In Python 2.5, the following code raises a TypeError:

>>> class X:
      def a(self):
        print "a"

>>> class Y(X):
      def a(self):
        print "b"

>>> c = Y()
>>> c.a()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 3, in a
TypeError: super() argument 1 must be type, not classobj

If I replace the class X with class X(object), it will work. What's the explanation for this?


4 Answers 4


The reason is that super() only operates on new-style classes, which in the 2.x series means extending from object:

>>> class X(object):
        def a(self):
            print 'a'

>>> class Y(X):
        def a(self):
            super(Y, self).a()
            print 'b'

>>> c = Y()
>>> c.a()
  • 4
    From what python version did this become default behaviour ?
    – Geo
    Commented Jan 28, 2009 at 20:51
  • 7
    2.2 was when new-style classes were introduced, 3.0 is where they became the default. Commented Jan 28, 2009 at 20:54
  • 7
    @tsunami if you want to get at the superclass, do "X.a(self)" Commented Jan 28, 2009 at 20:54
  • I think you misunderstood me . Triptych . I remember I was using a python version less than 3.0 , and I didn't specifically said that my class inherits from Object , and the call to super worked . Maybe it's default behaviour from 2.6 ? Just saying :)
    – Geo
    Commented Jan 28, 2009 at 20:55
  • Alabaster, there's really no need for that. New-style classes have a huge number of benefits, not just super. Old-style ways shouldn't be promoted. Commented Jan 28, 2009 at 20:56

In addition, don't use super() unless you have to. It's not the general-purpose "right thing" to do with new-style classes that you might suspect.

There are times when you're expecting multiple inheritance and you might possibly want it, but until you know the hairy details of the MRO, best leave it alone and stick to:

  • 2
    is that correct because in my 6 months of Python/Django I've been using super as the "general right thing to do " ?
    – philgo20
    Commented Apr 7, 2010 at 16:06
  • 1
    Well it doesn't hurt you for single inheritance in itself (except that it's a bit slower), but it doesn't get you anything on its own either. You have to design any methods that need to multiply-inherit (most notably __init__) to pass through arguments in a clean and sensible way, otherwise you'll get TypeErrors or worse debugging problems when someone tries to multiply-inherit using your class. Unless you've really designed to support MI in this way (which is quite tricky), it's probably better to avoid the implication super has that the method is MI-safe.
    – bobince
    Commented Apr 7, 2010 at 17:36
  • This seems like bad advice.
    – user3064538
    Commented May 3, 2021 at 20:58

In case none of the above answers mentioned it clearly. Your parent class needs to inherit from "object", which would essentially turn it into a new style class.

# python 3.x:
class ClassName(object): # This is a new style class

class ClassName: # This is also a new style class ( implicit inheritance from object )

# Python 2.x:
class ClassName(object): # This is a new style class

class ClassName:         # This is a old style class
  • Sorry, but in Python 3.x your second example (implicit inheritance) does not really work in the context of the issue mentioned.
    – sophros
    Commented Jan 30, 2020 at 15:23

I tried the various X.a() methods; however, they seem to require an instance of X in order to perform a(), so I did X().a(self), which seems more complete than the previous answers, at least for the applications I've encountered. It doesn't seem to be a good way of handling the problem as there is unnecessary construction and destruction, but it works fine.

My specific application was Python's cmd.Cmd module, which is evidently not a NewStyle object for some reason.

Final Result:


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