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I am maintaining a little library of useful functions for interacting with my company's APIs and I have come across (what I think is) a neat question that I can't find the answer to.

I frequently have to request large amounts of data from an API, so I do something like:

class Client(object):
    def __init__(self):
        self.data = []

    def get_data(self, offset = 0):
        done = False
        while not done:
            data = get_more_starting_at(offset)
            self.data.extend(data)
            offset += 1
            if not data:
                done = True

This works fine and allows me to restart the retrieval where I left off if something goes horribly wrong. However, since python functions are just regular objects, we can do stuff like:

def yo():
    yo.hi = "yo!"
    return None

and then we can interrogate yo about its properties later, like:

yo.hi => "yo!"

my question is: Can I rewrite my class-based example to pin the data to the function itself, without referring to the function by name. I know I can do this by:

def get_data(offset=0):
    done = False
    get_data.data = []
    while not done:
        data = get_more_starting_from(offset)
        get_data.data.extend(data)
        offset += 1
        if not data:
            done = True
    return get_data.data

but I would like to do something like:

def get_data(offset=0):
    done = False
    self.data = [] # <===== this is the bit I can't figure out
    while not done:
        data = get_more_starting_from(offset)
        self.data.extend(data) # <====== also this!
        offset += 1
        if not data:
            done = True
    return self.data # <======== want to refer to the "current" object

Is it possible to refer to the "current" object by anything other than its name? Something like "this", "self", or "memememe!" is what I'm looking for.

share|improve this question
    
If you do this, you have one such binding per function object - in many cases (except if you use higher-order functions), that means once per interpreter process. So barring certain circumstances, you're asking for global state. And in your example, you don't even need anything like that, you can simply use a local variable. –  delnan Mar 28 '12 at 17:35
    
@agf, they are not meant to be instance methods. I am wondering about using functions (not methods) as an object to hold data for use across multiple calls to the function. –  Andbdrew Mar 28 '12 at 17:44
    
@Andbdrew So your question is "How can I refer to a function not by name within itself?" or is it "How can a function store multiple different sets of data for multiple passes?" –  agf Mar 28 '12 at 17:45
    
@agf It is "How can I refer to a function not by name within itself?" Thanks for clarifying! –  Andbdrew Mar 28 '12 at 17:48
1  
The question does not make much sense, as a function exists exactly once. You can always refer to it by name. That self would simply be a macro to insert the function name, a task more suitable for a text editor. The point of a classes 'self' is that there can be multiple instances and you have to be able to refer to the current one. –  Jochen Ritzel Mar 28 '12 at 17:56

3 Answers 3

up vote 3 down vote accepted

I don't understand why you want to do this, but it's what a fixed point combinator allows you to do:

import functools

def Y(f):
    @functools.wraps(f)
    def Yf(*args):
        return inner(*args)
    inner = f(Yf)
    return Yf

@Y
def get_data(f):
    def inner_get_data(*args):
        # This is your real get data function
        # define it as normal
        # but just refer to it as 'f' inside itself
        print 'setting get_data.foo to', args
        f.foo = args
    return inner_get_data

get_data(1, 2, 3)

print get_data.foo

So you call get_data as normal, and it "magically" knows that f means itself.

share|improve this answer
    
awesome. For now, I just want to do this for fun, but I may have some more mundane (read useful) purpose at another time! thanks! –  Andbdrew Mar 28 '12 at 18:08
    
Nice. I have in the past recommended a decorator for this (having the reference to the function passed in as the first argument, a la self) but this is slicker in some ways. –  kindall Mar 28 '12 at 18:49
    
@kindall I really never thought there could be any reason to use a fixed point combinator in Python, but this is the second question in a week where I got to use it (see my last comment on the question). –  agf Mar 28 '12 at 19:01
    
I clearly need to learn more functional programming. –  kindall Mar 28 '12 at 19:04

You could do this, but (a) the data is not per-function-invocation, but per function (b) it's much easier to achieve this sort of thing with a class.

If you had to do it, you might do something like this:

def ybother(a,b,c,yrselflambda = lambda: ybother):
    yrself = yrselflambda()
    #other stuff

The lambda is necessary, because you need to delay evaluation of the term ybother until something has been bound to it.

Alternatively, and increasingly pointlessly:

from functools import partial
def ybother(a,b,c,yrself=None):
    #whatever
    yrself.data = [] # this will blow up if the default argument is used
    #more stuff

bothered = partial(ybother, yrself=ybother)

Or:

def unbothered(a,b,c):
    def inbothered(yrself):
        #whatever
        yrself.data = []

    return inbothered, inbothered(inbothered)

This last version gives you a different function object each time, which you might like.

There are almost certainly introspective tricks to do this, but they are even less worthwhile.

share|improve this answer
    
You're still referring to the function by name. I don't see what this gains him? You can already use the function name inside its body because the body isn't executed until after the function is defined. –  agf Mar 28 '12 at 17:43
    
@agf I'm not sure what any of this gets him. This answer avoids having to have the name of the function inside the function, which I understand is what OP wanted. –  Marcin Mar 28 '12 at 17:44
    
@Marcin your answers are cool also! Thank you for your time responding! It seems like functools is totally sweet. –  Andbdrew Mar 28 '12 at 18:31
2  
Great update. The last one is essentially what you get out of the fixed point combinator if you apply the transform in the inner function (return f(Yf)(*args) inside Yf) instead of outside it. –  agf Mar 28 '12 at 19:01

Not sure what doing it like this gains you, but what about using a decorator.

import functools

def add_self(f):
    @functools.wraps(f)
    def wrapper(*args,**kwargs):
        if not getattr(f, 'content', None):
            f.content = []
        return f(f, *args, **kwargs)
    return wrapper

@add_self
def example(self, arg1):
    self.content.append(arg1)
    print self.content


example(1)
example(2)
example(3)

OUTPUT

[1]
[1, 2]
[1, 2, 3]
share|improve this answer

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