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|
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
module Main where
import Control.Applicative
import Control.Concurrent
import Control.Monad
import Data.Char
import Data.IORef
import Data.List
import Numeric (showIntAtBase)
import System.IO
--import System.Posix.Signals
import GHC.Stats (getGCStats)
import Control.Monad.Error
import Control.Monad.Reader
import Control.Monad.State
import Control.Monad.Writer
import Data.Map (Map)
import qualified Data.Map as Map
import Buffer
import Process
import Scanner (scan, runScanner, toChar)
data VTConfig = VTConfig
{ withOutput :: IO () -> IO ()
}
data VTState = VTState
{ buffer :: Buffer
, mode :: Mode
, processCount :: Int
, count :: Int
, register :: Char
, registers :: Map Char String
}
defaultRegister :: Char
defaultRegister = '"'
main :: IO ()
main = do
hSetEcho stdin False
hSetBuffering stdin NoBuffering
-- WINCH
-- TODO installHandler 28 (Catch $ ioctl 0 ...) Nothing
let st = VTState
{ mode = InsertMode
, buffer = ("!while date; do sleep 1; done", "")
, processCount = 0
, count = 0
, register = defaultRegister
, registers = Map.empty
}
lockRef <- newMVar ()
qRef <- newIORef st
let _putState = writeIORef qRef -- TODO atomicModifyIORef (?)
_getState = readIORef qRef
_withOutput a = do
q <- _getState
withMVar lockRef $ \ _ -> do
clearLine
a
renderInputLine (mode q) (buffer q)
hFlush stdout
let cf = VTConfig
{ withOutput = _withOutput
}
-- render initial input line
_withOutput $ return ()
uiThread cf _putState _getState
uiThread :: VTConfig -> (VTState -> IO ()) -> IO VTState -> IO ()
uiThread cf putState getState = forever $ do
q0 <- getState
_ <- hLookAhead stdin -- wait for input
--t0 <- getCurrentTime
-- ((res, s), _) <- runScanner scan
((_, s), _) <- runScanner scan
--t1 <- getCurrentTime
--putStrLn $ "====> \ESC[32;1m" ++ show s ++ "\ESC[m in " ++
-- (show $ diffUTCTime t1 t0)
-- ++ ": \"\ESC[35m" ++ (s >>= colorize . toChar)
-- ++ "\ESC[m\""
--case res of
-- Left msg -> putStrLn $ " error: " ++ msg
-- Right _ -> return ()
-- TODO don't leak C
let cmd = getCommand (mode q0) (map toChar s)
--withOutput cf $ do
-- putStrLn $ show cmd
((_, lns), q1) <- runVT cf q0 (execCommand cmd)
-- TODO only putState if it has changed (?)
putState q1
-- XXX dummy for following legacy code
let eitCmd = Right cmd
let mbErr = case eitCmd of
Left err -> Just err
Right c ->
-- TODO move this to execCommand / throwError
case c of
MotionCommand motion | buffer q0 == buffer q1 ->
Just (OtherError $ "motion failed: " ++ show motion)
_ ->
Nothing
withOutput cf $ do
forM_ lns putStrLn
case mbErr of
Just err -> ringBell >> putStrLn (prettyError err)
Nothing -> return ()
--when (mode st /= mode st') $ do
-- putStrLn $ "change mode: " ++ (show $ mode st')
data Command
= AlertBadInput String
| InsertString String
| KillLastWord
| KillLastChar
| KillNextChar
| ExecuteInputBuffer
| MotionCommand LeftRightMotion
| ChangeMode Mode
-- TODO Move Count Motion
-- Delete Count Register Motion
-- etc.
