{-# OPTIONS_GHC -w #-} -- XXX We get some warnings on Windows ----------------------------------------------------------------------------- -- | -- Module : System.Directory -- Copyright : (c) The University of Glasgow 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : libraries@haskell.org -- Stability : stable -- Portability : portable -- -- System-independent interface to directory manipulation. -- ----------------------------------------------------------------------------- module System.Directory ( -- $intro -- * Actions on directories createDirectory -- :: FilePath -> IO () #ifndef __NHC__ , createDirectoryIfMissing -- :: Bool -> FilePath -> IO () #endif , removeDirectory -- :: FilePath -> IO () , removeDirectoryRecursive -- :: FilePath -> IO () , renameDirectory -- :: FilePath -> FilePath -> IO () , getDirectoryContents -- :: FilePath -> IO [FilePath] , getCurrentDirectory -- :: IO FilePath , setCurrentDirectory -- :: FilePath -> IO () -- * Pre-defined directories , getHomeDirectory , getAppUserDataDirectory , getUserDocumentsDirectory , getTemporaryDirectory -- * Actions on files , removeFile -- :: FilePath -> IO () , renameFile -- :: FilePath -> FilePath -> IO () , copyFile -- :: FilePath -> FilePath -> IO () , canonicalizePath , makeRelativeToCurrentDirectory , findExecutable -- * Existence tests , doesFileExist -- :: FilePath -> IO Bool , doesDirectoryExist -- :: FilePath -> IO Bool -- * Permissions -- $permissions , Permissions , emptyPermissions , readable -- :: Permissions -> Bool , writable -- :: Permissions -> Bool , executable -- :: Permissions -> Bool , searchable -- :: Permissions -> Bool , setOwnerReadable , setOwnerWritable , setOwnerExecutable , setOwnerSearchable , getPermissions -- :: FilePath -> IO Permissions , setPermissions -- :: FilePath -> Permissions -> IO () , copyPermissions -- * Timestamps , getModificationTime -- :: FilePath -> IO ClockTime ) where import Prelude hiding ( catch ) import qualified Prelude import Control.Monad (guard) import System.Environment ( getEnv ) import System.FilePath import System.IO import System.IO.Error hiding ( catch, try ) import Control.Monad ( when, unless ) import Control.Exception.Base #ifdef __NHC__ import Directory -- hiding ( getDirectoryContents -- , doesDirectoryExist, doesFileExist -- , getModificationTime ) import System (system) #endif /* __NHC__ */ #ifdef __HUGS__ import Hugs.Directory #endif /* __HUGS__ */ import Foreign import Foreign.C {-# CFILES cbits/directory.c #-} import System.Time ( ClockTime(..) ) #ifdef __GLASGOW_HASKELL__ #if __GLASGOW_HASKELL__ >= 611 import GHC.IO.Exception ( IOException(..), IOErrorType(..), ioException ) #else import GHC.IOBase ( IOException(..), IOErrorType(..), ioException ) #endif #if __GLASGOW_HASKELL__ > 700 import GHC.IO.Encoding import GHC.Foreign as GHC #endif #ifdef mingw32_HOST_OS import System.Posix.Types import System.Posix.Internals import qualified System.Win32 as Win32 #else import qualified System.Posix as Posix #endif #endif /* __GLASGOW_HASKELL__ */ {- $intro A directory contains a series of entries, each of which is a named reference to a file system object (file, directory etc.). Some entries may be hidden, inaccessible, or have some administrative function (e.g. `.' or `..' under POSIX <http://www.opengroup.org/onlinepubs/009695399/>), but in this standard all such entries are considered to form part of the directory contents. Entries in sub-directories are not, however, considered to form part of the directory contents. Each file system object is referenced by a /path/. There is normally at least one absolute path to each file system object. In some operating systems, it may also be possible to have paths which are relative to the current directory. -} ----------------------------------------------------------------------------- -- Permissions {- $permissions The 'Permissions' type is used to record whether certain operations are permissible on a file\/directory. 