{-# LANGUAGE ForeignFunctionInterface, CPP #-} module Distribution.Client.Utils ( MergeResult(..) , mergeBy, duplicates, duplicatesBy , inDir, determineNumJobs, numberOfProcessors , removeExistingFile , makeAbsoluteToCwd, filePathToByteString , byteStringToFilePath, tryCanonicalizePath , canonicalizePathNoThrow , moreRecentFile, existsAndIsMoreRecentThan ) where import Distribution.Compat.Exception ( catchIO ) import Distribution.Client.Compat.Time ( getModTime ) import Distribution.Simple.Setup ( Flag(..) ) import qualified Data.ByteString.Lazy as BS import Control.Monad ( when ) import Data.Bits ( (.|.), shiftL, shiftR ) import Data.Char ( ord, chr ) import Data.List ( sortBy, groupBy ) import Data.Word ( Word8, Word32) import Foreign.C.Types ( CInt(..) ) import qualified Control.Exception as Exception ( finally ) import System.Directory ( canonicalizePath, doesFileExist, getCurrentDirectory , removeFile, setCurrentDirectory ) import System.FilePath ( (), isAbsolute ) import System.IO.Unsafe ( unsafePerformIO ) #if defined(mingw32_HOST_OS) import Prelude hiding (ioError) import Control.Monad (liftM2, unless) import System.Directory (doesDirectoryExist) import System.IO.Error (ioError, mkIOError, doesNotExistErrorType) #endif -- | Generic merging utility. For sorted input lists this is a full outer join. -- -- * The result list never contains @(Nothing, Nothing)@. -- mergeBy :: (a -> b -> Ordering) -> [a] -> [b] -> [MergeResult a b] mergeBy cmp = merge where merge [] ys = [ OnlyInRight y | y <- ys] merge xs [] = [ OnlyInLeft x | x <- xs] merge (x:xs) (y:ys) = case x `cmp` y of GT -> OnlyInRight y : merge (x:xs) ys EQ -> InBoth x y : merge xs ys LT -> OnlyInLeft x : merge xs (y:ys) data MergeResult a b = OnlyInLeft a | InBoth a b | OnlyInRight b duplicates :: Ord a => [a] -> [[a]] duplicates = duplicatesBy compare duplicatesBy :: (a -> a -> Ordering) -> [a] -> [[a]] duplicatesBy cmp = filter moreThanOne . groupBy eq . sortBy cmp where eq a b = case cmp a b of EQ -> True _ -> False moreThanOne (_:_:_) = True moreThanOne _ = False -- | Like 'removeFile', but does not throw an exception when the file does not -- exist. removeExistingFile :: FilePath -> IO () removeExistingFile path = do exists <- doesFileExist path when exists $ removeFile path -- | Executes the action in the specified directory. inDir :: Maybe FilePath -> IO a -> IO a inDir Nothing m = m inDir (Just d) m = do old <- getCurrentDirectory setCurrentDirectory d m `Exception.finally` setCurrentDirectory old foreign import ccall "getNumberOfProcessors" c_getNumberOfProcessors :: IO CInt -- The number of processors is not going to change during the duration of the -- program, so unsafePerformIO is safe here. numberOfProcessors :: Int numberOfProcessors = fromEnum $ unsafePerformIO c_getNumberOfProcessors -- | Determine the number of jobs to use given the value of the '-j' flag. determineNumJobs :: Flag (Maybe Int) -> Int determineNumJobs numJobsFlag = case numJobsFlag of NoFlag -> 1 Flag Nothing -> numberOfProcessors Flag (Just n) -> n -- | Given a relative path, make it absolute relative to the current -- directory. Absolute paths are returned unmodified. makeAbsoluteToCwd :: FilePath -> IO FilePath makeAbsoluteToCwd path | isAbsolute path = return path | otherwise = do cwd <- getCurrentDirectory return $! cwd path -- | Convert a 'FilePath' to a lazy 'ByteString'. Each 'Char' is -- encoded as a little-endian 'Word32'. filePathToByteString :: FilePath -> BS.ByteString filePathToByteString p = BS.pack $ foldr conv [] codepts where codepts :: [Word32] codepts = map (fromIntegral . ord) p conv :: Word32 -> [Word8] -> [Word8] conv w32 rest = b0:b1:b2:b3:rest where b0 = fromIntegral $ w32 b1 = fromIntegral $ w32 `shiftR` 8 b2 = fromIntegral $ w32 `shiftR` 16 b3 = fromIntegral $ w32 `shiftR` 24 -- | Reverse operation to 'filePathToByteString'. byteStringToFilePath :: BS.ByteString -> FilePath byteStringToFilePath bs | bslen `mod` 4 /= 0 = unexpected | otherwise = go 0 where unexpected = "Distribution.Client.Utils.byteStringToFilePath: unexpected" bslen = BS.length bs go i | i == bslen = [] | otherwise = (chr . fromIntegral $ w32) : go (i+4) where w32 :: Word32 w32 = b0 .|. (b1 `shiftL` 8) .|. (b2 `shiftL` 16) .|. (b3 `shiftL` 24) b0 = fromIntegral $ BS.index bs i b1 = fromIntegral $ BS.index bs (i + 1) b2 = fromIntegral $ BS.index bs (i + 2) b3 = fromIntegral $ BS.index bs (i + 3) -- | Workaround for the inconsistent behaviour of 'canonicalizePath'. It throws -- an error if the path refers to a non-existent file on *nix, but not on -- Windows. tryCanonicalizePath :: FilePath -> IO FilePath tryCanonicalizePath path = do ret <- canonicalizePath path #if defined(mingw32_HOST_OS) exists <- liftM2 (||) (doesFileExist ret) (doesDirectoryExist ret) unless exists $ ioError $ mkIOError doesNotExistErrorType "canonicalizePath" Nothing (Just ret) #endif return ret -- | A non-throwing wrapper for 'canonicalizePath'. If 'canonicalizePath' throws -- an exception, returns the path argument unmodified. canonicalizePathNoThrow :: FilePath -> IO FilePath canonicalizePathNoThrow path = do canonicalizePath path `catchIO` (\_ -> return path) -------------------- -- Modification time -- | Like Distribution.Simple.Utils.moreRecentFile, but uses getModTime instead -- of getModificationTime for higher precision. We can't merge the two because -- Distribution.Client.Time uses MIN_VERSION macros. moreRecentFile :: FilePath -> FilePath -> IO Bool moreRecentFile a b = do exists <- doesFileExist b if not exists then return True else do tb <- getModTime b ta <- getModTime a return (ta > tb) -- | Like 'moreRecentFile', but also checks that the first file exists. existsAndIsMoreRecentThan :: FilePath -> FilePath -> IO Bool existsAndIsMoreRecentThan a b = do exists <- doesFileExist a if not exists then return False else a `moreRecentFile` b