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Why does the below function have a time complexity of O(n)? I can't figure it out for the life of me.

void setUpperTriangular (
    int intMatrix[0,…,n-1][0,…,n-1]) {
        for (int i=1; i<n; i++) {
            for (int j=0; j<i; j++) {
                    intMatrix[i][j] = 0;

I keep getting the final time complexity as O(n^2) because:

i: execute n times{//Time complexity=n*(n*1)
    j: execute n times{ //Time complexity=n*1
        intMatrix[i][j] = 0; //Time complexity=1
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It's O(n^2), who told you that it's O(n)? –  Philip Voronov Jan 27 at 18:30
your professor is wrong! –  Hong Wei Wang Jan 27 at 18:33
If your professor can't figure this out, I'd be getting worried. –  Simeon Visser Jan 27 at 18:39
@J.Woodring whoopie - by her logic I'm just going to redefine s = log(n) and make an O(log(s)) sort algorithm! [caveat: actual answer might be something else - this was a guess] –  Alnitak Jan 27 at 18:44
@jazzbassrob you bastard! That's just not fair... –  Alnitak Jan 27 at 18:46

4 Answers 4

up vote 8 down vote accepted

The code iterates through n^2/2 (half a square matrix) locations in the array, so it's time complexity is O(n^2)

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This is same as insertion sort's for loop. Time complexity of insertion sort is O(n2).

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So, CS department head explained it a different way. He said that since the second loop doesn't iterate n times, it iterates n! times. So technically it is O(n).

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what? does n! mean factorial? the 2nd loop iterates n(n-1)/2 times total, it has "i" iterations at each iteration of 1st loop. –  Philip Voronov Jan 27 at 19:31
Yes that means factorial –  J. Woodring Jan 27 at 19:35
it does't iterate "n!" times!!) –  Philip Voronov Jan 27 at 19:45
I guess my university sucks lol –  J. Woodring Jan 27 at 19:48
This is just wrong, there's no factorial here at all. Also, n! is larger than n so it would be n times n! somehow?? –  Simeon Visser Jan 27 at 20:04

It can be at most considered as O(n.m) which finally comes down to O(n.n) or O(n^2)..

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