| Combine Command Command
| Nop
| RingBell
| AddCount Int
| MulCount Int
| SetCount Int
| SetRegister Char
| DeleteEntireLine
instance Monoid Command where
mempty = Nop
mappend = Combine
data ExecError
= UnhandledInputError String
| OtherError String
instance Error ExecError where
noMsg = OtherError "something went wrong"
prettyError :: ExecError -> String
prettyError e = rec e
where
color cc s = "\x1b[" ++ cc ++ "m" ++ s ++ "\x1b[m"
rec (UnhandledInputError s) =
color "31" $ "unhandled input: <" ++ (s >>= pp "31;1") ++ "\x1b[;31m>"
rec (OtherError s) =
color "31" $ "error: " ++ s
-- TODO cc is ColorCode
pp cc c
| isPrint c = [c]
| otherwise = specialChar cc $
case c of
'\x1b' -> "^["
_ -> charToCode c
specialChar cc s = "\x1b[1;35m" ++ s ++ "\x1b[;" ++ cc ++ "m"
modifyBuffer :: (Buffer -> Buffer) -> VT ()
modifyBuffer f =
modify $ \st -> st { buffer = f (buffer st) }
newtype VT a = VT
(ReaderT VTConfig
(ErrorT ExecError
(WriterT [String]
(StateT VTState IO
)))
a)
deriving
( Applicative
, Functor
, Monad
, MonadError ExecError
, MonadIO
, MonadReader VTConfig
, MonadState VTState
, MonadWriter [String]
)
runVT ::
VTConfig -> VTState -> VT a -> IO ((Either ExecError a, [String]), VTState)
runVT cf st (VT a) =
runStateT (runWriterT (runErrorT (runReaderT a cf))) st
insertString :: String -> Buffer -> Buffer
insertString s (ls, rs) = (ls ++ s, rs)
execCommand :: Command -> VT ()
execCommand (MotionCommand x) = do
modifyBuffer (move x)
-- TODO apply mode constraints somewhere else
q <- get
when (mode q == NormalMode) $
when (null $ snd $ buffer q) $
modifyBuffer (gotoLeft 1)
execCommand (ChangeMode m) =
modify $ \ q -> q { mode = m }
execCommand (InsertString s) =
modifyBuffer (insertString s)
execCommand ExecuteInputBuffer = do
---- XXX hack to replace empty command line
--gets (null . showBuffer . buffer) >>= flip when
-- (modify $ \q -> q { buffer = ("!","") })
st <- get
case showBuffer (buffer st) of
":r" -> do
tell [ "--- Registers ---" ]
tell $ map (\(r, s) -> ['"', r] ++ " " ++ s) -- TODO pp
$ Map.toList (registers st)
":s" -> do
s <- liftIO getGCStats
tell [ show s ]
'!' : cmdline -> do
--tell [ "spawn: " ++ cmdline ]
-- "input: <" ++ (showBuffer b >>= reform 32) ++ ">" ]
-- TODO register process
i <- state $ \ q ->
let i = processCount q + 1
in (i, q { processCount = i })
cf <- ask
liftIO $ forkIO $ spawn i (withOutput cf) cmdline
return ()
"" -> do
liftIO ringBell
s -> do
tell [ "input: <" ++ (s >>= reform 32) ++ ">" ]
modifyBuffer (const emptyBuffer)
execCommand KillNextChar = do
get >>= flip (when . null . snd . buffer)
(throwError $ OtherError "nothing to kill right")
modifyBuffer $ \(lhs, _:rhs') -> (lhs, rhs')
execCommand KillLastChar = do
get >>= flip (when . null . fst . buffer)
(throwError $ OtherError "nothing to kill left")
modifyBuffer $ \(lhs, rhs) -> (init lhs, rhs)
execCommand KillLastWord = do
get >>= flip (when . null . fst . buffer)
(throwError $ OtherError "nothing to kill left")
modifyBuffer $
\(lhs, rhs) -> (foldr dropWhileEnd lhs [not . isSpace, isSpace], rhs)
execCommand (AlertBadInput s) =
throwError (UnhandledInputError s)
execCommand (Combine c1 c2) = do
cf <- ask
q0 <- get
((eSt1, lines1), q1) <- liftIO $ runVT cf q0 (execCommand c1)
-- TODO "stack trace"
whenLeft eSt1 throwError
((eSt2, lines2), q2) <- liftIO $ runVT cf q1 (execCommand c2)
-- TODO "stack trace"
whenLeft eSt2 throwError
tell lines1
tell lines2
put q2
execCommand Nop = return ()
execCommand RingBell = liftIO ringBell
execCommand (AddCount i) = modify $ \q -> q { count = i + count q }
execCommand (MulCount i) = modify $ \q -> q { count = i * count q }
execCommand (SetCount i) = modify $ \q -> q { count = i }
execCommand (SetRegister c) = modify $ \q -> q { register = c }
execCommand DeleteEntireLine = modify $ \q ->
-- TODO Numbered registers "0 to "9
-- Small delete register "-
let s = showBuffer $ buffer q
r = register q
in q { registers = Map.insert r s
$ Map.insert defaultRegister s
$ registers q
, buffer = emptyBuffer
, register = defaultRegister
}
reform :: Int -> Char -> String
reform colorCode c =
if isPrint c
then normal colorCode [c]
else
special colorCode $
case ord c of
27 -> "^["
_ -> charToCode c
normal :: Int -> String -> String
