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I understand that functions can have attributes. So I can do the following:

def myfunc():
    myfunc.attribute += 1

myfunc.attribute = 1

Is it possible by any means to make such a function behave as if it were an instance? For example, I'd like to be able to do something like this:

x = clever_wrapper(myfunc)
y = clever_wrapper(myfunc)
x.attribute = 5
y.attribute = 9
x()   # I want this to print 6 (from the 5 plus increment)
y()   # I want this to print 10 (from the 9 plus increment)

As it stands, there is only one "instance" of the function, so attribute only exists once. Modifying it by either x or y changes the same value. I'd like each of them to have their own attribute. Is that possible to do at all? If so, can you provide a simple, functional example?

It is important that I be able to access attribute from inside of the function but have the value of attribute be different depending on which "instance" of the function is called. Essentially, I'd like to use attribute as if it were another parameter to the function (so that it could change the behavior of the function) but not pass it in. (Suppose that the signature of the function were fixed so that I cannot change the parameter list.) But I need to be able to set the different values for attribute and then call the functions in sequence. I hope that makes sense.

The main answers seem to be saying to do something like this:

class wrapper(object):
    def __init__(self, target): = target
    def __call__(self, *args, **kwargs):
        return*args, **kwargs)

def test(a):
    return a + test.attribute

x = wrapper(test)
y = wrapper(test)
x.attribute = 2
y.attribute = 3

But that doesn't work. Maybe I've done it incorrectly, but it says that test does not have attribute. (I'm assuming that it's because wrapper actually has the attribute.)

The reason I need this is because I have a library that expects a function with a particular signature. It's possible to put those functions into a pipeline of sorts so that they're called in order. I'd like to pass it multiple versions of the same function but change their behavior based on an attribute's value. So I'd like to be able to add x and y to the pipeline, as opposed to having to implement a test1 function and a test2 function that both do almost exactly the same thing (except for the value of the attribute).

share|improve this question
Is there any particular reason you want a function and not a class? Is this just for education purposes or is there a real problem that you're trying to solve? – Wayne Werner Aug 11 '10 at 15:17
Class names should be PascalCase :) – Matt Williamson Aug 11 '10 at 15:41
Try my answer. I tested it and it works – Matt Williamson Aug 11 '10 at 15:43
It sounds a bit like you're trying to do currying: – Skilldrick Aug 11 '10 at 17:01
up vote 7 down vote accepted

You can make a class with a __call__ method which would achieve a similar thing.

Edit for clarity: Instead of making myfunc a function, make it a callable class. It walks like a function and it quacks like a function, but it can have members like a class.

share|improve this answer
I need to be able to access the attribute inside of the function. Would that still be possible using your approach? – agarrett Aug 11 '10 at 15:08
Yes; but he's using a class now (as a function), not a simple function. – Nick T Aug 11 '10 at 15:16
Yes, you can access any member of a class. We're all consenting adults here, we don't have private members ;) – Wayne Werner Aug 11 '10 at 15:16
Yes, since __call__ is just another method and gets self passed, you can access all attributes of self. – delnan Aug 11 '10 at 15:17
This doesn't work: class wrapper(object): def __init__(self, target): = target def __call__(self, *args, **kwargs): return*args, **kwargs) def test(a): return a + test.attribute x = wrapper(test) y = wrapper(test) x.attribute = 2 y.attribute = 3 print(x.attribute) print(y.attribute) print(x(3)) print(y(7)) So, how do I make this work? The function already exists, so I have to pass it into the class instance. I have to find a work-around that allows that. – agarrett Aug 11 '10 at 15:29
class Callable(object):
    def __init__(self, x):
        self.x = x

    def __call__(self):
        self.x += 1
        print self.x

>> c1 = Callable(5)
>> c2 = Callable(20)
>> c1()
>> c1()
>> c2()
>> c2()
share|improve this answer

A nicer way:

def funfactory( attribute ):
    def func( *args, **kwargs ):
        # stuff
        print( attribute )
        # more stuff

    return func

x = funfactory( 1 )
y = funfactory( 2 )

x( ) # 1
y( ) # 2

This works because the functions are closures, so they will grab all local variables in their scope; this causes a copy of attribute to be passed around with the function.

share|improve this answer
Woo! Functional :) – Skilldrick Aug 11 '10 at 17:02

A generator might be an alternate solution here:

def incgen(init):
    while True:
        init += 1
        print init

x = incgen(5)
y = incgen(9) # prints 6 # prints 10 # prints 11 # prints 7

You can't dig back in to the generator and manipulate the data though.

share|improve this answer
#!/usr/bin/env python
# encoding: utf-8

class Callable(object):
    attribute = 0

    def __call__(self, *args, **kwargs):
        return self.attribute

def main():
    c = Callable()
    c.attribute += 1
    print c()

if __name__ == '__main__':
share|improve this answer
+1 for example, -1 for mixing up class and instance variables = +0 – delnan Aug 11 '10 at 15:19
I was under the impression creating a new instance of a class made a copy of the class's dict. Or else how would it be accessible via self.? I'm just using it as an initializer. See an example: – Matt Williamson Aug 11 '10 at 15:23
You miss attribute += 1 – shiki Aug 11 '10 at 15:28
There I added it, but it doesn't make a difference. – Matt Williamson Aug 11 '10 at 15:40
It's half true -- either setting self.attribute in __init__, or setting in manually on the instance, c.attribute = ... will cause the instance to have its own copy. Without one of those two things happening, c.attribute would get the 0 from the class. – Ethan Furman Sep 28 '11 at 16:15

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