Thanks to **@aphex** and **@SGM1** for showing me the right direction. I guess the solution to problem is as follows:

I have use the same code as **aphex** used. But only problem with solution is that **aphex** forget to maintain it for worst case. So according to me barometer operation/instruction must be

`first(left) <= first(right)`

Because this is where actual comparison is going on. Barometer operator would be "<=" where actual comparison is made. And this operator is called (n/2) times recursively by two methods which divides list and then main merge operation happens exactly (n-1) times.So after solving summation equation it gives (nlog(n)+c)

Code from Wiki with little modification by **aphex**

```
function merge_sort(list m, var count)
if(length(m))>0
count++;
// if list size is 0 (empty) or 1, consider it sorted and return it
// (using less than or equal prevents infinite recursion for a zero length m)
if length(m) <= 1
return m
// else list size is > 1, so split the list into two sublists
var list left, right
var integer middle = length(m) / 2
for each x in m before middle
add x to left
for each x in m after or equal middle
add x to right
// recursively call merge_sort() to further split each sublist
// until sublist size is 1
left = merge_sort(left,count)
right = merge_sort(right,count)
// merge the sublists returned from prior calls to merge_sort()
// and return the resulting merged sublist
return merge(left, right)
function merge(left, right)
var list result
while length(left) > 0 or length(right) > 0
if length(left) > 0 and length(right) > 0
if first(left) <= first(right) // My Barometer Operation
append first(left) to result
left = rest(left)
else
append first(right) to result
right = rest(right)
else if length(left) > 0
append first(left) to result
left = rest(left)
else if length(right) > 0
append first(right) to result
right = rest(right)
end while
return result
```