{-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} module Main (main, mainWithArgs) where import qualified Data.ByteString as BS import qualified Data.ByteString.Lazy.Char8 as LBS8 import Data.CaseInsensitive (CI) import qualified Data.CaseInsensitive as CI import qualified Data.Text as T import qualified Data.Text.IO as T import qualified Data.Tree as Tree import qualified Data.Tree.Zipper as Z import qualified Network.Mail.Mime as M import qualified Notmuch import qualified Notmuch.Message as Notmuch import qualified Notmuch.SearchResult as Notmuch import qualified System.Console.Terminal.Size as Term import Control.Applicative import Control.Concurrent import Control.Exception import Control.Monad import Control.Monad.Trans.Class (lift) import Control.Monad.Trans.Except import Data.Foldable (foldrM) import Data.List (intercalate) import Data.Maybe import Data.Monoid import Data.Time import Event import ParseMail (readMail) import RenderTreeView (renderTreeView) import Scanner (scan) import Safe import System.Directory import System.Console.Docopt (getArgWithDefault, optionsWithUsage, shortOption) import System.Environment import System.Exit import System.IO import System.Locale (defaultTimeLocale, rfc822DateFormat) import System.Posix.Files import System.Posix.Signals import System.Process import TagUtils import Text.Hyphenation import Text.LineBreak import Trammel import TreeSearch import TreeView import TreeZipperUtils (modifyFirstParentLabelWhere) import Utils import Control.DeepSeq (rnf) -- | Fork a thread while doing something else, but kill it if there's an -- exception. -- -- This is important in the cases above because we want to kill the thread -- that is holding the Handle lock, because when we clean up the process we -- try to close that handle, which could otherwise deadlock. -- withForkWait :: IO () -> (IO () -> IO a) -> IO a withForkWait async body = do waitVar <- newEmptyMVar :: IO (MVar (Either SomeException ())) mask $ \restore -> do tid <- forkIO $ try (restore async) >>= putMVar waitVar let wait = takeMVar waitVar >>= either throwIO return restore (body wait) `onException` killThread tid data State = State { cursor :: Z.TreePos Z.Full TreeView , xoffset :: Int , yoffset :: Int , flashMessage :: Trammel String , screenWidth :: Int , screenHeight :: Int , headBuffer :: [Trammel String] , treeBuffer :: [Trammel String] , now :: UTCTime , decset :: [Int] , decrst :: [Int] } initState :: String -> IO State initState query = do r_ <- either error id <$> Notmuch.search query return State { cursor = Z.fromTree $ fromSearchResults query r_ , xoffset = 0 , yoffset = 0 , flashMessage = "Welcome to much; quit with ^C" , screenWidth = 0 , screenHeight = 0 , headBuffer = [] , treeBuffer = [] , now = UTCTime (fromGregorian 1984 5 23) 49062 , decset = 1000 : -- X & Y on button press and release 1005 : -- UTF-8 mouse mode 1049 : -- use cleared alternate screen buffer [] , decrst = 25 : -- hide cursor [] } main :: IO () main = getArgs >>= mainWithArgs mainWithArgs :: [String] -> IO () mainWithArgs args = do args' <- optionsWithUsage usage args let query = getArgWithDefault args' defaultSearch (shortOption 'q') bracket (initState query) cleanup startup where usage = unlines [ "Command-line MUA using notmuch." , "" , "Usage:" , " much [-q ]" , "" , "Options:" , " -q , --query=" , " Open specific search, defaults to " ++ (show defaultSearch) ] defaultSearch = "tag:inbox AND NOT tag:killed" cleanup :: State -> IO () cleanup q@State{..