34

How do you explain isinstance(Hello,object) returns True whilst issubclass(Hello,object) returns False?

>>> class Hello:
    pass

and

>>> isinstance(Hello,object)
True
>>> issubclass(Hello,object)
False
>>> a = Hello()
>>> isinstance(a,object)
True
0

4 Answers 4

101

The accepted answer is correct, but seems to miss an important point. The built-in functions isinstance and issubclass ask two different questions.

isinstance(object, classinfo) asks whether an object is an instance of a class (or a tuple of classes).

issubclass(class, classinfo) asks whether one class is a subclass of another class (or other classes).

In either method, classinfo can be a “class, type, or tuple of classes, types, and such tuples.”

Since classes are themselves objects, isinstance applies just fine. We can also ask whether a class is a subclass of another class. But, we shouldn't necessarily expect the same answer from both questions.

class Foo(object):
    pass

class Bar(Foo):
    pass

issubclass(Bar, Foo)
#>True
isinstance(Bar, Foo)
#>False

Bar is a subclass of Foo, not an instance of it. Bar is an instance of type which is a subclass of object, therefore the class Bar is an instance of object.

isinstance(Bar, type)
#>True
issubclass(type, object)
#>True
isinstance(Bar, object)
#>True
3
  • isinstance(Foo, Foo) == False. So if isinstance(ob, Foo)==True you know you have a proper instantiated object ob of type Foo (or subclass of Foo), so you can operate on it safely and correctly
    – Tino
    Nov 29, 2016 at 8:04
  • You wording seems to mis-indicate that type is a subclass of object, when what I think you meant is: either Bar is a subclass of object, or that type is a metaclass for object. In either case, I think you should correct it.
    – user4396006
    Sep 4, 2018 at 8:41
  • 1
    Hi @J. C. Rocamonde, thanks for pointing that out. It is true that type is the metaclass of object, as you say and type(object) will confirm. It is also true that the class type is a subclass of object, unless issubclass(type, object) is lying. Magically, type(type) is type and Python's type system pulls itself up by these somewhat circular bootstraps. :)
    – cbare
    Sep 4, 2018 at 20:29
27

It's because you are using old-style classes so it doesn't derive from object. Try this instead:

class Hello(object):
    pass

>>> issubclass(Hello,object)
True

Old-style classes are deprecated and you shouldn't use them any more.

In Python 3.x all classes are new-style and writing (object) is no longer required.

4
  • 8
    Worth noting: this applies to Python 2. In Python 3 there's no need for deriving from object explicitly. Nov 12, 2011 at 20:30
  • And how to define new-style classes then? Thanks.
    – Tarik
    Nov 12, 2011 at 20:40
  • 1
    And also why it returns True for isintance()? If they are not derived from object...
    – Tarik
    Nov 12, 2011 at 20:42
  • 6
    Old style classes are instances (not subclasses!) of types.ClassType type. As all types, it's a subclass of object, that's why any old style class is an instance of object type.
    – yak
    Nov 12, 2011 at 22:03
19

My answer pertains to Python 3.

To expand upon cbare's answer, the code below was helpful for me.

>>> class X:
...     pass
...     
>>> class Y(X):
...     pass
...     
>>> x = X()
>>> y = Y()
>>> isinstance(x, X)  # is object x an instance of class X (or any subclass)?
True
>>> isinstance(x, Y)  # is object x an instance of class Y (or any subclass)?
False
>>> isinstance(y, X)  # is object y an instance of class X (or any subclass)?
True
>>> isinstance(y, Y)  # is object y an instance of class Y (or any subclass)?
True

>>> issubclass(X, X)  # is class X a subclass of X (including class X)?
True
>>> issubclass(X, Y)  # is class X a subclass of Y (including class Y)?
False
>>> issubclass(Y, X)  # is class Y a subclass of X (including class X)?
True
>>> issubclass(Y, Y)  # is class Y a subclass of Y (including class Y)?
True

>>> issubclass(type(x), X)  # is class of object x a subclass of X (including class X)?
True
>>> issubclass(type(x), Y)  # is class of object x a subclass of Y (including class Y)?
False
>>> issubclass(type(y), X)  # is class of object y a subclass of X (including class X)?
True
>>> issubclass(type(y), Y)  # is class of object y a subclass of Y (including class Y)?
True

>>> issubclass(x.__class__, X)  # is class of object x a subclass of X (including class X)?
True
>>> issubclass(x.__class__, Y)  # is class of object x a subclass of Y (including class Y)?
False
>>> issubclass(y.__class__, X)  # is class of object y a subclass of X (including class X)?
True
>>> issubclass(y.__class__, Y)  # is class of object y a subclass of Y (including class Y)?
True

We can see that isinstance(object, class) respects inheritance / subclasses correctly.

1
  • 2
    This is useful, but could you redo your answer to use different names? E.g. Person for the base class with an instance named john and Scientist for the subclass, with an instance named einstein. Mar 16, 2020 at 16:28
0

So basically isinstance(new_object, some_class) returns True if the object is an instantiated class of some_class. In other words, new_object is an some_class() object. issubclass checks if the object has a subclass of some_class.

Better explained with a simple example that makes perfect sense:

class some_class():
  pass

class new_object_class(some_class):
  pass

instance_object = new_object_class()

isinstance(instance_object, new_object_class) == True
issubclass(instance_object, some_class) == True

isinstance(new_object_class,some_class) == True
issubclass(new_object_class,some_class) == True

No need for false tests to explain this.

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