475

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
1

16 Answers 16

802

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_factory(argument):
    def decorator(function):
        def wrapper(*args, **kwargs):
            funny_stuff()
            something_with_argument(argument)
            result = function(*args, **kwargs)
            more_funny_stuff()
            return result
        return wrapper
    return 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.

13
  • 75
    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
  • 3
    > 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 '15 at 1:07
  • 27
    you forgot VERY USEFUL functools.wraps for decorating wrapper :) – socketpair Aug 13 '15 at 21:19
  • 10
    You forgot about return when calling function, i.e. return function(*args, **kwargs) – formiaczek Dec 1 '15 at 17:09
  • 48
    Maybe obvious, but just in case: you need to use this decorator as @decorator() and not just @decorator, even if you have only optional arguments. – Patrick Mevzek Dec 4 '17 at 20:25
379

Edit : for an in-depth understanding of the mental model of decorators, take a look at this awesome Pycon Talk. well worth the 30 minutes.

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)

decorator_with_args is a function which accepts a custom argument and which returns the actual decorator (that will be applied to the decorated function).

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

Update:

Above, foo becomes real_decorator(foo)

One effect of decorating a function is that the name foo is overridden upon decorator declaration. foo is "overridden" by whatever is returned by real_decorator. In this case, a new function object.

All of foo's metadata is overridden, notably docstring and function name.

>>> print(foo)
<function _pseudo_decor.<locals>.ret_fun at 0x10666a2f0>

functools.wraps gives us a convenient method to "lift" the docstring and name to the returned function.

from functools import partial, wraps

def _pseudo_decor(fun, argument):
    # magic sauce to lift the name and doc of the function
    @wraps(fun)
    def ret_fun(*args, **kwargs):
        # pre function execution stuff here, for eg.
        print("decorator argument is %s" % str(argument))
        returned_value =  fun(*args, **kwargs)
        # post execution stuff here, for eg.
        print("returned value is %s" % returned_value)
        return returned_value

    return ret_fun

real_decorator1 = partial(_pseudo_decor, argument="some_arg")
real_decorator2 = partial(_pseudo_decor, argument="some_other_arg")

@real_decorator1
def bar(*args, **kwargs):
    pass

>>> print(bar)
<function __main__.bar(*args, **kwargs)>

>>> bar(1,2,3, k="v", x="z")
decorator argument is some_arg
returned value is None
16
  • 5
    Your answer perfectly explained the inherent orthogonality of the decorator, thank you – zsf222 Dec 9 '17 at 15:58
  • 1
    @Mr_and_Mrs_D , I've updated the post with an example with functool.wraps. Adding it in the example may confuse readers further. – srj Aug 28 '18 at 2:31
  • 8
    What is arg here!? – Stefan Falk Sep 25 '18 at 10:22
  • 1
    How will you pass argument passed to bar to the argument of real_decorator ? – Chang Zhao Nov 1 '18 at 2:56
  • 1
    The nicest explanation I've ever seen! – Cho Jul 25 '19 at 6:41
102

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 thought 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

A final note: here I'm not using functools.wraps for the wrapper functions, but I would recommend using it all the times.

10
  • 3
    Didn't use this exactly, but helped me get my head around the concept :) Thanks! – mouckatron Oct 10 '17 at 22:04
  • I tried this and had some issues. – Jeff Oct 14 '17 at 14:53
  • @Jeff could you share with us the kind of issues you had? – Dacav Oct 14 '17 at 16:49
  • I had it linked on my question, and I did figure it out... I needed to call @wraps in mine for my particular case. – Jeff Oct 14 '17 at 19:33
  • 4
    Oh boy, I lost a whole day on this. Thankfully, I came around this answer (which incidentally could be the best answer ever created on the whole internet). They too use your @parametrized trick. The problem I had was I forgot the @ syntax equals actual calls (somehow I knew that and didn't know that at the same time as you can gather from my question). So if you want to translate @ syntax into mundane calls to check how it works, you better comment it out temporarily first or you'd end up calling it twice and getting mumbojumbo results – z33k Mar 13 '18 at 14:50
89

Here is a slightly modified version of t.dubrownik's answer. Why?

