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I have a problem with the transfer of variable 'insurance_mode' by the decorator. I would do it by the following decorator statement:

 @execute_complete_reservation(True)
 def test_booking_gta_object(self):
     self.test_select_gta_object()

but unfortunately, this statement does not work. Perhaps maybe there is better way to solve this problem.

def execute_complete_reservation(test_case,insurance_mode):
    def inner_function(self,*args,**kwargs):
        self.test_create_qsf_query()
        test_case(self,*args,**kwargs)
        self.test_select_room_option()
        if insurance_mode:
            self.test_accept_insurance_crosseling()
        else:
            self.test_decline_insurance_crosseling()
        self.test_configure_pax_details()
        self.test_configure_payer_details

    return inner_function
share|improve this question
    
Your example is not syntactically valid. execute_complete_reservation takes two parameters, but you're passing it one. Decorators are just syntactic sugar for wrapping functions inside other functions. See docs.python.org/reference/compound_stmts.html#function for complete documentation. –  Brian Clapper May 8 '11 at 17:50

4 Answers 4

up vote 134 down vote accepted

You mean def test_booking_gta_object, right? Anyway, the syntax for decorators with arguments is a bit different - the decorator with arguments should return a function that will take a function and return another function. So it should really return a normal decorator. A bit confusing, right? What I mean is:

def decorator(argument):
    def real_decorator(function):
        def wrapper(*args, **kwargs):
            funny_stuff()
            something_with_argument(argument)
            function(*args, **kwargs)
            more_funny_stuff()
        return wrapper
     return real_decorator

Here you can read more on the subject - it's also possible to implement this using callable objects and that is also explained there.

share|improve this answer
    
Thanks, your solution is more suited to my problem - Easily explains how to create decorators with the parameters –  falek.marcin May 8 '11 at 18:15
    
I just did this with lambdas all over the place. (read: Python is awesome!) :) –  Alois Mahdal Jun 6 '13 at 15:36
4  
I wonder why GVR didn't implement it by passing in the parameters as subsequent decorator arguments after 'function'. 'Yo dawg I heard you like closures...' etcetera. –  Michel Müller Apr 8 '14 at 16:22
    
@MichelMüller, interesting! But it occurs to me that you'd need to adopt a convention. Would function be the first argument or last? I could make cases for either. The choice seems arbitrary, and so you'd have another random thing to memorize about the language. It's also weird that you'd "call" the function with a signature different from the one in the definition. I suppose that also happens with class methods -- but classes are full-blown language constructs with deep semantics, whereas decorators are just supposed to be syntactic sugar. –  senderle Feb 18 at 12:18
    
> Would function be the first argument or last? Obviously first, since the parameters is a parameter list of variable length. > It's also weird that you'd "call" the function with a signature different from the one in the definition. As you point out, it would fit pretty well actually - it's pretty much analogous to how a class method is called. To make it more clear, you could have something like decorator(self_func, param1, ...) convention. But note: I'm not advocating for any change here, Python is too far down the road for that and we can see how breaking changes have worked out.. –  Michel Müller Feb 19 at 1:07

I presume your problem is passing arguments to your decorator. This is a little tricky and not straight forward.

Here's an example of how to do this:

class MyDec(object):
    def __init__(self,flag):
        self.flag = flag
    def __call__(self, original_func):
        decorator_self = self
        def wrappee( *args, **kwargs):
            print 'in decorator before wrapee with flag ',decorator_self.flag
            original_func(*args,**kwargs)
            print 'in decorator after wrapee with flag ',decorator_self.flag
        return wrappee

@MyDec('foo de fa fa')
def bar(a,b,c):
    print 'in bar',a,b,c

bar('x','y','z')

Prints:

in decorator before wrapee with flag  foo de fa fa
in bar x y z
in decorator after wrapee with flag  foo de fa fa

See Bruce Eckel's article for more details.

