How to make a chain of function decorators?

How can I make two decorators in Python that would do the following?

@makebold
@makeitalic
def say():
   return "Hello"

...which should return:

"<b><i>Hello</i></b>"

I'm not trying to make HTML this way in a real application - just trying to understand how decorators and decorator chaining works.


Check out the documentation to see how decorators work. Here is what you asked for:

def makebold(fn):
    def wrapped():
        return "<b>" + fn() + "</b>"
    return wrapped

def makeitalic(fn):
    def wrapped():
        return "<i>" + fn() + "</i>"
    return wrapped

@makebold
@makeitalic
def hello():
    return "hello world"

print hello() ## returns "<b><i>hello world</i></b>"

If you are not into long explanations, see Paolo Bergantino's answer.

Decorator Basics

Python's functions are objects

To understand decorators, you must first understand that functions are objects in Python. This has important consequences. Let's see why with a simple example :

def shout(word="yes"):
    return word.capitalize()+"!"

print(shout())
# outputs : 'Yes!'

# As an object, you can assign the function to a variable like any other object 
scream = shout

# Notice we don't use parentheses: we are not calling the function,
# we are putting the function "shout" into the variable "scream".
# It means you can then call "shout" from "scream":

print(scream())
# outputs : 'Yes!'

# More than that, it means you can remove the old name 'shout',
# and the function will still be accessible from 'scream'

del shout
try:
    print(shout())
except NameError, e:
    print(e)
    #outputs: "name 'shout' is not defined"

print(scream())
# outputs: 'Yes!'

Keep this in mind. We'll circle back to it shortly.

Another interesting property of Python functions is they can be defined inside another function!

def talk():

    # You can define a function on the fly in "talk" ...
    def whisper(word="yes"):
        return word.lower()+"..."

    # ... and use it right away!
    print(whisper())

# You call "talk", that defines "whisper" EVERY TIME you call it, then
# "whisper" is called in "talk". 
talk()
# outputs: 
# "yes..."

# But "whisper" DOES NOT EXIST outside "talk":

try:
    print(whisper())
except NameError, e:
    print(e)
    #outputs : "name 'whisper' is not defined"*
    #Python's functions are objects

Functions references

Okay, still here? Now the fun part...

You've seen that functions are objects. Therefore, functions:

  • can be assigned to a variable
  • can be defined in another function
  • That means that a function can return another function .

    def getTalk(kind="shout"):
    
        # We define functions on the fly
        def shout(word="yes"):
            return word.capitalize()+"!"
    
        def whisper(word="yes") :
            return word.lower()+"...";
    
        # Then we return one of them
        if kind == "shout":
            # We don't use "()", we are not calling the function,
            # we are returning the function object
            return shout  
        else:
            return whisper
    
    # How do you use this strange beast?
    
    # Get the function and assign it to a variable
    talk = getTalk()      
    
    # You can see that "talk" is here a function object:
    print(talk)
    #outputs : <function shout at 0xb7ea817c>
    
    # The object is the one returned by the function:
    print(talk())
    #outputs : Yes!
    
    # And you can even use it directly if you feel wild:
    print(getTalk("whisper")())
    #outputs : yes...
    

    There's more!

    If you can return a function, you can pass one as a parameter:

    def doSomethingBefore(func): 
        print("I do something before then I call the function you gave me")
        print(func())
    
    doSomethingBefore(scream)
    #outputs: 
    #I do something before then I call the function you gave me
    #Yes!
    

    Well, you just have everything needed to understand decorators. You see, decorators are “wrappers”, which means that they let you execute code before and after the function they decorate without modifying the function itself.

