Can someone give me an explanation why isinstance() returns True in the following case? I expected False, when writing the code.

print isinstance(True, (float, int))

My guess would be that its Python's internal subclassing, as zero and one - whether float or int - both evaluate when used as boolean, but don't know the exact reason.

What would be the most pythonic way to solve such a situation? I could use type() but in most cases this is considered less pythonic.


For historic reasons, bool is a subclass of int, so True is an instance of int. (Originally, Python had no bool type, and things that returned truth values returned 1 or 0. When they added bool, True and False had to be drop-in replacements for 1 and 0 as much as possible for backward compatibility, hence the subclassing.)

The correct way to "solve" this depends on exactly what you consider the problem to be.

  • If you want True to stop being an int, well, too bad. That's not going to happen.
  • If you want to detect booleans and handle them differently from other ints, you can do that:

    if isinstance(whatever, bool):
        # special handling
    elif isinstance(whatever, (float, int)):
        # other handling
  • If you want to detect objects whose specific class is exactly float or int, rejecting subclasses, you can do that:

    if type(whatever) in (float, int):
        # Do stuff.
  • If you want to detect all floats and ints, you're already doing that.
  • 1
    It is the second case. That means one has to take care of the order of the comparisons of these built-in types - understandable given the inheritance but quite unusual for python.
    – jake77
    Jun 17 '16 at 19:08
  • 1
    Deeper Explanation: True and False are singleton instances of the class int... print(True.real) is 1, and print(False.real) is 0. print(True == 1) is true, and print(False == 0) is true. So if you're expecting a parameter to be an int, and the user passes a bool instead, then yeah an isinstance(param, int) check will "annoyingly" be true for the value they passed, since a bool is an int... but it's kinda harmless because it will be as if they passed param = 1 or param = 0. So you can still do numeric operations on it, since the boolean internally IS an int. Oct 17 '19 at 21:14
  • 1
    Deeper Explanation Part 2: You can even do print(True + 3) which is 4 (1 + 3), and print(False + 3) which is 3 (0 + 3). Hehe. But as noted in the answer above, if you want to be 100% sure they passed an int and not a bool, you simply check if type(param) is int, since that won't accept any subclasses. (Just be careful if your API users might be passing their own custom objects derived from int as a baseclass, for example if they make a number class which is an int with some extra methods... since their subclass would also be rejected by such a strict check...) Oct 17 '19 at 21:16

Yes, this is right, it's a subclass of int, you can verify it using the interpreter:

>>> int.__subclasses__()
[<type 'bool'>]

If you only want to check for int:

if type(some_var) is int:
    return True

    return False

You can see the method resolution order, and find all superclasses from there:

>>> bool.__mro__
(<class 'bool'>, <class 'int'>, <class 'object'>)

See some behaviors (Not so wierd) of python on bool and int

>>> 1 == True  
>>> 0 == False 
>>> True*5 == 0
>>> True*5 == 5

How interchangeable can they be used...!

From boolobject.h (win py 2.7) I can see a typedef of int for bool obj. So it is pretty evident that bool has inherited few facial features of int.

#ifdef __cplusplus
extern "C" {

typedef PyIntObject PyBoolObject;

Here is a instance checker that is safe with bool's and takes single types or tuples of types just like isinstance()

def isInst(o, of) -> bool:
    if o is None: return False
    cls = o.__class__
    if isinstance(of, type):
        return cls == of

        if cls == bool:
            return bool in of
            for i in range(len(of)):
                if cls == of[i]: return True

    return False

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