Going from a base class to a derived class is generally a sign of bad design in a program. The method you propose, using
hasattr, can be a serious problem. I'll show you:
# defined in some open source library
if hasattr(self, 'derived1'):
elif hasattr(self, 'derived2'):
Let's pretend that classes
Derived2 are defined in that same library. Now, you want to use the features of
MyObject, so you derive from it in your own code.
# defined in your own code
better_object = MyBetterObject()
better_object.what_is_derived() # prints 'base'
The whole point of polymorphism is that you can have many derived classes without the base class having to change. By making the base class aware of all of it's derived classes, you severely reduce the usefulness of such a class. You can't create a derived class without changing the base class.
Either you want to work with a derived class, or you don't care what the specific class is and all you need are the properties/methods of the base class. It is the same in all OOP languages. There are facilities for finding out what the derived class is, but usually it's a bad idea.
From a django models perspective, I usually use inheritance in such a way:
Address.objects.all() # find all addresses for whatever reason
Person.objects.all() # im only interested in people
Business.objects.all() # need to work with businesses
# need to show all addresses in a postcode, and what type of address they are?
businesses = Business.objects.filter(postcode='90210')
people = Person.objects.filter(postcode='90210')
# use the address properties on both
Deeply nested inheritance chains with django models are awkward. They are also pretty unnecessary in most cases. Instead of polluting your base class with
hasattr checks, define a helper method which is capable of querying the required derived classes if such a thing is called for. Just don't define it on the Base class.