I'd like to create a Python decorator that can be used either with parameters:

def foo():

or without them (for instance to redirect the output to stderr by default):

def foo():

Is that at all possible?

Note that I'm not looking for a different solution to the problem of redirecting output, it's just an example of the syntax I'd like to achieve.

  • The default-looking @redirect_output is remarkably uninformative. I'd suggest that it's a bad idea. Use the first form and simplify your life a lot. – S.Lott Mar 17 '09 at 10:14
  • interesting question though - until i saw it and looked through the documentation, i'd have assumed that @f was the same as @f(), and i still think it should be, to be honest (any provided arguments would just be tacked on to the function argument) – rog Mar 18 '09 at 14:13

11 Answers 11


I know this question is old, but some of the comments are new, and while all of the viable solutions are essentially the same, most of them aren't very clean or easy to read.

Like thobe's answer says, the only way to handle both cases is to check for both scenarios. The easiest way is simply to check to see if there is a single argument and it is callabe (NOTE: extra checks will be necessary if your decorator only takes 1 argument and it happens to be a callable object):

def decorator(*args, **kwargs):
    if len(args) == 1 and len(kwargs) == 0 and callable(args[0]):
        # called as @decorator
        # called as @decorator(*args, **kwargs)

In the first case, you do what any normal decorator does, return a modified or wrapped version of the passed in function.

In the second case, you return a 'new' decorator that somehow uses the information passed in with *args, **kwargs.

This is fine and all, but having to write it out for every decorator you make can be pretty annoying and not as clean. Instead, it would be nice to be able to automagically modify our decorators without having to re-write them... but that's what decorators are for!

Using the following decorator decorator, we can deocrate our decorators so that they can be used with or without arguments:

def doublewrap(f):
    a decorator decorator, allowing the decorator to be used as:
    @decorator(with, arguments, and=kwargs)
    def new_dec(*args, **kwargs):
        if len(args) == 1 and len(kwargs) == 0 and callable(args[0]):
            # actual decorated function
            return f(args[0])
            # decorator arguments
            return lambda realf: f(realf, *args, **kwargs)

    return new_dec

Now, we can decorate our decorators with @doublewrap, and they will work with and without arguments, with one caveat:

I noted above but should repeat here, the check in this decorator makes an assumption about the arguments that a decorator can receive (namely that it can't receive a single, callable argument). Since we are making it applicable to any generator now, it needs to be kept in mind, or modified if it will be contradicted.

The following demonstrates its use:

def test_doublewrap():
    from util import doublewrap
    from functools import wraps    

    def mult(f, factor=2):
        '''multiply a function's return value'''
        def wrap(*args, **kwargs):
            return factor*f(*args,**kwargs)
        return wrap

    # try normal
    def f(x, y):
        return x + y

    # try args
    def f2(x, y):
        return x*y

    # try kwargs
    def f3(x, y):
        return x - y

    assert f(2,3) == 10
    assert f2(2,5) == 30
    assert f3(8,1) == 5*7

Using keyword arguments with default values (as suggested by kquinn) is a good idea, but will require you to include the parenthesis:

def foo():

If you would like a version that works without the parenthesis on the decorator you will have to account both scenarios in your decorator code.

If you were using Python 3.0 you could use keyword only arguments for this:

def redirect_output(fn=None,*,destination=None):
  destination = sys.stderr if destination is None else destination
  def wrapper(*args, **kwargs):
    ... # your code here
  if fn is None:
    def decorator(fn):
      return functools.update_wrapper(wrapper, fn)
    return decorator
    return functools.update_wrapper(wrapper, fn)

In Python 2.x this can be emulated with varargs tricks:

def redirected_output(*fn,**options):
  destination = options.pop('destination', sys.stderr)
  if options:
    raise TypeError("unsupported keyword arguments: %s" % 
  def wrapper(*args, **kwargs):
    ... # your code here
  if fn:
    return functools.update_wrapper(wrapper, fn[0])
    def decorator(fn):
      return functools.update_wrapper(wrapper, fn)
    return decorator

