# Why is the complexity of simple string concatenation O(n^2)?

I read on several manuals and online sources that the running time of "simple string concatenation" is O(n^2)?

The algorithm is this: we take the first 2 strings, create a new string, copy the characters of the 2 original strings in the new string, and repeat this process over and over again until all strings are concatenated. We are not using StringBuilder or similar implementations: just a simple string concatenation.

I think the running time should be something like O(kn) where k = number of strings, n = total number of characters. You don't copy the same characters n times, but k times, so it should not be O(n^2). For example, if you have 2 strings, it's just O(n). Basically it's n + (n-x) + (n-y) + (n-z)... but k times, not n times.

Where am I wrong?

• One source is the book "Cracking the coding interview" by Gayle Laakmann. An online source is dzone.com/articles/… but there are many many more. Oct 9, 2019 at 18:08
• This answer agrees with you. Oct 9, 2019 at 18:13
• and, lastly, O(n^2) is a bounded asymptotic complexity, or, more formally, a complexity group (see en.wikipedia.org/wiki/Big_O_notation#Infinite_asymptotics) - if it's O(nm), and m is usually smaller than n, we can safely express that as O(n^2) - it's an abuse of notation anyway :}
– user719662
Oct 9, 2019 at 18:37
• @iClaude You continue to say in your edited question that you want to know how Java does this prior to `StringBuilder`. Well, prior to StringBuilder it used `StringBuffer` which works the same way except for synchronization so you can use it in concurrent applications. That has been there since Java 1.0. So there is not other way to evaluate concatenation for Java unless you enquire about the efficiency of a particular algorithm.
– WJS
Oct 9, 2019 at 19:19

A precise problem statement is necessary here:

There are two metrics to consider: How much space is required and how much time is required. This note looks at the time requirements.

The concatenation operation is specified to only concatenate two of the strings at a time, with concatentation being performed with left association:

((k1 + k2) + k3) ...

There are two parameters that may be considered, and two ways of looking at the second parameter.

The first parameter is the total size (in characters) of the strings which are to be concatenated.

The second parameter is either the number of strings which are to be concatenated, or is the size of each of the strings which are to be concatenated.

Considering the first case:

n - Total size (in characters) of the strings to be concatenated.

k - Total number of strings to be concatenated.

The time the concatenation is roughly:

(n/k) * (k^2) / 2

Or, to within a constant factory:

n * k

Then, for a fixed 'k', the concatenation time is linear!

n - Total size of the strings

m - Size of each of the sub-strings

This corresponds to the prior case but with:

k = n / m

The prior estimate then becomes:

n * k = n * (n / m) = n^2 / m

That is, for a fixed 'm', the concatenation time is quadratic.

• +1. The essential points: (1) we know that kn, so O(kn) ⊆ O(n²); and (2) if we assume that all the strings have the same size (to within a constant factor), then n is directly proportional to k, so O(kn) = O(n²). So the statement that concatenation in a loop takes O(n²) time is both technically accurate and a practical way to think about it, even if there are more-precise statements that could be made if we wanted. Oct 10, 2019 at 16:29

If you write some tests and look at the byte code you will see that `StringBuilder` is used to implement concatenation. And sometimes it will pre-allocate the internal array to increase the efficiency to do so. That is clearly not O(n^2) complexity.

Here is the Java code.

``````
public static void main(String[] args) {
String[] william = {
"To ", "be ", "or ", "not ", "to ", ", that", "is ", "the ",
"question."
};
String quote = "";
for (String word : william) {
quote += word;
}
}
``````

Here is the byte code.

`````` public static void main(java.lang.String[] args);
0  bipush 9
2  anewarray java.lang.String [16]
5  dup
6  iconst_0
7  ldc <String "To "> [18]
9  aastore
10  dup
11  iconst_1
12  ldc <String "be "> [20]
14  aastore
15  dup
16  iconst_2
17  ldc <String 0"or "> [22]
19  aastore
20  dup
21  iconst_3
22  ldc <String "not "> [24]
24  aastore
25  dup
26  iconst_4
27  ldc <String "to "> [26]
29  aastore
30  dup
31  iconst_5
32  ldc <String ", that"> [28]
34  aastore
35  dup
36  bipush 6
38  ldc <String "is "> [30]
40  aastore
41  dup
42  bipush 7
44  ldc <String "the "> [32]
46  aastore
47  dup
48  bipush 8
50  ldc <String "question."> [34]
52  aastore
53  astore_1 [william]
54  ldc <String ""> [36]
56  astore_2 [quote]
58  dup
59  astore 6
61  arraylength
62  istore 5
64  iconst_0
65  istore 4
67  goto 98
75  astore_3 [word]
76  new java.lang.StringBuilder [38]
79  dup
81  invokestatic java.lang.String.valueOf(java.lang.Object) : java.lang.String [40]
84  invokespecial java.lang.StringBuilder(java.lang.String) [44]
88  invokevirtual java.lang.StringBuilder.append(java.lang.String) : java.lang.StringBuilder [47]
91  invokevirtual java.lang.StringBuilder.toString() : java.lang.String [51]
94  astore_2 [quote]
95  iinc 4 1
• @iClaude you don't get it - simple concatenation is compiled to `StringBuilder` automatically. It has been like that for a long time in javac; even if it weren't happening in javac, it would happen as HotSpot/JIT optimization etc. Your question makes no sense as it stands, but this answer is actually the solution to your XY problem.