Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

When inheriting from two objects like these

class Foo(object):
  def __init__(self,a):
    self.a=a

class Bar(object):
  def __init__(self,b):
    self.b=b

I would normally do something like this

class FooBar(Foo,Bar):
  def __init__(self,a,b):
    Foo.__init__(self,a)
    Bar.__init__(self,b)

How does super know if I want to call both? and if so how will it know which argument to pass where. Or is it simply not possible to user super here?

Even if Foo and Bar take the same arguments can super deal with this?

Or should I not be trying to do this kind of this in the first place?

share|improve this question

2 Answers 2

up vote 4 down vote accepted

Using super(), __init__() and multiple inheritance is a bit tricky.

In the normal flow of things, every method calls super(), with the classes that inherit only from object doing a little extra work to make sure that the method actually exists: it'll look a bit like this:

>>> class Foo(object):
...     def frob(self, arg):
...         print "Foo.frob"
...         if hasattr(super(Foo, self), 'frob'):
...             super(Foo, self).frob(arg)
... 
>>> class Bar(object):
...     def frob(self, arg):
...         print "Bar.frob"
...         if hasattr(super(Bar, self), 'frob'):
...             super(Bar, self).frob(arg)
... 
>>> class Baz(Foo, Bar):
...     def frob(self, arg):
...         print "Baz.frob"
...         super(Baz, self).frob(arg)
... 
>>> b = Baz()
>>> b.frob(1)
Baz.frob
Foo.frob
Bar.frob
>>> 

But when you try to do something similar on a method that object actually has, things get a little dicey; object.__init__ doesn't take arguments, so about the only safe way to use it is to call super().__init__() with no arguments, since that call might be handled by object.__init__. But then it might not be handled by object.__init__, and instead handled by a class elsewhere in the inheritance graph. Thus any class which defines __init__ in a multiple inheritance class heirarchy must be prepared to be called with no arguments.

one way of dealing with this is to never use arguments in __init__(). Do minimal initialization, and rely on setting properties or using other means to configure the new object before use. That's pretty unpleasant, though.

Another way is to use only keyword arguments, something like def __init__(self, **keywords): and always remove the arguments that apply to the given constructor. This is a hope based strategy, you hope that all of the keywords get consumed before control reaches object.__init__.

A third way is to define a superclass to all of the multiple-inheritable bases which itself defines __init__ in some useful way and does not call super().__init__ (object.__init__ is a no-op anyway). This means you can be sure that this method is always called last, and you can do whetever you like with your arguments.

share|improve this answer
    

Or should I not be trying to do this kind of this in the first place?

Correct. You should be calling only one parent line of __init__s, not a tree. super will use the MRO to do a depth-first search of the parent classes looking for the proper __init__ to call. It will not and should not call all possible __init__s.

share|improve this answer
    
But what if I want to :) Say I have a class A, and I want new threaded class B that behaves like A. Do I not need to call __init__ for both threading.Thread and A? –  GP89 Oct 26 '11 at 13:47
1  
Use composition instead of inheritance when it makes your life easier. –  Karl Knechtel Oct 26 '11 at 14:03
    
How could I use composition? –  GP89 Oct 26 '11 at 15:11
    
@GP89: That may be ground for another question (eg, How can I refactor MI to use composition..) –  Daenyth Oct 26 '11 at 15:38

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.