} = do hSetEcho stdin True resetTerm q { decset = decrst, decrst = decset } startup :: State -> IO () startup q0 = do -- load-env hack maybe (return ()) (setEnv "HOME") =<< lookupEnv "OLDHOME" -- TODO move this to resetTerm? hSetBuffering stdin NoBuffering hSetBuffering stdout (BlockBuffering $ Just 4096) resetTerm q0 (putEvent, getEvent) <- do v <- newEmptyMVar return (putMVar v, takeMVar v) (shutdown, waitForShutdown) <- do v <- newEmptyMVar return (putMVar v (), takeMVar v) mapM_ (\(s, f) -> installHandler s (Catch f) Nothing) [ (sigINT, shutdown) , (28, winchHandler putEvent) ] threadIds <- mapM forkIO [ forever $ scan stdin >>= putEvent , run getEvent q0 ] winchHandler putEvent waitForShutdown mapM_ killThread threadIds resetTerm :: State -> IO () resetTerm State{..} = do hSetEcho stdin False hPutStr stdout $ "\ESC[?" ++ intercalate ";" (map show decset) ++ "h" hPutStr stdout $ "\ESC[?" ++ intercalate ";" (map show decrst) ++ "l" winchHandler :: (Event -> IO ()) -> IO () winchHandler putEvent = Term.size >>= \case Just (Term.Window {Term.width = w, Term.height = h}) -> putEvent $ EResize w h Nothing -> return () run :: IO Event -> State -> IO () run getEvent = rec where rec q = rec =<< do t <- getCurrentTime let q' = render q { now = t } redraw q' >> getEvent >>= processEvent q' -- TODO merge EKey and EMouse? processEvent :: State -> Event -> IO State processEvent q = \case EFlash t -> return q { flashMessage = t } EKey s -> keymap s q EMouse info -> mousemap info q EResize w h -> return q { screenWidth = w, screenHeight = h , flashMessage = Plain $ "resize " <> show (w,h) } ev -> return q { flashMessage = SGR [31,1] $ Plain $ "unhandled event: " <> show ev } render :: State -> State render q@State{..} = q { treeBuffer = newTreeBuf , headBuffer = newHeadBuf } where newTreeBuf = renderTreeView now cursor (Z.root cursor) newHeadBuf = [ Plain (show screenWidth) <> "x" <> Plain (show screenHeight) <> " " <> Plain (show $ linearPos cursor - yoffset) <> " " <> Plain (show $ topOverrun q) <> " " <> Plain (show $ botOverrun q) <> " " <> flashMessage <> " " <> Plain (show (xoffset, yoffset)) ] render0 :: State -> [Trammel String] render0 _q@State{..} = do let buffer = map (trammelTake screenWidth . trammelDrop xoffset) $ take screenHeight $ headBuffer ++ drop yoffset treeBuffer buffer ++ take (screenHeight - length buffer) (repeat "~") redraw :: State -> IO () redraw q@State{..} = do hPutStr stdout $ map (sub '\t' ' ') $ "\ESC[H" ++ (pp $ mintercalate "\n" $ map eraseRight $ render0 q) hFlush stdout where sub x x' c = if c == x then x' else c eraseRight s = if len s < screenWidth then s <> "\ESC[K" else s keymap :: String -> State -> IO State keymap "A" = attachFilesToDraft keymap "a" = toggleTagAtCursor "inbox" keymap "s" = toggleTagAtCursor "unread" keymap "&" = toggleTagAtCursor "killed" keymap "*" = toggleTagAtCursor "star" keymap "r" = replyToAll keymap "e" = viewSource keymap "t" = editTags keymap "k" = moveCursorUp 1 keymap "j" = moveCursorDown 1 keymap "K" = moveTreeDown 1 keymap "J" = moveTreeUp 1 keymap "\ESC[A" = moveCursorUp 1 keymap "\ESC[B" = moveCursorDown 1 keymap "\ESC[a" = moveTreeDown 1 keymap "\ESC[b" = moveTreeUp 1 keymap "\ESC[c" = moveTreeLeft 1 -- S-Right keymap "\ESC[d" = moveTreeRight 1 -- S-Left keymap "\ESC[5~" = \q -> moveTreeDown (screenHeight q `div` 2) q -- PgUp keymap "\ESC[6~" = \q -> moveTreeUp (screenHeight q `div` 2) q -- PgDn keymap "\n" = toggleFold keymap "\ESC[Z" = moveCursorUpToPrevUnread -- S-Tab keymap "\t" = moveCursorDownToNextUnread keymap "\DEL" = moveToParent -- backspace -- TODO wrap/unwrap to separate module keymap "=" = \q@State{..} -> let cursor' = case Z.label cursor of TVMessageLine a b c s -> wrap (TVMessageLine a b c) cursor s _ -> cursor in return q { cursor = cursor' } where --unwrap = error "WIP" -- 1. get current id (must be TVMessageLine) -- 2. find first adjoined TVMessageLine with same id -- 3. find last adjoined TVMessageLine with same id -- 4. join lines (with space?) wrap ctor loc s = fromMaybe (error "die hard") $ Z.nextTree $ foldr (insert . ctor) (Z.delete loc) $ hy s insert a = Z.prevSpace . Z.insert (Tree.Node a []) hy s = breakStringLn bf s where shy = '\173' hyp = Just german_1996 bf = BreakFormat 80 8 shy hyp keymap "\ESCq" = \q@State{..