How do I find out the name of the class used to create an instance of an object in Python?

I'm not sure if I should use the inspect module or parse the __class__ attribute.

  • What exactly are you 'parsing' from the class variable?
    – sykora
    Commented Feb 4, 2009 at 11:49
  • 3
    the top-level name of the class that the instance belongs to (without module name, etc...)
    – Dan
    Commented Feb 4, 2009 at 11:50

12 Answers 12


Have you tried the __name__ attribute of the class? ie type(x).__name__ will give you the name of the class, which I think is what you want.

>>> import itertools
>>> x = itertools.count(0)
>>> type(x).__name__

If you're still using Python 2, note that the above method works with new-style classes only (in Python 3+ all classes are "new-style" classes). Your code might use some old-style classes. The following works for both:

  • 50
    Amazingly simple. Wonder why dir(x.__class__) does not list it?
    – cfi
    Commented Jan 21, 2013 at 10:40
  • 54
    Why use __class__ over the type method? Like so: type(x).__name__. Isn't calling double underscore members directly discouraged? I can't see a way around using __name__, though.
    – jpmc26
    Commented Mar 7, 2013 at 20:41
  • 27
    You have to use __class__ directly to be compatible with old-style classes, since their type is just instance.
    – Quantum7
    Commented Aug 7, 2013 at 19:50
  • 28
    This is used often enough in logging, orm and framework code that there really should be a builtin typename(x) ... requiring a user to look at the "guts" to get a name isn't terribly pythonic, IMO. Commented Apr 18, 2018 at 13:19
  • 9
    @ErikAronesty, def typename(x): return type(x).__name__
    – sleblanc
    Commented Aug 12, 2018 at 22:07

Do you want the name of the class as a string?

  • 9
    Or instance.__class__ to get the class object :D Commented May 28, 2013 at 11:15
  • 9
    Is it safe to use double underscore properties? Commented Sep 5, 2014 at 11:11
  • 7
    @EduardLuca why wouldn't it be safe? Built-in properties use underscores so that they do not cause any conflict with the code you write
    – user4396006
    Commented Jul 10, 2015 at 20:48
  • 3
    Well I know that single underscores mean / suggest that the method / property should be private (although you can't really implement private methods in Python AFAIK), and I was wondering if that's not the case with (some) double underscores too. Commented Jul 13, 2015 at 9:07
  • 47
    @EduardLuca Double underscores at the start only are similar to a single underscore at the start, but even more "private" (look up "python name mangling"). Double underscores at beginning and end are different - those are reserved for python and are not private (e.g. magic methods like __init__ and __add__). Commented Aug 10, 2015 at 22:33

type() ?

>>> class A:
...     def whoami(self):
...         print(type(self).__name__)
>>> class B(A):
...     pass
>>> o = B()
>>> o.whoami()
  • 13
    I like this one. This way, it is possible in a base class to get the name of the subclass.
    – joctee
    Commented Jun 4, 2012 at 11:43
  • 17
    or self.__class__.__name__ instead of type(self).__name__ to get the same behaviour. Unless there is something the type() function does that I am not aware of?
    – andreb
    Commented Aug 20, 2012 at 21:47
  • 3
    If you're using type(item) on a list item the result will be <type 'instance'> while item.__class__.__name__ holds the class name.
    – Grochni
    Commented Aug 6, 2014 at 9:43
  • 1
    I think the issue that @Grochni mentions is only relevant for certain classes in Python 2.x, see here: stackoverflow.com/questions/6666856/…
    – Nate C-K
    Commented Feb 22, 2015 at 18:09
  • @andreb The original solution is shorter.
    – OrrinPants
    Commented Mar 8, 2023 at 15:27
class A:

a = A()

The sample code above (when input in the interactive interpreter) will produce '__main__.A' as opposed to 'A' which is produced if the __name__ attribute is invoked. By simply passing the result of A.__class__ to the str constructor the parsing is handled for you. However, you could also use the following code if you want something more explicit.


This behavior can be preferable if you have classes with the same name defined in separate modules.

The sample code provided above was tested in Python 2.7.5.


In Python 2,

type(instance).__name__ != instance.__class__.__name__
# if class A is defined like
class A():

type(instance) == instance.__class__
# if class A is defined like
class A(object):


>>> class aclass(object):
...   pass
>>> a = aclass()
>>> type(a)
<class '__main__.aclass'>
>>> a.__class__
<class '__main__.aclass'>
>>> type(a).__name__
>>> a.__class__.__name__

>>> class bclass():
...   pass
>>> b = bclass()
>>> type(b)
<type 'instance'>
>>> b.__class__
<class __main__.bclass at 0xb765047c>
>>> type(b).__name__
>>> b.__class__.__name__
  • 6
    This only holds true for old Python 2.x. In 3.x, bclass() would resolve to bclass(object). And even then, new classes appeared in Python 2.2.
    – alcalde
    Commented Sep 19, 2013 at 3:56

Alternatively you can use the classmethod decorator:

class A:
    def get_classname(cls):
        return cls.__name__

    def use_classname(self):
        return self.get_classname()


>>> A.get_classname()
>>> a = A()
>>> a.get_classname()
>>> a.use_classname()

Apart from grabbing the special __name__ attribute, you might find yourself in need of the qualified name for a given class/function. This is done by grabbing the types __qualname__.

In most cases, these will be exactly the same, but, when dealing with nested classes/methods these differ in the output you get. For example:

class Spam:
    def meth(self):
    class Bar:

>>> s = Spam()
>>> type(s).__name__ 
>>> type(s).__qualname__
>>> type(s).Bar.__name__       # type not needed here
>>> type(s).Bar.__qualname__   # type not needed here 
>>> type(s).meth.__name__
>>> type(s).meth.__qualname__

Since introspection is what you're after, this is always you might want to consider.


Good question.

Here's a simple example based on GHZ's which might help someone:

>>> class person(object):
        def init(self,name):
        def info(self)
            print "My name is {0}, I am a {1}".format(self.name,self.__class__.__name__)
>>> bob = person(name='Robert')
>>> bob.info()
My name is Robert, I am a person

You can simply use __qualname__ which stands for qualified name of a function or class


>>> class C:
...     class D:
...         def meth(self):
...             pass
>>> C.__qualname__
>>> C.D.__qualname__
>>> C.D.meth.__qualname__

documentation link qualname

  • 2
    this gives the name of a class not the class name of an instance Commented Jan 21, 2021 at 17:54
  • 1
    This was already suggested by @Dimitris in 2017
    – Rimov
    Commented Feb 16, 2023 at 22:22

To get instance classname:




both are the same


You can first use type and then str to extract class name from it.

class foo:pass;



  • That's hard to read, are those inline methods I don't know about?
    – OrrinPants
    Commented Mar 8, 2023 at 15:36
  • If I came across a line such as this, I'd definitely "annotate" the code just to know the name of whom I was going to swear a lot. Commented Aug 31, 2023 at 19:39

If you're looking to solve this for a list (or iterable collection) of objects, here's how I would solve:

from operator import attrgetter

# Will use a few data types to show a point
my_list = [1, "2", 3.0, [4], object(), type, None]

# I specifically want to create a generator
my_class_names = list(map(attrgetter("__name__"), map(type, my_list))))

# Result:
['int', 'str', 'float', 'list', 'object', 'type', 'NoneType']

# Alternatively, use a lambda
my_class_names = list(map(lambda x: type(x).__name__, my_list))

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