Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

As I've understood it there are two ways to do a Python decorator, to either use the __call__ of a class or to define and call a function as the decorator. What's the advantages/disadvantages of these methods? Is there one preferred method?

Example 1

class dec1(object):
    def __init__(self, f):
        self.f = f
    def __call__(self):
        print "Decorating", self.f.__name__

def func1():
    print "inside func1()"


# Decorating func1
# inside func1()

Example 2

def dec2(f):
    def new_f():
        print "Decorating", f.__name__
    return new_f

def func2():
    print "inside func2()"


# Decorating func2
# inside func2()
share|improve this question
One important thing: your actual wrapper functions call the original f function but do not return its returned value to the callee: this most likely would lead to an incorrect behavior. – jsbueno Apr 24 '12 at 14:50
up vote 10 down vote accepted

It is rather subjective to say whether there are "advantages" to each method.

However, a good understanding of what goes under the hood would make it natural for one to pick the best choice for each occasion.

A decorator (talking about function decorators), is simply a callable object that takes a function as its input parameter. Python has its rather interesting design that allows one to create other kinds of callable objects, besides functions - and one can put that to use to create more maintainable or shorter code on occasion.

Decorators were added back in Python 2.3 as a "syntactic shortcut" for

def a(x):

a = my_decorator(a)

Besides that, we usually call decorators some "callables" that would rather be "decorator factories" - when we use this kind:

@my_decorator(param1, param2)
def my_func(...):

the call is made to "my_decorator" with param1 and param2 - it then returns an object that will be called again, this time having "my_func" as a parameter. So, in this case, technically the "decorator" is whatever is returned by the "my_decorator", making it a "decorator factory".

Now, either decorators or "decorator factories" as described usually have to keep some internal state. In the first case, the only thing it does keep is a reference to the original function (the variable called f in your examples). A "decorator factory" may want to register extra state variables ("param1" and "param2" in the example above).

This extra state, in the case of decorators written as functions is kept in variables within the enclosing functions, and accessed as "nonlocal" variables by the actual wrapper function. If one writes a proper class, they can be kept as instance variables in the decorated function (which will be seen as a "callable object", not a "function") - and access to them is more explicit, can be more explicit and more readable.

So, for most cases it is a matter of readability whether you will prefer one approach or the other: for short, simple decorators, the functional approach is often more readable than one written as a class - while sometimes a more elaborate one - especially one "decorator factory" will take full advantage of the "flat is better than nested" advice fore Python coding.


def my_dec_factory(param1, param2):
   def real_decorator(func):
       def wraper_func(*args, **kwargs):
           #use param1
           result = func(*args, **kwargs)
           #use param2
           return result
       return wraper_func
   return real_decorator

against this "hybrid" solution:

class MyDecorator(object):
    def __init__(self, func, param1, param2):
        self.func = func
        self.param1, self.param2 = param1, param2

    def __call__(self, *args, **kwargs):
        #use self.param1
        result = self.func(*args, **kwargs)
        #use self.param2
        return result

def my_dec_factory(param1, param2):
    def decorator(func):
         return MyDecorator(func, param1, param2)
    return decorator
share|improve this answer
Sorry that it took me so long to answer, I was away. Anyway, this was a good answer, thank you :) – olofom May 3 '12 at 7:44

I mostly agree with jsbueno: there's no one right way. It depends on the situation. But I think def is probably better in most cases, because if you go with class, most of the "real" work is going to be done in __call__ anyway. Also, callables that are not functions are pretty rare (with the notable exception of instantiating a class), and people generally do not expect that. Also, local variables are usually easier for people to keep track of vs. instance variables, simply because they have more limited scope, although in this case, the instance variables are probably only used in __call__ (with __init__ simply copying them from arguments).

I have to disagree with his hybrid approach though. It's an interesting design, but I think it's probably going to confuse the crap out of you or someone else who looks at it a few months later.