} -> let parse = filter (/='\n') -- TODO proper parse draft = fromMaybe "" $ getSearchTerm $ Z.label $ Z.root cursor in editString q draft >>= \case Left err -> return q { flashMessage = Plain err } Right s' -> Notmuch.search s' >>= \case Left err -> return q { flashMessage = Plain err } Right result -> return q { cursor = Z.fromTree $ fromSearchResults (parse s') result } -- keymap "\ESC[11~" = \q@State{..} -> return q { flashMessage = Plain $ show $ treeViewId $ Z.label cursor } -- keymap "\ESC[12~" = \q@State{..} -> return q { flashMessage = Plain $ show $ maybe Nothing (Just . Notmuch.messageFilename) $ getMessage $ Z.label cursor } -- TODO Stuff Vim sends after exit (also there is more...) keymap "\ESC[2;2R" = \q -> return q { flashMessage = flashMessage q <> " " <> Plain "stupid" } keymap "\ESC[>85;95;0c" = \q -> return q { flashMessage = flashMessage q <> " " <> Plain "stupid" } keymap s = \q -> return q { flashMessage = Plain $ show s } mousemap :: MouseInfo -> State -> IO State mousemap MouseInfo{mouseButton=1,mouseY=y} = defaultMouse1Click y mousemap MouseInfo{mouseButton=3,mouseY=y} = \q -> defaultMouse1Click y q >>= toggleFold mousemap MouseInfo{mouseButton=4} = moveTreeDown 3 mousemap MouseInfo{mouseButton=5} = moveTreeUp 3 mousemap MouseInfo{mouseButton=0} = return mousemap info = \q -> return q { flashMessage = SGR [38,5,202] $ Plain $ show info } defaultMouse1Click :: Monad m => Int -> State -> m State defaultMouse1Click y q@State{..} = do let linearClickPos = let i = (y - length headBuffer + yoffset) - 1 {-zero-based-} in if 0 <= i && i < length treeBuffer then Just i else Nothing case linearClickPos of Nothing -> return q { flashMessage = Plain $ "nothing to click" } Just i -> return q { cursor = findNextN i $ Z.root cursor } topOverrun :: State -> Int topOverrun State{..} = max 0 (- (linearPos cursor - yoffset)) botOverrun :: State -> Int botOverrun State{..} = max 0 (linearPos cursor - yoffset - (screenHeight - (length headBuffer) - 1)) moveCursorDown :: Monad m => Int -> State -> m State moveCursorDown n q@State{..} = let cursor' = findNextN n cursor q' = q { cursor = cursor' } in case botOverrun q' of 0 -> return q' i -> moveTreeUp i q' moveCursorUp :: Monad m => Int -> State -> m State moveCursorUp n q@State{..} = let cursor' = findPrevN n cursor q' = q { cursor = cursor' } in case topOverrun q' of 0 -> return q' i -> moveTreeDown i q' moveTreeUp :: Monad m => Int -> State -> m State moveTreeUp n q@State{..} = let q' = q { yoffset = min (length treeBuffer - 1) $ max 0 (yoffset + n) } in case topOverrun q' of 0 -> return q' i -> moveCursorDown i q' moveTreeDown :: Monad m => Int -> State -> m State moveTreeDown n q@State{..} = let q' = q { yoffset = min (length treeBuffer - 1) $ max 0 (yoffset - n) } in case botOverrun q' of 0 -> return q' i -> moveCursorUp i q' moveTreeLeft :: Monad m => Int -> State -> m State moveTreeLeft n q@State{..} = return q { xoffset = xoffset + n } moveTreeRight :: Monad m => Int -> State -> m State moveTreeRight n q@State{..} = return q { xoffset = max 0 (xoffset - n) } moveToParent :: Monad m => State -> m State moveToParent q@State{..} = case Z.parent cursor of Nothing -> return q { flashMessage = "cannot go further up" } Just cursor' -> let q' = q { cursor = cursor' } in case topOverrun q' of 0 -> return q' i -> moveTreeDown i q' moveCursorToUnread :: (Num a, Monad m, Eq a) => (Z.TreePos Z.Full TreeView -> Maybe (Z.TreePos Z.Full TreeView)) -> (State -> a) -> (a -> State -> m State) -> State -> m State moveCursorToUnread cursorMove getTreeMoveCount treeMove q@State{..