結果
| 問題 | No.39 桁の数字を入れ替え |
| ユーザー |
 こまる
|
| 提出日時 | 2020-12-12 23:09:09 |
| 言語 | Haskell (9.8.2) |
| 結果 |
CE
(最新)
AC
(最初)
|
| 実行時間 | - |
| コード長 | 12,813 bytes |
| コンパイル時間 | 5,608 ms |
| コンパイル使用メモリ | 145,284 KB |
| 最終ジャッジ日時 | 2023-10-20 02:45:33 |
| 合計ジャッジ時間 | 6,568 ms |
|
ジャッジサーバーID (参考情報) |
judge12 / judge15 |
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コンパイルエラー時のメッセージ・ソースコードは、提出者また管理者しか表示できないようにしております。(リジャッジ後のコンパイルエラーは公開されます)
ただし、clay言語の場合は開発者のデバッグのため、公開されます。
ただし、clay言語の場合は開発者のデバッグのため、公開されます。
コンパイルメッセージ
Loaded package environment from /home/judge/.ghc/x86_64-linux-9.6.2/environments/default
[1 of 2] Compiling Main ( Main.hs, Main.o )
Main.hs:17:1: error:
Could not load module ‘Data.ByteString’
It is a member of the hidden package ‘bytestring-0.11.4.0’.
You can run ‘:set -package bytestring’ to expose it.
(Note: this unloads all the modules in the current scope.)
Use -v (or `:set -v` in ghci) to see a list of the files searched for.
|
17 | import qualified Data.ByteString as BS
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Main.hs:18:1: error:
Could not load module ‘Data.ByteString.Builder’
It is a member of the hidden package ‘bytestring-0.11.4.0’.
You can run ‘:set -package bytestring’ to expose it.
(Note: this unloads all the modules in the current scope.)
Use -v (or `:set -v` in ghci) to see a list of the files searched for.
|
18 | import qualified Data.ByteString.Builder as BSB
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Main.hs:19:1: error:
Could not load module ‘Data.ByteString.Char8’
It is a member of the hidden package ‘bytestring-0.11.4.0’.
You can run ‘:set -package bytestring’ to expose it.
(Note: this unloads all the modules in the current scope.)
Use -v (or `:set -v` in ghci) to see a list of the files searched for.
|
19 | import qualified Data.ByteString.Char8 as BSC8
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
ソースコード
{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE UndecidableInstances #-}
import Control.Monad.Cont
import Control.Monad.ST
import Control.Monad.State
import Data.Char
import Data.Coerce
import Data.Int
import Data.IORef
import Data.Maybe
import Data.Word
import System.IO
import qualified Data.ByteString as BS
import qualified Data.ByteString.Builder as BSB
import qualified Data.ByteString.Char8 as BSC8
import qualified Data.Vector.Fusion.Stream.Monadic as VFSM
import qualified Data.Vector.Generic as VG
import qualified Data.Vector.Unboxed as VU
import qualified Data.Vector.Unboxed.Mutable as VUM
main :: IO ()
main = do
xs <- VU.unfoldrN 9 (runCParser char) <$> BSC8.getLine
let !n = VU.length xs
ys <- VU.unsafeThaw xs
zs <- VUM.unsafeNew n :: IO (VUM.IOVector Char)
ansRef <- newIORef (-1 :: Int)
rev n $ \i -> rep n $ \j -> do
VUM.unsafeCopy zs ys
when (i /= j && xs VU.! i > xs VU.! j) $ VUM.unsafeSwap zs i j
ws <- VU.unsafeFreeze zs
modifyIORef' ansRef (max (vuToNum ws))
print =<< readIORef ansRef
vuToNum :: VU.Vector Char -> Int
vuToNum = (read :: String -> Int) . VU.toList
-------------------------------------------------------------------------------
-- for
-------------------------------------------------------------------------------
rep :: Monad m => Int -> (Int -> m ()) -> m ()
rep n = flip VFSM.mapM_ (stream 0 n)
{-# INLINE rep #-}
rep' :: Monad m => Int -> (Int -> m ()) -> m ()
rep' n = flip VFSM.mapM_ (stream 0 (n + 1))
{-# INLINE rep' #-}
rep1 :: Monad m => Int -> (Int -> m ()) -> m ()
rep1 n = flip VFSM.mapM_ (stream 1 n)
{-# INLINE rep1 #-}
rep1' :: Monad m => Int -> (Int -> m ()) -> m ()