share|improve this answer
10  
Beware of decorator classes. They don't work on methods unless you manually reinvent the logic of instancemethod descriptors. –  delnan May 8 '11 at 18:01
    
thanks a lot, this solution solve my problem –  falek.marcin May 8 '11 at 18:03
8  
delnan, care to elaborate? I've only had to use this pattern once, so I haven't hit any of the pitfalls yet. –  Ross Rogers May 8 '11 at 18:04
1  
@RossRogers My guess is that @delnan is referring to things like __name__ which an instance of the decorator class won't have? –  jamesc Jan 13 '14 at 17:18
7  
@jamesc That too, though that's relatively easy to solve. The specific case I was referring to was class Foo: @MyDec(...) def method(self, ...): blah which does not work because Foo().method won't be a bound method and won't pass self automatically. This too can be fixed, by making MyDec a descriptor and creating bound methods in __get__, but it's more involved and much less obvious. In the end, decorator classes are not as convenient as they seem. –  delnan Jan 13 '14 at 21:49

One way of thinking about decorators with arguments is

@decorator
def foo(*args, **kwargs):
    pass

Translates to

foo = decorator(foo)

so if the decorator had arguments:

@decorator_with_args(arg)
def foo(*args, **kwargs):
    pass

translates to

foo = decorator_with_args(arg)(foo)

the decorator then becomes a function that accepts an argument, and returns a function that accepts a function that returns another function.

Ignore the earlier line if it made your head spin a little :).

I use a simple trick with partials to make my decorators easy

from functools import partial

def _pseudo_decor(fun, argument):
    def ret_fun(*args, **kwargs):
        #do stuff here, for eg.
        print "decorator arg is %s" % str(argument)
        return fun(*args, **kwargs)
    return ret_fun

real_decorator = partial(_pseudo_decor, argument=arg)

@real_decorator
def foo(*args, **kwargs):
    pass
share|improve this answer

Even if this question was already answered and accepted, I'd like to show an idea which is IMHO quite elegant. The solution proposed by t.dubrownik shows a pattern which is always the same: you need the three-layered wrapper regardless of what the decorator does.

So I tought this is a job for a meta-decorator, that is a decorator for decorators. As a decorator is a function, it actually works as a regular decorator with arguments:

def parametrized(dec):
    def layer(*args, **kwargs):
        def repl(f):
            return dec(f, *args, **kwargs)
        return repl
    return layer

This can be applied to a regular decorator in order to add parameters. So for instance, say we have the decorator which doubles the result of a function:

def double(f):
    def aux(*xs, **kws):
        return 2 * f(*xs, **kws)
    return aux

@double
def function(a):
    return 10 + a

print function(3)    # Prints 26, namely 2 * (10 + 3)

With @parametrized we can build a generic @multiply decorator having a parameter

@parametrized
def multiply(f, n):
    def aux(*xs, **kws):
        return n * f(*xs, **kws)
    return aux

@multiply(2)
def function(a):
    return 10 + a

print function(3)    # Prints 26

@multiply(3)
def function_again(a):
    return 10 + a

print function(3)          # Keeps printing 26
print function_again(3)    # Prints 39, namely 3 * (10 + 3)

Conventionally the first parameter of a parametrized decorator is the function, while the remaining arguments will correspond to the parameter of the parametrized decorator.

An interesting usage example could be a type-safe assertive decorator:

import itertools as it

@parametrized
def types(f, *types):
    def rep(*args):
        for a, t, n in zip(args, types, it.count()):
            if type(a) is not t:
                raise TypeError('Value %d has not type %s. %s instead' %
                    (n, t, type(a))
                )
        return f(*args)
    return rep

@types(str, int)  # arg1 is str, arg2 is int
def string_multiply(text, times):
    return text * times

print(string_multiply('hello', 3))    # prints hellohellohello
print(string_multiply(3, 3))          # Fails miserably with TypeError
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