Lets say my class has many methods, and I want to apply my decorator on each one of them, later when I add new methods, I want the same decorator to be applied, but I don't want to write @mydecorator above the method declaration all the time.

If I look into __call__ is that the right way to go?

I'd like to show this way, which is a similar solution to my problem for anybody finding this question later, using a mixin as mentioned in the comments.

class WrapinMixin(object):
    def __call__(self, hey, you, *args):
        print 'entering', hey, you, repr(args)
            ret = getattr(self, hey)(you, *args)
            return ret
            ret = str(e)
            print 'leaving', hey, repr(ret)

Then you can in another

class Wrapmymethodsaround(WrapinMixin): 
    def __call__:
         return super(Wrapmymethodsaround, self).__call__(hey, you, *args)

Editor's note: this example appears to be solving a different problem than what is asked about.

  • Can you provide an example of adding a method 'later'? Jun 10, 2011 at 14:31
  • 1
    @TokenMacGuy: I assume he's talking about changing the source code alter, not about programatically adding methods.
    – user395760
    Jun 10, 2011 at 14:37
  • @delnan, yes, thats what I meant.
    – rapadura
    Jun 10, 2011 at 14:37
  • well, that's a relief, many of these techniques only work with the former, but not the latter. Jun 10, 2011 at 14:42
  • 1
    I don't get how this can work, as call is only used when the object is called as a function, eg. ob = MyClass(); ob(), which doesn't seems to be the case here. Am I missing something? Sep 11, 2011 at 17:53

5 Answers 5


Decorate the class with a function that walks through the class's attributes and decorates callables. This may be the wrong thing to do if you have class variables that may happen to be callable, and will also decorate nested classes (credits to Sven Marnach for pointing this out) but generally it's a rather clean and simple solution. Example implementation (note that this will not exclude special methods (__init__ etc.), which may or may not be desired):

def for_all_methods(decorator):
    def decorate(cls):
        for attr in cls.__dict__: # there's propably a better way to do this
            if callable(getattr(cls, attr)):
                setattr(cls, attr, decorator(getattr(cls, attr)))
        return cls
    return decorate

Use like this:

class C(object):
    def m1(self): pass
    def m2(self, x): pass
  • 6
    Note that this will also decorate nested classes. (My implementation had the same problem.) Jun 10, 2011 at 14:41
  • 12
    why not use inspect.getmembers(cls, inspect.ismethod) instead of __dict__ and callable() ? of course static method will be out of the question in this case.
    – mouad
    Jun 10, 2011 at 15:51
  • 14
    In Python 3 inspect.getmembers(cls, inspect.ismethod) won't work because inspect.ismethod returns False for unbound methods. In Python 2 inspect.ismethod returns True for unbound methods but inspect.isfunction returns False. Maybe it's best to write inspect.getmembers(cls, inspect.isroutine) instead as that works for both.
    – user634175
    Feb 8, 2013 at 12:45
  • 1
    I'm about to do something similar. Is this still a good method in 2014? Could you update your answer to use inspect rather than the __dict__ stuff?
    – wim
    Jan 2, 2014 at 17:33
  • 2
    Using cls.__dict__ would not decorate inherited methods, but the inspect approach would. Jun 10, 2015 at 18:38

While I'm not fond of using magical approaches when an explicit approach would do, you can probably use a metaclass for this.

def myDecorator(fn):
    fn.foo = 'bar'
    return fn

class myMetaClass(type):
    def __new__(cls, name, bases, local):
        for attr in local:
            value = local[attr]
            if callable(value):
                local[attr] = myDecorator(value)
        return type.__new__(cls, name, bases, local)

class myClass(object):
    __metaclass__ = myMetaClass
    def baz(self):
        print self.baz.foo

and it works as though each callable in myClass had been decorated with myDecorator

>>> quux = myClass()
>>> quux.baz()
  • Can you comment on the mixin approach?
    – rapadura
    Jun 13, 2011 at 20:30
  • Just a caveat: callable(<class>) is True. This behavior may or may not be desired, depending upon your use case. May 24, 2016 at 18:44
  • 1
    I am also looking into this approach and it's great. Here is a good reference discussing metaclasses in general: blog.ionelmc.ro/2015/02/09/understanding-python-metaclasses One good point mentioned within this reference is that this approach also takes care of subclasses where as, I believe that class decorators do not. This, to me is an important point! Jul 22, 2016 at 12:10
  • 1
    I don't think this is magical at all, rather that metaclasses have a bad PR department. They should be used whenever they are suitable, as is the case here. Good solution!
    – jhrr
    Feb 12, 2018 at 16:06
  • Notice that for python 3 you should use: class myClass(metaclass=myMetaClass):
    – NoamG
    Jun 16, 2022 at 14:54

Not to revive things from the dead, but I really liked delnan's answer, but found it sllliigghhtttlllyy lacking.

def for_all_methods(exclude, decorator):
    def decorate(cls):
        for attr in cls.__dict__:
            if callable(getattr(cls, attr)) and attr not in exclude:
                setattr(cls, attr, decorator(getattr(cls, attr)))
        return cls
    return decorate

EDIT: fix indenting

So you can specify methods//attributes//stuff you don't want decorated

  • 5
    Improvements are always welcome, someone may find it useful with time
    – rapadura
    Jan 31, 2012 at 23:45

None of the above answers worked for me, since I wanted to also decorate the inherited methods, which was not accomplished by using __dict__, and I did not want to overcomplicate things with metaclasses. Lastly, I am fine with having a solution for Python 2, since I just have an immediate need to add some profiling code for measuring time used by all functions of a class.

import inspect
def for_all_methods(decorator):
    def decorate(cls):
        for name, fn in inspect.getmembers(cls, inspect.ismethod):
            setattr(cls, name, decorator(fn))
        return cls
    return decorate

Source (slightly different solution): https://stackoverflow.com/a/3467879/1243926 There you can also see how to change it for Python 3.

As comments to other answers suggest, consider using inspect.getmembers(cls, inspect.isroutine) instead. If you have found a proper solution that works for both Python 2 and Python 3 and decorates inherited methods, and can still be done in 7 lines, please, edit.


You could generate a metaclass. This will not decorate inherited methods.

def decorating_meta(decorator):
    class DecoratingMetaclass(type):
        def __new__(self, class_name, bases, namespace):
            for key, value in list(namespace.items()):
                if callable(value):
                    namespace[key] = decorator(value)

            return type.__new__(self, class_name, bases, namespace)

    return DecoratingMetaclass

This will generate a metaclass decorating all methods with the specified function. You can use it in Python 2 or 3 by doing something like this

def doubling_decorator(f):
    def decorated(*a, **kw):
        return f(*a, **kw) * 2
    return decorated

class Foo(dict):
    __metaclass__ = decorating_meta(doubling_decorator)

    def lookup(self, key):
        return self[key]

d = Foo()
d["bar"] = 5
print(d.lookup("bar")) # prints 10

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