# Time complexity of string concatenation in Python [duplicate]

I'm analysing the complexity of my code. From what I found online, since strings are immutable in python, a concatenation of a string and a character should be O(len(string) + 1).

Now, here is my piece of code (simplified):

``````word = ""
for i in range(m):
word = char_value + word
return word
``````

The total time complexity should be:

(0+1) + (1+1) +...+ m = m(m+1)/2 = O(m^2)

Is this correct?

• What do you count: walclock time, number of operations? I doubt that concatenation of `m` strings is quadratic in `m`.
– user5547025
May 10 '16 at 8:54
• Number of operations, e.g. allocating a string of n characters should take n... May 10 '16 at 8:57
• Why should allocating of a string of length `2m` take twice the time of allocating a string of length `m` ?
– user5547025
May 10 '16 at 8:59
• Of course it depends on how strings are instantiated in Python, I am considering allocating an array of n characters even though I don't actually know how it is done May 10 '16 at 9:02
• @DisplayName: because characters need to be copied into the new string object each time. So concatenating 10 characters to another 10 characters takes order 20 steps to produce the new string. Do this in a loop, and you get quadratic behaviour. May 10 '16 at 9:02

Yes, in your case*1 string concatenation requires all characters to be copied, this is a O(N+M) operation (where N and M are the sizes of the input strings). M appends of the same word will trend to O(M^2) time therefor.

You can avoid this quadratic behaviour by using `str.join()`:

``````word = ''.join(list_of_words)
``````

which only takes O(N) (where N is the total length of the output). Or, if you are repeating a single character, you can use:

``````word = m * char
``````

You are prepending characters, but building a list first, then reversing it (or using a `collections.deque()` object to get O(1) prepending behaviour) would still be O(n) complexity, easily beating your O(N^2) choice here.

*1 As of Python 2.4, the CPython implementation avoids creating a new string object when using `strA += strB` or `strA = strA + strB`, but this optimisation is both fragile and not portable. Since you use `strA = strB + strA` (prepending) the optimisation doesn't apply.

• No, I cannot do either things. As I said, my code above is simplified, the characters I concat are different and putting them in a list would not optimise the code in the end. May 10 '16 at 9:10
• @Generalbrus: Putting them in a list would avoid the quadratic behaviour, so that definitely optimises the performance. May 10 '16 at 9:11
• From the way I access the characters (they are in a trie), I would have to reverse the list I created before joining, so I think I'm better off operating on char arrays instead of strings in my case. Thanks for the tips though. May 10 '16 at 9:22
• @Generalbrus: use `collections.deque` and append the items to the front then. May 10 '16 at 9:24
• @Generalbrus: or append and then reverse, that's still O(n). Avoiding quadratic behaviour is definitely worth it here. May 10 '16 at 9:24