Following text from quick sort section in algorithms book by Robert Sedwick.

By choosing the three elements from the left, middle, and right of the array, we can incorporate sentinels into this scheme. Sort three lements, then exchange one in the middle with a[r-1], and then run the partitioning algorithm on a[l+1],...,a[r-2]. This improvement is called the median of three method.

The median of three method helps quick sort in three ways.

It makes the worst case much more unlikely to occur in any actual sort. For the sort to take N square time, two out of the three lements examined must be among the largest or among the smallest elements in the file, and this event must happen consistently thourough most of the partitions.

It eliminates the need for a sentinel key for partitioning, because this function is served by one of the three lements that are examined before partitioning.

It reduce the total average running time of algorithm by about 5 percent.

template void exch(Item &A, Item &B) { Item t = A; A = B; B = t; } template void compexch(Item &A, Item &B) { if (B < A) exch(A, B); }

`static const int M = 10; template <class Item> void quicksort(Item a[], int l, int r) { if (r-l <= M) return; exch(a[(l+r)/2], a[r-1]); // line 1 compexch(a[l], a[r-1]); // line 2. compexch(a[l], a[r]); // line 3. compexch(a[r-1], a[r]); // line 4. int i = partition(a, l+1, r-1); quicksort(a, l, i-1); quicksort(a, i+1, r); } template <class Item> void hybridsort(Item a[], int l, int r) { quicksort(a, l, r); insertion(a, l, r); }`

My questions on above text, Can any one explain with simple example

what does author mean by "worst case much more unlikely to occur in any actual sort. For the sort to take N square time, two out of the three lements examined must be among the largest" ?

What does author mean by "It eliminates the need for a sentinel key for partitioning" ?

In above program what we are achieving in line1, 2, 3, and 4 whicih is commented in above code?

Thanks for your time and help