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I am trying to write a decorator that gets a single arg, i.e

def f():
    print 3

So, naively, I tried:

class Printer:
    def __init__(self,num):
    def __call__(self,func):
         def wrapped(*args,**kargs):
              print self.__num
              return func(*args,**kargs**)
         return wrapped

This is ok, but it also works as a decorator receiving no args, i.e

def a():
   print 3

How can I prevent that?

share|improve this question
up vote 4 down vote accepted

Well, it's already effectively prevented, in the sense that calling a() doesn't work.

But to stop it as the function is defined, I suppose you'd have to change __init__ to check the type of num:

def __init__(self,num):
    if callable(num):
        raise TypeError('Printer decorator takes an argument')

I don't know if this is really worth the bother, though. It already doesn't work as-is; you're really asking to enforce the types of arguments in a duck-typed language.

share|improve this answer
This is not ideal if you wish to initialise the class with a function as the only argument. – Markus Aug 21 '09 at 16:32
Right, that's another reason this isn't a good idea, but I assumed "num" is probably not meant to be a function in this case. (Hm. Passing a function to a function to create a function to decorate a function?) – Eevee Aug 21 '09 at 16:35
There's nothing at all wrong with doing this. Python is a loosely-typed language, but that doesn't mean there's anything wrong with making manual type checks when it prevents errors, particularly when the errors manufest in unobvious ways, as it does here. – Glenn Maynard Aug 21 '09 at 18:54

Are you sure it works without arguments? If I leave them out I get this error message:

Traceback (most recent call last):
  File "/tmp/", line 28, in ?
TypeError: __call__() takes exactly 2 arguments (1 given)

You could try this alternative definition, though, if the class-based one doesn't work for you.

def Printer(num):
    def wrapper(func):
        def wrapped(*args, **kwargs):
            print num
            return func(*args, **kwargs)
        return wrapped

    return wrapper
share|improve this answer
The decorating itself works. After it, a just isn't a function anymore, but an instance of Printer. – balpha Aug 21 '09 at 16:22
Right. I was just flummoxed by the "it also works as a decorator receiving no args" statement. I guess I have a different definition of "works"! – John Kugelman Aug 21 '09 at 16:26

I can't think of an ideal answer, but if you force the Printer class to be instantiated with a keyword argument, it can never try to instantiate via the decorator itself, since that only deals with non-keyword arguments:

def __init__(self,**kwargs):


def a():
    print 3
share|improve this answer

The decorator is whatever the expression after @ evaluates to. In the first case, that's an instance of Printer, so what happens is (pretty much) equivalent to

decorator = Printer(1) # an instance of Printer, the "1" is given to __init__

def f():
    print 3
f = decorator(f) # == dec.__call__(f) , so in the end f is "wrapped"

In the second case, that's the class Printer, so you have

decorator = Printer # the class

def a():
   print 3
a = decorator(a) # == Printer(a), so a is an instance of Printer

So, even though it works (because the constructor of Printer takes one extra argument, just like __call__), it's a totally different thing.

The python way of preventing this usually is: Don't do it. Make it clear (e.g. in the docstring) how the decorator works, and then trust that people do the right thing.

If you really want the check, Eevee's answer provides a way to catch this mistake (at runtime, of course---it's Python).

share|improve this answer
Punishing predictable typos with obscure, delayed stack traces is "Pythonic"? I hate that buzzword. – Glenn Maynard Aug 21 '09 at 19:07
@Glenn Maynard: That's nice of you to share, but why are you doing it here? I certainly didn't use your buzzword. – balpha Aug 22 '09 at 7:07
Also, this case isn't more obscure than any other case of accessing a function [x = f] vs. actually calling it [x = f()]. And as to the "delay", by which I assume you mean the fact that the error is only caught at runtime---well, that's the nature of dynamic languages. – balpha Aug 22 '09 at 7:11

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