    Handcrafted decorators

    How you'd do it manually:

    # A decorator is a function that expects ANOTHER function as parameter
    def my_shiny_new_decorator(a_function_to_decorate):
    
        # Inside, the decorator defines a function on the fly: the wrapper.
        # This function is going to be wrapped around the original function
        # so it can execute code before and after it.
        def the_wrapper_around_the_original_function():
    
            # Put here the code you want to be executed BEFORE the original function is called
            print("Before the function runs")
    
            # Call the function here (using parentheses)
            a_function_to_decorate()
    
            # Put here the code you want to be executed AFTER the original function is called
            print("After the function runs")
    
        # At this point, "a_function_to_decorate" HAS NEVER BEEN EXECUTED.
        # We return the wrapper function we have just created.
        # The wrapper contains the function and the code to execute before and after. It’s ready to use!
        return the_wrapper_around_the_original_function
    
    # Now imagine you create a function you don't want to ever touch again.
    def a_stand_alone_function():
        print("I am a stand alone function, don't you dare modify me")
    
    a_stand_alone_function() 
    #outputs: I am a stand alone function, don't you dare modify me
    
    # Well, you can decorate it to extend its behavior.
    # Just pass it to the decorator, it will wrap it dynamically in 
    # any code you want and return you a new function ready to be used:
    
    a_stand_alone_function_decorated = my_shiny_new_decorator(a_stand_alone_function)
    a_stand_alone_function_decorated()
    #outputs:
    #Before the function runs
    #I am a stand alone function, don't you dare modify me
    #After the function runs
    

    Now, you probably want that every time you call a_stand_alone_function , a_stand_alone_function_decorated is called instead. That's easy, just overwrite a_stand_alone_function with the function returned by my_shiny_new_decorator :

    a_stand_alone_function = my_shiny_new_decorator(a_stand_alone_function)
    a_stand_alone_function()
    #outputs:
    #Before the function runs
    #I am a stand alone function, don't you dare modify me
    #After the function runs
    
    # That’s EXACTLY what decorators do!
    

    Decorators demystified

    The previous example, using the decorator syntax:

    @my_shiny_new_decorator
    def another_stand_alone_function():
        print("Leave me alone")
    
    another_stand_alone_function()  
    #outputs:  
    #Before the function runs
    #Leave me alone
    #After the function runs
    

    Yes, that's all, it's that simple. @decorator is just a shortcut to:

    another_stand_alone_function = my_shiny_new_decorator(another_stand_alone_function)
    

    Decorators are just a pythonic variant of the decorator design pattern. There are several classic design patterns embedded in Python to ease development (like iterators).

    Of course, you can accumulate decorators:

    def bread(func):
        def wrapper():
            print("</''''''>")
            func()
            print("<______/>")
        return wrapper
    
    def ingredients(func):
        def wrapper():
            print("#tomatoes#")
            func()
            print("~salad~")
        return wrapper
    
    def sandwich(food="--ham--"):
        print(food)
    
    sandwich()
    #outputs: --ham--
    sandwich = bread(ingredients(sandwich))
    sandwich()
    #outputs:
    #</''''''>
    # #tomatoes#
    # --ham--
    # ~salad~
    #<______/>
    

    Using the Python decorator syntax:

    @bread
    @ingredients
    def sandwich(food="--ham--"):
        print(food)
    
    sandwich()
    #outputs:
    #</''''''>
    # #tomatoes#
    # --ham--
    # ~salad~
    #<______/>
    

    The order you set the decorators MATTERS:

    @ingredients
    @bread
    def strange_sandwich(food="--ham--"):
        print(food)
    
    strange_sandwich()
    #outputs:
    ##tomatoes#
    #</''''''>
    # --ham--
    #<______/>
    # ~salad~
    

    Now: to answer the question...

    As a conclusion, you can easily see how to answer the question:

    # The decorator to make it bold
    def makebold(fn):
        # The new function the decorator returns
        def wrapper():
            # Insertion of some code before and after
            return "<b>" + fn() + "</b>"
        return wrapper
    
    # The decorator to make it italic
    def makeitalic(fn):
        # The new function the decorator returns
        def wrapper():
            # Insertion of some code before and after
            return "<i>" + fn() + "</i>"
        return wrapper
    
    @makebold
    @makeitalic
    def say():
        return "hello"
    
    print(say())
    #outputs: <b><i>hello</i></b>
    
    # This is the exact equivalent to 
    def say():
        return "hello"
    say = makebold(makeitalic(say))
    
    print(say())
    #outputs: <b><i>hello</i></b>
    

    You can now just leave happy, or burn your brain a little bit more and see advanced uses of decorators.


