{- | A rich user interface for line input in command-line programs. Haskeline is Unicode-aware and runs both on POSIX-compatible systems and on Windows. Users may customize the interface with a @~/.haskeline@ file; see for more information. An example use of this library for a simple read-eval-print loop is the following: > import System.Console.Haskeline > > main :: IO () > main = runInputT defaultSettings loop > where > loop :: InputT IO () > loop = do > minput <- getInputLine "% " > case minput of > Nothing -> return () > Just "quit" -> return () > Just input -> do outputStrLn $ "Input was: " ++ input > loop -} module System.Console.Haskeline( -- * Main functions -- ** The InputT monad transformer InputT, runInputT, runInputTWithPrefs, -- ** Reading user input -- $inputfncs getInputLine, getInputChar, -- ** Outputting text -- $outputfncs outputStr, outputStrLn, -- * Settings Settings(..), defaultSettings, setComplete, -- * User preferences Prefs(), readPrefs, defaultPrefs, -- * Ctrl-C handling -- $ctrlc Interrupt(..), withInterrupt, handleInterrupt, module System.Console.Haskeline.Completion, module System.Console.Haskeline.MonadException) where import System.Console.Haskeline.LineState import System.Console.Haskeline.Command import System.Console.Haskeline.Vi import System.Console.Haskeline.Emacs import System.Console.Haskeline.Prefs import System.Console.Haskeline.History import System.Console.Haskeline.Monads import System.Console.Haskeline.MonadException import System.Console.Haskeline.InputT import System.Console.Haskeline.Completion import System.Console.Haskeline.Term import System.Console.Haskeline.Key import System.Console.Haskeline.RunCommand import System.IO import Data.Char (isSpace, isPrint) import Control.Monad import qualified Data.ByteString.Char8 as B import System.IO.Error (isEOFError) -- | A useful default. In particular: -- -- @ -- defaultSettings = Settings { -- complete = completeFilename, -- historyFile = Nothing, -- autoAddHistory = True -- } -- @ defaultSettings :: MonadIO m => Settings m defaultSettings = Settings {complete = completeFilename, historyFile = Nothing, autoAddHistory = True} {- $outputfncs The following functions allow cross-platform output of text that may contain Unicode characters. -} -- | Write a string to the standard output. outputStr :: MonadIO m => String -> InputT m () outputStr xs = do putter <- asks putStrOut liftIO $ putter xs -- | Write a string to the standard output, followed by a newline. outputStrLn :: MonadIO m => String -> InputT m () outputStrLn = outputStr . (++ "\n") {- $inputfncs The following functions read one line or character of input from the user. If 'stdin' is connected to a terminal, then these functions perform all user interaction, including display of the prompt text, on the user's output terminal (which may differ from 'stdout'). They return 'Nothing' if the user pressed @Ctrl-D@ when the input text was empty. If 'stdin' is not connected to a terminal or does not have echoing enabled, then these functions print the prompt to 'stdout', and they return 'Nothing' if an @EOF@ was encountered before any characters were read. -} {- | Reads one line of input. The final newline (if any) is removed. Provides a rich line-editing user interface if 'stdin' is a terminal. If @'autoAddHistory' == 'True'@ and the line input is nonblank (i.e., is not all spaces), it will be automatically added to the history. -} getInputLine :: forall m . MonadException m => String -- ^ The input prompt -> InputT m (Maybe String) getInputLine prefix = do -- If other parts of the program have written text, make sure that it -- appears before we interact with the user on the terminal. liftIO $ hFlush stdout rterm <- ask echo <- liftIO $ hGetEcho stdin case termOps rterm of Just tops | echo -> getInputCmdLine tops prefix _ -> simpleFileLoop prefix rterm getInputCmdLine :: MonadException m => TermOps -> String -> InputT m (Maybe