In a comment on the answer to another question, someone said they weren't sure what functools.wraps was doing. So I'm asking this question so that there will be a record of it on StackOverflow for future reference: what does functools.wraps do, exactly?
When you use a decorator, you're replacing one function with another. In other words, if you have a decorator
def logged(func): def with_logging(*args, **kwargs): print func.__name__ + " was called" return func(*args, **kwargs) return with_logging
then when you say
@logged def f(x): """does some math""" return x + x * x
it's exactly the same as saying
def f(x): """does some math""" return x + x * x f = logged(f)
and your function
f is replaced with the function with_logging. Unfortunately, this means that if you then say
it will print
with_logging because that's the name of your new function. In fact, if you look at the docstring for
f, it will be blank because
with_logging has no docstring, and so the docstring you wrote won't be there anymore. Also, if you look at the pydoc result for that function, it won't be listed as taking one argument
x; instead it'll be listed as taking
**kwargs because that's what with_logging takes.
If using a decorator always meant losing this information about a function, it would be a serious problem. That's why we have
functools.wraps. This takes a function used in a decorator and adds the functionality of copying over the function name, docstring, arguments list, etc. And since
wraps is itself a decorator, the following code does the correct thing:
from functools import wraps def logged(func): @wraps(func) def with_logging(*args, **kwargs): print func.__name__ + " was called" return func(*args, **kwargs) return with_logging @logged def f(x): """does some math""" return x + x * x print f.__name__ # prints 'f' print f.__doc__ # prints 'does some math'
I very often use classes, rather than functions, for my decorators. I was having some trouble with this because an object won't have all the same attributes that are expected of a function. For example, an object won't have the attribute
__name__. I had a specific issue with this that was pretty hard to trace where Django was reporting the error "object has no attribute '
__name__'". Unfortunately, for class-style decorators, I don't believe that @wrap will do the job. I have instead created a base decorator class like so:
class DecBase(object): func = None def __init__(self, func): self.__func = func def __getattribute__(self, name): if name == "func": return super(DecBase, self).__getattribute__(name) return self.func.__getattribute__(name) def __setattr__(self, name, value): if name == "func": return super(DecBase, self).__setattr__(name, value) return self.func.__setattr__(name, value)
This class proxies all the attribute calls over to the function that is being decorated. So, you can now create a simple decorator that checks that 2 arguments are specified like so:
class process_login(DecBase): def __call__(self, *args): if len(args) != 2: raise Exception("You can only specify two arguments") return self.func(*args)
Whenever we use For eg: @wraps followed by our own wrapper function. As per the details given in this link , it says that
functools.wraps is convenience function for invoking update_wrapper() as a function decorator, when defining a wrapper function.
It is equivalent to partial(update_wrapper, wrapped=wrapped, assigned=assigned, updated=updated).
So @wraps decorator actually gives a call to functools.partial(func[,*args][, **keywords]).
The functools.partial() definition says that
The partial() is used for partial function application which “freezes” some portion of a function’s arguments and/or keywords resulting in a new object with a simplified signature. For example, partial() can be used to create a callable that behaves like the int() function where the base argument defaults to two:
>>> from functools import partial >>> basetwo = partial(int, base=2) >>> basetwo.__doc__ = 'Convert base 2 string to an int.' >>> basetwo('10010') 18
Which brings me to the conclusion that, @wraps gives a call to partial() and it passes your wrapper function as a parameter to it. The partial() in the end returns the simplified version i.e the object of what's inside the wrapper function and not the wrapper function itself.
In short, functools.wraps is just a regular function. Let's consider this official example. With the help of the source code, we can see more details about the implementation and the running steps as follows:
- wraps(f) returns an object, say O1. It is an object of the class Partial
- The next step is @O1... which is the decorator notation in python. It means
Checking the implementation of __call__, we see that after this step, (the left hand side )wrapper becomes the object resulted by self.func(*self.args, *args, **newkeywords) Checking the creation of O1 in __new__, we know self.func is the function update_wrapper. It uses the parameter *args, the right hand side wrapper, as its 1st parameter. Checking the last step of update_wrapper, one can see the right hand side wrapper is returned, with some of attributes modified as needed.