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Is it possible to have static class variables or methods in python? What syntax is required to do this?

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13 Answers 13

up vote 661 down vote accepted

Variables declared inside the class definition, but not inside a method are class or static variables:

>>> class MyClass:
...     i = 3
>>> MyClass.i

As @Daniel points out, this creates a class-level "i" variable, but this is distinct from any instance-level "i" variable, so you could have

>>> m = MyClass()
>>> m.i = 4
>>> MyClass.i, m.i
>>> (3, 4)

This is different from C++ and Java, but not so different from C#, where a static member can't be accessed using a reference to an instance.

See what the Python tutorial has to say on the subject of classes and class objects.

@Steve Johnson has already answered regarding static methods, also documented under "Built-in Functions" in the Python Library Reference.

class C:
    def f(arg1, arg2, ...): ...

@beidy recommends classmethods over staticmethod, as the method then receives the class type as the first argument, but I'm still a little fuzzy on the advantages of this approach over staticmethod. If you are too, then it probably doesn't matter.

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Anyone reading this should also read Daniel's answer way below; it's not strictly true that this is distinct from any instance-level "i" variable. This tripped me up until I read his clarifications below. –  Dubslow Jul 27 '12 at 3:00
I'm just learning Python, but the advantages of @classmethod over @staticmethod AFAIK is that you always get the name of the class the method was invoked on, even if it's a subclass. A static method lacks this information, so it cannot call an overridden method, for example. –  Seb Oct 2 '12 at 15:58
@Blair Is this something I want to do. As an example, if you wanted to be able to access PI = 3.14 lots of times in a class (ignoring math libraries for argument sake), would your really do MyClass.PI in all those places? What is the Pythonic approach? Doesn't this look kind of cluttered and ugly? Or am I wrong? –  theJollySin Mar 16 '13 at 4:07
@theJollySin the pythonic way for constants is to not grow a class for constants. Just have some const.py with PI = 3.14 and you can import it everywhere. from const import PI –  Giszmo Jun 21 '13 at 17:54
What an excellent example and answer! Thank you so much. :) –  dotslash May 12 '14 at 7:19

@Blair Conrad said static variables declared inside the class definition, but not inside a method are class or "static" variables:

>>> class Test(object):
...     i = 3
>>> Test.i

There are a few gotcha's here. Carrying on from the example above:

>>> t = Test()
>>> t.i     # static variable accessed via instance
>>> t.i = 5 # but if we assign to the instance ...
>>> Test.i  # we have not changed the static variable
>>> t.i     # we have overwritten Test.i on t by creating a new attribute t.i
>>> Test.i = 6 # to change the static variable we do it by assigning to the class
>>> t.i
>>> Test.i
>>> u = Test()
>>> u.i
6           # changes to t do not affect new instances of Test

# Namespaces are one honking great idea -- let's do more of those!
>>> Test.__dict__
{'i': 6, ...}
>>> t.__dict__
{'i': 5}
>>> u.__dict__

Notice how the instance variable t.i got out of sync with the "static" class variable when the attribute i was set directly on t. This is because i was re-bound within the t namespace, which is distinct from the Test namespace. If you want to change the value of a "static" variable, you must change it within the scope (or object) where it was originally defined. I put "static" in quotes because Python does not really have static variables in the sense that C++ and Java do.

Although it doesn't say anything specific about static variables or methods, the Python tutorial has some relevant information on classes and class objects.

@Steve Johnson also answered regarding static methods, also documented under "Built-in Functions" in the Python Library Reference.

class Test(object):
    def f(arg1, arg2, ...):

@beid also mentioned classmethod, which is similar to staticmethod. A classmethod's first argument is the class object. Example:

class Test(object):
    i = 3 # class (or static) variable
    def g(cls, arg):
        # here we can use 'cls' instead of the class name (Test)
        if arg > cls.i:
            cls.i = arg # would the the same as  Test.i = arg1
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that was a very nice description of pythons treatment for static variables. thanks –  intiha Mar 3 '10 at 18:32
I suggest you extend the example just a little: if, after setting Test.i=6, you then instantiate a new object (e.g., u=Test()), the new object will "inherit" the new class value (e.g., u.i==6) –  Mark Aug 20 '14 at 13:48
A way to keep the static variables in sync is to make them properties: class Test(object):, _i = 3, @property, def i(self),return type(self)._i, @i.setter, def i(self,val):, type(self)._i = val. Now you can do x = Test(), x.i = 12, assert x.i == Test.i. –  Rick Teachey Dec 19 '14 at 15:05

Yes. You can have class methods using the @classmethod decorator.