} = case cursorMove cursor >>= rec of Just cursor' -> let q' = q { cursor = cursor' } in case getTreeMoveCount q' of 0 -> return q' i -> treeMove i q' Nothing -> return q { flashMessage = "no unread message in sight" } where rec loc = if hasTag "unread" loc then Just loc else cursorMove loc >>= rec hasTag tag loc = case Z.label loc of TVSearchResult sr -> tag `elem` Notmuch.searchTags sr TVMessage m -> tag `elem` Notmuch.messageTags m _ -> False moveCursorUpToPrevUnread :: Monad m => State -> m State moveCursorUpToPrevUnread = moveCursorToUnread findPrev topOverrun moveTreeDown moveCursorDownToNextUnread :: Monad m => State -> m State moveCursorDownToNextUnread = moveCursorToUnread findNext botOverrun moveTreeUp setSubForest :: Tree.Forest a -> Tree.Tree a -> Tree.Tree a setSubForest sf t = t { Tree.subForest = sf } toggleFold :: State -> IO State toggleFold q@State{..} = getNewSubForest >>= return . \case Left err -> q { flashMessage = SGR [31] $ Plain err } Right sf -> q { cursor = Z.modifyTree (setSubForest sf) cursor } where getNewSubForest = if hasUnloadedSubForest (Z.tree cursor) then loadSubForest (Z.label cursor) else return $ Right $ unloadSubForest (Z.tree cursor) toggleTagAtCursor :: Tag -> State -> IO State toggleTagAtCursor tag q@State{..} = case Z.label cursor of TVSearchResult sr -> do let tagOp = if tag `elem` Notmuch.searchTags sr then DelTag else AddTag tagOps = [tagOp tag] Notmuch.notmuchTag tagOps sr let cursor' = Z.modifyTree (patchTreeTags tagOps) cursor return q { cursor = cursor' } TVMessage m -> do let tagOp = if tag `elem` Notmuch.messageTags m then DelTag else AddTag tagOps = [tagOp tag] Notmuch.notmuchTag tagOps m let cursor' = -- TODO this needs a nice name modifyFirstParentLabelWhere isTVSearchResult f $ Z.modifyLabel f cursor f = patchTags tagOps return q { cursor = cursor' } _ -> return q { flashMessage = "nothing happened" } attachFilesToDraft :: State -> IO State attachFilesToDraft q0 = runExceptT (go q0) >>= return . \result -> q0 { flashMessage = Plain (show result) } where go :: State -> ExceptT String IO String go State{cursor=cursor,now=now} = do msg <- maybe (throwE "not a message") return $ getMessage (Z.label cursor) unless (Notmuch.hasTag "draft" msg) $ throwE "message has no draft tag" paths <- filter (not . null) . lines <$> promptE "add files" when (null paths) (throwE "Aborted") newTags <- lines . LBS8.unpack . fst <$> readNotmuchE ["config", "get", "new.tags"] "" let tagOps = map AddTag ("attachment" : Notmuch.messageTags msg) ++ map DelTag (map T.pack newTags) loadMailE (Notmuch.messageId msg) >>= attachFilesE paths -- ^ this will catch invalid paths -- TODO if it fails, then re-prompt >>= return . (addDateHeader now . removeHeader "Date") >>= liftE . M.renderMail' . removeHeaders [ "Content-Type" , "Content-Transfer-Encoding" , "MIME-Version" ] >>= readNotmuchE ("insert" : "--no-hooks" : tagOpsToArgs tagOps) >> liftE (removeFile $ Notmuch.messageFilename msg) >> readNotmuchE ["new", "--no-hooks", "--quiet"] "" >> return "files attached" readNotmuchE :: [String] -> LBS8.ByteString -> ExceptT String IO (LBS8.ByteString, LBS8.ByteString) readNotmuchE args input = do (exitCode, out, err) <- liftE $ do (Just hin, Just hout, Just herr, ph) <- createProcess (proc "notmuch" args) { std_in = CreatePipe , std_out = CreatePipe , std_err = CreatePipe } LBS8.hPut hin input hClose hin out <- LBS8.hGetContents hout err <- LBS8.hGetContents herr withForkWait (evaluate $ rnf out) $ \waitOut -> do withForkWait (evaluate $ rnf err) $ \waitErr -> do ---- now write any input --unless (null input) $ -- ignoreSigPipe $ hPutStr inh input -- hClose performs implicit hFlush, and thus may trigger a SIGPIPE --ignoreSigPipe $ hClose