Day 9: Disk Fragmenter

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4 points
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Haskell

This was fun, I optimized away quite a bit, as a result it now runs in 0.04s for both parts together on my 2016 laptop.

In part 1 I just run through the array with a start- and an end-index whilst summing up the checksum the entire time.
In part 2 I build up Binary Trees of Free Space which allow me to efficiently search for and insert free spaces when I start traversing the disk from the back. Marking the moved files as free is omitted because the checksum is calculated for every file that is moved or not moved directly.

Code
import Control.Monad
import Data.Bifunctor

import Control.Arrow hiding (first, second)

import Data.Map (Map)
import Data.Set (Set)
import Data.Array.Unboxed (UArray)

import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.Ord as Ord
import qualified Data.List as List
import qualified Data.Char as Char
import qualified Data.Maybe as Maybe
import qualified Data.Array.Unboxed as UArray

toNumber = flip (-) (Char.ord '0') <<< Char.ord 

type FileID = Int
type FileLength = Int
type DiskPosition = Int
type File = (FileID, (DiskPosition, FileLength))
type EmptyMap = Map FileLength (Set DiskPosition)

readDisk :: DiskPosition -> [(Bool, FileLength)] -> [(Bool, (DiskPosition, FileLength))]
readDisk _ [] = []
readDisk o ((True, l):fs)  = (True, (o, l))  : readDisk (o+l) fs
readDisk o ((False, l):fs) = (False, (o, l)) : readDisk (o+l) fs

parse2 :: String -> ([File], EmptyMap)
parse2 s = takeWhile (/= '\n')
        >>> map toNumber
        >>> zip (cycle [True, False]) -- True is File, False is empty
        >>> readDisk 0
        >>> List.partition fst
        >>> join bimap (map snd)
        >>> first (zip [0..])
        >>> first List.reverse
        >>> second (filter (snd >>> (/= 0)))
        >>> second (List.sortOn snd)
        >>> second (List.groupBy (curry $ (snd *** snd) >>> uncurry (==)))
        >>> second (List.map (snd . head &&& map fst))
        >>> second (List.map (second Set.fromDistinctAscList))
        >>> second Map.fromDistinctAscList
        $ s

maybeMinimumBy :: (a -> a -> Ordering) -> [a] -> Maybe a
maybeMinimumBy _ [] = Nothing
maybeMinimumBy f as = Just $ List.minimumBy f as

fileChecksum fid fpos flen = fid * (fpos * flen + ((flen-1) * (flen-1) + (flen-1)) `div` 2)

type Checksum = Int
moveFilesAccumulate :: (Checksum, EmptyMap) -> File -> (Checksum, EmptyMap)
moveFilesAccumulate (check, spaces) (fid, (fpos, flen)) = do
        let bestFit = Map.map (Set.minView)
                >>> Map.toList
                >>> List.filter (fst >>> (>= flen))
                >>> List.filter (snd >>> Maybe.isJust)
                >>> List.map (second Maybe.fromJust) -- [(FileLength, (DiskPosition, Set DiskPosition))]
                >>> List.filter (snd >>> fst >>> (< fpos))
                >>> maybeMinimumBy (\ (_, (p, _)) (_, (p', _)) -> Ord.compare p p')
                $ spaces

        case bestFit of
                Nothing -> (check + fileChecksum fid fpos flen, spaces)
                Just (spaceLength, (spacePosition, remainingSet)) -> do
                        

                        -- remove the old empty entry by replacing the set
                        let updatedMap  = Map.update (const $! Just remainingSet) spaceLength spaces

                        -- add the remaining space, if any
                        let remainingSpace = spaceLength - flen
                        let remainingSpacePosition = spacePosition + flen
                        let updatedMap' = if remainingSpace == 0 then updatedMap else Map.insertWith (Set.union) remainingSpace (Set.singleton remainingSpacePosition) updatedMap

                        (check + fileChecksum fid spacePosition flen, updatedMap')

parse1 :: String -> UArray Int Int
parse1 s = UArray.listArray (0, sum lengthsOnly - 1) blocks
        where
                lengthsOnly = filter (/= '\n')
                        >>> map toNumber
                        $ s :: [Int]
                blocks = zip [0..]
                        >>> List.concatMap (\ (index, n) -> if index `mod` 2 == 0 then replicate n (index `div` 2) else replicate n (-1))
                        $ lengthsOnly :: [Int]

moveBlocksAccumulate :: Int -> Int -> UArray Int Int -> Int
moveBlocksAccumulate start stop array
        | start      == stop   = if startBlock == -1 then 0 else start * startBlock
        | start      >  stop   = 0
        | stopBlock  == -1     = moveBlocksAccumulate start (stop - 1) array
        | startBlock == -1     = movedChecksum + moveBlocksAccumulate (start + 1) (stop - 1) array
        | startBlock /= -1     = startChecksum + moveBlocksAccumulate (start + 1) stop array
        where
                startBlock    = array UArray.! start
                stopBlock     = array UArray.! stop
                movedChecksum = stopBlock * start
                startChecksum = startBlock * start

part1 a = moveBlocksAccumulate 0 arrayLength a
        where
                (_, arrayLength) = UArray.bounds a
part2 (files, spaces) = foldl moveFilesAccumulate (0, spaces)
        >>> fst
        $ files

main = getContents
        >>= print
        . (part1 . parse1 &&& part2 . parse2)
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