'getPermissions' and 'setPermissions' get and set these permissions, respectively. Permissions apply both to files and directories. For directories, the executable field will be 'False', and for files the searchable field will be 'False'. Note that directories may be searchable without being readable, if permission has been given to use them as part of a path, but not to examine the directory contents. Note that to change some, but not all permissions, a construct on the following lines must be used. > makeReadable f = do > p <- getPermissions f > setPermissions f (p {readable = True}) -} data Permissions = Permissions { readable, writable, executable, searchable :: Bool } deriving (Eq, Ord, Read, Show) emptyPermissions :: Permissions emptyPermissions = Permissions { readable = False, writable = False, executable = False, searchable = False } setOwnerReadable :: Bool -> Permissions -> Permissions setOwnerReadable b p = p { readable = b } setOwnerWritable :: Bool -> Permissions -> Permissions setOwnerWritable b p = p { writable = b } setOwnerExecutable :: Bool -> Permissions -> Permissions setOwnerExecutable b p = p { executable = b } setOwnerSearchable :: Bool -> Permissions -> Permissions setOwnerSearchable b p = p { searchable = b } {- |The 'getPermissions' operation returns the permissions for the file or directory. The operation may fail with: * 'isPermissionError' if the user is not permitted to access the permissions; or * 'isDoesNotExistError' if the file or directory does not exist. -} #ifdef __GLASGOW_HASKELL__ getPermissions :: FilePath -> IO Permissions getPermissions name = do #ifdef mingw32_HOST_OS withFilePath name $ \s -> do -- stat() does a better job of guessing the permissions on Windows -- than access() does. e.g. for execute permission, it looks at the -- filename extension :-) -- -- I tried for a while to do this properly, using the Windows security API, -- and eventually gave up. getPermissions is a flawed API anyway. -- SimonM allocaBytes sizeof_stat $ \ p_stat -> do throwErrnoIfMinus1_ "getPermissions" $ c_stat s p_stat mode <- st_mode p_stat let usr_read = mode .&. s_IRUSR let usr_write = mode .&. s_IWUSR let usr_exec = mode .&. s_IXUSR let is_dir = mode .&. s_IFDIR return ( Permissions { readable = usr_read /= 0, writable = usr_write /= 0, executable = is_dir == 0 && usr_exec /= 0, searchable = is_dir /= 0 && usr_exec /= 0 } ) #else read_ok <- Posix.fileAccess name True False False write_ok <- Posix.fileAccess name False True False exec_ok <- Posix.fileAccess name False False True stat <- Posix.getFileStatus name let is_dir = Posix.isDirectory stat return ( Permissions { readable = read_ok, writable = write_ok, executable = not is_dir && exec_ok, searchable = is_dir && exec_ok } ) #endif {- |The 'setPermissions' operation sets the permissions for the file or directory. The operation may fail with: * 'isPermissionError' if the user is not permitted to set the permissions; or * 'isDoesNotExistError' if the file or directory does not exist. -} setPermissions :: FilePath -> Permissions -> IO () setPermissions name (Permissions r w e s) = do #ifdef mingw32_HOST_OS allocaBytes sizeof_stat $ \ p_stat -> do withFilePath name $ \p_name -> do throwErrnoIfMinus1_ "setPermissions" $ do c_stat p_name p_stat mode <- st_mode p_stat let mode1 = modifyBit r mode s_IRUSR let mode2 = modifyBit w mode1 s_IWUSR let mode3 = modifyBit (e || s) mode2 s_IXUSR c_wchmod p_name mode3 where modifyBit :: Bool -> CMode -> CMode -> CMode modifyBit False m b = m .&. (complement b) modifyBit True m b = m .|. b #else stat <- Posix.getFileStatus name let mode = Posix.fileMode stat let mode1 = modifyBit r mode Posix.ownerReadMode let mode2 = modifyBit w mode1 Posix.ownerWriteMode let mode3 = modifyBit (e || s) mode2 Posix.ownerExecuteMode Posix.setFileMode name mode3 where modifyBit :: Bool -> Posix.FileMode -> Posix.FileMode -> Posix.FileMode modifyBit False m b = m .&. (complement b) modifyBit True m b = m .