Tangent: Regardless of whether you go with class or function, you should use functools.wraps, which itself is meant to be used as a decorator (we must go deeper!) like so:

import functools

def require_authorization(f):
    def decorated(user, *args, **kwargs):
        if not is_authorized(user):
            raise UserIsNotAuthorized
        return f(user, *args, **kwargs)
    return decorated

def check_email(user, etc):
    # etc.

This makes decorated look like check_email e.g. by changing it's func_name attribute.

Anyway, this is usually what I do and what I see other people around me doing, unless I want a decorator factory. In that case, I just add another level of def:

def require_authorization(action):
    def decorate(f):
        def decorated(user, *args, **kwargs):
            if not is_allowed_to(user, action):
                raise UserIsNotAuthorized(action, user)
            return f(user, *args, **kwargs)
        return decorated
    return decorate

By the way, I would also be on guard against excessive use of decorators, because they can make it really hard to follow stack traces.

One approach for managing hideous stack traces is to have a policy of not substantially changing the behavior of the decoratee. E.g.

def log_call(f):
    def decorated(*args, **kwargs):
        logging.debug('call being made: %s(*%r, **%r)',
                      f.func_name, args, kwargs)
        return f(*args, **kwargs)
    return decorated

A more extreme approach for keeping your stack traces sane is for the decorator to return the decoratee unmodified, like so:

import threading

DEPRECATED_LOCK = threading.Lock()

def deprecated(f):
    return f

def old_hack():
    # etc.

This is useful if the function is called within a framework that knows about the deprecated decorator. E.g.

class MyLamerFramework(object):
    def register_handler(self, maybe_deprecated):
        if not self.allow_deprecated and is_deprecated(f):
            raise ValueError(
                'Attempted to register deprecated function %s as a handler.'
                % f.func_name)
share|improve this answer
What I call "hybrid approach" is just making the __call__ method to act like a decorator itself - getting the to-be-decorated function as a parameter. COuld you give an example of a class decorator that would not do so? (For such, the __call__ would have to feed the object still in another object, probably of another class, tightly coupled with the first - or - hold a state to "know" if it had already being bound to a function or not. - both things I find rather more confusing than having __call__ wrap the decorated function itself. – jsbueno Jan 21 '15 at 11:05
Excellent answer. – Kevin Ghaboosi Feb 22 at 6:39

There are two different decorator implementations. One of these uses a class as a decorator and the other uses a function as a decorator. You must choose the preferred implementation for your needs.

For example, if your decorator does a lot of work then you can use class as a decorator, like this:

import logging
import time
import pymongo
import hashlib
import random


class logger(object):

        def __new__(cls, *args, **kwargs):
                if DEBUG_MODE:
                        return object.__new__(cls, *args, **kwargs)
                        return args[0]

        def __init__(self, foo):
       = foo
                logging.basicConfig(filename='exceptions.log', format='%(levelname)s %   (asctime)s: %(message)s')
                self.log = logging.getLogger(__name__)

        def __call__(self, *args, **kwargs):
                def _log():
                               t = time.time()
                               func_hash = self._make_hash(t)
                               col = self._make_db_connection()
                               log_record = {'func_name', 'start_time':t, 'func_hash':func_hash}
                               res =*args, **kwargs)
                               log_record = {'func_name', 'exc_time':round(time.time() - t,4), 'end_time':time.time(),'func_hash':func_hash}
                               return res
                        except Exception as e:
                return _log()

        def _make_db_connection(self):
                connection = pymongo.Connection()
                db = connection.logger
                collection = db.log
                return collection

        def _make_hash(self, t):
                m = hashlib.md5()
                return m.hexdigest()
share|improve this answer
Yes, but I still wonder about advantages / disadvantages for the two ways of doing it and when to use what. Ok, class decorator can be a little bit more advanced I guess? Any disadvantages? – olofom Apr 24 '12 at 12:04
OK, decorator its a function or class which takes function or class on input. And now you can think of in which cases it is convenient to use function or when you want to use class. – Denis Apr 24 '12 at 14:31
This answer is conceptually wrong: this is not a "class decorator" - a "class decorator" decorates a class, and it is not correleated with wether its implementation is a class or a function. – jsbueno Apr 24 '12 at 14:57

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.