# Recursive fibonnaci-like cumulative [duplicate]

Possible Duplicate:
calling func. change the input

I have to write a recursive function that takes a list of numbers in input and returns a list of numbers in output, for example called like this:

``````rec_cumsum([2,2,2,3])
``````

the output should be like:

``````[2,4,6,9]
``````

Thing is, I cant seem to get my head around for this to work.. this got me questioning my whole recursive thinking.. what i have so far is :

``````newlist = []
k = 1
def rec_cumsum(numbers):
if len(numbers) == 0:
return 0
if len(numbers) > 1 and len(numbers) != (k+1):
newlist[k+1] == newlist[k+1] + newlist[k]
k = k+1
return rec_cumsum(numbers)
``````

but I'm getting errors which doesn't really make any sense to me. the recursion should always take the number, and add it to the one before it, than save it in the next location of the list.. (new one or original one)

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## marked as duplicate by Andy Hayden, Lev Levitsky, eryksun, Pondlife, bmarguliesNov 16 '12 at 23:34

In order to understand recursive thinking you have to understand recursive thinking :) –  Jason Sperske Nov 16 '12 at 19:09
This looks familiar. –  eryksun Nov 16 '12 at 19:11
@eryksun classmates? –  gokcehan Nov 16 '12 at 19:18
"but I am getting errors which doesn't really make any sense to me". You should state exactly what the errors are. –  mgilson Nov 16 '12 at 19:20

I would write it like this:

``````def cumulative_sum(lst,prev=0):
if not lst:
return []
else:
elem = prev+lst[0]
return [elem] + cumulative_sum(lst[1:],prev=elem)

print cumulative_sum([2,2,2,3])
``````

Now to look at your code (note I didn't actually work through the logic to decide whether it would give the correct result, the following only addresses possible exceptions that your code is probably throwing):

You're probably getting an IndexError because of this line:

``````newlist[k+1] == newlist[k+1] + newlist[k]
``````

You're assigning to a list position which doesn't exist yet. You could pre-allocate your list:

``````newlist = [0]*len(lst)
``````

but even if you fix that, you'll get a recursion error with your code because of the line:

``````k = k + 1
``````

The problem here is that on the left hand side, `k` is local whereas on the right hand side, `k` is global. So essentially each time you run this, you're getting the local `k == 2` and not touching the global one. If you really want to modify the global `k`, you need to declare `k` as global via `global k`. Of course, then you need to reset `k` every time you're going to use this function which would be a somewhat strange API.

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Is this allowed? It involves changing the method signature, albeit in a hidden way –  Jason Sperske Nov 16 '12 at 19:14
@JasonSperske -- I don't know. It's not my homework. Changing the function signature is the easiest way to do it (as far as I can see) -- Although I'm not a functional programmer really, so there's probably a better way –  mgilson Nov 16 '12 at 19:17
The more I try and work though this the more I'm starting to think you are right (about the method signature), and your explanation sealed the deal for me (you have clearly earned your 29.6K reputation :) –  Jason Sperske Nov 16 '12 at 19:22
@JasonSperske -- the accepted solution in the duplicate link on the question manages to do it without changing the signature. (quite clever if you ask me). But that solution needs to check 2 base cases which I find less elegant when python supports default arguments. –  mgilson Nov 16 '12 at 19:37
you can always wrap this function within an outer function and call the inner function inside if you really need to avoid signature change.. –  gokcehan Nov 16 '12 at 19:50