  1. As a general template, you should return the return value from the original function.
  2. This changes the name of the function, which could affect other decorators / code.

So use @functools.wraps():

from functools import wraps

def decorator(argument):
    def real_decorator(function):
        @wraps(function)
        def wrapper(*args, **kwargs):
            funny_stuff()
            something_with_argument(argument)
            retval = function(*args, **kwargs)
            more_funny_stuff()
            return retval
        return wrapper
    return real_decorator
0
40

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

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.

7
  • 22
    Beware of decorator classes. They don't work on methods unless you manually reinvent the logic of instancemethod descriptors. – user395760 May 8 '11 at 18:01
  • 9
    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
  • 2
    @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
  • 9
    @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. – user395760 Jan 13 '14 at 21:49
  • 2
    @delnan I'd like to see this caveat featured more prominently. I'm hitting it and am interested in seeing a solution that DOES work (more involved an less obvious though it may be). – HaPsantran Mar 13 '16 at 6:42
16
def decorator(argument):
    def real_decorator(function):
        def wrapper(*args):
            for arg in args:
                assert type(arg)==int,f'{arg} is not an interger'
            result = function(*args)
            result = result*argument
            return result
        return wrapper
    return real_decorator

Usage of the decorator

@decorator(2)
def adder(*args):
    sum=0
    for i in args:
        sum+=i
    return sum

Then the

adder(2,3)

produces

10

but

adder('hi',3)

produces

---------------------------------------------------------------------------
AssertionError                            Traceback (most recent call last)
<ipython-input-143-242a8feb1cc4> in <module>
----> 1 adder('hi',3)

<ipython-input-140-d3420c248ebd> in wrapper(*args)
      3         def wrapper(*args):
      4             for arg in args:
----> 5                 assert type(arg)==int,f'{arg} is not an interger'
      6             result = function(*args)
      7             result = result*argument

AssertionError: hi is not an interger
1
  • 2
    Of all the posts here, this answer proved the most useful for my understanding of how the argument is passed and handled. – sc_props Nov 22 '20 at 21:12
16

Writing a decorator that works with and without parameter is a challenge because Python expects completely different behavior in these two cases! Many answers have tried to work around this and below is an improvement of answer by @norok2. Specifically, this variation eliminates the use of locals().

Following the same example as given by @norok2:

import functools

def multiplying(f_py=None, factor=1):
    assert callable(f_py) or f_py is None
    def _decorator(func):
        @functools.wraps(func)
        def wrapper(*args, **kwargs):
            return factor * func(*args, **kwargs)
        return wrapper
    return _decorator(f_py) if callable(f_py) else _decorator


@multiplying
def summing(x): return sum(x)

print(summing(range(10)))
# 45


@multiplying()
def summing(x): return sum(x)

print(summing(range(10)))
# 45


@multiplying(factor=10)
def summing(x): return sum(x)

print(summing(range(10)))
# 450

Play with this code.

The catch is that the user must supply key,value pairs of parameters instead of positional parameters and the first parameter is reserved.

1
  • This is freaking genius. – medley56 Aug 14 '20 at 18:05
9

This is a template for a function decorator that does not require () if no parameters are to be given:

import functools


def decorator(x_or_func=None, *decorator_args, **decorator_kws):
    def _decorator(func):
        @functools.wraps(func)
        def wrapper(*args, **kws):
            if 'x_or_func' not in locals() \
                    or callable(x_or_func) \
                    or x_or_func is None:
                x = ...  # <-- default `x` value
            else:
                x = x_or_func
            return func(*args, **kws)

        return wrapper

    return _decorator(x_or_func) if callable(x_or_func) else _decorator

an example of this is given below:

def multiplying(factor_or_func=None):
    def _decorator(func):
        @functools.wraps(func)
        def wrapper(*args, **kwargs):
            if 'factor_or_func' not in locals() \
                    or callable(factor_or_func) \
                    or factor_or_func is None:
                factor = 1
            else:
                factor = factor_or_func
            return factor * func(*args, **kwargs)
        return wrapper
    return _decorator(factor_or_func) if callable(factor_or_func) else _decorator


