{-# LANGUAGE MultiParamTypeClasses, GeneralizedNewtypeDeriving, ScopedTypeVariables, DeriveDataTypeable, RecordWildCards, FlexibleContexts #-} -- | Both System.Directory and System.Environment wrappers module Development.Shake.Rules.Directory( doesFileExist, doesDirectoryExist, getDirectoryContents, getDirectoryFiles, getDirectoryDirs, getEnv, getEnvWithDefault, removeFiles, removeFilesAfter, defaultRuleDirectory ) where import Control.Applicative import Control.Monad.Extra import Control.Monad.IO.Class import Data.Maybe import Data.Binary import Data.List import qualified System.Directory as IO import qualified System.Environment.Extra as IO import Development.Shake.Core import Development.Shake.Classes import Development.Shake.FilePath import Development.Shake.FilePattern import General.Extra newtype DoesFileExistQ = DoesFileExistQ FilePath deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show DoesFileExistQ where show (DoesFileExistQ a) = "doesFileExist " ++ showQuote a newtype DoesFileExistA = DoesFileExistA Bool deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show DoesFileExistA where show (DoesFileExistA a) = show a newtype DoesDirectoryExistQ = DoesDirectoryExistQ FilePath deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show DoesDirectoryExistQ where show (DoesDirectoryExistQ a) = "doesDirectoryExist " ++ showQuote a newtype DoesDirectoryExistA = DoesDirectoryExistA Bool deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show DoesDirectoryExistA where show (DoesDirectoryExistA a) = show a newtype GetEnvQ = GetEnvQ String deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show GetEnvQ where show (GetEnvQ a) = "getEnv " ++ showQuote a newtype GetEnvA = GetEnvA (Maybe String) deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show GetEnvA where show (GetEnvA a) = maybe "" showQuote a data GetDirectoryQ = GetDir {dir :: FilePath} | GetDirFiles {dir :: FilePath, pat :: [FilePattern]} | GetDirDirs {dir :: FilePath} deriving (Typeable,Eq) newtype GetDirectoryA = GetDirectoryA [FilePath] deriving (Typeable,Eq,Hashable,Binary,NFData) instance Show GetDirectoryQ where show (GetDir x) = "getDirectoryContents " ++ showQuote x show (GetDirFiles a b) = "getDirectoryFiles " ++ showQuote a ++ " [" ++ unwords (map showQuote b) ++ "]" show (GetDirDirs x) = "getDirectoryDirs " ++ showQuote x instance Show GetDirectoryA where show (GetDirectoryA xs) = unwords $ map showQuote xs instance NFData GetDirectoryQ where rnf (GetDir a) = rnf a rnf (GetDirFiles a b) = rnf a `seq` rnf b rnf (GetDirDirs a) = rnf a instance Hashable GetDirectoryQ where hashWithSalt salt = hashWithSalt salt . f where f (GetDir x) = (0 :: Int, x, []) f (GetDirFiles x y) = (1, x, y) f (GetDirDirs x) = (2, x, []) instance Binary GetDirectoryQ where get = do i <- getWord8 case i of 0 -> liftM GetDir get 1 -> liftM2 GetDirFiles get get 2 -> liftM GetDirDirs get put (GetDir x) = putWord8 0 >> put x put (GetDirFiles x y) = putWord8 1 >> put x >> put y put (GetDirDirs x) = putWord8 2 >> put x instance Rule DoesFileExistQ DoesFileExistA where storedValue _ (DoesFileExistQ x) = fmap (Just . DoesFileExistA) $ IO.doesFileExist x instance Rule DoesDirectoryExistQ DoesDirectoryExistA where storedValue _ (DoesDirectoryExistQ x) = fmap (Just . DoesDirectoryExistA) $ IO.doesDirectoryExist x instance Rule GetEnvQ GetEnvA where storedValue _ (GetEnvQ x) = fmap (Just . GetEnvA) $ IO.lookupEnv x instance Rule GetDirectoryQ GetDirectoryA where storedValue _ x = fmap Just $ getDir x -- | This function is not actually exported, but Haddock is buggy. Please ignore. defaultRuleDirectory :: Rules () defaultRuleDirectory = do rule $ \(DoesFileExistQ x) -> Just $ liftIO $ fmap DoesFileExistA $ IO.doesFileExist x rule $ \(DoesDirectoryExistQ x) -> Just $ liftIO $ fmap DoesDirectoryExistA $ IO.doesDirectoryExist x rule $ \(x :: GetDirectoryQ) -> Just $ liftIO $ getDir x rule $ \(GetEnvQ x) -> Just $ liftIO $ fmap GetEnvA $ IO.lookupEnv x -- | Returns 'True' if the file exists. The existence of the file is tracked as a -- dependency, and if the file is created or deleted the rule will rerun in subsequent builds. -- -- You should not call 'doesFileExist' on files which can be created by the build system. doesFileExist :: FilePath -> Action Bool doesFileExist file = do DoesFileExistA res <- apply1 $ DoesFileExistQ file return res -- | Returns 'True' if the directory exists. The existence of the directory is tracked as a -- dependency, and if the directory is created or delete the rule will rerun in subsequent builds. -- -- You should not call 'doesDirectoryExist' on directories which can be created by the build system. doesDirectoryExist :: FilePath -> Action Bool doesDirectoryExist file = do DoesDirectoryExistA res <- apply1 $ DoesDirectoryExistQ file return res -- | Return 'Just' the value of the environment variable, or 'Nothing' -- if the variable is not set. The environment variable is tracked as a -- dependency, and if it changes the rule will rerun in subsequent builds. getEnv :: String -> Action (Maybe String) getEnv var = do GetEnvA res <- apply1 $ GetEnvQ var return res -- | Return the value of the environment variable, or the default value if it -- not set. Similar to 'getEnv'. getEnvWithDefault :: String -> String -> Action String getEnvWithDefault def var = fromMaybe def <$> getEnv var -- | Get the contents of a directory. The result will be sorted, and will not contain -- the entries @.