    Taking decorators to the next level

    Passing arguments to the decorated function

    # It’s not black magic, you just have to let the wrapper 
    # pass the argument:
    
    def a_decorator_passing_arguments(function_to_decorate):
        def a_wrapper_accepting_arguments(arg1, arg2):
            print("I got args! Look: {0}, {1}".format(arg1, arg2))
            function_to_decorate(arg1, arg2)
        return a_wrapper_accepting_arguments
    
    # Since when you are calling the function returned by the decorator, you are
    # calling the wrapper, passing arguments to the wrapper will let it pass them to 
    # the decorated function
    
    @a_decorator_passing_arguments
    def print_full_name(first_name, last_name):
        print("My name is {0} {1}".format(first_name, last_name))
    
    print_full_name("Peter", "Venkman")
    # outputs:
    #I got args! Look: Peter Venkman
    #My name is Peter Venkman
    

    Decorating methods

    One nifty thing about Python is that methods and functions are really the same. The only difference is that methods expect that their first argument is a reference to the current object ( self ).

    That means you can build a decorator for methods the same way! Just remember to take self into consideration:

    def method_friendly_decorator(method_to_decorate):
        def wrapper(self, lie):
            lie = lie - 3 # very friendly, decrease age even more :-)
            return method_to_decorate(self, lie)
        return wrapper
    
    
    class Lucy(object):
    
        def __init__(self):
            self.age = 32
    
        @method_friendly_decorator
        def sayYourAge(self, lie):
            print("I am {0}, what did you think?".format(self.age + lie))
    
    l = Lucy()
    l.sayYourAge(-3)
    #outputs: I am 26, what did you think?
    

    If you're making general-purpose decorator--one you'll apply to any function or method, no matter its arguments--then just use *args, **kwargs :

    def a_decorator_passing_arbitrary_arguments(function_to_decorate):
        # The wrapper accepts any arguments
        def a_wrapper_accepting_arbitrary_arguments(*args, **kwargs):
            print("Do I have args?:")
            print(args)
            print(kwargs)
            # Then you unpack the arguments, here *args, **kwargs
            # If you are not familiar with unpacking, check:
            # http://www.saltycrane.com/blog/2008/01/how-to-use-args-and-kwargs-in-python/
            function_to_decorate(*args, **kwargs)
        return a_wrapper_accepting_arbitrary_arguments
    
    @a_decorator_passing_arbitrary_arguments
    def function_with_no_argument():
        print("Python is cool, no argument here.")
    
    function_with_no_argument()
    #outputs
    #Do I have args?:
    #()
    #{}
    #Python is cool, no argument here.
    
    @a_decorator_passing_arbitrary_arguments
    def function_with_arguments(a, b, c):
        print(a, b, c)
    
    function_with_arguments(1,2,3)
    #outputs
    #Do I have args?:
    #(1, 2, 3)
    #{}
    #1 2 3 
    
    @a_decorator_passing_arbitrary_arguments
    def function_with_named_arguments(a, b, c, platypus="Why not ?"):
        print("Do {0}, {1} and {2} like platypus? {3}".format(a, b, c, platypus))
    
    function_with_named_arguments("Bill", "Linus", "Steve", platypus="Indeed!")
    #outputs
    #Do I have args ? :
    #('Bill', 'Linus', 'Steve')
    #{'platypus': 'Indeed!'}
    #Do Bill, Linus and Steve like platypus? Indeed!
    
    class Mary(object):
    
        def __init__(self):
            self.age = 31
    
        @a_decorator_passing_arbitrary_arguments
        def sayYourAge(self, lie=-3): # You can now add a default value
            print("I am {0}, what did you think?".format(self.age + lie))
    
    m = Mary()
    m.sayYourAge()
    #outputs
    # Do I have args?:
    #(<__main__.Mary object at 0xb7d303ac>,)
    #{}
    #I am 28, what did you think?
    

