# Algorithm complexity

I am trying to calculate the complexity of the following algorithm

``````private static List<int> GetIndexes(string strippedText, string searchText)
{
List<int> count = new List<int>();
int index = 0;
while (strippedText.Length >= index && index != -1)
{
index = strippedText.IndexOf(searchText.Trim(), index,
StringComparison.OrdinalIgnoreCase);
if (index != -1)
{
count.Add(index);
index++;
}
else continue;
}
return count;
}
``````

I know that the loop has a complexity of `O(n)` if count increments by 1 on each iteration but, the increments depends from the indexes found. on each iteration it could increment 1 or `strippedText.lenght()`.

Any idea?

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why "else continue" ? – kriss Dec 1 '09 at 13:44

## 7 Answers

Still, the worst case is O(n).

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Have a look at the Big O page on Wikipedia: en.wikipedia.org/wiki/Big_O_notation – jldupont Dec 1 '09 at 13:41
O(-) will be the worst scenario and only in the average case will take in consideration others factors ??? – user220994 Dec 1 '09 at 13:42
From the Wikipedia page: "A description of a function in terms of big O notation usually only provides an upper bound on the growth rate of the function;" – jldupont Dec 1 '09 at 13:45

It is still `O(n)` - this is because it grows asymptotically at the same rate as `O(n)`

Big O notation is used for the upper-bound of algorithmic growth - that is, it's a function that the algorithm is guaranteed to grow at the same rate as, or slower than.

In the average case your algorithm will grow at rate `O(n/m)` where `m` is some estimate of the how dense the indexes are in your strings (0 = no indexes, 1 = index at every character). Assuming that's roughly constant over `n` you can ignore the `m` and still say the algorithm is `O(n)`.

The fact that, in the real world, your algorithm will almost certainly be faster than `O(n)` doesn't stop it begina n `O(n)` function.

Take a look at this page, particularly:

The symbol O is used to describe an asymptotic upper bound for the magnitude of a function in terms of another, simpler function. This means that for x > k, when x tends to infinity, the value f(x) will always be inferior to C *g(x) (with C a constant).

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m is dependent on `searchText`, so it's not constant. Consider search text with many repetitions (like 'ababab'). – Abgan Dec 1 '09 at 13:45
Yes, but as long as it's not dependent on the length of `searchText` then my point stands – Mark Pim Dec 1 '09 at 13:47
That is, if `m` is basically orthogonal to `n` then `O(n/m) = O(n)` – Mark Pim Dec 1 '09 at 13:47
+1 for clear explanation of O notation. – Yann Schwartz Dec 1 '09 at 14:40

O(n) where n is the length of the strippedText string.

Worst case, every character will be equal to the searchText and will result in n itterations, but even if that isn't the case (which I am assuming it won't be) your average case will be some factor, c, of n where c is greater than zero but less than 1, so the number of loops will be cn, but a constant factor of n will still be represented as O(n).

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Could you explain me > your average case will be some factor, c, of n where c is greater than zero but less than 1, so the number of loops will be cn, but a constant factor of n will still be represented as O(n). i do not understand it thanks – user220994 Dec 1 '09 at 13:36
Big O notation deals with growth rates and is used to guage how the runtime of the algorithm changes as the size of your data set changes. By definition O-notation provides an asymptotic upper bounds to within a constant factor. So O(cn) = O(n) regardless of whether c is 0.00001 or c is 100000000. It still grows at the same rate with respect to n, thus when describing the runtime of an algorithm, constant factors are typically thrown out. – James Conigliaro Dec 1 '09 at 14:42

I would still say that it is O(n) (or at least At worst O(n), unless your index can be made less than -1 say -10, which would reset it further)

But yes O(n).

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Actually it's O(strippedText.Length*searchText.Length) since index of makes a comparison between characters in searchText and strippedText.

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It all depends on how the strings `IndexOf()` method is implemented. Basically you just search through the whole string with `IndexOf()` - how efficient that is depends on the efficiency of that method.

There are several string search algorithms of different complexities ranging from `O(m+n)` to `O(m*n)` (`m` and `n` being the length of the two strings).

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I'd say that it's `O(n/m)` where `strippedText.Length == n` and `m` is the length of a prefix of `searchText` that is a suffix of `searchText` (if no such prefix exist it's the length of `searchText`).

Examples:

searchText = 'ababab' --> m == 2

searchText = 'aaaaaa' --> m == 1

searchText = 'abcabc' --> m == 3

searchText = 'abcdefg' --> m == 7

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