@ or @..@ (unlike the standard Haskell version). The resulting paths will be relative -- to the first argument. The result is tracked as a -- dependency, and if it changes the rule will rerun in subsequent builds. -- -- It is usually simpler to call either 'getDirectoryFiles' or 'getDirectoryDirs'. getDirectoryContents :: FilePath -> Action [FilePath] getDirectoryContents x = getDirAction $ GetDir x -- | Get the files anywhere under a directory that match any of a set of patterns. -- For the interpretation of the patterns see '?=='. All results will be -- relative to the 'FilePath' argument. The result is tracked as a -- dependency, and if it changes the rule will rerun in subsequent builds. -- Some examples: -- -- > getDirectoryFiles "Config" ["//*.xml"] -- > -- All .xml files anywhere under the Config directory -- > -- If Config/foo/bar.xml exists it will return ["foo/bar.xml"] -- > getDirectoryFiles "Modules" ["*.hs","*.lhs"] -- > -- All .hs or .lhs in the Modules directory -- > -- If Modules/foo.hs and Modules/foo.lhs exist, it will return ["foo.hs","foo.lhs"] -- -- If you require a qualified file name it is often easier to use @\"\"@ as 'FilePath' argument, -- for example the following two expressions are equivalent: -- -- > fmap (map ("Config" )) (getDirectoryFiles "Config" ["//*.xml"]) -- > getDirectoryFiles "" ["Config//*.xml"] getDirectoryFiles :: FilePath -> [FilePattern] -> Action [FilePath] getDirectoryFiles x f = getDirAction $ GetDirFiles x f -- | Get the directories in a directory, not including @.@ or @..@. -- All directories are relative to the argument directory. The result is tracked as a -- dependency, and if it changes the rule will rerun in subsequent builds. -- -- -- > getDirectoryDirs "/Users" -- > -- Return all directories in the /Users directory -- > -- e.g. ["Emily","Henry","Neil"] getDirectoryDirs :: FilePath -> Action [FilePath] getDirectoryDirs x = getDirAction $ GetDirDirs x getDirAction x = do GetDirectoryA y <- apply1 x; return y contents :: FilePath -> IO [FilePath] -- getDirectoryContents "" is equivalent to getDirectoryContents "." on Windows, -- but raises an error on Linux. We smooth out the difference. contents x = fmap (filter $ not . all (== '.')) $ IO.getDirectoryContents $ if x == "" then "." else x answer :: [FilePath] -> GetDirectoryA answer = GetDirectoryA . sort getDir :: GetDirectoryQ -> IO GetDirectoryA getDir GetDir{..} = fmap answer $ contents dir getDir GetDirDirs{..} = fmap answer $ filterM f =<< contents dir where f x = IO.doesDirectoryExist $ dir x getDir GetDirFiles{..} = fmap answer $ concatMapM f $ directories pat where test = let ps = map (?==) pat in \x -> any ($ x) ps f (dir2,False) = do xs <- fmap (map (dir2 )) $ contents $ dir dir2 flip filterM xs $ \x -> if not $ test x then return False else fmap not $ IO.doesDirectoryExist $ dir x f (dir2,True) = do xs <- fmap (map (dir2 )) $ contents $ dir dir2 (dirs,files) <- partitionM (\x -> IO.doesDirectoryExist $ dir x) xs rest <- concatMapM (\d -> f (d, True)) dirs return $ filter test files ++ rest -- | Remove all files and directories that match any of the patterns within a directory. -- Some examples: -- -- @ -- 'removeFiles' \"output\" [\"\/\/*\"] -- 'removeFiles' \".\" [\"\/\/*.hi\",\"\/\/*.o\"] -- @ -- -- Any directories that become empty after deleting items from within them will themselves be deleted, -- up to (and including) the containing directory. -- This function is often useful when writing a @clean@ action for your build system, -- often as a 'phony' rule. removeFiles :: FilePath -> [FilePattern] -> IO () removeFiles dir pat = do b <- IO.doesDirectoryExist dir when b $ void $ f "" where -- because it is generate and match anything like ../ will be ignored, since we never generate .. -- therefore we can safely know we never escape the containing directory test = let ps = map (?==) pat in \x -> any ($ x) ps -- dir dir2 is the part to operate on, return True if you deleted the directory f :: FilePath -> IO Bool f dir2 | test dir2 = do IO.removeDirectoryRecursive $ dir dir2 return True f dir2 = do xs <- fmap (map (dir2 )) $ contents $ dir dir2 (dirs,files) <- partitionM (\x -> IO.doesDirectoryExist $ dir x) xs noDirs <- fmap and $ mapM f dirs let (del,keep) = partition test files forM del $ \d -> IO.removeFile $ dir d let die = noDirs && null keep && not (null xs) when die $ IO.removeDirectory $ dir dir2 return die -- | Remove files, like 'removeFiles', but executed after the build completes successfully. -- Useful for implementing @clean@ actions that delete files Shake may have open for building. removeFilesAfter :: FilePath -> [FilePattern] -> Action () removeFilesAfter a b = do putLoud $ "Will remove " ++ unwords b ++ " from " ++ a runAfter $ removeFiles a b