For a Django tab library, I created an architecture that uses tracking of marked subclasses.
To do this, I created a base class and then derive all tab classes from it. I track the descendant classes using a function that recursively uses the
In order to know which subclasses are leaf classes / real tabs, I chose to do this the manual way by adding
__tab__ = True to any class I want to show up as a tab. The reason for this is that I'm creating other abstraction classes below
TabView that shouldn't show up as tabs. Maybe this could be re-written as a decorator.
def get_descendants(cls): """Returns all subclasses for cls, and their sublasses, and so on...""" descendants =  subclasses = cls.__subclasses__() for subclass in subclasses: descendants.append(subclass) descendants += get_descendants(subclass) return descendants def TabView(object): def _tab_group_members(self): descendants = get_descendants(TabView) return [d for d in descendants if '__tab__' in d.__dict__] (...) def ConcreteTab(TabView): __tab__ = True
Now I started reading Marty Alchin's "Pro Django" book. In there, he proposes the usage of metaclasses to track subclasses:
class SubclassTracker(type): def __init__(cls, name, bases, attrs): try: if TrackedClass not in bases: return except NameError: return TrackedClass._registry.append(cls) class TrackedClass(object): __metaclass__ = SubclassTracker _registry = 
What are the advantages of the metaclass approach? Is it better than using