rep1' n = flip VFSM.mapM_ (stream 1 (n + 1))
{-# INLINE rep1' #-}
rev :: Monad m => Int -> (Int -> m ()) -> m ()
rev n = flip VFSM.mapM_ (streamR 0 n)
{-# INLINE rev #-}
rev' :: Monad m => Int -> (Int -> m ()) -> m ()
rev' n = flip VFSM.mapM_ (streamR 0 (n + 1))
{-# INLINE rev' #-}
rev1 :: Monad m => Int -> (Int -> m ()) -> m ()
rev1 n = flip VFSM.mapM_ (streamR 1 n)
{-# INLINE rev1 #-}
rev1' :: Monad m => Int -> (Int -> m ()) -> m ()
rev1' n = flip VFSM.mapM_ (streamR 1 (n + 1))
{-# INLINE rev1' #-}
range :: Monad m => Int -> Int -> (Int -> m ()) -> m ()
range l r = flip VFSM.mapM_ (stream l (r + 1))
{-# INLINE range #-}
rangeR :: Monad m => Int -> Int -> (Int -> m ()) -> m ()
rangeR r l = flip VFSM.mapM_ (streamR l (r + 1))
{-# INLINE rangeR #-}
forStep :: Monad m => Int -> Int -> Int -> (Int -> m ()) -> m ()
forStep l r d = flip VFSM.mapM_ (streamStep l r d)
{-# INLINE forStep #-}
forStepR :: Monad m => Int -> Int -> Int -> (Int -> m ()) -> m ()
forStepR r l d = flip VFSM.mapM_ (streamStepR l r d)
{-# INLINE forStepR #-}
forP :: Monad m => Int -> (Int -> m ()) -> m ()
forP p = flip VFSM.mapM_ (streamG 2 p (^) 2 (+) 1)
{-# INLINE forP #-}
forG :: Monad m => Int -> Int -> (Int -> Int -> Int) -> Int -> (Int -> Int -> Int) -> Int -> (Int -> m ()) -> m ()
forG l r f p g d = flip VFSM.mapM_ (streamG l r f p g d)
{-# INLINE forG #-}
forRG :: Monad m => Int -> Int -> (Int -> Int -> Int) -> Int -> (Int -> Int -> Int) -> Int -> (Int -> m ()) -> m ()
forRG r l f p g d = flip VFSM.mapM_ (streamRG r l f p g d)
{-# INLINE forRG #-}
stream :: Monad m => Int -> Int -> VFSM.Stream m Int
stream !l !r = VFSM.Stream step l
where
step x
| x < r = return $ VFSM.Yield x (x + 1)
| otherwise = return VFSM.Done
{-# INLINE [0] step #-}
{-# INLINE [1] stream #-}
streamR :: Monad m => Int -> Int -> VFSM.Stream m Int
streamR !l !r = VFSM.Stream step (r - 1)
where
step x
| x >= l = return $ VFSM.Yield x (x - 1)
| otherwise = return VFSM.Done
{-# INLINE [0] step #-}
{-# INLINE [1] streamR #-}
streamStep :: Monad m => Int -> Int -> Int -> VFSM.Stream m Int
streamStep !l !r !d = VFSM.Stream step l
where
step x
| x <= r = return $ VFSM.Yield x (x + d)
| otherwise = return VFSM.Done
{-# INLINE [0] step #-}
{-# INLINE [1] streamStep #-}
streamStepR :: Monad m => Int -> Int -> Int -> VFSM.Stream m Int
streamStepR !l !r !d = VFSM.Stream step r
where
step x
| x >= l = return $ VFSM.Yield x (x - d)
| otherwise = return VFSM.Done
{-# INLINE [0] step #-}
{-# INLINE [1] streamStepR #-}
streamG :: Monad m => Int -> Int -> (Int -> Int -> Int) -> Int -> (Int -> Int -> Int) -> Int -> VFSM.Stream m Int
streamG !l !r !f !p !g !d = VFSM.Stream step l
where
step x
| f x p <= r = return $ VFSM.Yield x (g x d)
| otherwise = return VFSM.Done
{-# INLINE [0] step #-}
{-# INLINE [1] streamG #-}
streamRG :: Monad m => Int -> Int -> (Int -> Int -> Int) -> Int -> (Int -> Int -> Int) -> Int -> VFSM.Stream m Int
streamRG !r !l !f !p !g !d = VFSM.Stream step r
where
step x
| f x p >= l = return $ VFSM.Yield x (g x d)
| otherwise = return VFSM.Done
{-# INLINE [0] step #-}
{-# INLINE [1] streamRG #-}
withBreakIO :: ((r -> ContT r IO b) -> ContT r IO r) -> IO r
withBreakIO = flip runContT pure . callCC
{-# INLINE withBreakIO #-}
withBreakST :: ((r -> ContT r (ST s) b) -> ContT r (ST s) r) -> (ST s) r
withBreakST = flip runContT pure . callCC
{-# INLINE withBreakST #-}
type CParser a = StateT BSC8.ByteString Maybe a
runCParser :: CParser a -> BSC8.ByteString -> Maybe (a, BSC8.ByteString)
runCParser = runStateT