    Passing arguments to the decorator

    Great, now what would you say about passing arguments to the decorator itself?

    This can get somewhat twisted, since a decorator must accept a function as an argument. Therefore, you cannot pass the decorated function's arguments directly to the decorator.

    Before rushing to the solution, let's write a little reminder:

    # Decorators are ORDINARY functions
    def my_decorator(func):
        print("I am an ordinary function")
        def wrapper():
            print("I am function returned by the decorator")
            func()
        return wrapper
    
    # Therefore, you can call it without any "@"
    
    def lazy_function():
        print("zzzzzzzz")
    
    decorated_function = my_decorator(lazy_function)
    #outputs: I am an ordinary function
    
    # It outputs "I am an ordinary function", because that’s just what you do:
    # calling a function. Nothing magic.
    
    @my_decorator
    def lazy_function():
        print("zzzzzzzz")
    
    #outputs: I am an ordinary function
    

    It's exactly the same. " my_decorator " is called. So when you @my_decorator , you are telling Python to call the function 'labelled by the variable " my_decorator "'.

    This is important! The label you give can point directly to the decorator— or not .

    Let's get evil. ☺

    def decorator_maker():
    
        print("I make decorators! I am executed only once: "
              "when you make me create a decorator.")
    
        def my_decorator(func):
    
            print("I am a decorator! I am executed only when you decorate a function.")
    
            def wrapped():
                print("I am the wrapper around the decorated function. "
                      "I am called when you call the decorated function. "
                      "As the wrapper, I return the RESULT of the decorated function.")
                return func()
    
            print("As the decorator, I return the wrapped function.")
    
            return wrapped
    
        print("As a decorator maker, I return a decorator")
        return my_decorator
    
    # Let’s create a decorator. It’s just a new function after all.
    new_decorator = decorator_maker()       
    #outputs:
    #I make decorators! I am executed only once: when you make me create a decorator.
    #As a decorator maker, I return a decorator
    
    # Then we decorate the function
    
    def decorated_function():
        print("I am the decorated function.")
    
    decorated_function = new_decorator(decorated_function)
    #outputs:
    #I am a decorator! I am executed only when you decorate a function.
    #As the decorator, I return the wrapped function
    
    # Let’s call the function:
    decorated_function()
    #outputs:
    #I am the wrapper around the decorated function. I am called when you call the decorated function.
    #As the wrapper, I return the RESULT of the decorated function.
    #I am the decorated function.
    

    No surprise here.

    Let's do EXACTLY the same thing, but skip all the pesky intermediate variables:

    def decorated_function():
        print("I am the decorated function.")
    decorated_function = decorator_maker()(decorated_function)
    #outputs:
    #I make decorators! I am executed only once: when you make me create a decorator.
    #As a decorator maker, I return a decorator
    #I am a decorator! I am executed only when you decorate a function.
    #As the decorator, I return the wrapped function.
    
    # Finally:
    decorated_function()    
    #outputs:
    #I am the wrapper around the decorated function. I am called when you call the decorated function.
    #As the wrapper, I return the RESULT of the decorated function.
    #I am the decorated function.
    

    Let's make it even shorter:

    @decorator_maker()
    def decorated_function():
        print("I am the decorated function.")
    #outputs:
    #I make decorators! I am executed only once: when you make me create a decorator.
    #As a decorator maker, I return a decorator
    #I am a decorator! I am executed only when you decorate a function.
    #As the decorator, I return the wrapped function.
    
    #Eventually: 
    decorated_function()    
    #outputs:
    #I am the wrapper around the decorated function. I am called when you call the decorated function.
    #As the wrapper, I return the RESULT of the decorated function.
    #I am the decorated function.
    

