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I am writing a module that provides one function and needs an initialization step, however due to certain restrictions I need to initialize on first call, so I am looking for the proper idiom in python that would allow me to get rid of the conditional.

#with conditional
module.py
initialized = False
def function(*args):
   if not initialized: initialize()
   do_the_thing(*args)

I'd like to get rid of that conditional with something like this(it does not work):

#with no conditional
module.py
def function(*args):
   initialize()
   do_the_thing(*args)
   function = do_the_thing

I realize that I cannot just use names in the module and change them at runtime because modules using from module import function will never be affected with a function=other_fun inside the module.
So, is there any pythonic idiom that could do this the right way?

share|improve this question
    
google for 'python decorator' –  Triptych Nov 5 '11 at 12:42
    
I don't see how a decorator could do this, the conditional still remains there if you test @graphox solution, using a generator works as expected although it feels a bit weird. –  Arkaitz Jimenez Nov 5 '11 at 13:12

3 Answers 3

up vote 8 down vote accepted

The nothing-fancy way (of the methods I post here, this is probably the best way to do it):

module.py:

def initialize():
    print('initialize')
def do_the_thing(args):
    print('doing things',args)
def function(args):
    _function(args)
def firsttime(args):
    global _function
    initialize()
    do_the_thing(args)
    _function=do_the_thing
_function=firsttime

The idea is simple: you just add a layer of indirection. function always calls _function, but _function points first at firsttime, then forever after at do_the_thing.

test.py:

from module import function
function(1)
function([2,3])

Running test.py yields

initialize
('doing things', 1)
('doing things', [2, 3])

My first thought was to use a generator, but, as Triptych points out, there is no way to pass args to the function if you use a generator. So...

here is a way using a coroutine (which, unlike a generator, allows you to send args to -- as well as receive values from -- the coroutine):

module.py:

def coroutine(func):
    # http://www.dabeaz.com/coroutines/index.html
    def start(*args,**kwargs):
        cr = func(*args,**kwargs)
        cr.next()
        return cr
    return start

def initialize():
    print('initialize')

def do_the_thing(*args, **kwargs):
    print('doing things', args, kwargs)
    return ('result', args)

@coroutine
def _function():
    args, kwargs = (yield)
    initialize()
    while True:
        args, kwargs = (yield do_the_thing(*args, **kwargs))
_function = _function().send
def function(*args, **kwargs):
    # This is purely to overcome the limitation that send can only accept 1 argument
    return _function((args,kwargs))

Running

print(function(1, x = 2))
print(function([2, 3]))

yields

initialize
('doing things', (1,), {'x': 2})
('result', (1,))
('doing things', ([2, 3],), {})
('result', ([2, 3],))
share|improve this answer
    
this runs the initialize step at module load time, not at first invocation as OP requested... –  Triptych Nov 5 '11 at 12:59
    
@Triptych: I do not believe that is true. Have you tested it? –  unutbu Nov 5 '11 at 13:03
    
ah misread next as though it were next(). My bad... Still curious how you'd write to take arguments. Doesn't next have to be a zero-argument function? Seems just... weird to me. –  Triptych Nov 5 '11 at 13:07
    
@unutbu: this is a very cool example. I love finding another generator usage very much, thank you :) –  ikostia Nov 5 '11 at 13:33
    
I'm pretty sure hijacking .next like that will make Python complain if any args are sent... –  Triptych Nov 5 '11 at 13:39

My take on this: you shouldn't do this.

In case you need a "function" which has "initialization step" and normal work mode, you need a class instance. Do not try to be clever, future readers of your code would hate you for that :)

# module.py

class ThingDoer(object):
    def __init__(self):
        # initialize

    def do_the_thing(self, *args):
        # ...
share|improve this answer

You could also use a decorator, it's maybe more flexible if you have several functions to initialize:

import functools    

def initialize(initialize_function):
    def wrap(fn):
        fn.initialized = False
        @functools.wraps(fn)
        def wrapper(*args, **kwargs):
            if not fn.initialized:
                initialize_function()
                fn.initialized = True
            return fn(*args, **kwargs)
        return wrapper
    return wrap

def initialize_first_fn():
    print('first function initalized')

def initialize_second_fn():
    print('second function initalized')

@initialize(initialize_first_fn)
def first_fn(*args):
   print(*args)

@initialize(initialize_second_fn)
def second_fn(*args):
   print(*args)


>>>first_fn('initialize', 'please')
first function initalized
initialize please
>>> first_fn('it works')
it works
>>> second_fn('initialize', 'please')
second function initalized
initialize please
>>> second_fn('it also works')
it also works

(needs to be improved depending on your needs)

share|improve this answer
    
Hmm, does the wrapper code execute every call? I mean, the conditional would still be there on the second call, just evaluating to false, wouldn't it? –  Arkaitz Jimenez Nov 5 '11 at 13:08
1  
I'd use @functools.wraps(fn) on the def wrapper. That way the function you get back looks like the original function (first_fn, etc.). I'd probably also use a class-based decorator. –  Chris Morgan Nov 5 '11 at 13:09
    
I have just tested it and indeed, the "if not initialized" still happens every call, which is what I wanted to remove. :( –  Arkaitz Jimenez Nov 5 '11 at 13:11
    
@ChrisMorgan you're right, its' added, thanks! –  Nicolas Nov 5 '11 at 13:15
    
@ArkaitzJimenez it should work, can you give us your code? –  Nicolas Nov 5 '11 at 13:16

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