@multiplying
def summing(x): return sum(x)

print(summing(range(10)))
# 45


@multiplying()
def summing(x): return sum(x)

print(summing(range(10)))
# 45


@multiplying(10)
def summing(x): return sum(x)

print(summing(range(10)))
# 450
3
  • Note also that factor_or_func (or any other parameter) should never gets reassigned in wrapper(). – norok2 Aug 28 '19 at 11:29
  • 1
    Why do you need to check in locals()? – Shital Shah Mar 24 '20 at 13:53
  • @ShitalShah that covers the case where the decorator is used without (). – norok2 Mar 24 '20 at 15:30
4

In my instance, I decided to solve this via a one-line lambda to create a new decorator function:

def finished_message(function, message="Finished!"):

    def wrapper(*args, **kwargs):
        output = function(*args,**kwargs)
        print(message)
        return output

    return wrapper

@finished_message
def func():
    pass

my_finished_message = lambda f: finished_message(f, "All Done!")

@my_finished_message
def my_func():
    pass

if __name__ == '__main__':
    func()
    my_func()

When executed, this prints:

Finished!
All Done!

Perhaps not as extensible as other solutions, but worked for me.

1
  • This works. Although yes, this makes it hard to set the value to the decorator. – Arindam Roychowdhury Jan 11 '19 at 11:28
3

enter image description here

  • Here we ran display info twice with two different names and two different ages.
  • Now every time we ran display info, our decorators also added the functionality of printing out a line before and a line after that wrapped function.
def decorator_function(original_function):
    def wrapper_function(*args, **kwargs):
        print('Executed Before', original_function.__name__)
        result = original_function(*args, **kwargs)
        print('Executed After', original_function.__name__, '\n')
        return result
    return wrapper_function


@decorator_function
def display_info(name, age):
    print('display_info ran with arguments ({}, {})'.format(name, age))


display_info('Mr Bean', 66)
display_info('MC Jordan', 57)

output:

Executed Before display_info
display_info ran with arguments (Mr Bean, 66)
Executed After display_info 

Executed Before display_info
display_info ran with arguments (MC Jordan, 57)
Executed After display_info 
  • So now let's go ahead and get our decorator function to accept arguments.

  • For example let's say that I wanted a customizable prefix to all of these print statements within the wrapper.

  • Now this would be a good candidate for an argument to the decorator.

  • The argument that we pass in will be that prefix. Now in order to do, this we're just going to add another outer layer to our decorator, so I'm going to call this a function a prefix decorator.

def prefix_decorator(prefix):
    def decorator_function(original_function):
        def wrapper_function(*args, **kwargs):
            print(prefix, 'Executed Before', original_function.__name__)
            result = original_function(*args, **kwargs)
            print(prefix, 'Executed After', original_function.__name__, '\n')
            return result
        return wrapper_function
    return decorator_function


@prefix_decorator('LOG:')
def display_info(name, age):
    print('display_info ran with arguments ({}, {})'.format(name, age))


display_info('Mr Bean', 66)
display_info('MC Jordan', 57)

output:

LOG: Executed Before display_info
display_info ran with arguments (Mr Bean, 66)
LOG: Executed After display_info 

LOG: Executed Before display_info
display_info ran with arguments (MC Jordan, 57)
LOG: Executed After display_info 
  • Now we have that LOG: prefix before our print statements in our wrapper function and you can change this any time that you want.
2

It is well known that the following two pieces of code are nearly equivalent:

@dec
def foo():
    pass    foo = dec(foo)

############################################
foo = dec(foo)

A common mistake is to think that @ simply hides the leftmost argument.

