In Python 3, if you provide an
__eq__ method, a sensible
__ne__ is also typically provided which makes use of your
__eq__. However, I have (in Python 3):
class SomeOtherClassWhichInheritsFromList(list): def __init__(self): super().__init__() self.parval = 44 def __eq__(self, other): print ("IN SomeOtherClassWhichInheritsFromList EQ") if isinstance(other, SomeOtherClassWhichInheritsFromList): return super().__eq__(other) and self.parval == other.parval return NotImplemented class SomeClass(SomeOtherClassWhichInheritsFromList): def __init__(self, val): super().__init__() self.val = val def __eq__(self, other): print ("IN SomeClass EQ") if isinstance(other, SomeClass): return super().__eq__(other) and self.val == other.val return NotImplemented
And if I do:
sc = SomeClass(99) sc2 = SomeClass(104) print (sc != sc2)
I would expect to see:
IN SomeClass EQ IN SomeOtherClassWhichInheritsFromList EQ True
But I instead see:
Indicating that my
__eq__ isn't being called by the default provided
__ne__. If I change SomeOtherClassWhichInheritsFromList to inherit from object instead of list, it works as expected.
Is this because list does not seem to have an
__mro__ attribute, and thus all the
super() stuff in my
__eq__ methods fails to get triggered?
Note: I know I could add my own
__ne__ method that calls my
__eq__ (which I'll have to do since I do want to inherit from list), but what I'm looking for here is an explanation of why I have to do so.