While integrating a Django app I have not used before, I found two different ways used to define functions in classes. The author seems to use them both very intentionally. The first one is one I myself use a lot:

class Dummy(object):

    def some_function(self,*args,**kwargs):
        do something here
        self is the class instance

The other one is one I do not use, mostly because I do not understand when to use it, and what for:

class Dummy(object):

    def some_function(cls,*args,**kwargs):
        do something here
        cls refers to what?

In the Python docs the classmethod decorator is explained with this sentence:

A class method receives the class as implicit first argument, just like an instance method receives the instance.

So I guess cls refers to Dummy itself (the class, not the instance). I do not exactly understand why this exists, because I could always do this:


Is this just for the sake of clarity, or did I miss the most important part: spooky and fascinating things that couldn't be done without it?


Your guess is correct - you understand how classmethods work.

The why is that these methods can be called both on an instance OR on the class (in both cases, the class object will be passed as the first argument):

class Dummy(object):

    def some_function(cls,*args,**kwargs):
        print cls

#both of these will have exactly the same effect

On the use of these on instances: There are at least two main uses for calling a classmethod on an instance:

  1. self.some_function() will call the version of some_function on the actual type of self, rather than the class in which that call happens to appear (and won't need attention if the class is renamed); and
  2. In cases where some_function is necessary to implement some protocol, but is useful to call on the class object alone.

The difference with staticmethod: There is another way of defining methods that don't access instance data, called staticmethod. That creates a method which does not receive an implicit first argument at all; accordingly it won't be passed any information about the instance or class on which it was called.

In [6]: class Foo(object): some_static = staticmethod(lambda x: x+1)

In [7]: Foo.some_static(1)
Out[7]: 2

In [8]: Foo().some_static(1)
Out[8]: 2

In [9]: class Bar(Foo): some_static = staticmethod(lambda x: x*2)

In [10]: Bar.some_static(1)
Out[10]: 2

In [11]: Bar().some_static(1)
Out[11]: 2

The main use I've found for it is to adapt an existing function (which doesn't expect to receive a self) to be a method on a class (or object).

  • 2
    Nice one: I like the answer being split up into how - why. As far as i got it now @classmethod allows to access the function without the need for an instance. This is exactly what i was looking for, thank you.
    – marue
    May 14 '12 at 16:04
  • 1
    @marcin True duck typing does give it some other dimension. It was more about not writing things like self.foo() when it should be Bar.foo().
    – Voo
    May 14 '12 at 16:16
  • 5
    @Voo Actually, self.foo() is preferable, because self may be an instance of a subclass which implements its own foo.
    – Marcin
    May 14 '12 at 16:17
  • 1
    @Marcin I think this depends on what you want to achieve. But i get your point.
    – marue
    May 14 '12 at 16:19
  • 2
    You should use a different lambda for Bar, as 1+1 == 2 == 1*2, so it's impossible to tell from the results shown that Bar().static_method is actually called. Jan 6 '17 at 6:28

Basically, you should use a @classmethod when you realize that the definition of the method will not be changed or overriden.

An additional : teorically, class methods are faster then object methods, because don't need to be instantiated and need less memory.


If you add decorator @classmethod, That means you are going to make that method as static method of java or C++. ( static method is a general term I guess ;) ) Python also has @staticmethod. and difference between classmethod and staticmethod is whether you can access to class or static variable using argument or classname itself.

class TestMethod(object):
    cls_var = 1
    def class_method(cls):
        cls.cls_var += 1
        print cls.cls_var

    def static_method():
        TestMethod.cls_var += 1
        print TestMethod.cls_var
#call each method from class itself.

#construct instances
testMethodInst1 = TestMethod()    
testMethodInst2 = TestMethod()   

#call each method from instances

all those classes increase cls.cls_var by 1 and print it.

And every classes using same name on same scope or instances constructed with these class is going to share those methods. There's only one TestMethod.cls_var and also there's only one TestMethod.class_method() , TestMethod.static_method()

And important question. why these method would be needed.

classmethod or staticmethod is useful when you make that class as a factory or when you have to initialize your class only once. like open file once, and using feed method to read the file line by line.

  • 2
    (a) Static methods are something else; (b) classmethods are not shared by every class.
    – Marcin
    May 14 '12 at 16:03
  • @Marcin thanks for letting me know my unclear definitions and all that.
    – Ryan Kim
    May 14 '12 at 17:08

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