@dec(1, 2, 3)
def foo():
    pass    
###########################################
foo = dec(foo, 1, 2, 3)

It would be much easier to write decorators if the above is how @ worked. Unfortunately, that’s not the way things are done.


Consider a decorator Waitwhich haults program execution for a few seconds. If you don't pass in a Wait-time then the default value is 1 seconds. Use-cases are shown below.

##################################################
@Wait
def print_something(something):
    print(something)

##################################################
@Wait(3)
def print_something_else(something_else):
    print(something_else)

##################################################
@Wait(delay=3)
def print_something_else(something_else):
    print(something_else)

When Wait has an argument, such as @Wait(3), then the call Wait(3) is executed before anything else happens.

That is, the following two pieces of code are equivalent

@Wait(3)
def print_something_else(something_else):
    print(something_else)

###############################################
return_value = Wait(3)
@return_value
def print_something_else(something_else):
    print(something_else)

This is a problem.

if `Wait` has no arguments:
    `Wait` is the decorator.
else: # `Wait` receives arguments
    `Wait` is not the decorator itself.
    Instead, `Wait` ***returns*** the decorator

One solution is shown below:

Let us begin by creating the following class, DelayedDecorator:

class DelayedDecorator:
    def __init__(i, cls, *args, **kwargs):
        print("Delayed Decorator __init__", cls, args, kwargs)
        i._cls = cls
        i._args = args
        i._kwargs = kwargs
    def __call__(i, func):
        print("Delayed Decorator __call__", func)
        if not (callable(func)):
            import io
            with io.StringIO() as ss:
                print(
                    "If only one input, input must be callable",
                    "Instead, received:",
                    repr(func),
                    sep="\n",
                    file=ss
                )
                msg = ss.getvalue()
            raise TypeError(msg)
        return i._cls(func, *i._args, **i._kwargs)

Now we can write things like:

 dec = DelayedDecorator(Wait, delay=4)
 @dec
 def delayed_print(something):
    print(something)

Note that:

  • dec does not not accept multiple arguments.
  • dec only accepts the function to be wrapped.

    import inspect class PolyArgDecoratorMeta(type): def call(Wait, *args, **kwargs): try: arg_count = len(args) if (arg_count == 1): if callable(args[0]): SuperClass = inspect.getmro(PolyArgDecoratorMeta)[1] r = SuperClass.call(Wait, args[0]) else: r = DelayedDecorator(Wait, *args, **kwargs) else: r = DelayedDecorator(Wait, *args, **kwargs) finally: pass return r

    import time class Wait(metaclass=PolyArgDecoratorMeta): def init(i, func, delay = 2): i._func = func i._delay = delay

    def __call__(i, *args, **kwargs):
        time.sleep(i._delay)
        r = i._func(*args, **kwargs)
        return r 
    

The following two pieces of code are equivalent:

@Wait
def print_something(something):
     print (something)

##################################################

def print_something(something):
    print(something)
print_something = Wait(print_something)

We can print "something" to the console very slowly, as follows:

print_something("something")

#################################################
@Wait(delay=1)
def print_something_else(something_else):
    print(something_else)

##################################################
def print_something_else(something_else):
    print(something_else)

dd = DelayedDecorator(Wait, delay=1)
print_something_else = dd(print_something_else)

##################################################

print_something_else("something")

Final Notes

It may look like a lot of code, but you don't have to write the classes DelayedDecorator and PolyArgDecoratorMeta every-time. The only code you have to personally write something like as follows, which is fairly short:

from PolyArgDecoratorMeta import PolyArgDecoratorMeta
import time
class Wait(metaclass=PolyArgDecoratorMeta):
 def __init__(i, func, delay = 2):
     i._func = func
     i._delay = delay

 def __call__(i, *args, **kwargs):
     time.sleep(i._delay)
     r = i._func(*args, **kwargs)
     return r
2

