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import types

class C(object):

c = C()
print(isinstance(c, types.InstanceType))



What correct way to check if object is instance of user-defined class for new-style classes?


I want put additional emphasize on if checking if type of object is user-defined. According to docs:

The type of instances of user-defined classes.


Alright - not "correct" ways are OK too.


Also noticed that there is no type for set in module types

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This is an odd need, what is it for? – Ned Batchelder Jan 30 '13 at 21:04
Im trying to write a simple function to measure how much memory takes object provided as argument – Gill Bates Feb 2 '13 at 6:10
Hmm, I still don't understand. Why do you need to know if it's a user-defined class? What will you do in the yes case that's different than the no case? – Ned Batchelder Feb 2 '13 at 12:46
@NedBatchelder Probably it was __slots__ issue or something like that. – Gill Bates Nov 24 '14 at 15:00

4 Answers 4

up vote 5 down vote accepted

You can combine the x.__class__ check with the presence (or not) of either '__dict__' in dir(x) or hasattr(x, '__slots__'), as a hacky way to distinguish between both new/old-style class and user/builtin object.

Actually, this exact same suggestions appears in

def is_instance_userdefined_and_newclass(inst):
    cls = inst.__class__
    if hasattr(cls, '__class__'):
        return ('__dict__' in dir(cls) or hasattr(cls, '__slots__'))
    return False

>>> class A: pass
>>> class B(object): pass
>>> a = A()
>>> b = B()
>>> is_instance_userdefined_and_newclass(1)
>>> is_instance_userdefined_and_newclass(a)
>>> is_instance_userdefined_and_newclass(b)
share|improve this answer
Except that that will fail with objects defined in a c library. I guess the term hackish is appropriate. – Antimony Feb 2 '13 at 0:47
@Antimony do you typically create (i.e. code) a class in a C library and load it while running a python code ? By user-defined I simply took that the user created it purely using Python, without relying on the CPython API with C code. And I'm aware this method can fail, but there is nothing else that works for the given question (your answer doesn't). – mmgp Feb 2 '13 at 0:50
@mmgp Seems like this is the answer, thank you! I will wait 4 days more and accept/award your answer if no less hackish solutions will be posted. – Gill Bates Feb 3 '13 at 23:40

I'm not sure about the "correct" way, but one easy way to test it is that instances of old style classes have the type 'instance' instead of their actual class.

So type(x) is x.__class__ or type(x) is not types.InstanceType should both work.

>>> class Old:
...     pass
>>> class New(object):
...     pass
>>> x = Old()
>>> y = New()
>>> type(x) is x.__class__
>>> type(y) is y.__class__
>>> type(x) is types.InstanceType
>>> type(y) is types.InstanceType
share|improve this answer
Beat me to it. I'll add the link in your answer, if you don't mind – goncalopp Jan 30 '13 at 20:23
Feel free to add the link. – Antimony Jan 30 '13 at 20:23
Actually type(x) is x.__class__ returns True even if x = 1. So this way is not similar to isinstance(x, types.InstanceType) – Gill Bates Jan 30 '13 at 20:25
I can't edit your question yet, but here's the relevant question with more information about this – goncalopp Jan 30 '13 at 20:26
@Gill that's because int is a new style class. Based on your actual edited question, it looks like you're out of luck. – Antimony Jan 30 '13 at 23:53

This tells us True if it is.

if issubclass(checkthis, (object)) and 'a' not in vars(__builtins__):print"YES!"

The second argument is a tuple of the classes to be checked. This is easy to understand and i'm sure it works. [edit (object) to(object,) thanks Duncan!]

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Your second argument is simply object. The parentheses don't magically turn it into a tuple: commas make tuples so (object,) would be a one element tuple. However in this case passing just object works fine because the second argument of issubclass() can be either a class or a tuple of things that issubclass() takes as its second argument. (Yes, the definition is recursive so you can use nested tuples of classes.) – Duncan Feb 6 '13 at 13:33
issubclass(int, (object,)) also returns True and so doesn't do what the OP asked for. – Ethan Furman Feb 7 '13 at 20:22
@EthanFurman He said he accepted partial answers! – CrazyPython Feb 8 '13 at 1:11
Actually, the OP said 'not "correct" answers', which I understood to mean something that works even if it's not an official way. But I can see the confusion: downvote removed. – Ethan Furman Feb 8 '13 at 2:27

Probably I can go with elimination method - not checking if object is instance of user-defined class explicitly - isinstance(object, RightTypeAliasForThisCase), but checking if object not one of 'basic' types.

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