Any of these versions would allow you to write code like this:

def foo():

def bar():
  • 1
    What do you put in your code here? How do you call the function that is decorated? fn(*args, **kwargs) doesn't work. – lum Apr 24 '12 at 8:39
  • i think there is a much simpler answer, create a class which will the the decorator with optional arguments. create another function with the same arguments with defaults and return a new instance of the decorator classes. should look something like: def f(a = 5): return MyDecorator( a = a) and class MyDecorator( object ): def __init__( self, a = 5 ): .... sorry its hard writing it in a comment but i hope this is simple enough to understand – Omer Ben Haim 2 days ago

You need to detect both cases, for example using the type of the first argument, and accordingly return either the wrapper (when used without parameter) or a decorator (when used with arguments).

from functools import wraps
import inspect

def redirect_output(fn_or_output):
    def decorator(fn):
        def wrapper(*args, **args):
            # Redirect output
                return fn(*args, **args)
                # Restore output
        return wrapper

    if inspect.isfunction(fn_or_output):
        # Called with no parameter
        return decorator(fn_or_output)
        # Called with a parameter
        return decorator

When using the @redirect_output("output.log") syntax, redirect_output is called with a single argument "output.log", and it must return a decorator accepting the function to be decorated as an argument. When used as @redirect_output, it is called directly with the function to be decorated as an argument.

Or in other words: the @ syntax must be followed by an expression whose result is a function accepting a function to be decorated as its sole argument, and returning the decorated function. The expression itself can be a function call, which is the case with @redirect_output("output.log"). Convoluted, but true :-)


I know this is an old question, but I really don't like any of the techniques proposed so I wanted to add another method. I saw that django uses a really clean method in their login_required decorator in django.contrib.auth.decorators. As you can see in the decorator's docs, it can be used alone as @login_required or with arguments, @login_required(redirect_field_name='my_redirect_field').

The way they do it is quite simple. They add a kwarg (function=None) before their decorator arguments. If the decorator is used alone, function will be the actual function it is decorating, whereas if it is called with arguments, function will be None.


from functools import wraps

def custom_decorator(function=None, some_arg=None, some_other_arg=None):
    def actual_decorator(f):
        def wrapper(*args, **kwargs):
            # Do stuff with args here...
            if some_arg:
            if some_other_arg:
            return f(*args, **kwargs)
        return wrapper
    if function:
        return actual_decorator(function)
    return actual_decorator

def test1():

>>> test1()

def test2():

>>> test2()

@custom_decorator(some_arg='hello', some_other_arg='world')
def test3():

>>> test3()

I find this approach that django uses to be more elegant and easier to understand than any of the other techniques proposed here.


A python decorator is called in a fundamentally different way depending on whether you give it arguments or not. The decoration is actually just a (syntactically restricted) expression.

In your first example:

def foo():

the function redirect_output is called with the given argument, which is expected to return a decorator function, which itself is called with foo as an argument, which (finally!) is expected to return the final decorated function.

The equivalent code looks like this:

def foo():
d = redirect_output("somewhere.log")
foo = d(foo)

The equivalent code for your second example looks like:

def foo():
d = redirect_output
foo = d(foo)

So you can do what you'd like but not in a totally seamless way:

import types
def redirect_output(arg):
    def decorator(file, f):
        def df(*args, **kwargs):
            print 'redirecting to ', file
            return f(*args, **kwargs)
        return df
    if type(arg) is types.FunctionType:
        return decorator(sys.stderr, arg)
    return lambda f: decorator(arg, f)

This should be ok unless you wish to use a function as an argument to your decorator, in which case the decorator will wrongly assume it has no arguments. It will also fail if this decoration is applied to another decoration that does not return a function type.

An alternative method is just to require that the decorator function is always called, even if it is with no arguments. In this case, your second example would look like this:

def foo():

The decorator function code would look like this:

def redirect_output(file = sys.stderr):
    def decorator(file, f):
        def df(*args, **kwargs):
            print 'redirecting to ', file
            return f(*args, **kwargs)
        return df
    return lambda f: decorator(file, f)

Several answers here already address your problem nicely. With respect to style, however, I prefer solving this decorator predicament using functools.partial, as suggested in David Beazley's Python Cookbook 3:

from functools import partial, wraps

def decorator(func=None, foo='spam'):
    if func is None:
         return partial(decorator, foo=foo)

    def wrapper(*args, **kwargs):
        # do something with `func` and `foo`, if you're so inclined

    return wrapper

While yes, you can just do

def f(*args, **kwargs):

without funky workarounds, I find it strange looking, and I like having the option of simply decorating with @decorator.

