Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm teaching myself Python and my most recent lesson was that Python is not Java, and so I've just spent a while turning all my Class methods into functions.

I now realise that I don't need to use Class methods for what I would done with static methods in Java, but now I'm not sure when I would use them. All the advice I can find about Python Class methods is along the lines of newbies like me should steer clear of them, and the standard documentation is at its most opaque when discussing them.

Does anyone have a good example of using a Class method in Python or at least can someone tell me when Class methods can be sensibly used?

share|improve this question

13 Answers 13

up vote 120 down vote accepted

Class methods are for when you need to have methods that aren't specific to any particular instance, but still involve the class in some way. The most interesting thing about them is that they can be overridden by subclasses, something that's simply not possible in Java's static methods or Python's module-level functions.

If you have a class MyClass, and a module-level function that operates on MyClass (factory, dependency injection stub, etc), make it a classmethod. Then it'll be available to subclasses.

share|improve this answer
I see. But, how about if I just want to categorize a method, that don't need MyClass, but still in some way make sense if I group in other MyClass? I can think of move it to helper module though.. –  swdev Oct 11 '13 at 2:44

Factory methods (alternative constructors) are indeed a classic example of class methods.

Basically, class methods are suitable anytime you would like to have a method which naturally fits into the namespace of the class, but is not associated with a particular instance of the class.

As an example, in the excellent unipath module:

Current directory

  • Path.cwd()
    • Return the actual current directory; e.g., Path("/tmp/my_temp_dir"). This is a class method.
  • .chdir()
    • Make self the current directory.

As the current directory is process wide, the cwd method has no particular instance with which it should be associated. However, changing the cwd to the directory of a given Path instance should indeed be an instance method.

Hmmm... as Path.cwd() does indeed return a Path instance, I guess it could be considered to be a factory method...

share|improve this answer
Yeah... factory methods were the first thing which came to mind. Also along those lines are things which would implement a Singleton pattern, like: getAndOptionallyCreateSomeSingleInstanceOfSomeResource() –  Jemenake May 9 '13 at 15:08
In python, those are static methods, not class methods. –  Jaykul Jul 9 at 22:01

Think about it this way: normal methods are useful to hide the details of dispatch: you can type myobj.foo() without worrying about whether the foo() method is implemented by the myobj object's class or one of its parent classes. Class methods are exactly analogous to this, but with the class object instead: they let you call MyClass.foo() without having to worry about whether foo() is implemented specially by MyClass because it needed its own specialized version, or whether it is letting its parent class handle the call.

Class methods are essential when you are doing set-up or computation that precedes the creation of an actual instance, because until the instance exists you obviously cannot use the instance as the dispatch point for your method calls. A good example can be viewed in the SQLAlchemy source code; take a look at the dbapi() class method at the following link:


You can see that the dbapi() method, which a database backend uses to import the vendor-specific database library it needs on-demand, is a class method because it needs to run before instances of a particular database connection start getting created — but that it cannot be a simple function or static function, because they want it to be able to call other, supporting methods that might similarly need to be written more specifically in subclasses than in their parent class. And if you dispatch to a function or static class, then you "forget" and lose the knowledge about which class is doing the initializing.

share|improve this answer
That's a static method ... –  Jaykul Jul 9 at 22:01

Alternative constructors are the classic example.

share|improve this answer

I recently wanted a very light-weight logging class that would output varying amounts of output depending on the logging level that could be programmatically set. But I didn't want to instantiate the class every time I wanted to output a debugging message or error or warning. But I also wanted to encapsulate the functioning of this logging facility and make it reusable without the declaration of any globals.

So I used class variables and the @classmethod decorator to achieve this.

With my simple Logging class, I could do the following:

Logger._level = Logger.DEBUG

Then, in my code, if I wanted to spit out a bunch of debugging information, I simply had to code

Logger.debug( "this is some annoying message I only want to see while debugging" )

Errors could be out put with

Logger.error( "Wow, something really awful happened." )

In the "production" environment, I can specify

Logger._level = Logger.ERROR

and now, only the error message will be output. The debug message will not be printed.

