Using small-to-large list for discs, allowing for arbitrary number of pegs
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@ -31,7 +31,7 @@ library
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Paths_homework
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hs-source-dirs:
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lib
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ghc-options: -Wall -Werror -Wcompat -Widentities -Wincomplete-patterns -Wincomplete-record-updates -Wincomplete-uni-patterns -Wmissing-home-modules -Wname-shadowing -Wpartial-fields -Wredundant-constraints -Wunused-packages -Wunused-type-patterns
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ghc-options: -Wall -Werror -Wcompat -Widentities -Wincomplete-patterns -Wincomplete-record-updates -Wincomplete-uni-patterns -Wmissing-home-modules -Wname-shadowing -Wpartial-fields -Wredundant-constraints -Wunused-packages -Wunused-type-patterns -optP-Wno-nonportable-include-path
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build-depends:
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base >=4.14 && <5
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default-language: Haskell2010
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@ -42,7 +42,7 @@ executable homework
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Paths_homework
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hs-source-dirs:
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app
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ghc-options: -Wall -Werror -Wcompat -Widentities -Wincomplete-patterns -Wincomplete-record-updates -Wincomplete-uni-patterns -Wmissing-home-modules -Wname-shadowing -Wpartial-fields -Wredundant-constraints -Wunused-packages -Wunused-type-patterns -threaded -rtsopts -with-rtsopts=-N
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ghc-options: -Wall -Werror -Wcompat -Widentities -Wincomplete-patterns -Wincomplete-record-updates -Wincomplete-uni-patterns -Wmissing-home-modules -Wname-shadowing -Wpartial-fields -Wredundant-constraints -Wunused-packages -Wunused-type-patterns -optP-Wno-nonportable-include-path -threaded -rtsopts -with-rtsopts=-N
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build-depends:
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base >=4.14 && <5
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, homework
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@ -57,7 +57,7 @@ test-suite test
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Paths_homework
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hs-source-dirs:
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test
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ghc-options: -Wall -Werror -Wcompat -Widentities -Wincomplete-patterns -Wincomplete-record-updates -Wincomplete-uni-patterns -Wmissing-home-modules -Wname-shadowing -Wpartial-fields -Wredundant-constraints -Wunused-packages -Wunused-type-patterns -threaded -rtsopts -with-rtsopts=-N
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ghc-options: -Wall -Werror -Wcompat -Widentities -Wincomplete-patterns -Wincomplete-record-updates -Wincomplete-uni-patterns -Wmissing-home-modules -Wname-shadowing -Wpartial-fields -Wredundant-constraints -Wunused-packages -Wunused-type-patterns -optP-Wno-nonportable-include-path -threaded -rtsopts -with-rtsopts=-N
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build-depends:
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base >=4.14 && <5
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, homework
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@ -5,10 +5,10 @@ import Data.Maybe
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-- | Move pegs from the first peg to the last peg.
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-- The moves that were made are returned, but an error is returned if a move
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-- can't be made.
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hanoi :: (Monad m) => String -> String -> String -> Int -> m [Move]
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hanoi pegLabelA pegLabelB pegLabelC numDiscs = do
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let -- CONSTRUCT a set of pegs given the provided arguments
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pegsStart = initPegs pegLabelA pegLabelB pegLabelC numDiscs
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hanoi :: (MonadFail m) => [String] -> Int -> m [Move]
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hanoi labels numDiscs = do
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-- CONSTRUCT a set of pegs given the provided arguments
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pegsStart <- initPegs labels numDiscs
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-- Make a move
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(moveMade, _) <- runPegs move pegsStart
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-- Cheat the return for now, assume that movesMade is present for TDD
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@ -18,15 +18,13 @@ hanoi pegLabelA pegLabelB pegLabelC numDiscs = do
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{- MAKE A MOVE ----------------------------------------------------------------}
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{------------------------------------------------------------------------------}
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move :: (Monad m) => PegStep m (Maybe Move)
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move :: (MonadFail m) => PegStep m (Maybe Move)
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move = do
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topDiscA <- getTopDisc <$> getPegA
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topDiscC <- getTopDisc <$> getPegC
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topDiscA <- getTopDisc <$> getPeg 0
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topDiscC <- getTopDisc <$> getPeg 2
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if topDiscA >= topDiscC
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then return Nothing
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else do
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pushPegC =<< popPegA
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Just <$> makeMove "a" "c"
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else do Just <$> makeMove 0 2
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{------------------------------------------------------------------------------}
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{- PEGS -----------------------------------------------------------------------}
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@ -34,22 +32,22 @@ move = do
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-- A set of pegs ordered from start to finish.