    Hey, did you see that? We used a function call with the " @ " syntax! :-)

    So, back to decorators with arguments. If we can use functions to generate the decorator on the fly, we can pass arguments to that function, right?

    def decorator_maker_with_arguments(decorator_arg1, decorator_arg2):
    
        print("I make decorators! And I accept arguments: {0}, {1}".format(decorator_arg1, decorator_arg2))
    
        def my_decorator(func):
            # The ability to pass arguments here is a gift from closures.
            # If you are not comfortable with closures, you can assume it’s ok,
            # or read: https://stackoverflow.com/questions/13857/can-you-explain-closures-as-they-relate-to-python
            print("I am the decorator. Somehow you passed me arguments: {0}, {1}".format(decorator_arg1, decorator_arg2))
    
            # Don't confuse decorator arguments and function arguments!
            def wrapped(function_arg1, function_arg2) :
                print("I am the wrapper around the decorated function.n"
                      "I can access all the variablesn"
                      "t- from the decorator: {0} {1}n"
                      "t- from the function call: {2} {3}n"
                      "Then I can pass them to the decorated function"
                      .format(decorator_arg1, decorator_arg2,
                              function_arg1, function_arg2))
                return func(function_arg1, function_arg2)
    
            return wrapped
    
        return my_decorator
    
    @decorator_maker_with_arguments("Leonard", "Sheldon")
    def decorated_function_with_arguments(function_arg1, function_arg2):
        print("I am the decorated function and only knows about my arguments: {0}"
               " {1}".format(function_arg1, function_arg2))
    
    decorated_function_with_arguments("Rajesh", "Howard")
    #outputs:
    #I make decorators! And I accept arguments: Leonard Sheldon
    #I am the decorator. Somehow you passed me arguments: Leonard Sheldon
    #I am the wrapper around the decorated function. 
    #I can access all the variables 
    #   - from the decorator: Leonard Sheldon 
    #   - from the function call: Rajesh Howard 
    #Then I can pass them to the decorated function
    #I am the decorated function and only knows about my arguments: Rajesh Howard
    

    Here it is: a decorator with arguments. Arguments can be set as variable:

    c1 = "Penny"
    c2 = "Leslie"
    
    @decorator_maker_with_arguments("Leonard", c1)
    def decorated_function_with_arguments(function_arg1, function_arg2):
        print("I am the decorated function and only knows about my arguments:"
               " {0} {1}".format(function_arg1, function_arg2))
    
    decorated_function_with_arguments(c2, "Howard")
    #outputs:
    #I make decorators! And I accept arguments: Leonard Penny
    #I am the decorator. Somehow you passed me arguments: Leonard Penny
    #I am the wrapper around the decorated function. 
    #I can access all the variables 
    #   - from the decorator: Leonard Penny 
    #   - from the function call: Leslie Howard 
    #Then I can pass them to the decorated function
    #I am the decorated function and only knows about my arguments: Leslie Howard
    

    As you can see, you can pass arguments to the decorator like any function using this trick. You can even use *args, **kwargs if you wish. But remember decorators are called only once . Just when Python imports the script. You can't dynamically set the arguments afterwards. When you do "import x", the function is already decorated , so you can't change anything.


    Let's practice: decorating a decorator

    Okay, as a bonus, I'll give you a snippet to make any decorator accept generically any argument. After all, in order to accept arguments, we created our decorator using another function.

    We wrapped the decorator.

    Anything else we saw recently that wrapped function?

    Oh yes, decorators!

