I am new to python. I think non-class objects do not have bases attribute whereas class objects do have it. But I am not sure. How does python\cpython checks if an object is non-class or class and passes the correct arguments to the object's descriptor attribute accordingly during the attribute access?
I was learning how
__getattribute__ and descriptor cooperate together to make bounded methods. I was wondering how class object & non-class object invokes the descriptor's
__get__ differently. I thought those 2 types of objects shared the same
__getattribute__ CPython function and that same function would have to know if the invoking object was a class or non-class. But I was wrong. This article explains it well:
So class object use
type.__getattribute__ whereas non-class object use
object.__getattribute__. They are different CPython functions. And super has a third
__getattribute__ CPython implementation as well.
However, about the super one, the above article states that: quote and quote
The object returned by super() also has a custom _getattribute_() method for invoking descriptors. The call super(B, obj).m() searches obj._class_._mro_ for the base class A immediately following B and then returns A._dict_['m']._get_(obj, A). If not a descriptor, m is returned unchanged. If not in the dictionary, m reverts to a search using object._getattribute_().
The statement above didn't seem to match my experiment with Python3.1. What I saw is, which is reasonable to me:
super(B, obj).m ---> A.__dict__['m'].__get__(obj, type(obj))
objclass = type(obj)
super(B, objclass).m ---> A.__dict__['m'].__get__(None, objclass)
A was never passed to
It is reasonable to me because I believe objclass (rather than A) 's mro chain is the one needed within m especially for the second case.
Was I doing something wrong? Or I didn't understand it correctly?