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data Pegs = Pegs
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{ pegsPegA :: Peg,
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pegsPegB :: Peg,
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pegsPegC :: Peg,
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{ pegsList :: [Peg],
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pegsMoves :: [Move]
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}
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deriving (Eq, Show)
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-- CONSTRUCT a set of pegs with their labels and number of discs to fill the first peg with
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initPegs :: String -> String -> String -> Int -> Pegs
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initPegs pegLabelA pegLabelB pegLabelC numDiscs =
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Pegs
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{ pegsPegA = fillPeg pegLabelA numDiscs,
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pegsPegB = emptyPeg pegLabelB,
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pegsPegC = emptyPeg pegLabelC,
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pegsMoves = []
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}
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initPegs :: (MonadFail m) => [String] -> Int -> m Pegs
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initPegs (firstLabel : restLabels) numDiscs
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| numDiscs > 0 =
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return
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Pegs
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{ pegsList = fillPeg firstLabel numDiscs : (emptyPeg <$> restLabels),
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pegsMoves = []
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}
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| otherwise = fail "Can't create pegs with no discs"
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initPegs [] _ = fail "Can't create pegs without peg labels"
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{------------------------------------------------------------------------------}
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{- PEG STEP -------------------------------------------------------------------}
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@ -71,52 +69,71 @@ putPegs :: (Monad m) => Pegs -> PegStep m ()
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putPegs pegs = withPegs $ return . const ((), pegs)
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-- GET or ASK for a value from pegs using a function
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askPegs :: (Monad m) => (Pegs -> PegStep m a) -> PegStep m a
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askPegs f = f =<< getPegs
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askPegs :: (Monad m) => (Pegs -> a) -> PegStep m a
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askPegs f = f <$> getPegs
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-- MODIFY pegs using a function
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modifyPegs :: (Monad m) => (Pegs -> PegStep m Pegs) -> PegStep m ()
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modifyPegs f = putPegs =<< f =<< getPegs
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-- EMBEDDED PEGS GETTERS -------------------------------------------------------
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-- EMBEDDED PEG ACCESSORS ------------------------------------------------------
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getPegA :: (Monad m) => PegStep m Peg
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getPegA = askPegs (return . pegsPegA)
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getPeg :: (MonadFail m) => Int -> PegStep m Peg
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getPeg n = do
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list <- askPegs pegsList
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go n (length list) list
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where
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go n' limit (x : xs)
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| n' == 0 = return x
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| otherwise = go (n' - 1) limit xs
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go _ limit [] = fail $ "Peg out of bounds: queried for index " ++ show n ++ " out of " ++ show limit ++ " pegs"
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putPegA :: (Monad m) => Peg -> PegStep m ()
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putPegA peg = do
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pegs <- getPegs
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putPegs $ pegs {pegsPegA = peg}
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getPegC :: (Monad m) => PegStep m Peg
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getPegC = askPegs (return . pegsPegC)
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putPegC :: (Monad m) => Peg -> PegStep m ()
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putPegC peg = do
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pegs <- getPegs
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putPegs $ pegs {pegsPegC = peg}
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putPeg :: (MonadFail m) => Peg -> PegStep m ()
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putPeg peg@Peg {pegLabel = label} = do
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list <- askPegs pegsList
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modifyPegs $ \pegs' -> do
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newList <- go [] list
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return $ pegs' {pegsList = newList}
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where
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go previous (current : next)
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| pegLabel current == label = return $ reverse previous ++ peg : next
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| otherwise = go (current : previous) next
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go _ [] = fail $ "Could not replace peg with label " ++ show label ++ ": peg does not exist"
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-- EMBEDDED PEG METHODS --------------------------------------------------------
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makeMove :: (Monad m) => String -> String -> PegStep m Move
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makeMove :: (MonadFail m) => Int -> Int -> PegStep m Move
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makeMove from to = do
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let move' = Move from to
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pegs <- getPegs
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putPegs pegs {pegsMoves = move' : pegsMoves pegs}
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pushPeg to =<< popPeg from
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fromLabel <- pegLabel <$> getPeg from
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toLabel <- pegLabel <$> getPeg to
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let move' = Move fromLabel toLabel
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pushMove move'
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return move'
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popPegA :: (Monad m) => PegStep m Disc
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popPegA = do
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peg <- getPegA
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let disc = last $ pegDiscs peg
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rest = init $ pegDiscs peg
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putPegA $ peg {pegDiscs = rest}
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return disc
