Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have been looking for a natural mergesort implementation (linked lists) for a while now but had no luck.

Merge Sort a Linked List

Here we have both, the recursive and the iterative implementation but I don't know how to turn this into a natural mergesort.

How do I check for the runs to get O(n) complexity in the best case? It does not have to be C/C++, can be any language or even Pseudocode.

Thank you.

share|improve this question
add comment

3 Answers

There's a pseudocode implementation on Wikipedia:

 # Original data is on the input tape; the other tapes are blank
 function mergesort(input_tape, output_tape, scratch_tape_C, scratch_tape_D)
     while any records remain on the input_tape
         while any records remain on the input_tape
             merge( input_tape, output_tape, scratch_tape_C)
             merge( input_tape, output_tape, scratch_tape_D)
         while any records remain on C or D
             merge( scratch_tape_C, scratch_tape_D, output_tape)
             merge( scratch_tape_C, scratch_tape_D, input_tape)

 # take the next sorted chunk from the input tapes, and merge into the single given output_tape.
 # tapes are scanned linearly.
 # tape[next] gives the record currently under the read head of that tape.
 # tape[current] gives the record previously under the read head of that tape.
 # (Generally both tape[current] and tape[previous] are buffered in RAM ...)
 function merge(left[], right[], output_tape[])
        if left[current] ≤ right[current]
            append left[current] to output_tape
            read next record from left tape
            append right[current] to output_tape
            read next record from right tape
    while left[current] < left[next] and right[current] < right[next]
    if left[current] < left[next]
        append current_left_record to output_tape
    if right[current] < right[next]
        append current_right_record to output_tape
share|improve this answer
Thanks, it's not from Wikipedia. It seems like this could work for linked lists but this design requires pass by reference or double pointers which are not available in my target language. Still trying to work around this. –  Miko Apr 21 '12 at 22:33
No, can't apply this logic to linked lists. –  Miko Apr 22 '12 at 10:15
The pseudocode is either incomplete, I misinterpret it or just wrong. Can't get this to work on paper/theory either. –  Miko Apr 22 '12 at 14:15
add comment

Try this (comments in Finnish, sry). This is a Java implementation for natural mergesort I wrote back in the days. I erroneously called it "Queue-mergesort", but, in fact, it is a natural mergesort. Also, that one is an array implementation, but you should be able to convert it to sort in linked lists. Worst case time complexity \Theta(N log N), linear at best, and linear space complexity.

share|improve this answer
add comment

This is my attempt in F#. An implementation of regular merge sort for reference:

// Sorts a list containing elements of type T.  Takes a comparison
// function comp that takes two elements of type T and returns -1
// if the first element is less than the second, 0 if they are equal,
// and 1 if the first element is greater than the second.
let rec sort comp = function 
| []  -> []  // An empty list is sorted
| [x] -> [x] // A single element list is sorted
| xs  ->
    // Split the list in half, sort both halves,
    // and merge the sorted halves.
    let half = (List.length xs) / 2
    let left, right = split half xs
    merge comp (sort comp left) (sort comp right)

Now an attempt at the natural version. This will be O(n) in the best case, but the best case is when the input list is in reverse sorted order.

let rec sort' comp ls =

    // Define a helper function.  Streaks are stored in an accumulator.
    let rec helper accu = function
    | [] -> accu 
    | x::xs -> 
        match accu with
        // If we are not in a streak, start a new one
        | [] -> helper [x] xs 

        // If we are in a streak, check if x continues
        // the streak.
        | y::ys -> 
            if comp y x > 0 

            // x continues the streak so we add it to accu
            then helper (x::y::ys) xs

            // The streak is over. Merge the streak with the rest
            // of the list, which is sorted by calling our helper function on it.
            else merge comp accu (helper [x] xs)

    helper [] ls

A second attempt. This will also be O(n) in the best case, where the best case is now when the input list is already sorted. I negated the comparison function. The sorted list will be built up in reversed order so you need to reverse it at the end.

let rec sort'' comp ls =
    // Flip the comparison function
    let comp' = fun x y -> -1 * (comp x y)
    let rec helper accu = function
    | [] -> accu
    | x::xs -> 
        match accu with
        | [] -> helper [x] xs
        | y::ys -> 
            if comp' y x > 0 
            then helper (x::y::ys) xs
            else merge comp' accu (helper [x] xs)

    // The list is in reverse sorted order so reverse it.
    List.rev (helper [] ls)
share|improve this answer
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.