normal colorCode s = "\x1b[" ++ show colorCode ++ "m" ++ s ++ "\x1b[m"
special :: Int -> String -> String
special colorCode s = "\x1b[1;" ++ show colorCode ++ "m" ++ s ++ "\x1b[m"
-- XXX assumes that the cursor is already at the (cleared) input line
renderInputLine :: Mode -> Buffer -> IO ()
renderInputLine m (lhs, rhs) = do
clearLine -- TODO this is required for drawing the mode on the right side
saveCursor
moveCursorRight 1024
moveCursorLeft (length (show m) - 1)
putStr $ "\x1b[1;30m" ++ show m ++ "\x1b[m"
unsaveCursor
let promptString = case m of
NormalMode -> "\x1b[33;1m@\x1b[m "
InsertMode -> "> "
VerbatimMode -> "\x1b[34;1m^\x1b[m "
SelectRegisterMode -> "\" "
DeleteMode -> "\x1b[31;1m>\x1b[m "
putStr $ promptString ++ (lhs >>= reform') ++ (rhs >>= reform')
moveCursorLeft (length $ rhs >>= reformVis)
where
-- TODO unify reform and reform'
reform' c =
if isPrint c
then [c]
else
"\x1b[35m" ++ (
case ord c of
27 -> "^["
_ -> charToCode c
) ++ "\x1b[m"
reformVis c =
if isPrint c
then [c]
else
case ord c of
27 -> "^["
_ -> charToCode c
clearLine :: IO ()
clearLine =
putStr "\x1b[2K" >>
moveCursorLeft 1024
ringBell :: IO ()
ringBell = putStr "\x07" -- BEL '\a'
saveCursor :: IO ()
saveCursor = putStr "\x1b[s"
unsaveCursor :: IO ()
unsaveCursor = putStr "\x1b[u"
moveCursorLeft :: Int -> IO ()
moveCursorLeft 0 = return ()
moveCursorLeft i = putStr $ "\x1b[" ++ show i ++ "D"
moveCursorRight :: Int -> IO ()
moveCursorRight 0 = return ()
moveCursorRight i = putStr $ "\x1b[" ++ show i ++ "C"
-- TODO? charToCode c = "\\x" ++ showHex (ord c)
charToCode :: Char -> String
charToCode c = "\\x" ++ showIntAtBase 16 intToDigit (ord c) ""
dmap :: Keymap
dmap =
[ ("\x1b", ChangeMode NormalMode)
, ("d", DeleteEntireLine <> ChangeMode NormalMode)
]
selectRegisterMap :: Keymap
selectRegisterMap =
[ ("\x1b", ChangeMode NormalMode)
]
++ (map (\c -> ([c], SetRegister c <> ChangeMode NormalMode))
(['a'..'z'] ++ ['A'..'Z'] ++ ['0'..'9'] ++ ".%#:-\""))
nmap :: Keymap
nmap =
[ ("\x1b", RingBell) -- TODO cancel any unfinished commands
, ("i", ChangeMode InsertMode)
, ("a", ChangeMode InsertMode <> MotionCommand (GotoRight 1))
, ("I", ChangeMode InsertMode <> MotionCommand GotoFirstChar)
, ("A", ChangeMode InsertMode <> MotionCommand GotoEndOfLine)
, ("0", MotionCommand GotoFirstChar)
, ("$", MotionCommand GotoEndOfLine)
, ("h", MotionCommand $ GotoLeft 1)
, ("l", MotionCommand $ GotoRight 1)
, ("b", MotionCommand $ WordsBackward 1)
, ("w", MotionCommand $ WordsForward 1)
, ("d", ChangeMode DeleteMode)
, ("\"", ChangeMode SelectRegisterMode)
, ("\x1b[C", MotionCommand $ GotoRight 1)
, ("\x1b[D", MotionCommand $ GotoLeft 1)
, ("\x0a", ExecuteInputBuffer <> ChangeMode InsertMode)
]
++ (map (\i -> (show i, MulCount 10 <> AddCount i)) [0..9])
imap :: Keymap
imap =
[ ("\x1b", ChangeMode NormalMode <> MotionCommand (GotoLeft 1))
, ("\x01", MotionCommand GotoFirstChar)
, ("\x05", MotionCommand GotoEndOfLine)
, ("\x1b[3~", KillNextChar)
, ("\x1b[C", MotionCommand $ GotoRight 1)
, ("\x1b[D", MotionCommand $ GotoLeft 1)
, ("\x16", ChangeMode VerbatimMode) -- ^V
, ("\x17", KillLastWord) -- ^W
, ("\x0a", ExecuteInputBuffer)
, ("\x7f", KillLastChar) -- Delete
, ("\x08", KillLastChar) -- BackSpace
, ("\x1bOc", MotionCommand $ WordsForward 1)
, ("\x1bOd", MotionCommand $ WordsBackward 1)
]
type Keymap = [(String, Command)]
data Mode
= InsertMode
| NormalMode
| VerbatimMode
| SelectRegisterMode
| DeleteMode
deriving (Eq)
instance Show Mode where
show NormalMode = "normal"
show InsertMode = "insert"
show VerbatimMode = "verbatim"
show SelectRegisterMode = "select register"
show DeleteMode = "delete"
getCommand :: Mode -> String -> Command
getCommand InsertMode s = maybe (InsertString s) id $ lookup s imap
getCommand NormalMode s = maybe (AlertBadInput s) id $ lookup s nmap
getCommand VerbatimMode s = InsertString s <> ChangeMode InsertMode
getCommand SelectRegisterMode s =
maybe (AlertBadInput s) id $ lookup s selectRegisterMap
-- ^ TODO clear bad input
getCommand DeleteMode s = maybe (AlertBadInput s) id $ lookup s dmap
-- TODO Control.Monad.whenLeft
whenLeft :: Monad m => Either a b -> (a -> m ()) -> m ()
whenLeft (Left x) f = f x
whenLeft _ _ = return ()
|