Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Assume following structure:

class SetupTestParam(object):
    def setup_method(self, method):
        self.foo = bar()

    @pytest.fixture
    def some_fixture():
        self.baz = 'foobar'

I use SetupTestParam as a parent class from test classes.

class TestSomething(SetupTestParam):
    def test_a_lot(self, some_fixture):
        with self.baz as magic:
            with magic.fooz as more_magic:
                 blah = more_magic.much_more_magic() # repetative bleh
            ... # not repetative code here
            assert spam == 'something cool'

Now, writing tests get repetative (with statement usage) and I would like to write a decorator to reduce number of code lines. But wait, there is a problem with pytest and function signature.

I found out library which should be helpful [1] but I cant manage to get it to work.

I made classmethod in my SetupTestParam class.

@classmethod
@decorator.decorator
def this_is_decorator(cls, f):
    def wrapper(self, *args, **kw):
        with self.baz as magic:
            with magic.fooz as more_magic:
                 blah = more_magic.much_more_magic() # repetative bleh
            return f(self, *args)
    return wrapper

After I decorate test_a_lot method I receive error TypeError: transaction_decorator() takes exactly 1 argument (2 given)

Can someone explain me please what am I doin wrong? (I assume there is a problem with self from test method?)

[1] https://pypi.python.org/pypi/decorator

share|improve this question

3 Answers 3

Chaining decorators is not the simplest thing to do. One solution might be to separate the two decorators. Keep the classmethod but move decorator.decorator to the end:

@classmethod
def this_is_decorator(cls, f):
    def wrapper(self, *args, **kw):
        with self.baz as magic:
            with magic.fooz as more_magic:
                 blah = more_magic.much_more_magic() # repetative bleh
            return f(self, *args)
    return decorator.decorator(wrapper, f)

Maybe this works for you.

share|improve this answer
    
And how can I access self.foo from SetupTestParam in the wrapper function? –  user1908678 May 30 '13 at 6:26
    
Before we proceed: Did the error message go away? –  Mike Müller May 30 '13 at 6:52
    
Yes. I figured out a rest also. Here are wrapper parameters as shown in pytest: self = <function test_a_lot at 0x24820c8> args = (<TestSomething object at 0x29c77d0>, None, None, None, None), kw = {} So it is not self.baz but args[0].baz now. And I have to return just f(*args). –  user1908678 May 30 '13 at 7:04
    
Great. Maybe you can answer your own question putting all the pieces in the answers and the comments together. Answering own questions is encouraged: meta.stackexchange.com/questions/2706/… –  Mike Müller May 30 '13 at 7:17
    
Yes, I will do that as soon as I finish tweaking my decorator. Using args[0] looks terrible. Is there any way how to ommit passing instance of the function (self parameter in this case) to wrapper ? I would like to see self of wrapper to be reference of self of test_a_lot. –  user1908678 May 30 '13 at 7:24

Here's what happens in time order as this method is defined.

  1. this_is_decorator is created (not called).
  2. decorator.decorator(this_is_decorator) is called. This returns a new function which becomes this_is_decorator and has the same usage.
  3. classmethod(this_is_decorator) is called, and the result of that is a classmethod that accepts (cls, f) and returns wrapper.
  4. Later at runtime, a call to this_is_decorator will return wrapper.

But considering that this_is_decorator is a class method, it's not clear to me that this is what you want. I'm guessing that you may want something more like this:

from decorator import decorator
@decorator
def mydecorator(f):
  def wrapper(cls, *args, **kw):
    # ... logging, reporting, caching, whatever
    return f(*args, **kw)
  return wrapper

class MyClass(object):
  @classmethod
  @mydecorator
  def myclsmethod(a, b, c):
    # no cls or self value accepted here; this is a function not a method
    # ...

Here your decorator is defined outside your class, because it's changing an ordinary function into a classmethod (and because you may want to use it in other places). The order of execution here is:

  1. mydecorator is defined, not called.
  2. decorator(mydecorator) is called, and the result becomes mydecorator.
  3. Creation of MyClass starts.
  4. myclsmethod is created. It is an ordinary function, not a method. There is a difference within the VM, so that you do not have to explicitly supply cls or self arguments to methods.
  5. myclsmethod is passed to mydecorator (which has itself been decorated before) and the result (wrapper) is still a function not a method.
  6. The result of mydecorator is passed to classmethod which returns an actual class method that is bound to MyClass.myclsmethod.
  7. Definition of MyClass finishes.
  8. Later when MyClass.myclsmethod(a, b, c) is called, wrapper executes, which then calls the original myclsmethod(a, b, c) function (which it knows as f) without supplying the cls argument.