|. b #endif #ifdef mingw32_HOST_OS foreign import ccall unsafe "_wchmod" c_wchmod :: CWString -> CMode -> IO CInt #endif copyPermissions :: FilePath -> FilePath -> IO () copyPermissions source dest = do #ifdef mingw32_HOST_OS allocaBytes sizeof_stat $ \ p_stat -> do withFilePath source $ \p_source -> do withFilePath dest $ \p_dest -> do throwErrnoIfMinus1_ "copyPermissions" $ c_stat p_source p_stat mode <- st_mode p_stat throwErrnoIfMinus1_ "copyPermissions" $ c_wchmod p_dest mode #else stat <- Posix.getFileStatus source let mode = Posix.fileMode stat Posix.setFileMode dest mode #endif ----------------------------------------------------------------------------- -- Implementation {- |@'createDirectory' dir@ creates a new directory @dir@ which is initially empty, or as near to empty as the operating system allows. The operation may fail with: * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EROFS, EACCES]@ * 'isAlreadyExistsError' \/ 'AlreadyExists' The operand refers to a directory that already exists. @ [EEXIST]@ * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'InvalidArgument' The operand is not a valid directory name. @[ENAMETOOLONG, ELOOP]@ * 'NoSuchThing' There is no path to the directory. @[ENOENT, ENOTDIR]@ * 'ResourceExhausted' Insufficient resources (virtual memory, process file descriptors, physical disk space, etc.) are available to perform the operation. @[EDQUOT, ENOSPC, ENOMEM, EMLINK]@ * 'InappropriateType' The path refers to an existing non-directory object. @[EEXIST]@ -} createDirectory :: FilePath -> IO () createDirectory path = do #ifdef mingw32_HOST_OS Win32.createDirectory path Nothing #else Posix.createDirectory path 0o777 #endif #else /* !__GLASGOW_HASKELL__ */ copyPermissions :: FilePath -> FilePath -> IO () copyPermissions fromFPath toFPath = getPermissions fromFPath >>= setPermissions toFPath #endif #ifndef __NHC__ -- | @'createDirectoryIfMissing' parents dir@ creates a new directory -- @dir@ if it doesn\'t exist. If the first argument is 'True' -- the function will also create all parent directories if they are missing. createDirectoryIfMissing :: Bool -- ^ Create its parents too? -> FilePath -- ^ The path to the directory you want to make -> IO () createDirectoryIfMissing create_parents path0 | create_parents = createDirs (parents path0) | otherwise = createDirs (take 1 (parents path0)) where parents = reverse . scanl1 (</>) . splitDirectories . normalise createDirs [] = return () createDirs (dir:[]) = createDir dir throw createDirs (dir:dirs) = createDir dir $ \_ -> do createDirs dirs createDir dir throw createDir :: FilePath -> (IOException -> IO ()) -> IO () createDir dir notExistHandler = do r <- try $ createDirectory dir case (r :: Either IOException ()) of Right () -> return () Left e | isDoesNotExistError e -> notExistHandler e -- createDirectory (and indeed POSIX mkdir) does not distinguish -- between a dir already existing and a file already existing. So we -- check for it here. Unfortunately there is a slight race condition -- here, but we think it is benign. It could report an exeption in -- the case that the dir did exist but another process deletes the -- directory and creates a file in its place before we can check -- that the directory did indeed exist. | isAlreadyExistsError e -> (do #ifdef mingw32_HOST_OS withFileStatus "createDirectoryIfMissing" dir $ \st -> do isDir <- isDirectory st if isDir then return () else throw e #else stat <- Posix.getFileStatus dir if Posix.isDirectory stat then return () else throw e #endif ) `catch` ((\_ -> return ()) :: IOException -> IO ()) | otherwise -> throw e #endif /* !__NHC__ */ #if __GLASGOW_HASKELL__ {- | @'removeDirectory' dir@ removes an existing directory /dir/. The implementation may specify additional constraints which must be satisfied before a directory can be removed (e.g. the directory has to be empty, or may not be in use by other processes). It is not legal for an implementation to partially remove a directory unless the entire directory is removed. A conformant implementation need not support directory removal in all situations (e.g. removal of the root directory). The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. EIO * 'InvalidArgument' The operand is not a valid directory name. [ENAMETOOLONG, ELOOP] * 'isDoesNotExistError' \/ 'NoSuchThing' The directory does not exist. @[ENOENT, ENOTDIR]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EROFS, EACCES, EPERM]@ * 'UnsatisfiedConstraints' Implementation-dependent constraints are not satisfied. @[EBUSY, ENOTEMPTY, EEXIST]@ * 'UnsupportedOperation' The implementation does not support removal in this situation. @[EINVAL]@ * 'InappropriateType' The operand refers to an existing