String) getInputCmdLine tops prefix = do emode <- asks editMode result <- runInputCmdT tops $ case emode of Emacs -> runCommandLoop tops prefix emacsCommands Vi -> evalStateT' emptyViState $ runCommandLoop tops prefix viKeyCommands maybeAddHistory result return result maybeAddHistory :: forall m . Monad m => Maybe String -> InputT m () maybeAddHistory result = do settings :: Settings m <- ask histDupes <- asks historyDuplicates case result of Just line | autoAddHistory settings && not (all isSpace line) -> let adder = case histDupes of AlwaysAdd -> addHistory IgnoreConsecutive -> addHistoryUnlessConsecutiveDupe IgnoreAll -> addHistoryRemovingAllDupes in modify (adder line) _ -> return () simpleFileLoop :: MonadIO m => String -> RunTerm -> m (Maybe String) simpleFileLoop prefix rterm = liftIO $ do putStrOut rterm prefix atEOF <- hIsEOF stdin if atEOF then return Nothing else do -- It's more efficient to use B.getLine, but that function throws an -- error if stdin is set to NoBuffering. buff <- hGetBuffering stdin line <- case buff of NoBuffering -> hWithBinaryMode stdin $ fmap B.pack System.IO.getLine _ -> B.getLine fmap Just $ decodeForTerm rterm line ---------- {- | Reads one character of input. Ignores non-printable characters. If stdin is a terminal, the character will be read without waiting for a newline. If stdin is not a terminal, a newline will be read if it is immediately available after the input character. -} getInputChar :: MonadException m => String -- ^ The input prompt -> InputT m (Maybe Char) getInputChar prefix = do liftIO $ hFlush stdout rterm <- ask echo <- liftIO $ hGetEcho stdin case termOps rterm of Just tops | echo -> getInputCmdChar tops prefix _ -> simpleFileChar prefix rterm simpleFileChar :: MonadIO m => String -> RunTerm -> m (Maybe Char) simpleFileChar prefix rterm = liftIO $ do putStrOut rterm prefix c <- getPrintableChar maybeReadNewline return c where getPrintableChar = returnOnEOF Nothing $ do c <- getLocaleChar rterm if isPrint c then return (Just c) else getPrintableChar -- If another character is immediately available, and it is a newline, consume it. -- -- Note that in ghc-6.8.3 and earlier, hReady returns False at an EOF, -- whereas in ghc-6.10.1 and later it throws an exception. (GHC trac #1063). -- This code handles both of those cases. -- -- Also note that on Windows with ghc<6.10, hReady may not behave correctly (#1198) -- The net result is that this might cause -- But this function will generally only be used when reading buffered input -- (since stdin isn't a terminal), so it should probably be OK. maybeReadNewline :: IO () maybeReadNewline = returnOnEOF () $ do ready <- hReady stdin when ready $ do c <- hLookAhead stdin when (c == '\n') $ getChar >> return () returnOnEOF :: a -> IO a -> IO a returnOnEOF x = handle $ \e -> if isEOFError e then return x else throwIO e getInputCmdChar :: MonadException m => TermOps -> String -> InputT m (Maybe Char) getInputCmdChar tops prefix = runInputCmdT tops $ runCommandLoop tops prefix acceptOneChar acceptOneChar :: Monad m => KeyCommand m InsertMode (Maybe Char) acceptOneChar = choiceCmd [useChar $ \c s -> change (insertChar c) s >> return (Just c) , ctrlChar 'l' +> clearScreenCmd >|> keyCommand acceptOneChar , ctrlChar 'd' +> failCmd] ------------ -- Interrupt {- $ctrlc The following functions provide portable handling of Ctrl-C events. These functions are not necessary on GHC version 6.10 or later, which processes Ctrl-C events as exceptions by default. -} -- | If Ctrl-C is pressed during the given computation, throw an exception of type -- 'Interrupt'. withInterrupt :: MonadException m => InputT m a -> InputT m a withInterrupt f = do rterm <- ask wrapInterrupt rterm f -- | Catch and handle an exception of type 'Interrupt'. handleInterrupt :: MonadException m => m a -- ^ Handler to run if Ctrl-C is pressed -> m a -- ^ Computation to run -> m a handleInterrupt f = handleDyn $ \Interrupt -> f