{-# INLINE runCParser #-}
int :: CParser Int
int = coerce $ BSC8.readInt . BSC8.dropWhile isSpace
{-# INLINE int #-}
int1 :: CParser Int
int1 = fmap (subtract 1) int
{-# INLINE int1 #-}
char :: CParser Char
char = coerce BSC8.uncons
{-# INLINE char #-}
byte :: CParser Word8
byte = coerce BS.uncons
{-# INLINE byte #-}
skipSpaces :: CParser ()
skipSpaces = modify' (BSC8.dropWhile isSpace)
{-# INLINE skipSpaces #-}
seqInput :: Int -> IO (VU.Vector Int)
seqInput n = VU.unfoldrN n (runCParser int) <$> BSC8.getLine
{-# INLINE seqInput #-}
parseN1 :: Int -> IO (VU.Vector Int)
parseN1 n = VU.unfoldrN n (runCParser int) <$> BSC8.getContents
{-# INLINE parseN1 #-}
parseN2 :: Int -> IO (VU.Vector (Int, Int))
parseN2 n = VU.unfoldrN n (runCParser $ (,) <$> int <*> int) <$> BSC8.getContents
{-# INLINE parseN2 #-}
parseN3 :: Int -> IO (VU.Vector (Int, Int, Int))
parseN3 n = VU.unfoldrN n (runCParser $ (,,) <$> int <*> int <*> int) <$> BSC8.getContents
{-# INLINE parseN3 #-}
parseN4 :: Int -> IO (VU.Vector (Int, Int, Int, Int))
parseN4 n = VU.unfoldrN n (runCParser $ (,,,) <$> int <*> int <*> int <*> int) <$> BSC8.getContents
{-# INLINE parseN4 #-}
parseN5 :: Int -> IO (VU.Vector (Int, Int, Int, Int, Int))
parseN5 n = VU.unfoldrN n (runCParser $ (,,,,) <$> int <*> int <*> int <*> int <*> int) <$> BSC8.getContents
{-# INLINE parseN5 #-}
parseANBN :: Int -> IO (VU.Vector Int, VU.Vector Int)
parseANBN n = VU.unzip . VU.unfoldrN n (runCParser $ (,) <$> int <*> int) <$> BSC8.getContents
{-# INLINE parseANBN #-}
parseANBNCN :: Int -> IO (VU.Vector Int, VU.Vector Int, VU.Vector Int)
parseANBNCN n = VU.unzip3 . VU.unfoldrN n (runCParser $ (,,) <$> int <*> int <*> int) <$> BSC8.getContents
{-# INLINE parseANBNCN #-}
type Query3 = (Int, Int, Int)
query3Parser :: CParser Query3
query3Parser = do
skipSpaces
t <- char
case t of
'0' -> (,,) 0 <$> int <*> int
_ -> (,,) 1 <$> int <*> pure 0
parseQ3 :: Int -> IO (VU.Vector Query3)
parseQ3 n = VU.unfoldrN n (runCParser query3Parser) <$> BSC8.getContents
{-# INLINE parseQ3 #-}
type Query5 = (Int, Int, Int, Int, Int)
query5Parser :: CParser Query5
query5Parser = do
skipSpaces
t <- char
case t of
'0' -> (,,,,) 0 <$> int <*> int <*> int <*> int
_ -> (,,,,) 1 <$> int <*> int <*> pure 0 <*> pure 0
parseQ5 :: Int -> IO (VU.Vector Query5)
parseQ5 n = VU.unfoldrN n (runCParser query5Parser) <$> BSC8.getContents
{-# INLINE parseQ5 #-}
readInt :: BSC8.ByteString -> Int
readInt = fst . fromJust . BSC8.readInt
{-# INLINE readInt #-}
getInt :: IO Int
getInt = readInt <$> BSC8.getLine
{-# INLINE getInt #-}
readIntList :: BSC8.ByteString -> [Int]
readIntList = map readInt . BSC8.words
{-# INLINE readIntList #-}
getIntList :: IO [Int]
getIntList = readIntList <$> BSC8.getLine
{-# INLINE getIntList #-}
readInteger :: BSC8.ByteString -> Integer
readInteger = fst . fromJust . BSC8.readInteger
{-# INLINE readInteger #-}
getInteger :: IO Integer
getInteger = readInteger <$> BSC8.getLine
{-# INLINE getInteger #-}
readIntegerList :: BSC8.ByteString -> [Integer]
readIntegerList = map readInteger . BSC8.words
{-# INLINE readIntegerList #-}
getIntegerList :: IO [Integer]
getIntegerList = readIntegerList <$> BSC8.getLine
{-# INLINE getIntegerList #-}
class ShowAsBuilder a where
showAsBuilder :: a -> BSB.Builder
default showAsBuilder :: (Show a) => a -> BSB.Builder
showAsBuilder = BSB.string8 . show
instance ShowAsBuilder Int where
showAsBuilder = BSB.intDec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Int8 where
showAsBuilder = BSB.int8Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Int16 where