inh -- wait on the output waitOut waitErr hClose hout hClose herr -- wait on the process exitCode <- waitForProcess ph return (exitCode, out, err) case exitCode of ExitSuccess -> return (out, err) ExitFailure code -> throwE $ "notmuch " ++ intercalate " " args ++ " exit code: " ++ show code ++ "; stderr:\n" ++ LBS8.unpack err liftE :: IO a -> ExceptT String IO a liftE io = lift (try io) >>= either (throwE . transformException) return where transformException :: IOException -> String transformException = ("IO: "++) . show editMailE :: String -> ExceptT String IO String editMailE ps = liftE (editMail ps) >>= \case Right r -> return r Left code -> throwE $ "edit mail error: " ++ show code viewMailE :: String -> ExceptT String IO () viewMailE ps = liftE (viewMail ps) >>= \case Right r -> return r Left code -> throwE $ "view mail error: " ++ show code promptE :: String -> ExceptT String IO String promptE ps = liftE (prompt ps) >>= \case Right r -> return r Left code -> throwE $ "prompt error: " ++ show code loadMailE :: Notmuch.MessageID -> ExceptT String IO M.Mail loadMailE msgId = liftE (Notmuch.notmuchShowMail $ Notmuch.unMessageID msgId) >>= \case Right m -> return m Left err -> throwE $ "load mail error: " ++ show err attachFilesE :: [FilePath] -> M.Mail -> ExceptT String IO M.Mail attachFilesE paths = liftE . attachFiles paths attachFiles :: [FilePath] -> M.Mail -> IO M.Mail attachFiles filenames mail0 = foldrM attachFile mail0 filenames attachFile :: FilePath -> M.Mail -> IO M.Mail attachFile filePath mail = do fileType <- fromMaybe "application/octet-stream" <$> getFileType filePath M.addAttachment (T.pack fileType) filePath mail getFileType :: FilePath -> IO (Maybe String) getFileType path = -- XXX GNU file's exit code is 0 even if path doesn't exist doesFileExist path >>= \case True -> do (_, out, _) <- readProcessWithExitCode "file" ["-Lib", path] "" return $ Just (init out) False -> return Nothing replyToAll :: State -> IO State replyToAll q0 = runExceptT (go q0) >>= \result -> toggleFold q0 { flashMessage = Plain (show result) } where go :: State -> ExceptT String IO String go State{cursor=cursor,now=now} = do msg <- maybe (throwE "not a message") return $ getMessage (Z.label cursor) let msgId = Notmuch.unMessageID $ Notmuch.messageId msg newTags <- lines . LBS8.unpack . fst <$> readNotmuchE ["config", "get", "new.tags"] "" let tagOps = map AddTag ["draft"] ++ map DelTag (map T.pack newTags) readNotmuchE ["reply", msgId] "" >>= return . LBS8.unpack . fst -- TODO abort if nothing has been edited >>= editMailE >>= return . T.pack >>= return . readMail >>= return . addDateHeader now >>= liftE . M.renderMail' >>= readNotmuchE ("insert" : "--no-hooks" : tagOpsToArgs tagOps) >> return "draft created" viewSource :: State -> IO State viewSource q0 = runExceptT (go q0) >>= return . \result -> q0 { flashMessage = Plain (show result) } where go State{cursor=cursor} = do msg <- maybe (throwE "not a message") return $ getMessage (Z.label cursor) liftE (readFile $ Notmuch.messageFilename msg) >>= viewMailE -- TODO editTags is too convoluted editTags :: State -> IO State editTags q@State{..} = case Z.label cursor of TVSearchResult sr -> do edit (Notmuch.searchTags sr) (Notmuch.unThreadID $ Notmuch.searchThread sr) (\tagOps loc -> Z.modifyTree (patchTreeTags tagOps) loc ) TVMessage m -> do edit (Notmuch.messageTags m) (Notmuch.unMessageID $ Notmuch.messageId m) -- TODO describe war besser (\tagOps mloc -> -- TODO this needs test cases let -- patch message mloc' = Z.modifyTree (patchRootLabelTags tagOps) mloc -- find search result of message srloc = fromMaybe (error "could not find search result of message") (findParent isTVSearchResult mloc') -- patch search result srloc' = Z.modifyTree (patchRootLabelTags