non-directory object. @[ENOTDIR]@ -} removeDirectory :: FilePath -> IO () removeDirectory path = #ifdef mingw32_HOST_OS Win32.removeDirectory path #else Posix.removeDirectory path #endif #endif -- | @'removeDirectoryRecursive' dir@ removes an existing directory /dir/ -- together with its content and all subdirectories. Be careful, -- if the directory contains symlinks, the function will follow them. removeDirectoryRecursive :: FilePath -> IO () removeDirectoryRecursive startLoc = do cont <- getDirectoryContents startLoc sequence_ [rm (startLoc </> x) | x <- cont, x /= "." && x /= ".."] removeDirectory startLoc where rm :: FilePath -> IO () rm f = do temp <- try (removeFile f) case temp of Left e -> do isDir <- doesDirectoryExist f -- If f is not a directory, re-throw the error unless isDir $ throw (e :: SomeException) removeDirectoryRecursive f Right _ -> return () #if __GLASGOW_HASKELL__ {- |'removeFile' /file/ removes the directory entry for an existing file /file/, where /file/ is not itself a directory. The implementation may specify additional constraints which must be satisfied before a file can be removed (e.g. the file may not be in use by other processes). The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'InvalidArgument' The operand is not a valid file name. @[ENAMETOOLONG, ELOOP]@ * 'isDoesNotExistError' \/ 'NoSuchThing' The file does not exist. @[ENOENT, ENOTDIR]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EROFS, EACCES, EPERM]@ * 'UnsatisfiedConstraints' Implementation-dependent constraints are not satisfied. @[EBUSY]@ * 'InappropriateType' The operand refers to an existing directory. @[EPERM, EINVAL]@ -} removeFile :: FilePath -> IO () removeFile path = #if mingw32_HOST_OS Win32.deleteFile path #else Posix.removeLink path #endif {- |@'renameDirectory' old new@ changes the name of an existing directory from /old/ to /new/. If the /new/ directory already exists, it is atomically replaced by the /old/ directory. If the /new/ directory is neither the /old/ directory nor an alias of the /old/ directory, it is removed as if by 'removeDirectory'. A conformant implementation need not support renaming directories in all situations (e.g. renaming to an existing directory, or across different physical devices), but the constraints must be documented. On Win32 platforms, @renameDirectory@ fails if the /new/ directory already exists. The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'InvalidArgument' Either operand is not a valid directory name. @[ENAMETOOLONG, ELOOP]@ * 'isDoesNotExistError' \/ 'NoSuchThing' The original directory does not exist, or there is no path to the target. @[ENOENT, ENOTDIR]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EROFS, EACCES, EPERM]@ * 'ResourceExhausted' Insufficient resources are available to perform the operation. @[EDQUOT, ENOSPC, ENOMEM, EMLINK]@ * 'UnsatisfiedConstraints' Implementation-dependent constraints are not satisfied. @[EBUSY, ENOTEMPTY, EEXIST]@ * 'UnsupportedOperation' The implementation does not support renaming in this situation. @[EINVAL, EXDEV]@ * 'InappropriateType' Either path refers to an existing non-directory object. @[ENOTDIR, EISDIR]@ -} renameDirectory :: FilePath -> FilePath -> IO () renameDirectory opath npath = do -- XXX this test isn't performed atomically with the following rename #ifdef mingw32_HOST_OS -- ToDo: use Win32 API withFileStatus "renameDirectory" opath $ \st -> do is_dir <- isDirectory st #else stat <- Posix.getFileStatus opath let is_dir = Posix.fileMode stat .&. Posix.directoryMode /= 0 #endif if (not is_dir) then ioException (ioeSetErrorString (mkIOError InappropriateType "renameDirectory" Nothing (Just opath)) "not a directory") else do #ifdef mingw32_HOST_OS Win32.moveFileEx opath npath Win32.mOVEFILE_REPLACE_EXISTING #else Posix.rename opath npath #endif {- |@'renameFile' old new@ changes the name of an existing file system object from /old/ to /new/. If the /new/ object already exists, it is atomically replaced by the /old/ object. Neither path may refer to an existing directory. A conformant implementation need not support renaming files in all situations (e.g. renaming across different physical devices), but the constraints must be