    Let's have some fun and write a decorator for the decorators:

    def decorator_with_args(decorator_to_enhance):
        """ 
        This function is supposed to be used as a decorator.
        It must decorate an other function, that is intended to be used as a decorator.
        Take a cup of coffee.
        It will allow any decorator to accept an arbitrary number of arguments,
        saving you the headache to remember how to do that every time.
        """
    
        # We use the same trick we did to pass arguments
        def decorator_maker(*args, **kwargs):
    
            # We create on the fly a decorator that accepts only a function
            # but keeps the passed arguments from the maker.
            def decorator_wrapper(func):
    
                # We return the result of the original decorator, which, after all, 
                # IS JUST AN ORDINARY FUNCTION (which returns a function).
                # Only pitfall: the decorator must have this specific signature or it won't work:
                return decorator_to_enhance(func, *args, **kwargs)
    
            return decorator_wrapper
    
        return decorator_maker
    

    It can be used as follows:

    # You create the function you will use as a decorator. And stick a decorator on it :-)
    # Don't forget, the signature is "decorator(func, *args, **kwargs)"
    @decorator_with_args 
    def decorated_decorator(func, *args, **kwargs): 
        def wrapper(function_arg1, function_arg2):
            print("Decorated with {0} {1}".format(args, kwargs))
            return func(function_arg1, function_arg2)
        return wrapper
    
    # Then you decorate the functions you wish with your brand new decorated decorator.
    
    @decorated_decorator(42, 404, 1024)
    def decorated_function(function_arg1, function_arg2):
        print("Hello {0} {1}".format(function_arg1, function_arg2))
    
    decorated_function("Universe and", "everything")
    #outputs:
    #Decorated with (42, 404, 1024) {}
    #Hello Universe and everything
    
    # Whoooot!
    

    I know, the last time you had this feeling, it was after listening a guy saying: "before understanding recursion, you must first understand recursion". But now, don't you feel good about mastering this?


    Best practices: decorators

  • Decorators were introduced in Python 2.4, so be sure your code will be run on >= 2.4.
  • Decorators slow down the function call. Keep that in mind.
  • You cannot un-decorate a function. (There are hacks to create decorators that can be removed, but nobody uses them.) So once a function is decorated, it's decorated for all the code.
  • Decorators wrap functions, which can make them hard to debug. (This gets better from Python >= 2.5; see below.)
  • The functools module was introduced in Python 2.5. It includes the function functools.wraps() , which copies the name, module, and docstring of the decorated function to its wrapper.

    (Fun fact: functools.wraps() is a decorator! ☺)

    # For debugging, the stacktrace prints you the function __name__
    def foo():
        print("foo")
    
    print(foo.__name__)
    #outputs: foo
    
    # With a decorator, it gets messy    
    def bar(func):
        def wrapper():
            print("bar")
            return func()
        return wrapper
    
    @bar
    def foo():
        print("foo")
    
    print(foo.__name__)
    #outputs: wrapper
    
    # "functools" can help for that
    
    import functools
    
    def bar(func):
        # We say that "wrapper", is wrapping "func"
        # and the magic begins
        @functools.wraps(func)
        def wrapper():
            print("bar")
            return func()
        return wrapper
    
    @bar
    def foo():
        print("foo")
    
    print(foo.__name__)
    #outputs: foo
    

    How can the decorators be useful?

    Now the big question: What can I use decorators for?

    Seem cool and powerful, but a practical example would be great. Well, there are 1000 possibilities. Classic uses are extending a function behavior from an external lib (you can't modify it), or for debugging (you don't want to modify it because it's temporary).

    You can use them to extend several functions in a DRY's way, like so:

    def benchmark(func):
        """
        A decorator that prints the time a function takes
        to execute.
        """
        import time
        def wrapper(*args, **kwargs):
            t = time.clock()
            res = func(*args, **kwargs)
            print("{0} {1}".format(func.__name__, time.clock()-t))
            return res
        return wrapper
    
    
    def logging(func):
        """
        A decorator that logs the activity of the script.
        (it actually just prints it, but it could be logging!)
        """
        def wrapper(*args, **kwargs):
            res = func(*args, **kwargs)
            print("{0} {1} {2}".format(func.__name__, args, kwargs))
            return res
        return wrapper
    
    
    def counter(func):
        """
        A decorator that counts and prints the number of times a function has been executed
        """
        def wrapper(*args, **kwargs):
            wrapper.count = wrapper.count + 1
            res = func(*args, **kwargs)
            print("{0} has been used: {1}x".format(func.__name__, wrapper.count))
            return res
        wrapper.count = 0
        return wrapper
    
    @counter
    @benchmark
    @logging
    def reverse_string(string):
        return str(reversed(string))
    
    print(reverse_string("Able was I ere I saw Elba"))
    print(reverse_string("A man, a plan, a canoe, pasta, heros, rajahs, a coloratura, maps, snipe, percale, macaroni, a gag, a banana bag, a tan, a tag, a banana bag again (or a camel), a crepe, pins, Spam, a rut, a Rolo, cash, a jar, sore hats, a peon, a canal: Panama!"))
    