Also, if I am interpreting your question correctly, you can define static fields by declaring them just after your class name, like so (with example):

class test:
    var=5   #static field

t = test()  #example object 1
print t.var #should be 5
t2 = test() #example object 2
t.var = 2
print t.var #should be 2 now
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Fixed link, but didn't try to improve my five year old answer because the others do a fine job. –  Steve Johnson Jan 16 '13 at 20:03

You can also add class variables to classes on the fly

>>> class X:
...     pass
>>> X.bar = 0
>>> x = X()
>>> x.bar
>>> x.foo
Traceback (most recent call last):
  File "<interactive input>", line 1, in <module>
AttributeError: X instance has no attribute 'foo'
>>> X.foo = 1
>>> x.foo

And class instances can change class variables

class X:
  l = []
  def __init__(self):

print X().l
print X().l

>python test.py
[1, 1]
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Will the new class variables stick even if the class is imported into another module? –  yourfriendzak Mar 1 '13 at 12:20

Personally I would use a classmethod whenever I needed a static method. Mainly because I get the class as an argument.

class myObj(object):
   def myMethod(cls)
   myMethod = classmethod(myMethod)

or use a decorator

class myObj(object):
   def myMethod(cls)

For static properties.. Its time you look up some python definition.. variable can always change. There are two types of them mutable and immutable.. Also, there are class attributes and instance attributes.. Nothing really like static attributes in the sense of java & c++

Why use static method in pythonic sense, if it has no relation whatever to the class! If I were you, I'd either use classmethod or define the method independent from the class.

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You could also enforce a class to be static using metaclass.

class StaticClassError(Exception):

class StaticClass:
    __metaclass__ = abc.ABCMeta

    def __new__(cls, *args, **kw):
        raise StaticClassError("%s is a static class and cannot be initiated."
                                % cls)

class MyClass(StaticClass):
    a = 1
    b = 3

    def add(x, y):
        return x+y

Then whenever by accident you try to initialize MyClass you'll get an StaticClassError.

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Why is it even a class if you aren't going to instantiate it? This feels like twisting Python to turn it into Java.... –  Ned Batchelder Aug 24 '14 at 17:44
The Borg idiom is a better way to handle this. –  Rick Teachey Jan 26 at 15:03

One special thing to note about static properties & instance properties, shown in the example below:

class my_cls:
  my_prop = 0

#static property
print my_cls.my_prop  #--> 0

#assign value to static property
my_cls.my_prop = 1 
print my_cls.my_prop  #--> 1

#access static property thru' instance
my_inst = my_cls()
print my_inst.my_prop #--> 1

#instance property is different from static property 
#after being assigned a value
my_inst.my_prop = 2
print my_cls.my_prop  #--> 1
print my_inst.my_prop #--> 2

This means before assigning the value to instance property, if we try to access the property thru' instance, the static value is used. Each property declared in python class always has a static slot in memory.

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Static and Class Methods

As the other answers have noted, static and class methods are easily accomplished using the built-in decorators:

class Test(object):
    #regular instance method:
    def MyMethod(self):
    #class method:
    def MyClassMethod(klass):
    #static method:
    def MyStaticMethod():

As usual, the first argument to MyMethod() is bound to the class instance object. In contrast, the first argument to MyClassMethod() is bound to the class object itself (e.g., in this case, Test). For MyStaticMethod(), none of the arguments are bound, and having arguments at all is optional.

Static Variables

However, implementing truly static variables (well, mutable static variables, anyway, if that's not a contradiction in terms...) is not as straight forward. As milldev pointed out in his answer, the problem is that Python's class attributes are not truly "static variables". Consider:

class Test(object):
    i = 3 #This is a class attribute

x = Test()
x.i = 12 #Attempt to change the value of the class attribute using x instance
assert x.i == Test.i #ERROR
assert Test.i == 3 #Test.i was not affected
assert x.i == 12 #x.i is a different object than Test.i

This is because the line x.i = 12 has added a new instance attribute i to x instead of changing the value of the Test class i attribute.

Expected static variable behavior can be achieved by turning the class attribute into a property:

class Test(object):
    _i = 3
    def i(self)
        return type(self)._i
    def i(self,val):
        type(self)._i = val

## (except with separate methods for getting and setting i) ##

class Test(object):
    _i = 3
    def get_i(self)
        return type(self)._i
    def set_i(self,val):
        type(self)._i = val
    i = property(get_i, set_i)

Now you can do:

x = Test()
x.i = 12
assert x.i == Test.i #No error

The static variable will now remain in sync between all class instances and the Test class object itself

(NOTE: That is, unless a class instance decides to define its own version of _i! But if someone decides to do THAT, they deserve what they get, don't they???)