showAsBuilder = BSB.int16Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Int32 where
showAsBuilder = BSB.int32Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Int64 where
showAsBuilder = BSB.int64Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Word8 where
showAsBuilder = BSB.word8Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Word16 where
showAsBuilder = BSB.word16Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Word32 where
showAsBuilder = BSB.word32Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Word64 where
showAsBuilder = BSB.word64Dec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Integer where
showAsBuilder = BSB.integerDec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Float where
showAsBuilder = BSB.floatDec
{-# INLINE showAsBuilder #-}
instance ShowAsBuilder Double where
showAsBuilder = BSB.doubleDec
{-# INLINE showAsBuilder #-}
instance (ShowAsBuilder a, VG.Vector v a) => ShowAsBuilder (v a) where
showAsBuilder = v2BSpcSep
putBuilder :: BSB.Builder -> IO ()
putBuilder = BSB.hPutBuilder stdout
{-# INLINE putBuilder #-}
printVecInLines :: (VG.Vector v a, ShowAsBuilder a) => v a -> IO ()
printVecInLines = putBuilder . v2BLines
{-# INLINE printVecInLines #-}
printVecInSpcSepLn :: (VG.Vector v a, ShowAsBuilder a) => v a -> IO ()
printVecInSpcSepLn = putBuilder . v2BSpcSepLn
{-# INLINE printVecInSpcSepLn #-}
v2BSpcSepLn :: (VG.Vector v a, ShowAsBuilder a) => v a -> BSB.Builder
v2BSpcSepLn = v2BSpcSepLnWith showAsBuilder
{-# INLINE v2BSpcSepLn #-}
v2BSpcSep :: (VG.Vector v a, ShowAsBuilder a) => v a -> BSB.Builder
v2BSpcSep = v2BSpcSepWith showAsBuilder
{-# INLINE v2BSpcSep #-}
v2BConcat:: (VG.Vector v a, ShowAsBuilder a) => v a -> BSB.Builder
v2BConcat = v2BConcatWith showAsBuilder
{-# INLINE v2BConcat #-}
v2BLines:: (VG.Vector v a, ShowAsBuilder a) => v a -> BSB.Builder
v2BLines = v2BLinesWith showAsBuilder
{-# INLINE v2BLines #-}
v2BSpcSepLnWith :: VG.Vector v a => (a -> BSB.Builder) -> v a -> BSB.Builder
v2BSpcSepLnWith = v2BSpcSepPostfWith "\n"
{-# INLINE v2BSpcSepLnWith #-}
v2BSpcSepWith :: VG.Vector v a => (a -> BSB.Builder) -> v a -> BSB.Builder
v2BSpcSepWith = v2BSpcSepPostfWith ""
{-# INLINE v2BSpcSepWith #-}
v2BConcatWith :: VG.Vector v a => (a -> BSB.Builder) -> v a -> BSB.Builder
v2BConcatWith showFct = VG.foldr ((<>) . showFct) mempty
{-# INLINE v2BConcatWith #-}
v2BLinesWith :: VG.Vector v a => (a -> BSB.Builder) -> v a -> BSB.Builder
v2BLinesWith showFct = VG.foldr (\a -> (showFct a <>) . (BSB.char7 '\n' <>)) mempty
{-# INLINE v2BLinesWith #-}
v2BSpcSepPostf :: (VG.Vector v a, ShowAsBuilder a) => BS.ByteString -> v a -> BSB.Builder
v2BSpcSepPostf = (`v2BSpcSepPostfWith` showAsBuilder)
{-# INLINE v2BSpcSepPostf #-}
v2BSpcSepPostfWith :: VG.Vector v a => BS.ByteString -> (a -> BSB.Builder) -> v a -> BSB.Builder
v2BSpcSepPostfWith = vecToBuilder "" " "
{-# INLINE v2BSpcSepPostfWith #-}
vecToBuilder :: VG.Vector v a => BS.ByteString -> BS.ByteString -> BS.ByteString -> (a -> BSB.Builder) -> v a -> BSB.Builder
vecToBuilder !prefix !separator !postfix = vecToBuilder_ (BSB.byteString prefix) (BSB.byteString separator) (BSB.byteString postfix)
{-# INLINE vecToBuilder #-}
vecToBuilder_ :: VG.Vector v a => BSB.Builder -> BSB.Builder -> BSB.Builder -> (a -> BSB.Builder) -> v a -> BSB.Builder
vecToBuilder_ !prefix !separator !postfix showFct vec = prefix <> VG.foldr (\a rest !prefx -> prefx <> (showFct a <> rest separator)) (const postfix) vec mempty
{-# INLINE vecToBuilder_ #-}