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I came upon this reading the python documentation on the super keyword:

If the second argument is omitted, the super object returned is unbound. If the second argument is an object, isinstance(obj, type) must be true. If the second argument is a type, issubclass(type2, type) must be true (this is useful for classmethods).

Can someone please give me an example of a distinction between passing a Type as a second argument versus passing an Object?

Is the documentation talking about an instance of an object?

Thank you.

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This should give you some perspective: cafepy.com/article/python_types_and_objects/… –  karthikr Mar 30 '13 at 6:17
@karthikr Agreed, great article –  jamylak Mar 30 '13 at 6:20
Or have a look at this question stackoverflow.com/questions/100003/… and the great answer , whilst its about metaclasses it details types and objects to build up the description of a metaclass - really good read. –  Tim Hoffman Mar 30 '13 at 6:39
Such an awesome question. I've been trying teach my self OOP in Python (my only language), grappling with using inheritance and calling superclass methods. I read that explanation about super had the same question. –  cfwschmidt Aug 12 at 11:22

4 Answers 4

up vote 1 down vote accepted


this link may help understand metaclass, type, object

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Python's super function does different things depending on what it's arguments are. Here's a demonstration of different ways of using it:

class Base(object):
    def __init__(self, val):
        self.val = val

    def make_obj(cls, val):
        return cls(val+1)

class Derived(Base):
    def __init__(self, val):
        # In this super call, the second argument "self" is an object.
        # The result acts like an object of the Base class.
        super(Derived, self).__init__(val+2)

    def make_obj(cls, val):
        # In this super call, the second argument "cls" is a type.
        # The result acts like the Base class itself.
        return super(Derived, cls).make_obj(val)

Test output:

>>> b1 = Base(0)
>>> b1.val
>>> b2 = Base.make_obj(0)
>>> b2.val
>>> d1 = Derived(0)
>>> d1.val
>>> d2 = Derived.make_obj(0)
>>> d2.val

The 3 result is the combination of the previous modifiers: 1 (from Base.make_obj) plus 2 (from Derived.__init__).

Note that it is possible to call super with just one argument to get an "unbound" super object, it is apparently not useful for much. There's not really any reason to do this unless you want to mess around with Python internals and you really know what you're doing.

In Python 3, you can also call super with no arguments (which is equivalent to providing the current class and self as two arguments, but more magical).

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Is super a way to help with Memoization of function calls? I have an object that speeds up calls to another interpreter by checking for the functions existence and then assigning an attribute on the object with an object that directly calls the function. So I basically only lookup the function once and memoize it to a callable attribute. I have to use object.__setattr__(self, "attribute", callableObj) in order to keep it from looping/calling my redefinition of "settr". Does super do the same thing? –  Demolishun Mar 30 '13 at 22:23
@Demolishun: Um, no. You use super to get at inherited versions of overridden methods. Check out the docs –  Blckknght Mar 31 '13 at 0:18
Okay, so it is similar, but it allows for dynamic reference of the base class, but not by name. That is one use case. rhettinger.wordpress.com/2011/05/26/super-considered-super Thanks for the ref. –  Demolishun Mar 31 '13 at 22:41

Here is a simple exploration of the two functions. I found it illuminating going through this exercise. I often will create a simple program exploring the ins and outs of simple functions and save them for reference:

    # Testing isinstance and issubclass

    class C1(object):
        def __init__(self):

    class B1(object):
        def __init__(self):

    class B2(B1):
        def __init__(self):

    class CB1(C1,B1):
        def __init__(self):
            # not sure about this for multiple inheritance

    c1 = C1()
    b1 = B1()
    cb1 = CB1()

    def checkInstanceType(c, t):
        if isinstance(c, t):
            print c, "is of type", t
            print c, "is NOT of type", t

    def checkSubclassType(c, t):
        if issubclass(c, t):
            print c, "is a subclass of type", t
            print c, "is NOT a subclass of type", t

    print "comparing isinstance and issubclass"
    print ""

    # checking isinstance
    print "checking isinstance"

    # can check instance against type
    checkInstanceType(c1, C1)
    checkInstanceType(c1, B1)
    checkInstanceType(c1, object)

    # can check type against type
    checkInstanceType(C1, object)
    checkInstanceType(B1, object)

    # cannot check instance against instance
        checkInstanceType(c1, b1)
    except Exception, e:
        print "failed to check instance against instance", e

    print ""

    # checking issubclass
    print "checking issubclass"

    # cannot check instance against type
        checkSubclassType(c1, C1)
    except Exception, e:
        print "failed to check instance against type", e

    # can check type against type
    checkSubclassType(C1, C1)
    checkSubclassType(B1, C1)
    checkSubclassType(CB1, C1)
    checkSubclassType(CB1, B1)

    # cannot check type against instance
        checkSubclassType(C1, c1)
    except Exception, e:
        print "failed to check type against instance", e

Edit: Also consider the following as isinstance can break API implementations. An example would be an object that acts like a dictionary, but is not derived from dict. isinstance might check that an object is a dictionary, even though the object supports dictionary style access: isinstance considered harmful


Can someone please give me an example of a distinction between passing a Type as a second argument versus passing an Object?

After testing the above code it tells me the second parameter must be a type. So in the following case:

    checkInstanceType(c1, b1)

The call will fail. It could be written:

    checkInstanceType(c1, type(b1))

So if you want to check the type of one instance against another instance you have to use the type() builtin call.

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Object can be any Python class instance which may or may not be user defined. But, when you are talking about a type, it refers to the default objects/collections like a list/tuple/dict/int/str etc.

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I beg to differ w.r.t., it is not limited to builtins. Everyone can and does define their own types. –  delnan Mar 30 '13 at 9:19
@smitkpatel, I think you may be thinking about "builtin" types. –  Demolishun Mar 30 '13 at 20:52
builtin - default potato - potato –  smitkpatel Apr 1 '13 at 9:47

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