I'm trying to call a method of the superclass by using a variable method name. Normally, I would see the following two lines of code as equivalent:
someObj.method() someObj.__getattribute__( 'method' )()
And in fact I believe, this is also what actually happens when I use the first line. However, in the following example, the second line produces a weird problem.
super to construct a super object and call the method of the super class. Doing it directly works as expected, but using
__getattribute__ to get the method first, results in a indefinite loop which calls the method of the subclass again and again.
See the following code:
class A: def example ( self ): print( 'example in A' ) class B ( A ): def example ( self ): print( super( B, self ).example ) print( super( B, self ).__getattribute__( 'example' ) ) super( B, self ).example() #super( B, self ).__getattribute__( 'example' )() print( 'example in B' ) x = B() x.example()
If you run that code, everything works as expected, and you should get an output similar to this:
<bound method B.example of <__main__.B object at 0x01CF6C90>> <bound method B.example of <__main__.B object at 0x01CF6C90>> example in A example in B
So both methods, the one with the direct access and the one via
__getattribute__, look identical. If you however replace the method call by the commented-out line, you'll end up with a recursion runtime error.
Why does this happen, and more importantly, how can I actually access the method in the same way as python internally does, when I use the working line?
When I thought I already tried everything, I found this to be working:
super.__getattribute__( super( B, self ), 'example' )()
It actually equals to
super( B, self ).example.