Like every other form of nested class definition, a nested metaclass may be more "compact and convenient" (as long as you're OK with not reusing that metaclass except by inheritance) for many kinds of "production use", but can be somewhat inconvenient for debugging and introspection.
Basically, instead of giving the metaclass a proper, top-level name, you're going to end up with all custom metaclasses defined in a module being undistiguishable from each other based on their
__name__ attributes (which is what Python uses to form their
repr if needed). Consider:
>>> class Mcl(type): pass
>>> class A: __metaclass__ = Mcl
>>> class B:
... class __metaclass__(type): pass
IOW, if you want to examine "which type is class A" (a metaclass is the class's type, remember), you get a clear and useful answer -- it's
Mcl in the main module. However, if you want to examine "which type is class B", the answer is not all that useful: it says
in the main module, but that's not even true:
>>> import __main__
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
AttributeError: 'module' object has no attribute '__metaclass__'
...there is no such thing, actually; that repr is misleading and not very helpful;-).
A class's repr is essentially
'%s.%s' % (c.__module__, c.__name__) -- a simple, useful, and consistent rule -- but in many cases such as, the
class statement not being unique at module scope, or not being at module scope at all (but rather within a function or class body), or not even existing (classes can of course be built without a
class statement, by explicitly calling their metaclass), this can be somewhat misleading (and the best solution is to avoid, in as far as possible, those peculiar cases, except when substantial advantage can be obtained by using them). For example, consider:
>>> class A(object):
... def foo(self): print('first')
>>> x = A()
>>> class A(object):
... def foo(self): print('second')
>>> y = A()
>>> x.__class__ is y.__class__
class statement at the same scope, the second one rebinds the name (here,
A), but existing instances refer to the first binding of the name by object, not by name -- so both class objects remain, one accessible only through the
__class__ attribute) of its instances (if any -- if none, that first object disappears) -- the two classes have the same name and module (and therefore the same representation), but they're distinct objects. Classes nested within class or function bodies, or created by directly calling the metaclass (including
type), may cause similar confusion if debugging or introspection is ever called for.
So, nesting the metaclass is OK if you'll never need to debug or otherwise introspect that code, and can be lived with if whoever is so doing understand this quirks (though it will never be as convenient as using a nice, real name, of course -- just like debugging a function coded with
lambda cannot possibly ever be so convenient as debugging one coded with
def). By analogy with
def you can reasonably claim that anonymous, "nested" definition is OK for metaclasses which are so utterly simple, such no-brainers, that no debugging or introspection will ever conceivably be required.
In Python 3, the "nested definition" just doesn't work -- there, a metaclass must be passed as a keyword argument to the class, as in
class A(metaclass=Mcl):, so defining
__metaclass__ in the body has no effect. I believe this also suggests that a nested metaclass definition in Python 2 code is probably appropriate only if you know for sure that code will never need to be ported to Python 3 (since you're making that port so much harder, and will need to de-nest the metaclass definition for the purpose) -- "throwaway" code, in other words, which won't be around in a few years when some version of Python 3 acquires huge, compelling advantages of speed, functionality, or third-party support, over Python 2.7 (the last ever version of Python 2).
Code that you expect to be throwaway, as the history of computing shows us, has an endearing habit of surprising you utterly, and being still around 20 years later (while perhaps the code you wrote around the same time "for the ages" is utterly forgotten;-). This would certainly seem to suggest avoiding nested definition of metaclasses.