Here's my class:

class Logger :
    ''' Handles logging of debugging and error messages. '''

    DEBUG = 5
    INFO  = 4
    WARN  = 3
    ERROR = 2
    FATAL = 1
    _level = DEBUG

    def __init__( self ) :
        Logger._level = Logger.DEBUG

    def isLevel( cls, level ) :
        return cls._level >= level

    def debug( cls, message ) :
        if cls.isLevel( Logger.DEBUG ) :
            print "DEBUG:  " + message

    def info( cls, message ) :
        if cls.isLevel( Logger.INFO ) :
            print "INFO :  " + message

    def warn( cls, message ) :
        if cls.isLevel( Logger.WARN ) :
            print "WARN :  " + message

    def error( cls, message ) :
        if cls.isLevel( Logger.ERROR ) :
            print "ERROR:  " + message

    def fatal( cls, message ) :
        if cls.isLevel( Logger.FATAL ) :
            print "FATAL:  " + message

And some code that tests it just a bit:

def logAll() :
    Logger.debug( "This is a Debug message." )
    Logger.info ( "This is a Info  message." )
    Logger.warn ( "This is a Warn  message." )
    Logger.error( "This is a Error message." )
    Logger.fatal( "This is a Fatal message." )

if __name__ == '__main__' :

    print "Should see all DEBUG and higher"
    Logger._level = Logger.DEBUG

    print "Should see all ERROR and higher"
    Logger._level = Logger.ERROR
share|improve this answer
This does not seem to me like good example class method are good for because it could have all been done in a less complex way by just making all the class methods module-level functions and doing away with the class altogether. –  martineau Nov 17 '10 at 16:21
Oh, even more importantly, Python provides a very simple to use logging class. So worse than creating a less than optimal solution, I reinvented the wheel. Double hand slap. But it provides a working example, at least. Not sure I agree with getting rid of the class, though, on a conceptual level. Sometimes you want to encapsulate code for easy re-use, and a logging methods are a great target for re-use. –  Marvo Nov 23 '10 at 20:12
Why wouldn't you use a staticmethod? –  bdforbes Oct 19 '11 at 12:50

I think the most clear answer is AmanKow's one. It boils down to how u want to organize your code. You can write everything as module level functions which are wrapped in the namespace of the module i.e

module.py (define file 1)
def f1() : pass
def f2() : pass
def f3() : pass

usage.py (consume file 2)
import module
def f4():pass in 
def f5():pass

usage1.py (consume file 3)
import usage

The above procedural code is not well organized, as you can see after only 3 modules it gets confusing, what is each method do ? You can use long descriptive names for functions(like in java) but still your code gets unmanageable very quick.

The object oriented way is to break down your code into manageable blocks i.e Classes & objects and functions can be associated with objects instances or with classes.

With class functions you gain another level of division in your code compared with module level functions. So you can group related functions within a class to make them more specific to a task that you assigned to that class. For example you can create a file utility class :

class FileUtil ():
  def copy(source,dest):pass
  def move(source,dest):pass
  def copyDir(source,dest):pass
  def moveDir(source,dest):pass


This way is more flexible and more maintainable, you group functions together and its more obvious to what each function do. Also you prevent name conflicts, for example the function copy may exist in another imported module(for example network copy) that you use in your code, so when you use the full name FileUtil.copy() you remove the problem and both copy functions can be used side by side.

share|improve this answer

When a user logs in on my website, a User() object is instantiated from the username and password.

If I need a user object without the user being there to log in (e.g. an admin user might want to delete another users account, so i need to instantiate that user and call its delete method):

I have class methods to grab the user object.

class User():
    #lots of code
    # more code

    def get_by_username(cls, username):
        return cls.query(cls.username == username).get()

    def get_by_auth_id(cls, auth_id):
        return cls.query(cls.auth_id == auth_id).get()
share|improve this answer

I used to work with PHP and recently I was asking myself, whats going on with this classmethod? Python manual is very technical and very short in words so it wont help with understanding that feature. I was googling and googling and I found answer -> http://code.anjanesh.net/2007/12/python-classmethods.html.

