# Simple function that returns a number incremented by 1 on each call, without globals?

I am trying to write a python function that on the first call, returns a 1. On the second call, returns a 2. On the third, a 3. Etc.

Currently, I have achieved this using a global variable:

``````index = 0

def foo():
global index
index += 1
return index
``````

When calling the function three times:

``````print(foo())
print(foo())
print(foo())
``````

It returns the values expected:

``````1
2
3
``````

But, I've read that it is bad practice to use global variables. So, I was wondering if the same result could be achieved without using globals.

Any suggestion?

Using a closure:

``````def make_inc():
val = [0]
def inc():
val[0] += 1
return val[0]
return inc

inc = make_inc()
print inc()
print inc()
print inc()
``````

Using a class (the most obvious solution in an OOPL ):

``````class Inc(object):
def __init__(self):
self._val = 0

def __call__(self):
self._val += 1
return self._val

inc = Inc()
print inc()
print inc()
print inc()
``````

Using a generator (not directly callable, you'll have to use the `.next()` method):

``````def incgen():
val = 0
while True:
val += 1
yield val

inc = incgen()
print inc.next()
print inc.next()
print inc.next()
``````
• Your generator code should probably use `next(inc); next(inc)` instead of `inc.next()` because the former works in python2.6+ and also in python3, while the latter only works in python2.x – Bakuriu Jul 19 '16 at 10:21
• @Bakuriu yes sorry I still have to switch to py3K <g> – bruno desthuilliers Jul 19 '16 at 10:22

You can use function attributes:

``````def f():
f.counter = getattr(f, 'counter', 0) + 1
return f.counter
``````

Or closures:

``````def w():
counter = 0
def f():
nonlocal counter
counter += 1
return counter
return f
``````
• `nonlocal` is Python3 only IIRC. wrt/ to the "function attribute" trick, I would definitly not recommand it, as it's really brittle (add `g = f; f = lambda : None` after `f` definition and you'll find out why). – bruno desthuilliers Jul 19 '16 at 10:21

I will provide an alternative solution to Sergey's answer: exploit mutable default arguments!

``````def f(_=[0]):
_[0] += 1
return _[0]
``````

This has the disadvantage that a user might incorrectly call the function with one argument and it will not receive an error message.

Can you use an object?

``````class Incrementer:
def __init__(self):
self.value = 0

def __call__(self):
print(self.value)
self.value += 1
``````

Then you can call it like a function after instantiating it:

``````>>> a = Incrementer()
>>> a()
0
>>>a()
1
``````

You can use generator also.

``````def yrange(n):
i = 0
while i < n:
yield i
i += 1
``````

Output:

``````>>> y = yrange(3)
>>> y
<generator object yrange at 0x401f30>
>>> y.next()
0
>>> y.next()
1
>>> y.next()
2
>>> y.next()
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
StopIteration
``````

You can also improve generator, make it more flexible:

``````def counter_gen():
count = 0
while True:
res = yield count
count += res

>>> counter = counter_gen()
>>> counter.send(None) #initialize generator
>>> 0
>>> counter.send(1)
>>> 1
>>> counter.send(3)
>>> 4
``````