As for the secondary mission objective, redirecting a function's output is addressed in this Stack Overflow post.

If you want to dive deeper, check out Chapter 9 (Metaprogramming) in Python Cookbook 3, which is freely available to be read online.

Some of that material is live demoed (plus more!) in Beazley's awesome YouTube video Python 3 Metaprogramming.

Happy coding :)


In fact, the caveat case in @bj0's solution can be checked easily:

def meta_wrap(decor):
    def new_decor(*args, **kwargs):
        if len(args) == 1 and len(kwargs) == 0 and callable(args[0]):
            # this is the double-decorated f. 
            # Its first argument should not be a callable
            doubled_f = decor(args[0])
            def checked_doubled_f(*f_args, **f_kwargs):
                if callable(f_args[0]):
                    raise ValueError('meta_wrap failure: '
                                'first positional argument cannot be callable.')
                return doubled_f(*f_args, **f_kwargs)
            return checked_doubled_f 
            # decorator arguments
            return lambda real_f: decor(real_f, *args, **kwargs)

    return new_decor

Here are a few test cases for this fail-safe version of meta_wrap.

    def baddecor(f, caller=lambda x: -1*x):
        def _f(*args, **kwargs):
            return caller(f(args[0]))
        return _f

    @baddecor  # used without arg: no problem
    def f_call1(x):
        return x + 1
    assert f_call1(5) == -6

    @baddecor(lambda x : 2*x) # bad case
    def f_call2(x):
        return x + 1
    f_call2(5)  # raises ValueError

    # explicit keyword: no problem
    @baddecor(caller=lambda x : 100*x)
    def f_call3(x):
        return x + 1
    assert f_call3(5) == 600
  • 1
    Thanks. This is helpful! – Pragy Agarwal Aug 11 '17 at 1:45

To give a more complete answer than the above:

"Is there a way to build a decorator that can be used both with and without arguments ?"

No there is no generic way because there is currently something missing in the python language to detect the two different use cases.

However Yes as already pointed out by other answers such as bj0s, there is a clunky workaround that is to check the type and value of the first positional argument received (and to check if no other arguments have non-default value). If you are guaranteed that users will never pass a callable as first argument of your decorator, then you can use this workaround. Note that this is the same for class decorators (replace callable by class in the previous sentence).

To be sure of the above, I did quite a bit of research out there and even implemented a library named decopatch that uses a combination of all strategies cited above (and many more, including introspection) to perform "whatever is the most intelligent workaround" depending on your need.

But frankly the best would be not to need any library here and to get that feature straight from the python language. If, like myself, you think that it is a pity that the python language is not as of today capable of providing a neat answer to this question, do not hesitate to support this idea in the python bugtracker: https://bugs.python.org/issue36553 !

Thanks a lot for your help making python a better language :)


Have you tried keyword arguments with default values? Something like

def decorate_something(foo=bar, baz=quux):

Generally you can give default arguments in Python...

def redirect_output(fn, output = stderr):
    # whatever

Not sure if that works with decorators as well, though. I don't know of any reason why it wouldn't.

  • 2
    If you say @dec(abc) the function is not passed directly to dec. dec(abc) returns something, and this return value is used as the decorator. So dec(abc) has to return a function, which then gets the decorated function passed as an parameter. (Also see thobes code) – sth Mar 17 '09 at 9:26

Building on vartec's answer:

imports sys

def redirect_output(func, output=None):
    if output is None:
        output = sys.stderr
    if isinstance(output, basestring):
        output = open(output, 'w') # etc...
    # everything else...
  • this can't be used as a decorator like in the @redirect_output("somewhere.log") def foo() example in the question. – ehabkost Apr 15 '11 at 10:58

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