# Trying to understand the space complexity of concatenated string output

I had this problem in a coding interview:

``````# AAABB should return A3B2
``````

This is a classic algorithm interview question. I said that I can solve this in `O(n)` time and `O(1)` space.

``````def compress(s):

output = ''
count = 1

for i in range(len(s)-1):
if s[i] == s[i+1]:
count+=1
else:
output = output + s[i] + str(count)
count=1

output = output +s[i+1] + str(count)
return output

compress('AAABB') #returns A3B2
``````

I understand that `O(n)` space means that it grows proportionally with the size of input. So I was thinking that `O(n)` space would look something like `[(A,3),(B,2)]`.

I am under the impression that `A3B2` is in `O(1)` space since it's not being split up into multiple strings.

I now realized that `n == len(s)` and my output grows un-proportionally (less) with my input size, so is it correct to say that space is `O(log n)`?

• Wouldn't space be based on the number of unique characters in the string? I'm just guessing here but I'd imagine they were hoping you would discuss whether or not you could do this transformation in place vs. creating a new string for the final result, etc. – user3483203 Jun 16 '18 at 1:45
• If the input is `ABCDE` the output will be `A1B1C1D1E1`. So the worst case is O(n) space. – Barmar Jun 16 '18 at 1:50
• Also, you are thinking of constant space wrong. For example, by simply allocating an output string you have exceeded O(1) space complexity – user3483203 Jun 16 '18 at 1:51
• @jedwards He's only counting consecutive duplicates -- it's run-length encoding. So the alphabet size doesn't limit the result size. – Barmar Jun 16 '18 at 1:53
• @user3483203 Python strings are immutable, so you can't do in-place modification. – Barmar Jun 16 '18 at 1:54

That said, it’s sometimes useful to consider your output as a stream (like `print`), and then your space complexity (for `count` and perhaps the current input character) is constant. Of course, even then it’s technically logarithmic, since the number of bits needed to store `count` is, but that’s often disregarded in practical analyses.