I'm trying to make a recursive function, which calculates the biggest sub-palindrome.

For example the biggest sub.Pal. for "character" is "carac".

So far I've achieved my goal but only with a global variable "length" where i'm adding my values, but it would be nice if someone could show me how to do this with only recursive calls. I first tried to give the function a second parameter (length=0) and to add the value to it when i'm calling the function,but i'm not getting it to work properly.

Here's my Code:

```
length = 0
def subpalindrom(s):
global length
if len(s) == 1:
length += 1
return True, length
if len(s) == 0:
return True, length
elif s[0] != s[-1]:
for i in range(len(s) - 1, int(len(s) / 2) - 1, -1): # search right half, if there is smth. equal
if s[0] == s[i]:
length += 2
return subpalindrom(s[1:i]) # if smth. is equal slice it, add length
elif i == int(len(s) / 2):
# if index i is at half of the string and nothing was found, continue with next val on left half
return subpalindrom(s[1:])
else:
length += 2
return subpalindrom(s[1:-1])
print(subpalindrom("character"))
```

And if anyone could tell me how i can see which time complexity this function has it would be more than great. I would say that it is O(log n) but it's just a guess.

Edit: T(n) = T(n-2) + n/2 ? T(n-2) for recursive calls (because we slice 2 elements away) and + n/2 because of the for loop?

Thank you for your Time !