There are numerous questions on the usage of super()
but none of them appears to answer my question.
When calling super().__init__()
from a subclass, all method calls in the super-constructor are actually taken from the subclass. Consider the following class structure:
class A(object):
def __init__(self):
print("initializing A")
self.a()
def a(self):
print("A.a()")
class B(A):
def __init__(self):
super().__init__()
# add stuff for B
self.bnum=3 # required by B.a()
def a(self):
print("B.a(), bnum=%i"%self.bnum)
b=B()
which fails with
initializing A
Traceback (most recent call last):
File "classmagic.py", line 17, in
b=B()
File "classmagic.py", line 11, in __init__
super().__init__()
File "classmagic.py", line 5, in __init__
self.a()
File "classmagic.py", line 15, in a
print("B.a(), bnum=%i"%self.bnum)
AttributeError: 'B' object has no attribute 'bnum'
Here I call the super constructor in B()
to initialize some basic structure (some of which is executed as an own function a()
). However, if I override the a()
function as well, this implementation is used when calling A
's constructor which fails because A
knows nothing about B
and may use different internal variables.
This may or may not be intuitive, but what do I have to do when I want all methods in A
only to have access to the functions implemented there?