Python decorator as a staticmethod

Solution 1:

This is not how staticmethod is supposed to be used. staticmethod objects are descriptors that return the wrapped object, so they only work when accessed as classname.staticmethodname. Example

class A(object):
    @staticmethod
    def f():
        pass
print A.f
print A.__dict__["f"]

prints

<function f at 0x8af45dc>
<staticmethod object at 0x8aa6a94>

Inside the scope of A, you would always get the latter object, which is not callable.

I'd strongly recommend to move the decorator to the module scope -- it does not seem to belong inside the class. If you want to keep it inside the class, don't make it a staticmethod, but rather simply del it at the end of the class body -- it's not meant to be used from outside the class in this case.

Solution 2:

Python classes are created at runtime, after evaluating the contents of the class declaration. The class is evaluated by assigned all declared variables and functions to a special dictionary and using that dictionary to call type.__new__ (see customizing class creation).

So,

class A(B):
    c = 1

is equivalent to:

A = type.__new__("A", (B,), {"c": 1})

When you annotate a method with @staticmethod, there is some special magic that happens AFTER the class is created with type.__new__. Inside class declaration scope, the @staticmethod function is just an instance of a staticmethod object, which you can't call. The decorator probably should just be declared above the class definition in the same module OR in a separate "decorate" module (depends on how many decorators you have). In general decorators should be declared outside of a class. One notable exception is the property class (see properties). In your case having the decorator inside a class declaration might make sense if you had something like a color class:

class Color(object):

    def ___init__(self, color):
        self.color = color

     def ensure_same_color(f):
         ...

black = Color("black")

class TFord(object):
    def __init__(self, color):
        self.color = color

    @black.ensure_same_color
    def get():
        return 'Here is your shiny new T-Ford'

Solution 3:

Solution does exist!

Problem is that Static method that is trying to be used as decorator is in fact staticmethod object and is not callable.

Solution: staticmethod object has method __get__ which takes any argument and returns real method: python documentation Python 3.5 and up:

class StaticMethod(object):
    "Emulate PyStaticMethod_Type() in Objects/funcobject.c"

    def __init__(self, f):
        self.f = f

    def __get__(self, obj, objtype=None):
        return self.f

Min solution I came with is:

class A():
    def __init__(self):
        self.n =  2

    @staticmethod
    def _returnBaseAndResult(func):
        from functools import wraps
        @wraps(func)
        def wrapper(*args, **kwargs):
            self = args[0]
            response = func(*args, **kwargs)
            return self.n, response
        return wrapper

    @_returnBaseAndResult.__get__('this can be anything')
    def square(self):
        return self.n**2

if __name__ == '__main__':
    a = A()
    print(a.square())

Will print (2, 4)