documented. The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'InvalidArgument' Either operand is not a valid file name. @[ENAMETOOLONG, ELOOP]@ * 'isDoesNotExistError' \/ 'NoSuchThing' The original file does not exist, or there is no path to the target. @[ENOENT, ENOTDIR]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EROFS, EACCES, EPERM]@ * 'ResourceExhausted' Insufficient resources are available to perform the operation. @[EDQUOT, ENOSPC, ENOMEM, EMLINK]@ * 'UnsatisfiedConstraints' Implementation-dependent constraints are not satisfied. @[EBUSY]@ * 'UnsupportedOperation' The implementation does not support renaming in this situation. @[EXDEV]@ * 'InappropriateType' Either path refers to an existing directory. @[ENOTDIR, EISDIR, EINVAL, EEXIST, ENOTEMPTY]@ -} renameFile :: FilePath -> FilePath -> IO () renameFile opath npath = do -- XXX this test isn't performed atomically with the following rename #ifdef mingw32_HOST_OS -- ToDo: use Win32 API withFileOrSymlinkStatus "renameFile" opath $ \st -> do is_dir <- isDirectory st #else stat <- Posix.getSymbolicLinkStatus opath let is_dir = Posix.isDirectory stat #endif if is_dir then ioException (ioeSetErrorString (mkIOError InappropriateType "renameFile" Nothing (Just opath)) "is a directory") else do #ifdef mingw32_HOST_OS Win32.moveFileEx opath npath Win32.mOVEFILE_REPLACE_EXISTING #else Posix.rename opath npath #endif #endif /* __GLASGOW_HASKELL__ */ {- |@'copyFile' old new@ copies the existing file from /old/ to /new/. If the /new/ file already exists, it is atomically replaced by the /old/ file. Neither path may refer to an existing directory. The permissions of /old/ are copied to /new/, if possible. -} copyFile :: FilePath -> FilePath -> IO () #ifdef __NHC__ copyFile fromFPath toFPath = do readFile fromFPath >>= writeFile toFPath Prelude.catch (copyPermissions fromFPath toFPath) (\_ -> return ()) #else copyFile fromFPath toFPath = copy `Prelude.catch` (\exc -> throw $ ioeSetLocation exc "copyFile") where copy = bracket (openBinaryFile fromFPath ReadMode) hClose $ \hFrom -> bracketOnError openTmp cleanTmp $ \(tmpFPath, hTmp) -> do allocaBytes bufferSize $ copyContents hFrom hTmp hClose hTmp ignoreIOExceptions $ copyPermissions fromFPath tmpFPath renameFile tmpFPath toFPath openTmp = openBinaryTempFile (takeDirectory toFPath) ".copyFile.tmp" cleanTmp (tmpFPath, hTmp) = do ignoreIOExceptions $ hClose hTmp ignoreIOExceptions $ removeFile tmpFPath bufferSize = 1024 copyContents hFrom hTo buffer = do count <- hGetBuf hFrom buffer bufferSize when (count > 0) $ do hPutBuf hTo buffer count copyContents hFrom hTo buffer ignoreIOExceptions io = io `catch` ioExceptionIgnorer ioExceptionIgnorer :: IOException -> IO () ioExceptionIgnorer _ = return () #endif -- | Given path referring to a file or directory, returns a -- canonicalized path, with the intent that two paths referring -- to the same file\/directory will map to the same canonicalized -- path. Note that it is impossible to guarantee that the -- implication (same file\/dir \<=\> same canonicalizedPath) holds -- in either direction: this function can make only a best-effort -- attempt. canonicalizePath :: FilePath -> IO FilePath canonicalizePath fpath = #if defined(mingw32_HOST_OS) do path <- Win32.getFullPathName fpath #else #if __GLASGOW_HASKELL__ > 700 GHC.withCString fileSystemEncoding fpath $ \pInPath -> allocaBytes long_path_size $ \pOutPath -> do throwErrnoPathIfNull "canonicalizePath" fpath $ c_realpath pInPath pOutPath path <- GHC.peekCString fileSystemEncoding pOutPath #else withCString fpath $ \pInPath -> allocaBytes long_path_size $ \pOutPath -> do throwErrnoPathIfNull "canonicalizePath" fpath $ c_realpath pInPath pOutPath path <- peekCString pOutPath #endif #endif return (normalise path) -- normalise does more stuff, like upper-casing the drive letter #if !defined(mingw32_HOST_OS) foreign import ccall unsafe "realpath" c_realpath :: CString -> CString -> IO CString #endif -- | 'makeRelative' the current directory. makeRelativeToCurrentDirectory :: FilePath -> IO FilePath makeRelativeToCurrentDirectory x = do cur <- getCurrentDirectory return $ makeRelative cur x -- | Given an executable file name, searches for such file in the -- directories listed in system PATH. The returned value is the path -- to the found executable or Nothing if an executable with the given -- name was not found. For example (findExecutable \"ghc\") gives you -- the path to GHC. -- -- The path returned by 'findExecutable' corresponds to the -- program that would be executed by 'System.Process.createProcess' -- when passed the same string (as a RawCommand, not a ShellCommand). -- -- On Windows, 'findExecutable' calls the Win32 function 'SearchPath', -- which may search other places before checking the directories in -- @PATH@. Where it actually searches depends on registry settings, -- but notably includes the directory containing the current -- executable. See -- <http://msdn.microsoft.com/en-us/library/aa365527.aspx> for more -- details. -- findExecutable :: String -> IO (Maybe FilePath) findExecutable binary = #if defined(mingw32_HOST_OS) Win32.searchPath Nothing binary ('.':exeExtension) #else do path <- getEnv "PATH" search (splitSearchPath path) where fileName = binary <.> exeExtension search :: [FilePath] -> IO (Maybe FilePath) search [] = return Nothing search (d:ds) = do let path = d </> fileName b <- doesFileExist path if b then return (Just path) else search ds #endif #ifdef __GLASGOW_HASKELL__ {- |@'getDirectoryContents' dir@ returns a list of /all/ entries in /dir/. The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'InvalidArgument' The operand is not a valid directory name. @[ENAMETOOLONG, ELOOP]@ * 'isDoesNotExistError' \/ 'NoSuchThing' The directory does not exist. @[ENOENT, ENOTDIR]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EACCES]@ * 'ResourceExhausted' Insufficient resources are available to perform the operation. @[EMFILE, ENFILE]@ * 'InappropriateType' The path refers to an existing non-directory object. @[ENOTDIR]@ -} getDirectoryContents :: FilePath -> IO [FilePath] getDirectoryContents path = modifyIOError ((`ioeSetFileName` path) . (`ioeSetLocation` "getDirectoryContents")) $ do #ifndef mingw32_HOST_OS bracket (Posix.openDirStream path) Posix.closeDirStream loop where loop dirp = do e <- Posix.readDirStream dirp if null e then return [] else do es <- loop dirp return (e:es) #else bracket (Win32.findFirstFile (path </> "*")) (\(h,_) -> Win32.findClose h) (\(h,fdat) -> loop h fdat []) where -- we needn't worry about empty directories: adirectory always -- has at least "." and ".." entries loop :: Win32.HANDLE -> Win32.FindData -> [FilePath] -> IO [FilePath] loop h fdat acc = do filename <- Win32.getFindDataFileName fdat more <- Win32.findNextFile h fdat if more then loop h fdat (filename:acc) else return (filename:acc) -- no need to reverse, ordering is undefined #endif /* mingw32 */ #endif /* __GLASGOW_HASKELL__ */ {- |If the operating system has a notion of current directories, 'getCurrentDirectory' returns an absolute path to the current directory of the calling process. The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'isDoesNotExistError' \/ 'NoSuchThing' There is no path referring to the current directory. @[EPERM, ENOENT, ESTALE...]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EACCES]@ * 'ResourceExhausted' Insufficient resources are available to perform the operation. * 'UnsupportedOperation' The operating system has no notion of current directory. Note that in a concurrent program, the current directory is global state shared between all threads of the process. When using filesystem operations from multiple threads, it is therefore highly recommended to use absolute rather than relative `FilePath`s. -} #ifdef __GLASGOW_HASKELL__ getCurrentDirectory :: IO FilePath getCurrentDirectory = do #ifdef mingw32_HOST_OS Win32.getCurrentDirectory #else Posix.getWorkingDirectory #endif {- |If the operating system has a notion of current directories, @'setCurrentDirectory' dir@ changes the current directory of the calling process to /dir/. The operation may fail with: * 'HardwareFault' A physical I\/O error has occurred. @[EIO]@ * 'InvalidArgument' The operand is not a valid directory name. @[ENAMETOOLONG, ELOOP]@ * 'isDoesNotExistError' \/ 'NoSuchThing' The directory does not exist. @[ENOENT, ENOTDIR]@ * 'isPermissionError' \/ 'PermissionDenied' The