Note that technically speaking, i is not a variable at all; it is a property, which is a special type of descriptor. However, the property behavior is now equivalent to a (mutable) static variable.

REAL, ACTUAL Static Variables

For truly, TRULY static variable behavior (i.e. immutable), simply omit the property setter:

class Test(object):
    __i = 3
    def i(self)
        return type(self).__i

## (except with separate methods for getting i) ##

class Test(object):
    __i = 3
    def get_i(self)
        return type(self).__i
    i = property(get_i)

Now attempting to set the i attribute will return an AttributeError:

x = Test()
assert x.i == 3 #success
x.i = 12 #ERROR
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Static methods in python are called classmethods. Take a look at the following code

>>> class MyClass:
...    def myInstanceMethod(self):
...        print 'output from an instance method'
...    @classmethod
...    def myStaticMethod(cls):
...        print 'output from a static method'
>>> MyClass.myInstanceMethod()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: unbound method myInstanceMethod() must be called [...]
>>> MyClass.myStaticMethod()
output from a static method

Notice that when we call the method myInstanceMethod we get an error, this is because it requires that method be called on an instance of this class. The method myStaticMethod is set as a classmethod using the decorator @classmethod.

Just for kicks and giggles, we could call myInstanceMethod on the class by passing in an instance of the class, like so

>>> MyClass.myInstanceMethod(MyClass())
output from an instance method
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When define some member variable outside any member method, the variable can be either static or non-static depending on how the variable is expressed.

CLASSNAME.var is static variable

INSTANCENAME.var is not static variable.

self.var inside class is not static variable.

var inside the class member function is not defined.


class A:

    def printvar(self):
        print "self.var is %d" % self.var
        print "A.var is %d" % A.var

a = A()
a.var = 2

A.var = 3

The results are

self.var is 2
A.var is 1
self.var is 2
A.var is 3
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To avoid any potential confusion, I would like to contrast static variables and immutable objects.

Some primitive object types like integers, floats, strings, and touples are immutable in Python. This means that the object that is referred to by a given name cannot change if it is of one of the aforementioned object types. The name can be reassigned to a different object, but the object itself may not be changed.

Making a variable static takes this a step further by disallowing the variable name to point to any object but that to which it currently points. (Note: this is a general software concept and not specific to Python; please see others' posts for information about implementing statics in Python).

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In regards to this answer, for a constant static variable, you can use a descriptor. Here's an example:

class ConstantAttribute(object):
    '''You can initialize my value but not change it.'''
    def __init__(self, value):
        self.value = value

    def __get__(self, obj, type=None):
        return self.value

    def __set__(self, obj, val):

class Demo(object):
    x = ConstantAttribute(10)

class SubDemo(Demo):
    x = 10

demo = Demo()
subdemo = SubDemo()
# should not change
demo.x = 100
# should change
subdemo.x = 100
print "small demo", demo.x
print "small subdemo", subdemo.x
print "big demo", Demo.x
print "big subdemo", SubDemo.x

resulting in ...

small demo 10
small subdemo 100
big demo 10
big subdemo 10

You can always raise an exception if quietly ignoring setting value (pass above) is not your thing. If you're looking for a C++, Java style static class variable:

class StaticAttribute(object):
    def __init__(self, value):
        self.value = value

    def __get__(self, obj, type=None):
        return self.value

    def __set__(self, obj, val):
        self.value = val

Have a look at this answer and the official docs HOWTO for more information about descriptors.

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You could also just use @property, which is the same as using a descriptor, but it's a lot less code. –  Rick Teachey Dec 19 '14 at 15:34

The best way i found is to use another class....
you can create object and then use it on another objects.

class staticFlag:
    def __init__(self):
        self.__success = False
    def isSuccess(self):
        return self.__success
    def succeed(self):
        self.__success = True

class tryIt:
    def __init__(self, staticFlag):
        self.isSuccess = staticFlag.isSuccess
        self.succeed = staticFlag.succeed

tryArr = []
flag = staticFlag()
for i in range(10):
    if i == 5:
    print tryArr[i].isSuccess()

At the example above i made class named staticFlag,
This class should present the static var __success (Private Static Var).
tryIt class represented the regular class we need to use.
now i made an object for one flag(staticFlag) this flag will be sent as reference to all the regular objects.
all these objects are being added to the list tryArr.

This Script Results: False False False False False True True True True True

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