tagOps) srloc in -- return message fromMaybe (error "could not find message again") (findTree (==Z.label mloc) srloc') ) _ -> return q { flashMessage = "cannot edit tags here" } where edit tags query patch = do withTempFile' ".tags" $ \(path, draftH) -> do hPutStr stdout "\ESC[?1049h" -- TODO geht besser hPutStr stdout "\ESC[?25l" -- TODO war mal besser setFileMode path 0o600 -- generate draft T.hPutStrLn draftH $ T.intercalate " " tags hPutStrLn draftH $ "# " <> query hClose draftH runEditor' path q >>= \case ExitFailure code -> do return q { flashMessage = Plain $ "editor exit code = " ++ show code } ExitSuccess -> do -- TODO parse could fail tags' <- parseTags <$> readFile path case diffTags tags tags' of [] -> return q { flashMessage = Plain "nothing happened" } -- TODO highlight tagOps -> do (_, _, _, procH) <- withFile "/dev/null" ReadWriteMode $ \nullH -> -- TODO batch tagging(?) -- TODO proper type for query createProcess (proc "notmuch" $ [ "tag" ] ++ tagOpsToArgs tagOps ++ [ "--", query ]) { std_in = UseHandle nullH , std_out = UseHandle nullH } waitForProcess procH >>= \case ExitFailure code -> return q { flashMessage = Plain $ "notmuch exit code = " ++ show code } ExitSuccess -> return q { cursor = select (==Z.label cursor) (patch tagOps cursor) } -- TODO DRY select select p loc = let root = Z.root loc in fromMaybe root $ findTree p root editString :: State -> String -> IO (Either String String) editString q s = withTempFile' ".string" $ \(path, h) -> do hPutStr stdout "\ESC[?1049h" -- TODO geht besser hPutStr stdout "\ESC[?25l" -- TODO war mal besser setFileMode path 0o600 hPutStr h s hClose h runEditor' path q >>= \case ExitFailure code -> return . Left $ "error exit code = " <> show code ExitSuccess -> Right <$> readFile path runEditor' :: [Char] -> State -> IO ExitCode runEditor' path q@State{..} = do editor <- getEnv "EDITOR" system (editor ++ " " ++ path) <* resetTerm q withTempFile' :: FilePath -> ((FilePath, Handle) -> IO a) -> IO a withTempFile' s f = do logname <- getEnv "LOGNAME" tmpdir <- getTemporaryDirectory withTempFile tmpdir (logname ++ "_much_" ++ s) f addDateHeader :: UTCTime -> M.Mail -> M.Mail addDateHeader t m@M.Mail{..} = do m { M.mailHeaders = ( "Date" , T.pack $ formatTime defaultTimeLocale rfc822DateFormat t ) : mailHeaders } removeHeader :: CI BS.ByteString -> M.Mail -> M.Mail removeHeader h m@M.Mail{..} = m { M.mailHeaders = filter (\(k, _) -> CI.mk k /= h) mailHeaders } removeHeaders :: [CI BS.ByteString] -> M.Mail -> M.Mail removeHeaders hs m@M.Mail{..} = m { M.mailHeaders = filter (\(k, _) -> CI.mk k `notElem` hs) mailHeaders } editMail :: String -> IO (Either ExitCode String) editMail s = withTempFile' "edit.mail" $ \(path, h_tempFile) -> do hPutStr h_tempFile s hClose h_tempFile editor <- getEnv "EDITOR" runInteractive editor [path] >>= \case ExitSuccess -> Right <$> readFile path code -> return (Left code) viewMail :: String -> IO (Either ExitCode ()) viewMail s = do pager <- getEnv "PAGER" (Just h_in, _, _, h_proc) <- createProcess (shell pager) { std_in = CreatePipe } hPutStr h_in s hClose h_in waitForProcess h_proc >>= \case ExitSuccess -> return (Right ()) code -> return (Left code) prompt :: String -> IO (Either ExitCode String) prompt ps = withTempFile' "prompt" $ \(path, h_tempFile) -> do mapM_ (hPutStrLn h_tempFile) $ "" : map comment (lines ps) hClose h_tempFile editor <- getEnv "EDITOR" runInteractive editor [path] >>= \case ExitSuccess -> Right . removeComments <$> readFile path code -> return (Left code) where comment = ("# "++) removeComments = unlines . filter (maybe True (/='#') . headMay) . lines runInteractive :: FilePath -> [String] -> IO ExitCode runInteractive cmd args = do (_, _, _, h_proc) <- createProcess (proc cmd args) waitForProcess h_proc