Here is a modified either quicksort or insertion sort. It uses the fastest method of prefixing or suffixing values to the output list. If the next value is less than or greater than the first or last of the list, it is simply affixed to the beginning or end of the list. If the value is not less than the
head value or greater than the
last value then it must be inserted. The insertion is the same logic as the so-called quicksort above.
Now, the kicker. This function is made to run as a
foldr function just to reduce the complexity of the the function. It can easily be converted to a recursive function but it runs fine with
f2x :: (Ord a) => a -> [a] -> [a]
f2x n ls
| null ls = [n]
| ( n <= (head ls) ) = n:ls -- ++
| ( n >= (last ls) ) = ls ++ [n] -- ++ 
| True = [lx|lx <-ls,n > lx]++ n:[lx|lx <-ls,n < lx]
The comments after two line can be removed and the function can be run with
scanr to see how many hits are with simple prefix or suffix of values and which are inserted somewhere other that the first or last value.
foldr f2x  [5,4,3,2,1,0,9,8,7,6]
af = foldr a2x  ...
af [5,4,3,2,1,0,9,8,7,6] >-> [0,1,2,3,4,5,6,7,8,9]
The best thing about Stack Overflow is the people like @dfeuer that make you think. @dfeuer suggested using
partition. I am like a child, not knowing how. I expressed my difficulty with
partition but @dfeuer forced me to see how to use it. @dfeuer also pointed out that the use of
last in the above function was wasteful. I did not know that, either.
The following function uses
partition imported from
partition outputs a tuple pair. This function is also meant to use with
foldr. It is a complete insertion sort function.
ft nv ls = b++[nv]++e where (b,e) = partition (<=nv) ls
Use it like above
foldr ft  [5,4,3,2,1,0,9,8,7,6]
Haskell and functional programming is all about using existing functions in other functions.