    #outputs:
    #reverse_string ('Able was I ere I saw Elba',) {}
    #wrapper 0.0
    #wrapper has been used: 1x 
    #ablE was I ere I saw elbA
    #reverse_string ('A man, a plan, a canoe, pasta, heros, rajahs, a coloratura, maps, snipe, percale, macaroni, a gag, a banana bag, a tan, a tag, a banana bag again (or a camel), a crepe, pins, Spam, a rut, a Rolo, cash, a jar, sore hats, a peon, a canal: Panama!',) {}
    #wrapper 0.0
    #wrapper has been used: 2x
    #!amanaP :lanac a ,noep a ,stah eros ,raj a ,hsac ,oloR a ,tur a ,mapS ,snip ,eperc a ,)lemac a ro( niaga gab ananab a ,gat a ,nat a ,gab ananab a ,gag a ,inoracam ,elacrep ,epins ,spam ,arutaroloc a ,shajar ,soreh ,atsap ,eonac a ,nalp a ,nam A
    

    Of course the good thing with decorators is that you can use them right away on almost anything without rewriting. DRY, I said:

    @counter
    @benchmark
    @logging
    def get_random_futurama_quote():
        from urllib import urlopen
        result = urlopen("http://subfusion.net/cgi-bin/quote.pl?quote=futurama").read()
        try:
            value = result.split("<br><b><hr><br>")[1].split("<br><br><hr>")[0]
            return value.strip()
        except:
            return "No, I'm ... doesn't!"
    
    
    print(get_random_futurama_quote())
    print(get_random_futurama_quote())
    
    #outputs:
    #get_random_futurama_quote () {}
    #wrapper 0.02
    #wrapper has been used: 1x
    #The laws of science be a harsh mistress.
    #get_random_futurama_quote () {}
    #wrapper 0.01
    #wrapper has been used: 2x
    #Curse you, merciful Poseidon!
    

    Python itself provides several decorators: property , staticmethod , etc.

  • Django uses decorators to manage caching and view permissions.
  • Twisted to fake inlining asynchronous functions calls.
  • This really is a large playground.


    Alternatively, you could write a factory function which return a decorator which wraps the return value of the decorated function in a tag passed to the factory function. For example:

    from functools import wraps
    
    def wrap_in_tag(tag):
        def factory(func):
            @wraps(func)
            def decorator():
                return '<%(tag)s>%(rv)s</%(tag)s>' % (
                    {'tag': tag, 'rv': func()})
            return decorator
        return factory
    

    This enables you to write:

    @wrap_in_tag('b')
    @wrap_in_tag('i')
    def say():
        return 'hello'
    

    or

    makebold = wrap_in_tag('b')
    makeitalic = wrap_in_tag('i')
    
    @makebold
    @makeitalic
    def say():
        return 'hello'
    

    Personally I would have written the decorator somewhat differently:

    from functools import wraps
    
    def wrap_in_tag(tag):
        def factory(func):
            @wraps(func)
            def decorator(val):
                return func('<%(tag)s>%(val)s</%(tag)s>' %
                            {'tag': tag, 'val': val})
            return decorator
        return factory
    

    which would yield:

    @wrap_in_tag('b')
    @wrap_in_tag('i')
    def say(val):
        return val
    say('hello')
    

    Don't forget the construction for which decorator syntax is a shorthand:

    say = wrap_in_tag('b')(wrap_in_tag('i')(say)))
    
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