The following use of super() raises a TypeError: why?

>>> from  HTMLParser import HTMLParser
>>> class TextParser(HTMLParser):
...     def __init__(self):
...         super(TextParser, self).__init__()
...         self.all_data = []
>>> TextParser()
TypeError: must be type, not classobj

There is a similar question on StackOverflow: Python super() raises TypeError, where the error is explained by the fact that the user class is not a new-style class. However, the class above is a new-style class, as it inherits from object:

>>> isinstance(HTMLParser(), object)

What am I missing? How can I use super(), here?

Using HTMLParser.__init__(self) instead of super(TextParser, self).__init__() would work, but I would like to understand the TypeError.

PS: Joachim pointed out that being a new-style-class instance is not equivalent to being an object. I read the opposite many times, hence my confusion (example of new-style class instance test based on object instance test: https://stackoverflow.com/revisions/2655651/3).

  • 3
    Thanks for your question and answer. I wonder why 2.7's super.__doc__ doesn't mention anything about old vs new style! – Kelvin Sep 6 '12 at 18:18
  • Thanks. :) Docstrings typically contain less information than the full, HTML version of the documentation. The fact that super() works only for new-style classes (and objects) is mentioned in the HTML doc (docs.python.org/library/functions.html#super). – Eric O Lebigot Sep 7 '12 at 2:04
  • 1
    possible duplicate of python super() raises TypeError ! Why? – user Sep 6 '13 at 6:14
  • This is not a duplicate (see the updated question, and the accepted answer). – Eric O Lebigot Oct 17 '14 at 2:11

Alright, it's the usual "super() cannot be used with an old-style class".

However, the important point is that the correct test for "is this a new-style instance (i.e. object)?" is

>>> class OldStyle: pass
>>> instance = OldStyle()
>>> issubclass(instance.__class__, object)

and not (as in the question):

>>> isinstance(instance, object)

For classes, the correct "is this a new-style class" test is:

>>> issubclass(OldStyle, object)  # OldStyle is not a new-style class
>>> issubclass(int, object)  # int is a new-style class

The crucial point is that with old-style classes, the class of an instance and its type are distinct. Here, OldStyle().__class__ is OldStyle, which does not inherit from object, while type(OldStyle()) is the instance type, which does inherit from object. Basically, an old-style class just creates objects of type instance (whereas a new-style class creates objects whose type is the class itself). This is probably why the instance OldStyle() is an object: its type() inherits from object (the fact that its class does not inherit from object does not count: old-style classes merely construct new objects of type instance). Partial reference: https://stackoverflow.com/a/9699961/42973.

PS: The difference between a new-style class and an old-style one can also be seen with:

>>> type(OldStyle)  # OldStyle creates objects but is not itself a type
>>> isinstance(OldStyle, type)
>>> type(int)  # A new-style class is a type

(old-style classes are not types, so they cannot be the type of their instances).

  • 11
    And this is one of the reasons we now have Python 3. – Steven Rumbalski Mar 15 '12 at 15:09
  • 2
    BTW: (Oldstyle().__class__ is Oldstyle) is True – Tino Oct 28 '12 at 16:13
  • 2
    @Tino: indeed, but the point of OldStyle().__class__ is to show how to test whether an object (OldStyle()) comes from an old-style class. With only new-style classes in mind, one might be tempted to do the test with isinstance(OldStyle(), object) instead. – Eric O Lebigot Mar 3 '13 at 11:49
  • 26
    It is preposterous how much of the python standard library still in 2.7.x doesn't inherit from object, thus screwing you by proxy. – Nick Bastin Oct 12 '13 at 4:23
  • 2
    @NickBastin - this is not a coincidence. It's all in order to push everybody into Python 3. Where "everything is fine already." But - caveat emptor - it's only bait and switch. – Tomasz Gandor Oct 20 '14 at 12:57

super() can be used only in the new-style classes, which means the root class needs to inherit from the 'object' class.