process has insufficient privileges to perform the operation. @[EACCES]@ * 'UnsupportedOperation' The operating system has no notion of current directory, or the current directory cannot be dynamically changed. * 'InappropriateType' The path refers to an existing non-directory object. @[ENOTDIR]@ Note that in a concurrent program, the current directory is global state shared between all threads of the process. When using filesystem operations from multiple threads, it is therefore highly recommended to use absolute rather than relative `FilePath`s. -} setCurrentDirectory :: FilePath -> IO () setCurrentDirectory path = #ifdef mingw32_HOST_OS Win32.setCurrentDirectory path #else Posix.changeWorkingDirectory path #endif #endif /* __GLASGOW_HASKELL__ */ #ifdef __GLASGOW_HASKELL__ {- |The operation 'doesDirectoryExist' returns 'True' if the argument file exists and is a directory, and 'False' otherwise. -} doesDirectoryExist :: FilePath -> IO Bool doesDirectoryExist name = #ifdef mingw32_HOST_OS (withFileStatus "doesDirectoryExist" name $ \st -> isDirectory st) #else (do stat <- Posix.getFileStatus name return (Posix.isDirectory stat)) #endif `catch` ((\ _ -> return False) :: IOException -> IO Bool) {- |The operation 'doesFileExist' returns 'True' if the argument file exists and is not a directory, and 'False' otherwise. -} doesFileExist :: FilePath -> IO Bool doesFileExist name = #ifdef mingw32_HOST_OS (withFileStatus "doesFileExist" name $ \st -> do b <- isDirectory st; return (not b)) #else (do stat <- Posix.getFileStatus name return (not (Posix.isDirectory stat))) #endif `catch` ((\ _ -> return False) :: IOException -> IO Bool) {- |The 'getModificationTime' operation returns the clock time at which the file or directory was last modified. The operation may fail with: * 'isPermissionError' if the user is not permitted to access the modification time; or * 'isDoesNotExistError' if the file or directory does not exist. -} getModificationTime :: FilePath -> IO ClockTime getModificationTime name = do #ifdef mingw32_HOST_OS -- ToDo: use Win32 API withFileStatus "getModificationTime" name $ \ st -> do modificationTime st #else stat <- Posix.getFileStatus name let mod_time :: Posix.EpochTime mod_time = Posix.modificationTime stat dbl_time :: Double dbl_time = realToFrac mod_time return (TOD (round dbl_time) 0) #endif -- For info -- round :: (RealFrac a, Integral b => a -> b -- realToFrac :: (Real a, Fractional b) => a -> b #endif /* __GLASGOW_HASKELL__ */ #ifdef mingw32_HOST_OS withFileStatus :: String -> FilePath -> (Ptr CStat -> IO a) -> IO a withFileStatus loc name f = do modifyIOError (`ioeSetFileName` name) $ allocaBytes sizeof_stat $ \p -> withFilePath (fileNameEndClean name) $ \s -> do throwErrnoIfMinus1Retry_ loc (c_stat s p) f p withFileOrSymlinkStatus :: String -> FilePath -> (Ptr CStat -> IO a) -> IO a withFileOrSymlinkStatus loc name f = do modifyIOError (`ioeSetFileName` name) $ allocaBytes sizeof_stat $ \p -> withFilePath name $ \s -> do throwErrnoIfMinus1Retry_ loc (lstat s p) f p modificationTime :: Ptr CStat -> IO ClockTime modificationTime stat = do mtime <- st_mtime stat let dbl_time :: Double dbl_time = realToFrac (mtime :: CTime) return (TOD (round dbl_time) 0) isDirectory :: Ptr CStat -> IO Bool isDirectory stat = do mode <- st_mode stat return (s_isdir mode) fileNameEndClean :: String -> String fileNameEndClean name = if isDrive name then addTrailingPathSeparator name else dropTrailingPathSeparator name foreign import ccall unsafe "HsDirectory.h __hscore_S_IRUSR" s_IRUSR :: CMode foreign import ccall unsafe "HsDirectory.h __hscore_S_IWUSR" s_IWUSR :: CMode foreign import ccall unsafe "HsDirectory.h __hscore_S_IXUSR" s_IXUSR :: CMode foreign import ccall unsafe "__hscore_S_IFDIR" s_IFDIR :: CMode #endif #ifdef __GLASGOW_HASKELL__ foreign import ccall unsafe "__hscore_long_path_size" long_path_size :: Int #else long_path_size :: Int long_path_size = 2048 -- // guess? #endif /* __GLASGOW_HASKELL__ */ {- | Returns the current user's home directory. The directory returned is expected to be writable by the current user, but note that it isn't generally considered good practice to store application-specific data here; use 'getAppUserDataDirectory' instead. On