Since you have an additional need to preserve the argument list exactly, so that even the names of the arguments are preserved in the decorated function, except with an extra initial argument cls, then you could implement mydecorator this way:

from decorator import decorator
from inspect import getargspec

@decorator
def mydecorator(func):
  result = [None]  # necessary so exec can "return" objects
  namespace = {'f': func, 'result': result}
  source = []
  add = lambda indent, line: source.append(' ' * indent + line)  # shorthand
  arglist = ', '.join(getargspec(func).args)  # this does not cover keyword or default args
  add(0, 'def wrapper(cls, %s):' % (arglist,))
  add(2, 'return f(%s)' % (arglist,))
  add(0, 'result[0] = wrapper')  # this is how to "return" something from exec
  exec '\n'.join(source) in namespace
  return result[0]  # this is wrapper

It's kinda ugly, but this is the only way I know to dynamically set the argument list of a function based on data. If returning a lambda is OK, you could use eval instead of exec, which eliminates the need for an array that gets written into but is otherwise about the same.

share|improve this answer
    
I use classmethod to decorate this_is_decorator because I want to use this decorator in inherited class TestSomething. The reason why I use decorator.decorator is because of pytest fixtures, I need the decorator to call function with right signature. Basicly, pytest has to see f(some_fixture) and not f(*args) because *args is not any fixture. –  user1908678 May 28 '13 at 17:07
    
Let me see if I understand correctly. You want one or more decorators that collaborate to (1) produce a classmethod (2) decorate a function that does not accept a cls argument (3) decorate a function whose argument list can be analyzed, as with inspect.getargspec, and will not just accept varargs. –  wberry May 28 '13 at 18:41
    
If all that is correct, I think your best bet is to use getargspec to get the argument list, build the source of wrapper as a string (with the additional initial cls argument), use the exec statement to create the wrapper function, and return it. All that would be done in your decorator. –  wberry May 28 '13 at 18:42
    
Maybe you are right, but I can't imagine that, Can you please show me simple example, based on the examples I provided in question? Or just edit it to your answer. –  user1908678 May 30 '13 at 7:10
    
Done. Good luck! –  wberry May 31 '13 at 2:59
up vote 0 down vote accepted

After some tweaking and realizing that I need to pass a parameter to decorator I choosed to write it as a class:

class ThisIsDecorator(object):
    def __init__(self, param):
        self.param = param   # Parameter may vary with the function being decorated
    def __call__(self, fn):
        wraps(fn) # [1]
        def wrapper(fn, fn_self, *args): # [2] fn_self refers to original self param from function fn (test_a_lot) [2]
            with fn_self.baz as fn_self.magic: # I pass magic to fn_self to make magic accesible in function fn (test_a_lot)
                with fn_self.magic.fooz as more_magic:
                    blah = self.param.much_more_magic() # repetative bleh
            return fn(fn_self, *args)
        return decorator.decorator(wrapper, fn) 

[1] I use wraps to have original fn __name__, __module__ and __doc__.

[2] Params passed to wrapper were self = <function test_a_lot at 0x24820c8> args = (<TestSomething object at 0x29c77d0>, None, None, None, None), kw = {} so I took out the args[0] as a fn_self.

Original version (without passing a parameter):

 @classmethod
 def this_is_decorator(cls, fn):
     @wraps(fn)
     def wrapper(fn, fn_self, *args):
         with fn_self.baz as fn_self.magic:
             with fn_self.magic.fooz as more_magic:
                 blah = more_magic.much_more_magic() # repetative bleh
             return fn(fn_self, *args)
     return decorator.decorator(wrapper,fn)

Thanks go to Mike Muller for pointing out the right direction.

share|improve this answer
    
If Mike's answer helped, it's usually nice to upvote it... :) –  Andy Hayden Jun 5 '13 at 21:01
    
I always forget to be polite, thanks for reminding :-) –  user1908678 Jun 6 '13 at 21:13

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.