Great answers above. This one also illustrates @wraps, which takes the doc string and function name from the original function and applies it to the new wrapped version:

from functools import wraps

def decorator_func_with_args(arg1, arg2):
    def decorator(f):
        @wraps(f)
        def wrapper(*args, **kwargs):
            print("Before orginal function with decorator args:", arg1, arg2)
            result = f(*args, **kwargs)
            print("Ran after the orginal function")
            return result
        return wrapper
    return decorator

@decorator_func_with_args("foo", "bar")
def hello(name):
    """A function which prints a greeting to the name provided.
    """
    print('hello ', name)
    return 42

print("Starting script..")
x = hello('Bob')
print("The value of x is:", x)
print("The wrapped functions docstring is:", hello.__doc__)
print("The wrapped functions name is:", hello.__name__)

Prints:

Starting script..
Before orginal function with decorator args: foo bar
hello  Bob
Ran after the orginal function
The value of x is: 42
The wrapped functions docstring is: A function which prints a greeting to the name provided.
The wrapped functions name is: hello
1

define this "decoratorize function" to generate customized decorator function:

def decoratorize(FUN, **kw):
    def foo(*args, **kws):
        return FUN(*args, **kws, **kw)
    return foo

use it this way:

    @decoratorize(FUN, arg1 = , arg2 = , ...)
    def bar(...):
        ...
0
0

It is a decorator that can be called in a variety of ways (tested in python3.7):

import functools


def my_decorator(*args_or_func, **decorator_kwargs):

    def _decorator(func):

        @functools.wraps(func)
        def wrapper(*args, **kwargs):

            if not args_or_func or callable(args_or_func[0]):
                # Here you can set default values for positional arguments
                decorator_args = ()
            else:
                decorator_args = args_or_func

            print(
                "Available inside the wrapper:",
                decorator_args, decorator_kwargs
            )

            # ...
            result = func(*args, **kwargs)
            # ...

            return result

        return wrapper

    return _decorator(args_or_func[0]) \
        if args_or_func and callable(args_or_func[0]) else _decorator


@my_decorator
def func_1(arg): print(arg)

func_1("test")
# Available inside the wrapper: () {}
# test


@my_decorator()
def func_2(arg): print(arg)

func_2("test")
# Available inside the wrapper: () {}
# test


@my_decorator("any arg")
def func_3(arg): print(arg)

func_3("test")
# Available inside the wrapper: ('any arg',) {}
# test


@my_decorator("arg_1", 2, [3, 4, 5], kwarg_1=1, kwarg_2="2")
def func_4(arg): print(arg)

func_4("test")
# Available inside the wrapper: ('arg_1', 2, [3, 4, 5]) {'kwarg_1': 1, 'kwarg_2': '2'}
# test

PS thanks to user @norok2 - https://stackoverflow.com/a/57268935/5353484

UPD Decorator for validating arguments and/or result of functions and methods of a class against annotations. Can be used in synchronous or asynchronous version: https://github.com/EvgeniyBurdin/valdec

-1

In case both the function and the decorator have to take arguments you can follow the below approach.

For example there is a decorator named decorator1 which takes an argument

@decorator1(5)
def func1(arg1, arg2):
    print (arg1, arg2)

func1(1, 2)

Now if the decorator1 argument has to be dynamic, or passed while calling the function,

def func1(arg1, arg2):
    print (arg1, arg2)


a = 1
b = 2
seconds = 10

decorator1(seconds)(func1)(a, b)

In the above code

  • seconds is the argument for decorator1
  • a, b are the arguments of func1
-1

simple as this

   def real_decorator(any_number_of_arguments):
        def pseudo_decorator(function_to_be_decorated):

            def real_wrapper(function_arguments):
                print(function_arguments)
                result = function_to_be_decorated(any_number_of_arguments)
                return result

            return real_wrapper
        return pseudo_decorator

Now

@real_decorator(any_number_of_arguments)
def some_function(function_arguments):
    return "Any"

Not the answer you're looking for? Browse other questions tagged or ask your own question.