If you are lazy to click it. My explanation is shorter and below. :)

in PHP (maybe not all of you know PHP, but this language is so straight forward that everybody should understand what I'm talking about) we have static variables like this:

class A

    static protected $inner_var = null;

    static public function echoInnerVar()
        echo self::$inner_var."\n";

    static public function setInnerVar($v)
        self::$inner_var = $v;


class B extends A



The output will be in both cases 20.

However in python we can add @classmethod decorator and thus it is possible to have output 10 and 20 respectively. Example:

class A(object):
    inner_var = 0

    def setInnerVar(cls, value):
        cls.inner_var = value

    def echoInnerVar(cls):
        print cls.inner_var

class B(A):



Smart, ain't?

share|improve this answer
One potential problem with your Python example is if the B.setInnerVar(20) was left out, it would print 10 twice (rather than give an error on the second echoInnerBar() call that no inner_var was defined. –  martineau Nov 17 '10 at 17:24

It allows you to write generic class methods that you can use with any compatible class.

For example:

    def get_name(cls):
        print cls.name

    class C:
         name = "tester"

    C.get_name = get_name

    #call it:

if you dont use @classmethod you can do it with self keyword but it needs an instance of Class:

    def get_name(self):
        print self.name

    class C:
         name = "tester"

    C.get_name = get_name

    #call it:
    C().get_name() #<-note the its an instance of class C
share|improve this answer

Honestly? I've never found a use for staticmethod or classmethod. I've yet to see an operation that can't be done using a global function or an instance method.

It would be different if python used private and protected members more like Java does. In Java, I need a static method to be able to access an instance's private members to do stuff. In Python, that's rarely necessary.

Usually, I see people using staticmethods and classmethods when all they really need to do is use python's module-level namespaces better.

share|improve this answer
Private: _variable_name and Protected: __variable_name –  Bradley Kreider Feb 3 '12 at 17:41
One indispensable use is unittest's setUpClass and tearDownClass. You are using unittests, right? :) –  dbw Nov 13 '12 at 2:47

Class methods provide a "semantic sugar" (don't know if this term is widely used) - or "semantic convenience".

Example: you got a set of classes representing objects. You might want to have the class method "all" or "find" to write "User.all()" ou "User.find(firstname='Guido')". That could be done using module level functions of course...

share|improve this answer
You example assumes, of course, that the class is keeping track of all its instances and can access them after they're created -- something not done automatically. –  martineau Nov 17 '10 at 17:28
"semantic sugar" sounds like a nice match to "syntactic sugar". –  XTL Feb 15 '12 at 11:46

This is an interesting topic. My take on it is that python classmethod operates like a singleton rather than a factory (which returns a produced an instance of a class). The reason it is a singleton is that there is a common object that is produced (the dictionary) but only once for the class but shared by all instances.

To illustrate this here is an example. Note that all instances have a reference to the single dictionary. This is not Factory pattern as I understand it. This is probably very unique to python.

class M():
 def m(cls, arg):
     print "arg was",  getattr(cls, "arg" , None),
     cls.arg = arg
     print "arg is" , cls.arg

 M.m(1)   # prints arg was None arg is 1
 M.m(2)   # prints arg was 1 arg is 2
 m1 = M()
 m2 = M() 
 m1.m(3)  # prints arg was 2 arg is 3  
 m2.m(4)  # prints arg was 3 arg is 4 << this breaks the factory pattern theory.
 M.m(5)   # prints arg was 4 arg is 5
share|improve this answer

I was asking myself the same question few times. And even though the guys here tried hard to explain it, IMHO the best answer (and simplest) answer I have found is the description of the Class method in the Python Documentation.

There is also reference to the Static method. And in case someone already know instance methods (which I assume), this answer might be the final piece to put it all together...

Further and deeper elaboration on this topic can be found also in the documentation: The standard type hierarchy (scroll down to Instance methods section)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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