For example, the top class need to be like this:

class SomeClass(object):
    def __init__(self):


class SomeClass():
    def __init__(self):

So, the solution is that call the parent's init method directly, like this way:

class TextParser(HTMLParser):
    def __init__(self):
        self.all_data = []
  • 8
    For me, I had to do this: HTMLParser.__init__(self) I am curious as to if your last example worked? – chaimp Nov 27 '12 at 1:31
  • 1
    @EOL What do mean? jeffp just pointed out that the code given in this answer is wrong due to lack of self parameter in HTMLParser.__init__() call. – Piotr Dobrogost May 24 '13 at 15:00
  • 1
    @PiotrDobrogost: Sorry, my remark was about LittleQ's answer, not about jeffp's (good) point. – Eric O Lebigot May 25 '13 at 9:14
  • 1
    @jeffp sorry, it's a typo, I just type it out on SO but haven't test it, my fault. thanks for correcting – Colin Su Sep 25 '13 at 8:18
  • 1
    Upvote for a fix that works with existing code, such as logging.Formatter in python2.6 – David Reynolds Apr 25 '14 at 10:23

You can also use class TextParser(HTMLParser, object):. This makes TextParser a new-style class, and super() can be used.

  • An upvote from me, as adding the inheritance from object is a good idea. (That said, this answer does not address the issue of understanding the TypeError of the question.) – Eric O Lebigot May 12 '13 at 1:10

The problem is that super needs an object as an ancestor:

>>> class oldstyle:
...     def __init__(self): self.os = True

>>> class myclass(oldstyle):
...     def __init__(self): super(myclass, self).__init__()

>>> myclass()
TypeError: must be type, not classobj

On closer examination one finds:

>>> type(myclass)


>>> class newstyle(object): pass

>>> type(newstyle)

So the solution to your problem would be to inherit from object as well as from HTMLParser. But make sure object comes last in the classes MRO:

>>> class myclass(oldstyle, object):
...     def __init__(self): super(myclass, self).__init__()

>>> myclass().os
  • Valid points, but they are already in previous answers. Also, instead of checking type(myclass), what matters is whether myclass inherit from object (i.e. whether isinstance(myclass, object) is true—it is false). – Eric O Lebigot Oct 18 '15 at 15:08

If you look at the inheritance tree (in version 2.6), HTMLParser inherits from SGMLParser which inherits from ParserBase which doesn't inherits from object. I.e. HTMLParser is an old-style class.

About your checking with isinstance, I did a quick test in ipython:

In [1]: class A:
   ...:     pass

In [2]: isinstance(A, object)
Out[2]: True

Even if a class is old-style class, it's still an instance of object.

  • 2
    I believe that the correct test should be isinstance(A(), object), not isinstance(A, object), no? With the latter, you are testing whether the class A is an object, whereas the question is whether instances of A are an object, right? – Eric O Lebigot Mar 14 '12 at 9:40
  • 5
    PS: the best test seems to be issubclass(HTMLParser, object), which returns False. – Eric O Lebigot Mar 14 '12 at 9:51

the correct way to do will be as following in the old-style classes which doesn't inherit from 'object'

class A:
    def foo(self):
        return "Hi there"

class B(A):
    def foo(self, name):
        return A.foo(self) + name
  • 1
    In the question, this method is already mentioned: the problem is to understand why an error message was produced, not to make it go away (in particular in this way). – Eric O Lebigot Feb 25 '14 at 2:23
  • Besides, this solution will not work in the case that we want a call an instance of the class A that stores an state. – tashuhka Jun 9 '15 at 15:37

FWIW and though I'm no Python guru I got by with this

>>> class TextParser(HTMLParser):
...    def handle_starttag(self, tag, attrs):
...        if tag == "b":
...            self.all_data.append("bold")
...        else:
...            self.all_data.append("other")
>>> p = TextParser()
>>> p.all_data = []
>>> p.feed(text)
>>> print p.all_data

Just got me the parse results back as needed.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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