Let's say that I have a class Suit and four subclasses of suit: Heart, Spade, Diamond, Club.

class Suit:
class Heart(Suit):
class Spade(Suit):
class Diamond(Suit):
class Club(Suit):

I have a method which receives a suit as a parameter, which is a class object, not an instance. More precisely, it may receive only one of the four values: Heart, Spade, Diamond, Club. How can I make an assertion which ensures such a thing? Something like:

def my_method(suit):
   assert(suit subclass of Suit)

I'm using Python 3.

  • 1
    @Leopd: Is it really not clear? I have stated exactly what are the possible four values which my_method can get as parameters: "it may receive only one of the four values: Heart, Spade, Diamond, Club". Those values are class objects, not class instances. It seems pretty clear to me, though I suppose you're right about the vagueness because the answers do cover both possibilities. You're more than welcome to edit the question if you've got a clearer wordage for it. Thanks for the comment. – snakile Oct 5 '12 at 7:30
  • @snakile yes it is unclear. Due to relying on the correctness of anyone's self-expression is thin ice in this topic. Many newcomers can't get the everything-is-an-object-in-python thing, may express one thing but think another. That's a reality and, purity aside, it's quite rational to expect this behavior from newcomers. Leaving your reputation points the only direct hint whether your expression here is correct, or should I say, "in terms of correctness". I understand the wish to take your knowledge into account and it's still irrational not to take into account the ever-renewing newcomers. – n611x007 Aug 28 '14 at 11:22
  • 1
    @snakile that, and the thing that it may be reasonable to use a naming convention that suffixes such parameter names with _class, making them like suit_class. I proposed such a naming convention in a relevant question. – n611x007 Aug 28 '14 at 12:04
  • Suggest adding to the example code four lines my_method(Heart) my_method(Spade) ... – Bob Stein Jan 19 '16 at 14:58

You can use issubclass() like this assert issubclass(suit, Suit).

  • 51
    "But why would you want to do such a thing?" -- because you have a container class that you need to ensure is homogeneous, and the only way to do that is to check the type upon insert? – Adam Parkin Jan 12 '12 at 16:39
  • 133
    If there's one thing that's a constant on Stack Overflow, it is that any questions with an answer that implies isinstance or issubclass will also be accompanied with lectures about duck typing! – Ben Roberts Feb 12 '13 at 23:21
  • 25
    I came across this question trying to figure out how to detect if my numpy dtype is a float or an int for an image processing application. If it's a float, the convention is to normalize between 0.0 and 1.0, if it's int then the convention is 0 to 255. I could go through all sorts of contortions to try and get the image to quack, but it's much more straight forward to just ask "are you a duck" and scale my operations accordingly. – Omegaman Mar 18 '14 at 17:51
  • 26
    Subclass testing makes unit testing of many things, particularly Django's models, much easier. "Python is not Java." Why must python programmers have such chips on their shoulders? – Michael Bacon Aug 17 '15 at 18:32
  • 19
    Not upvoting, purely because of the unimaginative and rather arrogant remark at the end. An explanation about why one might not need to do this would be friendlier and more helpful. – Michael Scheper May 9 '16 at 21:08

issubclass(class, classinfo)


Return true if class is a subclass (direct, indirect or virtual) of classinfo.


You can use isinstance if you have an instance, or issubclass if you have a class. Normally thought its a bad idea. Normally in Python you work out if an object is capable of something by attempting to do that thing to it.

  • What if you find out you can't do that thing with it? Do you catch an exception and try something else? – wrongusername Apr 20 '16 at 20:33
  • 2
    @wrongusername: That is the 'Pythonic' way, yes. I think this custom has merit, so I follow it as long as it keeps my code clear. There's a good discussion about this here: stackoverflow.com/questions/7604636/… – Michael Scheper May 9 '16 at 21:13
  • 6
    @Michael Scheper: I have to say, if that's the pythonic way, then I really hate the pythonic way. IMO, exceptions should NEVER be used for control flow. If you think an error might occur, protect against it... don't treat it like a GOTO. Interesting link you posted, though – aboveyou00 Apr 7 '17 at 4:51
  • @aboveyou00: Sounds like the kind of cases you're talking about violate 'as long as it keeps my code clear'. I'm not a fan of all Pythonic customs, though, since a lot of people abuse the EAFP principle and end up creating hard-to-find bugs. – Michael Scheper Apr 12 '17 at 19:51

The issubclass(sub, sup) boolean function returns true if the given subclass sub is indeed a subclass of the superclass sup.

  • 7
    The answer without a misguided lecture +1. – Gringo Suave Jun 1 '17 at 4:28

You can use the builtin issubclass. But type checking is usually seen as unneccessary because you can use duck-typing.


Using issubclass seemed like a clean way to write loglevels. It kinda feels odd using it... but it seems cleaner than other options.

class Error(object): pass
class Warn(Error): pass
class Info(Warn): pass
class Debug(Info): pass

class Logger():
    LEVEL = Info

    def log(text,level):
        if issubclass(Logger.LEVEL,level):
    def debug(text):
    def info(text):
    def warn(text):
    def error(text):

issubclass minimal runnable example

Here is a more complete example with some assertions:

#!/usr/bin/env python3

class Base:

class Derived(Base):

base = Base()
derived = Derived()

# Basic usage.
assert issubclass(Derived, Base)
assert not issubclass(Base, Derived)

# True for same object.
assert issubclass(Base, Base)

# Cannot use object of class.
    issubclass(derived, Base)
except TypeError:
    assert False

# Do this instead.
assert isinstance(derived, Base)

GitHub upstream.

Tested in Python 3.5.2.


According to the Python doc, we can also use class.__mro__ attribute or class.mro() method:

class Suit:
class Heart(Suit):
class Spade(Suit):
class Diamond(Suit):
class Club(Suit):

>>> Heart.mro()
[<class '__main__.Heart'>, <class '__main__.Suit'>, <class 'object'>]
>>> Heart.__mro__
(<class '__main__.Heart'>, <class '__main__.Suit'>, <class 'object'>)

Suit in Heart.mro()  # True
object in Heart.__mro__  # True
Spade in Heart.mro()  # False

class a:
class b(a):
class c(b):

print(issubclass(c,b))#it returns true
  • 1
    Code-only answers are not appreciated on SO, you should always add some explanatory text to the code. However, this answer is superfluous: it adds no information that hasn't already been mentioned in the previous answers. – PM 2Ring Sep 13 '16 at 13:26

protected by Bhargav Rao Sep 13 '16 at 20:16

Thank you for your interest in this question. Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).

Would you like to answer one of these unanswered questions instead?

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