Followings are written in a ppt about Insertion Sort in my class:
void insertionSort(DataType theArray[], int n) {
for (int unsorted = 1; unsorted < n; ++unsorted) {
DataType nextItem = theArray[unsorted];
int loc = unsorted;
for (;(loc > 0) && (theArray[loc1] > nextItem); loc)
theArray[loc] = theArray[loc1];
theArray[loc] = nextItem;
}
}

Running time depends on not only the size of the array but also the contents of the array.
Bestcase: O(n)
Array is already sorted in ascending order.
Inner loop will not be executed.
>>>> The number of moves: 2*(n1) O(n)
>>>> The number of key comparisons: (n1) O(n)
Worstcase: O(n2)
Array is in reverse order:
Inner loop is executed p1 times, for p = 2,3, …, n
The number of moves: 2*(n1)+(1+2+...+n1)= 2*(n1)+ n*(n1)/2 O(n2)
The number of key comparisons: (1+2+...+n1)= n*(n1)/2 O(n2)
Averagecase: O(n2)
We have to look at all possible initial data organizations.
So, Insertion Sort is O(n2)
What exacly are move and key comparison?? I couldn't find an explanaiton on Google.