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popPeg :: (MonadFail m) => Int -> PegStep m Disc
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popPeg n = do
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peg@Peg {pegLabel = label, pegDiscs = discs} <- getPeg n
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case discs of
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topDisc : rest -> do
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putPeg peg {pegDiscs = rest}
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return topDisc
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_ -> fail $ "Could not pop empty peg " ++ show label
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pushPegC :: (Monad m) => Disc -> PegStep m ()
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pushPegC disc = do
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peg <- getPegC
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putPegC $ peg {pegDiscs = pegDiscs peg <> [disc]}
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pushPeg :: (MonadFail m) => Int -> Disc -> PegStep m ()
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pushPeg n disc = do
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peg <- getPeg n
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case pegDiscs peg of
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discs@(topDisc : _)
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| disc < topDisc -> putPeg peg {pegDiscs = disc : discs}
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| otherwise -> fail $ "Tried to put bigger disc " ++ show disc ++ " on top of peg " ++ show (pegLabel peg) ++ "'s top disc " ++ show topDisc
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_ -> putPeg peg {pegDiscs = [disc]}
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pushMove :: (Monad m) => Move -> PegStep m ()
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pushMove move' = do
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pegs <- getPegs
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let moves = pegsMoves pegs
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putPegs pegs {pegsMoves = move' : moves}
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{------------------------------------------------------------------------------}
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{- PEG STEP INSTANCES ---------------------------------------------------------}
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@ -164,12 +181,10 @@ emptyPeg label = Peg {pegLabel = label, pegDiscs = []}
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-- GET the top disc from the peg, if it exists
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getTopDisc :: Peg -> Maybe Disc
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getTopDisc = lastOption . pegDiscs
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getTopDisc = headOption . pegDiscs
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where
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lastOption xs = case xs of
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[x] -> Just x
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_ : xs' -> lastOption xs'
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[] -> Nothing
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headOption (x : _) = Just x
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headOption [] = Nothing
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{------------------------------------------------------------------------------}
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{- DISC -----------------------------------------------------------------------}
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@ -180,7 +195,7 @@ data Disc = Disc {discSize :: Int} deriving (Eq, Ord, Show)
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-- CONSTRUCT a stack of discs
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stackDiscs :: Int -> [Disc]
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stackDiscs numDiscs = Disc <$> reverse [1 .. numDiscs]
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stackDiscs numDiscs = Disc <$> [1 .. numDiscs]
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{------------------------------------------------------------------------------}
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{- MOVE -----------------------------------------------------------------------}
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@ -57,3 +57,4 @@ ghc-options:
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- -Wredundant-constraints
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- -Wunused-packages
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- -Wunused-type-patterns
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- -optP-Wno-nonportable-include-path
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@ -17,8 +17,7 @@
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#
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# resolver: ./custom-snapshot.yaml
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# resolver: https://example.com/snapshots/2018-01-01.yaml
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resolver:
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url: https://raw.githubusercontent.com/commercialhaskell/stackage-snapshots/master/lts/18/5.yaml
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resolver: lts-18.13
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# User packages to be built.
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# Various formats can be used as shown in the example below.
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@ -4,10 +4,9 @@
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# https://docs.haskellstack.org/en/stable/lock_files
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snapshots:
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- original:
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url: https://raw.githubusercontent.com/commercialhaskell/stackage-snapshots/master/lts/18/5.yaml
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- original: lts-18.13
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completed:
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sha256: 22d24d0dacad9c1450b9a174c28d203f9bb482a2a8da9710a2f2a9f4afee2887
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url: https://raw.githubusercontent.com/commercialhaskell/stackage-snapshots/master/lts/18/5.yaml
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size: 585817
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sha256: d9e658a22cfe8d87a64fdf219885f942fef5fe2bcb156a9800174911c5da2443
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url: https://raw.githubusercontent.com/commercialhaskell/stackage-snapshots/master/lts/18/13.yaml
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size: 586268
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packages: []
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@ -8,7 +8,7 @@ spec = describe "Hanoi" $ do
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-- Testing the solver function
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describe "hanoi" $ do
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-- helper to construct a hanoi function with preconfigured labels
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let hanoiOf = hanoi "a" "b" "c"
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let hanoiOf = hanoi ["a", "b", "c"]
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it "can solve for a stack of 1 disc" $ do
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moves <- hanoiOf 1 -- a@[1] b@[] c@[]
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@ -17,25 +17,25 @@ spec = describe "Hanoi" $ do
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]
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it "can solve for a stack of 2 discs" $ do
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moves <- hanoiOf 2 -- a@[2, 1] b@[] c@[]
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moves <- hanoiOf 2 -- a@[1, 2] b@[] c@[]
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moves
