I have written different python codes to reverse a given string. But, couldn't able to figure the which one among them is efficient. Can someone point out the differences between these algorithms using time and space complexities?

def reverse_1(s):
      result = ""
      for i in s : 
          result = i + result
      return result

def reverse_2(s): 
      return s[::-1]

There are already some solutions out there, but I couldn't find out the time and space complexity. I would like to know how much space s[::-1] will take?

  • reverse_1 is the worst reverse routine you can possibly write. With O(n*2) complexity. Stick to the second one which is O(n) and doesn't use a loop – Jean-François Fabre Jul 14 '18 at 5:14
  • But, what if the interviewer doesn't accept it. It's kind of cheating. Is there any other way to reverse a string in python. – Venkata Gogu Jul 14 '18 at 5:17
  • A suggestion for a quick test is use timeit feature from ipython console. This way: timeit reverse_1('blabla'). – Lorran Sutter Jul 14 '18 at 5:17
  • @Jean-FrançoisFabre O(n + n) is the same as O(n) – smac89 Jul 14 '18 at 5:21
  • @VenkataGogu if using best features of python is cheating then I don't know... you can boast with alternatives like I provided in my answer, & the argumentation. I doubt an interviewer would object that. – Jean-François Fabre Jul 14 '18 at 5:22

Without even trying to bench it (you can do it easily), reverse_1 would be dead slow because of many things:

  • loop with index
  • constantly adding character to string, creating a copy each time.

So, slow because of loop & indexes, O(n*n) time complexity because of the string copies, O(n) complexity because it uses extra memory to create temp strings (which are hopefully garbage collected in the loop).

On the other hand s[::-1]:

  • doesn't use a visible loop
  • returns a string without the need to convert from/to list
  • uses compiled code from python runtime

So you cannot beat it in terms of time & space complexity and speed.

If you want an alternative you can use:


but that will be slower than s[::-1] (it has to create a list so join can build a string back). It's interesting when other transformations are required than reversing the string.

Note that unlike C or C++ languages (as far as the analogy goes for strings) it is not possible to reverse the string with O(1) space complexity because of the immutability of strings: you need twice the memory because string operations cannot be done in-place (this can be done on list of characters, but the str <=> list conversions use memory)

  • Can you post some answer somewhere between these algorithms like O(n) or O(logn) ... – Venkata Gogu Jul 14 '18 at 5:19
  • there's no way you can have O(log(n)) complexity here. It's clearly O(n)` at best. – Jean-François Fabre Jul 14 '18 at 5:20
  • Is there a way to do this in O(n) time and O(1) space. – Venkata Gogu Jul 14 '18 at 5:42

Complexity Operation | Example | Class | Notes --------------+--------------+---------------+------------------------------- Iteration | for v in l: | O(N) | Worst: no return/break in loop Slice | l[a:b] | O(b-a) | l[1:5]:O(l)/l[:]:O(len(l)-0)=O(N)

The second one is better!

Source: https://www.ics.uci.edu/~pattis/ICS-33/lectures/complexitypython.txt

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