Unix, 'getHomeDirectory' returns the value of the @HOME@ environment variable. On Windows, the system is queried for a suitable path; a typical path might be @C:/Documents And Settings/user@. The operation may fail with: * 'UnsupportedOperation' The operating system has no notion of home directory. * 'isDoesNotExistError' The home directory for the current user does not exist, or cannot be found. -} getHomeDirectory :: IO FilePath getHomeDirectory = modifyIOError ((`ioeSetLocation` "getHomeDirectory")) $ do #if defined(mingw32_HOST_OS) r <- try $ Win32.sHGetFolderPath nullPtr Win32.cSIDL_PROFILE nullPtr 0 case (r :: Either IOException String) of Right s -> return s Left _ -> do r1 <- try $ Win32.sHGetFolderPath nullPtr Win32.cSIDL_WINDOWS nullPtr 0 case r1 of Right s -> return s Left e -> ioError (e :: IOException) #else getEnv "HOME" #endif {- | Returns the pathname of a directory in which application-specific data for the current user can be stored. The result of 'getAppUserDataDirectory' for a given application is specific to the current user. The argument should be the name of the application, which will be used to construct the pathname (so avoid using unusual characters that might result in an invalid pathname). Note: the directory may not actually exist, and may need to be created first. It is expected that the parent directory exists and is writable. On Unix, this function returns @$HOME\/.appName@. On Windows, a typical path might be > C:/Documents And Settings/user/Application Data/appName The operation may fail with: * 'UnsupportedOperation' The operating system has no notion of application-specific data directory. * 'isDoesNotExistError' The home directory for the current user does not exist, or cannot be found. -} getAppUserDataDirectory :: String -> IO FilePath getAppUserDataDirectory appName = do modifyIOError ((`ioeSetLocation` "getAppUserDataDirectory")) $ do #if defined(mingw32_HOST_OS) s <- Win32.sHGetFolderPath nullPtr Win32.cSIDL_APPDATA nullPtr 0 return (s++'\\':appName) #else path <- getEnv "HOME" return (path++'/':'.':appName) #endif {- | Returns the current user's document directory. The directory returned is expected to be writable by the current user, but note that it isn't generally considered good practice to store application-specific data here; use 'getAppUserDataDirectory' instead. On Unix, 'getUserDocumentsDirectory' returns the value of the @HOME@ environment variable. On Windows, the system is queried for a suitable path; a typical path might be @C:\/Documents and Settings\/user\/My Documents@. The operation may fail with: * 'UnsupportedOperation' The operating system has no notion of document directory. * 'isDoesNotExistError' The document directory for the current user does not exist, or cannot be found. -} getUserDocumentsDirectory :: IO FilePath getUserDocumentsDirectory = do modifyIOError ((`ioeSetLocation` "getUserDocumentsDirectory")) $ do #if defined(mingw32_HOST_OS) Win32.sHGetFolderPath nullPtr Win32.cSIDL_PERSONAL nullPtr 0 #else getEnv "HOME" #endif {- | Returns the current directory for temporary files. On Unix, 'getTemporaryDirectory' returns the value of the @TMPDIR@ environment variable or \"\/tmp\" if the variable isn\'t defined. On Windows, the function checks for the existence of environment variables in the following order and uses the first path found: * TMP environment variable. * TEMP environment variable. * USERPROFILE environment variable. * The Windows directory The operation may fail with: * 'UnsupportedOperation' The operating system has no notion of temporary directory. The function doesn\'t verify whether the path exists. -} getTemporaryDirectory :: IO FilePath getTemporaryDirectory = do #if defined(mingw32_HOST_OS) Win32.getTemporaryDirectory #else getEnv "TMPDIR" #if !__NHC__ `Prelude.catch` \e -> if isDoesNotExistError e then return "/tmp" else throw e #else `Prelude.catch` (\ex -> return "/tmp") #endif #endif -- ToDo: This should be determined via autoconf (AC_EXEEXT) -- | Extension for executable files -- (typically @\"\"@ on Unix and @\"exe\"@ on Windows or OS\/2) exeExtension :: String #ifdef mingw32_HOST_OS exeExtension = "exe" #else exeExtension = "" #endif