Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I want to write a python decorator to decorate a test function of a unittest.TestCase, to decide the target host this function should run against. See this example:

class MyTestCase(unittest.TestCase):
    @target_host(["host1.com", "host2.com"])
    def test_my_command(self):
        #do something here against the target host

In the decorated function, I want to be able to execute this test against all hosts, how do I do that? The declaration of target_host is supposed to return a new function, but is it possible to return multiple function that the test runner can execute?


share|improve this question

2 Answers 2

up vote 10 down vote accepted

You can return exactly one object (so technically, you could return a collections of functions). If you want to avoid astonishing everyone and if you want to call the result, you better return a single function though. But that function may very well call several other function in a loop... do you see where this leads to?

You need a factory for decorators that return a closure calling the function they're applied to once per set of arguments that factory got. In code (including functools.wraps to keep name and docstring, may be useful or not, I tend to include it by default):

def call_with_each(*arg_tuples):
    def decorate(f):
        def decorator():
            for arg_tuple in arg_tuples:
        return decorator
    return decorate

# useage example:
@call_with_each((3,), (2,)) # note that we pass several singleton tuples
def f(x):
    print x
# calling f() prints "3\n2\n"

Supporting keyword arguments requires more code and perhaps some ugliness, but is possible. If it's always going to be a single argument, the code can be simplified (def call_with_each(*args), for arg in args: f(arg), etc.).

share|improve this answer
Great answer, although I've found class-based decorators easier to work with in situations where the decorator will accept args/kwargs. –  zeekay May 9 '11 at 18:58
Thanks for the ideas. –  ycseattle May 9 '11 at 21:34
I have the same need as the OP. But your suggestion is not working for me. The first problem I faced with your solution was fairly simple to address. The decorator need to be applied to a method, but decorator in your answer takes no self argument. The other problem appears to be more problematic. The test runner will call the appropriate setup and cleanup methods outside of the loop. This means state does not get cleaned up between test cases like it would have been by using two separate test_ functions. That causes test cases to fail for me. –  kasperd Dec 16 '14 at 14:05
@kasperd If it hurts when you do that, stop doing it. Depending on your testing framework, there may be a built-in way to parametrize a test (py.test has this built in, I think nose does too). Otherwise, a homegrown fix would be to call setup/cleanup in the decorator's loop. But at that point, a completely different approach (e.g. generate one method per arguments to call with) may be cleaner. –  delnan Dec 16 '14 at 14:47
@delnan Generating multiple methods would most likely be cleaner. I was trying to figure out if there was any way a decorator could do that. My search for an answer to that question lead me here. In my particular case, the only two arguments I need are True and False. I could define test_something(self, arg=False) and another test_something_else, which simply calls self.test_something(True). But I was thinking my testcases would look nicer, if I could just apply a decorator to each. And trying to figure out how to do that lead me here. –  kasperd Dec 17 '14 at 2:53

Using a class-based decorator is the way to go if you want your decorator to accept arguments. In my experience they end up being easier to reason about and maintain. They are quite simple, __init__ accepts any arguments for the decorator, __call__ returns the decorated function. One of the gotchas with writing decorators is that they behave completely different if they are passed arguments or not. It's pretty easy to account for this in a class-based decorator, allowing your decorator to accept arguments or not:

class target:
    def __init__(self, targets):
        """Arguments for decorator"""
        self.targets = None
        if not hasattr(targets, '__call__'):
            # check we are actually passed arguments!
            # if targets has __call__ attr, we were called w/o arguments
            self.targets = targets

    def __call__(self, f):
        """Returns decorated function"""
        if self.targets:
            def newf(*args, **kwargs):
                for target in self.targets:
            return newf
            return f

Now if we use the decorator with arguments, it will work as expected, calling our function 3 times:

>>> @target([1,2,3])
..: def foo(x): print x

>>> foo()

However, if we are not called with arguments, we'll return the original function instead:

>>> @target       
def foo(x): print x

>>> foo(3)
<<< 3
share|improve this answer
Can you use this to decorate a class method? –  Randy Jul 9 at 17:31
Answered my own question - just wrap the return of f or newf in a wrapper and return the wrapper in __call__. Must rename the self of the class method to not be self of the decorator class. Quite the gotcha. –  Randy Jul 9 at 17:44

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.