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Could somebody provide an in-place quicksort haskell function? I.e. it returns a new sorted list, but the input list is copied to a mutable array or something.

I want to see how to do this, because I have a performance critical program where i need to simulate races and tally scores. If I use immutable data structures for this, each race will take O(log(numRaces) + numRunners) time, whereas if I use mutable arrays etc, each race will take O(log(numRaces)) time.

oh by the way i didn't actually need to do quicksort, i just wanted an example to see how to use mutable arrays effectively

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Have you seen the vector-algorithms package, hackage.haskell.org/package/vector-algorithms? I don't think it has quicksort, but it does have introsort, mergesort, and other useful sorts. If you really need quicksort, an in-place version would be very similar to an imperative implementation. – John L Mar 11 '11 at 2:10
I don't see your reasoning here. How exactly will immutable data structures increase the big-Oh complexity? I'm not aware of any sorting algorithm faster than O(n log(n)) in the average case. – Dan Burton Mar 11 '11 at 5:50
@Dan, indeed, there is provably no such algorithm (as long as you are using only element-element comparison; contrast radix sort) – luqui Mar 11 '11 at 7:02
here's the answer to another question which seems to fit. – Will Ness Mar 3 '12 at 22:42
up vote 26 down vote accepted

Here's a version, just to prove you can convert code from Wikipedia almost exactly into Haskell ;)

import Control.Monad.ST
import Data.Array.ST
import Data.Foldable
import Control.Monad

-- wiki-copied code starts here
partition arr left right pivotIndex = do
    pivotValue <- readArray arr pivotIndex
    swap arr pivotIndex right
    storeIndex <- foreachWith [left..right-1] left (\i storeIndex -> do
        val <- readArray arr i
        if (val <= pivotValue)
            then do
                 swap arr i storeIndex
                 return (storeIndex + 1)
            else do
                 return storeIndex )
    swap arr storeIndex right
    return storeIndex

qsort arr left right = when (right > left) $ do
    let pivotIndex = left + ((right-left) `div` 2)
    newPivot <- partition arr left right pivotIndex

    qsort arr left (newPivot - 1)
    qsort arr (newPivot + 1) right

-- wrapper to sort a list as an array
sortList xs = runST $ do
    let lastIndex = length xs - 1
    arr <- newListArray (0,lastIndex) xs :: ST s (STUArray s Int Int)
    qsort arr 0 lastIndex
    newXs <- getElems arr
    return newXs

-- test example
main = print $ sortList [212498,127,5981,2749812,74879,126,4,51,2412]

-- helpers
swap arr left right = do
    leftVal <- readArray arr left
    rightVal <- readArray arr right
    writeArray arr left rightVal
    writeArray arr right leftVal

-- foreachWith takes a list, and a value that can be modified by the function, and
-- it returns the modified value after mapping the function over the list.  
foreachWith xs v f = foldlM (flip f) v xs
share|improve this answer
Whoa...it's so...imperative. :) – Dan Burton Mar 11 '11 at 5:45

See 'sort' in the vector-algorithms package: http://hackage.haskell.org/packages/archive/vector-algorithms/0.4/doc/html/src/Data-Vector-Algorithms-Intro.html#sort

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While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Luke Feb 15 '15 at 10:25

Check out this code, it has a quick sort version that uses arrays from IO module. You can adapt it to your needs. Keep in mind though that imperative programming in Haskell can give you headaches if you are not careful (mine programs usually suffered from huge memory use and 90% time spent in garbage collection).

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