module Development.Shake.Derived where import Control.Monad import Control.Monad.IO.Class import System.Process import System.Directory import System.Exit import qualified Data.ByteString.Char8 as BS import Development.Shake.Core import Development.Shake.File import Development.Shake.FilePath -- | Execute a system command. This function will raise an error if the exit code is non-zero. -- Before running 'system'' make sure you 'need' any required files. system' :: FilePath -> [String] -> Action () system' path args = do let path2 = toNative path let cmd = unwords $ path2 : args putLoud cmd res <- traced ("system " ++ cmd) $ rawSystem path2 args when (res /= ExitSuccess) $ error $ "System command failed:\n" ++ cmd -- | Execute a system command with a specified current working directory (first argument). -- This function will raise an error if the exit code is non-zero. -- Before running 'systemCwd' make sure you 'need' any required files. -- -- > systemCwd "/usr/MyDirectory" "pwd" [] systemCwd :: FilePath -> FilePath -> [String] -> Action () systemCwd cwd path args = do let path2 = toNative path let cmd = unwords $ path2 : args putLoud cmd res <- traced ("system " ++ cmd) $ do -- FIXME: Should I be using the non-exported System.Process.syncProcess? -- That installs/removes signal handlers. hdl <- runProcess path2 args (Just cwd) Nothing Nothing Nothing Nothing waitForProcess hdl when (res /= ExitSuccess) $ error $ "System command failed:\n" ++ cmd -- | Execute a system command, returning @(stdout,stderr)@. -- This function will raise an error if the exit code is non-zero. -- Before running 'systemOutput' make sure you 'need' any required files. systemOutput :: FilePath -> [String] -> Action (String, String) systemOutput path args = do let path2 = toNative path let cmd = unwords $ path2 : args putLoud cmd (res,stdout,stderr) <- traced ("system' " ++ cmd) $ readProcessWithExitCode path2 args "" when (res /= ExitSuccess) $ error $ "System command failed:\n" ++ cmd ++ "\n" ++ stderr return (stdout, stderr) -- | @copyFile old new@ copies the existing file from @old@ to @new@. The @old@ file is has 'need' called on it -- before copying the file. copyFile' :: FilePath -> FilePath -> Action () copyFile' old new = need [old] >> liftIO (copyFile old new) -- | Read a file, after calling 'need'. readFile' :: FilePath -> Action String readFile' x = need [x] >> liftIO (readFile x) -- | Write a file, lifted to the 'Action' monad. writeFile' :: FilePath -> String -> Action () writeFile' name x = liftIO $ writeFile name x -- | A version of 'readFile'' which also splits the result into lines. readFileLines :: FilePath -> Action [String] readFileLines = fmap lines . readFile' -- | A version of 'writeFile'' which writes out a list of lines. writeFileLines :: FilePath -> [String] -> Action () writeFileLines name = writeFile' name . unlines -- | Write a file, but only if the contents would change. writeFileChanged :: FilePath -> String -> Action () writeFileChanged name x = liftIO $ do b <- doesFileExist name if not b then writeFile name x else do orig <- BS.readFile name let new = BS.pack x when (orig /= new) $ BS.writeFile name new