# Why best case for insertion sort is O(n) & not O(n^2)?

I am having a hard time understanding why best case of insertion sort in o(n) ?

``````     for (int i = 0; i < size; i++) {

for (int j = i; j > 0; j--) {
int k = j-1;
if( a[j] < a[k]){
int temp = a[j];
a[j] = a[k];
a[k] = temp;
}

}
}
``````

Lets consider an example initial array [1,2,3,4,5] size = 5 first loop will go from i = 0 to size - 1 and second loop will go from i to 1 but lets assume, inner for loop also goes from 0 to size - 1 in other words inner for loop also executes (n-1) times similar to outer for loop I agree there will be no swaps but there will be Comparison's, & it will be exactly equal as unsorted array ? then n-1 (outer loop) * n - 1(inner loop) = n^2 - n + 1 = O(n^2)
can any one explain me where i m wrong ?

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There is no useful applications whatsoever of calculating best case complexity. Having said that, your algorithm wastes time when the array is already sorted. You could skip the inner loop every time `a[i+1]>=a[i]`. –  n.m. Jan 19 '13 at 14:23
Is this insertion sort? –  sr01853 Jan 19 '13 at 14:31
@n.m., you say best cases have no application, presumably best-case or near-best-case scenarios do not arise often in random data, but then you go on to recommend code changes which make sense only in terms of such data. There are situations where it is expected that one's data is in a nearly-sorted order, and, in this case, run time will be closer to O(N) than O(N^2). –  Richard Jan 19 '13 at 14:53
thanks guyz i understand now , where i was making mistake. –  zukes Jan 19 '13 at 14:53

Your code always runs in O(n^2). You have to break the inner for loop at the time you have found the place where the element should be.

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Here's one way to implement insertion sort.

Take an input list and an initially-empty output list.

Iterate through the input list and place each item to its appropriate position on the output list. Find the appropriate position by walking through the output list, starting at the first element.

Now, if your input is already sorted, then the insertion point will always be at the beginning or end of the output list. The first possibility corresponds to the best-case scenario; the second corresponds to the worst-case scenario.

For example, my input data is: 4 3 2 1.

Then the output list builds as:

``````4
3 4
2 3 4
1 2 3 4
``````

Since looking at the first element takes only O(1), then the time complexity is in the size of the input, or O(N).

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He is using an array, not a list. –  Gumbo Jan 19 '13 at 14:24
The difference here is pretty inconsequential, @Gumbo. –  Richard Jan 19 '13 at 14:29
Insertion sort’s best case scenario is when the values are already in ascending order. What you have described is its worst case scenario where for each inserted value all previously inserted values have to be moved which results in Ο(n^2). –  Gumbo Jan 19 '13 at 15:52
What I have described here is an insertion sort which works in reverse to the implementation with which you are familiar; it does not change the algorithm significantly, but makes it easier to explain. –  Richard Jan 19 '13 at 18:40

Best case of insertion sort is O(n) when array is already sorted.

But your algorithm will still take O(n^2) for sorted case. So you should go inside second loop only if condition fails. This way in case of sorted list you will never go inside your inner loop.

http://en.wikipedia.org/wiki/Insertion_sort

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Best case is also in Ω(n) and thus also in Θ(n). –  Gumbo Jan 19 '13 at 15:49