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`shouldBe` [ Move "a" "c", -- a@[2] b@[] c@[1]
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Move "a" "b", -- a@[] b@[2] c@[1]
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Move "c" "a", -- a@[1] b@[2] c@[]
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Move "a" "c", -- a@[1] b@[] c@[2]
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Move "a" "c" -- a@[] b@[] c@[2, 1]
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Move "a" "c" -- a@[] b@[] c@[1, 2]
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]
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it "can solve for a stack of 3 discs" $ do
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moves <- hanoiOf 3 -- a@[3, 2, 1] b@[] c@[]
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moves <- hanoiOf 3 -- a@[1, 2, 3] b@[] c@[]
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moves
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`shouldBe` [ Move "a" "c", -- a@[3, 2] b@[] c@[1]
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`shouldBe` [ Move "a" "c", -- a@[2, 3] b@[] c@[1]
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Move "a" "b", -- a@[3] b@[2] c@[1]
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Move "c" "b", -- a@[3] b@[2, 1] c@[]
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Move "a" "c", -- a@[] b@[2, 1] c@[3]
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Move "c" "b", -- a@[3] b@[1, 2] c@[]
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Move "a" "c", -- a@[] b@[1, 2] c@[3]
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Move "b" "a", -- a@[1] b@[2] c@[3]
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Move "b" "c", -- a@[1] b@[] c@[3, 2]
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Move "a" "c" -- a@[] b@[] c@[3, 2, 1]
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Move "b" "c", -- a@[1] b@[] c@[2, 3]
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Move "a" "c" -- a@[] b@[] c@[1, 2, 3]
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]
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{----------------------------------------------------------------------------}
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@ -45,11 +45,14 @@ spec = describe "Hanoi" $ do
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-- Testing individual moves
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describe "move" $ do
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it "moves the smallest peg from peg A to peg C if peg C's disc is bigger" $ do
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let emptyPegs = initPegs "a" "b" "c" 0
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pegs =
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emptyPegs
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{ pegsPegA = (emptyPeg "a") {pegDiscs = [Disc 3, Disc 1]},
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pegsPegC = (emptyPeg "c") {pegDiscs = [Disc 2]}
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let pegs =
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Pegs
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{ pegsList =
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[ Peg {pegLabel = "a", pegDiscs = [Disc 1, Disc 3]},
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Peg {pegLabel = "b", pegDiscs = []},
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Peg {pegLabel = "c", pegDiscs = [Disc 2]}
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],
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pegsMoves = []
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}
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-- run the function
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@ -58,12 +61,11 @@ spec = describe "Hanoi" $ do
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-- a move should have been made
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moveMade `shouldBe` Just (Move "a" "c")
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-- the pegs should have changed
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pegsAfterMove
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`shouldBe` pegs
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{ pegsPegA = (pegsPegA pegs) {pegDiscs = [Disc 3]},
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pegsPegC = (pegsPegC pegs) {pegDiscs = [Disc 2, Disc 1]},
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pegsMoves = [Move {moveFrom = "a", moveTo = "c"}]
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}
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pegsList pegsAfterMove
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`shouldBe` [ Peg {pegLabel = "a", pegDiscs = [Disc 3]},
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Peg {pegLabel = "b", pegDiscs = []},
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Peg {pegLabel = "c", pegDiscs = [Disc 1, Disc 2]}
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]
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{----------------------------------------------------------------------------}
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{- PEGS ---------------------------------------------------------------------}
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@ -72,11 +74,14 @@ spec = describe "Hanoi" $ do
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-- Testing constructor for a set of pegs
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describe "initPegs" $ do
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it "creates pegs with labels and fills the first peg with discs" $ do
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initPegs "a" "b" "c" 3
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pegs <- initPegs ["a", "b", "c"] 3
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pegs
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`shouldBe` Pegs
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{ pegsPegA = Peg {pegLabel = "a", pegDiscs = [Disc 3, Disc 2, Disc 1]},
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pegsPegB = Peg {pegLabel = "b", pegDiscs = []},
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pegsPegC = Peg {pegLabel = "c", pegDiscs = []},
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{ pegsList =
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[ Peg {pegLabel = "a", pegDiscs = [Disc 1, Disc 2, Disc 3]},
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Peg {pegLabel = "b", pegDiscs = []},
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Peg {pegLabel = "c", pegDiscs = []}
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],
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pegsMoves = []
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}
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@ -90,7 +95,7 @@ spec = describe "Hanoi" $ do
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fillPeg "a" 3
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`shouldBe` Peg
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{ pegLabel = "a",
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pegDiscs = [Disc 3, Disc 2, Disc 1]
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pegDiscs = [Disc 1, Disc 2, Disc 3]
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}
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-- Testing constructor for a peg without discs
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@ -104,5 +109,5 @@ spec = describe "Hanoi" $ do
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-- Testing constructor for a stack of discs
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describe "stackDiscs" $ do
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it "should create a stack of discs from largest to smallest" $ do
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stackDiscs 3 `shouldBe` [Disc 3, Disc 2, Disc 1]
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it "should create a stack of discs from smallest to largest" $ do
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stackDiscs 3 `shouldBe` [Disc 1, Disc 2, Disc 3]
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