = MetaPython 3:
class MyClass(metaclass=Meta): passThe
with_metaclass()function makes use of the fact that metaclasses are a) inherited by subclasses, and b) a metaclass can be used to generate new classes and c) when you subclass from a base class with a metaclass, creating the actual subclass object is delegated to the metaclass. It effectively creates a new, temporary base class with a temporarymetaclassmetaclass that, when used to create the subclass swaps out the temporary base class and metaclass combo with the metaclass of your choice:def with_metaclass(meta, *bases): """Create a base class with a metaclass.""" # This requires a bit of explanation: the basic idea is to make a dummy # metaclass for one level of class instantiation that replaces itself with # the actual metaclass. class metaclass(type): def __new__(cls, name, this_bases, d): return meta(name, bases, d) @classmethod def __prepare__(cls, name, this_bases): return meta.__prepare__(name, bases) return type.__new__(metaclass, 'temporary_class', (), {})Breaking the above down:
type.__new__(metaclass, 'temporary_class', (), {})uses themetaclassmetaclass to create a new class object namedtemporary_classthat is entirely empty otherwise.type.__new__(metaclass, ...)is used instead ofmetaclass(...)to avoid using the specialmetaclass.__new__()implementation that is needed for the slight of hand in a next step to work.- In Python 3 only, when
temporary_classis used as a base class, Python first callsmetaclass.__prepare__()(passing in the derived class name,(temporary_class,)as thethis_basesargument. The intended metaclassmetais then used to callmeta.__prepare__(), ignoringthis_basesand passing in thebasesargument. - next, after using the return value of
metaclass.__prepare__()as the base namespace for the class attributes (or just using a plain dictionary when on Python 2), Python callsmetaclass.__new__()to create the actual class. This is again passed(temporary_class,)as thethis_basestuple, but the code above ignores this and usesbasesinstead, calling onmeta(name, bases, d)to create the new derived class.
As a result, using
with_metaclass()gives you a new class object with no additional base classes:>>> class FooMeta(type): pass ... >>> with_metaclass(FooMeta) # returns a temporary_class object <class '__main__.temporary_class'> >>> type(with_metaclass(FooMeta)) # which has a custom metaclass <class '__main__.metaclass'> >>> class Foo(with_metaclass(FooMeta)): pass ... >>> Foo.__mro__ # no extra base classes (<class '__main__.Foo'>, <type 'object'>) >>> type(Foo) # correct metaclass <class '__main__.FooMeta'>讨论(0)
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