How does super know the next class when searching for an attribute? This questions is vague without code:

From Learning Python 5E book:

class B:
    def __init__(self): 

class C:
    def __init__(self): 

class D(B, C): pass

>>> D()
<__main__.D object at 0x0000000002E927B8>

C.__init__ were called and in my understanding super walks all the way through the MRO of class D (typically next class after class D). So the the first super call triggers B.__init__ in B and the second super call triggers C.__init__ in C. How does super in the other classes resume to the next class in the MRO of D?

I found one answer here, but this only explains how super works generally:

How does Python's super() actually work, in the general case?

What I'm interested in knowing is how super continues in the other classes according to the MRO? I can't see any connection between super objects in the different classes and super only receives two arguments __class__ and the first argument (self or cls). So how do these super objects get to know the next class in the MRO of class D. It's possible that type(self).__mro__ is the source of the information, but how super continues since iter(type(self).__mro__) isn't passed along the way to the super objects in other classes? Is this something handled by the compiler? There's has to be state information for super somewhere, but I can't see any tangible evidence of that.

  • 1
    I see you've linked to one of my previous answers on the subject. The code in that answer pretty clearly explains how super knows where to start looking. How does that answer not answer your question? – user2357112 Aug 24 '16 at 16:53
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    Also, the first super().__init__() call triggers C.__init__, not B.__init__, and the second one triggers object.__init__, not C.__init__. – user2357112 Aug 24 '16 at 16:57
  • @user2357112 I read your code and I got the point behind it, I just want to ask you a question: wouldn't __getattribute__ be more representative than __getattr__ in that context? You used __getattr__ which doesn't work for operator overloading methods (e.g, __init__) using your coded super class will always return __init__ from the super class itself. Other than that I would say your code pretty much simplified the story, so thank you. – direprobs Aug 24 '16 at 18:12
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    Yeah, it's not perfectly representative of the built-in super. It also doesn't handle the case where the second argument is a class, or where the second argument isn't provided, or the Python 3 0-argument magic, and there are a bunch of other, more esoteric special cases I also didn't handle because I was trying to keep things focused on the MRO-walking logic. The real super implementation is 391 lines long; you can see it in Objects/typeobject.c. – user2357112 Aug 24 '16 at 18:35

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