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I've just started to learn Haskell last night and I've never used a functional programming language before. I just want to know if my implemention of merge sort is good or bad and what exactly is good or bad. Maybe it's even wrong - Well it does sort but maybe the Algorithm is not what I think what merge sort is.

Just tell me everything I could improve here. I by myself think its a pretty clear and simple implementation. Thanks for your advice, here's the code :)

merge [] ys = ys
merge xs [] = xs
merge xs ys =  sorted : merge left right
                    sorted = if head(xs) < head(ys) then head(xs) else head(ys)
                    left = if head(xs) <= head(ys) then tail(xs) else xs
                    right = if head(xs) > head(ys) then tail(ys) else ys

msort [] = []
msort [x] = [x]
msort xs = merge (msort left) (msort right)
                left = take (div (length xs) 2) xs
                right = drop (div (length xs) 2) xs
share|improve this question
in the two lines, sorted = and left =, you must use the same comparison; either < or <=, but both must be the same (and the third line, right =, will have to use the other variant accordingly). – Will Ness Nov 19 '12 at 16:12
Oh sorry, just saw that comment now. I guess you're right. If I understand it right, this little mistake only affects the stable/unstable attribute of the algorithm right? As it really doesn't matter if I take head(xs) or head(ys) if they are equal. – Nocta Nov 19 '12 at 18:20
No, of the two equals you'll drop one completely and have the other twice in your output: merge [(1,1),(2,1)] [(1,2),(2,2)] = (1,2):merge [(2,1)] [(1,2),(2,2)] for a pair-like datatype which compares on first sub-element only. – Will Ness Nov 19 '12 at 20:49
up vote 14 down vote accepted

Well, first of all, we can rewrite merge to be a little more elegant using pattern matching

merge [] ys = ys
merge xs [] = xs
merge xs@(x:xs1) ys@(y:ys1)
    | x <= y = x : merge xs1 ys
    | otherwise = y : merge xs ys1

In general you should avoid using head and tail since they are a bit unsafe (they raise an error for the empty list) and use pattern matching whenever possible.

The implementation of msort is pretty much spot on, except that we can split the list in a more efficient way. That's because length xs - takes O(N) to complete. The compiler might save you and cache the result of the length call so that the second call to length won't traverse the list again. But the take and drop will pretty much cause another two traversals thus splitting the list using 3 traversals which may prove to be expensive. We can do better by splitting the list in two lists - the first one containing the elements on the odd positions and the second list with the elements placed on the even positions, like so:

msort [] = []
msort [x] = [x]
msort xs = merge (msort first) (msort second)
        (first, second) = splitInHalves xs
        splitInHalves [] = ([], [])
        splitInHalves [x] = ([x], [])
        splitInHalves (x:y:xs) =
            let (xs1, ys1) = splitInHalves xs
            in  (x:xs1, y:ys1)

This gets you the same Merge Sort in O(NlogN) time. It feels different because you would probably implement it in place (by modifying the original list) in an imperative language such as C. This version is slightly more costly on the memory, but it does have it's advantages - it is more easy to reason about, so it is more maintainable, and also it is very easy to parallelize without being concerned of anything else except the algorithm itself - which is exactly what a good programming language should provide for the developers that use it.

EDIT 1 :

If the syntax is a bit much, here are some resources:

  • Pattern Matching - the bit with the @ symbol is called an as-pattern. You'll find it in there
  • let is a keyword used to declare a variable to be used in the expression that follows it (whereas where binds a variable in the expression that precedes it). More on Haskell syntax, including guards (the things with | condition = value) can be found here, in this chapter of Learn You a Haskell

EDIT 2 :

@is7s proposed a far more concise version of splitInHalves using the foldr function:

splitInHalves = foldr (\x (l,r) -> (x:r,l)) ([],[])

EDIT 3 :

Here is another answer which provides an alternative implementation of merge sort, which also has the property of being stable:

Lazy Evaluation and Time Complexity

Hope this helps and welcome to the wonderful world of Functional Programming !

share|improve this answer
splitInHalves = foldr (\x (l,r) -> (x:r,l)) ([],[]) – is7s Nov 19 '12 at 14:57
Hey, thank you very much for your precise feedback. I'm afraid I can't understand everything right now as I have not yet read about all the syntax ("let ... in ..." or "@") but I'll look these things up and try to understand your code :) – Nocta Nov 19 '12 at 14:58
@is7s - yep this is more concise, but for a newcomer in FP I think the more verbose version is better for starters. – Marius Danila Nov 19 '12 at 15:00
@Nocta - oh, no problem. I've added some links that explain the various constructs used. – Marius Danila Nov 19 '12 at 15:07
The splitInHalves [x, y] = ([x], [y]) case is superfluous, isn't it? – Landei Nov 19 '12 at 15:43

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