{-# LANGUAGE LambdaCase #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE ViewPatterns #-} module Main (main) where import Blessings.Text (Blessings(Plain,SGR),pp) import Control.Applicative ((<|>)) import Control.Concurrent import Control.Monad (forM) import Control.Monad (forever) import Data.Bits ((.|.),testBit) import Data.Default (def) import Data.Function ((&)) import Data.List.Extra ((!!?)) import Data.Maybe (catMaybes,fromMaybe) import Data.Monoid.Extra (mintercalate) import Data.Set (Set) import Data.Text (Text) import Foreign.C.Types (CLong) import Much.Screen (Screen(Screen), withScreen) import Pager.Types import Scanner import State (State(..)) import System.Environment (getArgs) import System.IO import System.Posix.Signals (Handler(Catch), Signal, installHandler, sigINT) import qualified Blessings.Internal as Blessings import qualified Data.Char as Char import qualified Data.List as List import qualified Data.Map as Map import qualified Data.Set as Set import qualified Data.Text as Text import qualified Data.Text.Encoding as Text import qualified Data.Text.Extra as Text import qualified Data.Text.IO as Text import qualified Data.Text.Read as Text import qualified Graphics.X11 as X11 import qualified Graphics.X11.Extra as X11 import qualified Graphics.X11.Xlib.Extras as X11 import qualified Graphics.X11.Xlib.Extras.Extra as X11 import qualified Hack.Buffer as Buffer import qualified Hack.Buffer.Extra as Buffer import qualified Pager.Sixelerator as Pager import qualified System.Console.Terminal.Size as Term getActiveWindow :: X11.Display -> IO (Maybe X11.Window) getActiveWindow d = (fmap (fromIntegral . head) <$>) $ X11.getWindowProperty32 d X11._NET_ACTIVE_WINDOW w where w = X11.defaultRootWindow d getCurrentDesktop :: X11.Display -> IO (Maybe CLong) getCurrentDesktop d = (fmap head <$>) $ X11.getWindowProperty32 d X11._NET_CURRENT_DESKTOP w <|> X11.getWindowProperty32 d X11._WIN_WORKSPACE w where w = X11.defaultRootWindow d getDesktopNames :: X11.Display -> IO (Maybe [Text]) getDesktopNames d = do (fmap (Text.split (=='\NUL')) <$>) $ X11.getWindowPropertyText d X11._NET_DESKTOP_NAMES w <|> X11.getWindowPropertyText d X11._WIN_WORKSPACE_NAMES w where w = X11.defaultRootWindow d getGeometry :: X11.Display -> X11.Window -> IO Geometry getGeometry d w = do (_, x, y, width, height, _, _) <- X11.getGeometry d w return Geometry { geometry_x = fromIntegral x , geometry_y = fromIntegral y , geometry_width = fromIntegral width , geometry_height = fromIntegral height } getWindowDesktop :: X11.Display -> X11.Window -> IO (Maybe CLong) getWindowDesktop d w = (fmap head <$>) $ X11.getWindowProperty32 d X11._NET_WM_DESKTOP w <|> X11.getWindowProperty32 d X11._WIN_WORKSPACE w getWindowTitle :: X11.Display -> X11.Window -> IO (Maybe Text) getWindowTitle d w = X11.getWindowPropertyText d X11._NET_WM_NAME w <|> X11.getWindowPropertyText d X11._WM_NAME w getWorkspaces :: X11.Display -> Geometry -> Set X11.Window -> IO [Workspace] getWorkspaces display screenGeometry focusWindows = do let rootWindow = X11.defaultRootWindow display currentDesktop <- fromMaybe 0 <$> getCurrentDesktop display workspaces <- do names <- zip [0..] . fromMaybe [] <$> getDesktopNames display ws <- forM names $ \(index, name) -> do return Workspace { workspace_geometry = screenGeometry , workspace_focused = currentDesktop == index , workspace_name = name , workspace_windows = [] } return $ Map.fromList $ zip [0..] ws clientList <- maybe [] (map fromIntegral) <$> X11.getWindowProperty32 display X11._NET_CLIENT_LIST rootWindow let f w = do title <- getWindowTitle display w desktop <- fromMaybe 0 <$> getWindowDesktop display w geometry <- getGeometry display w wm_hints <- X11.getWMHints display w let urgent = testBit (X11.wmh_flags wm_hints) X11.urgencyHintBit let window = Window { window_id = fromIntegral w , window_title = fromMaybe "" title , window_geometry = geometry , window_focused = Set.member w focusWindows , window_urgent = urgent } return ( window, desktop ) clientList' <- mapM f clientList return $ map (\ws -> ws { workspace_windows = uncurry (<>) $ List.partition window_focused (workspace_windows ws) }) $ Map.elems $ foldr (\(w, i) -> Map.adjust (\ws -> ws { workspace_windows = w : workspace_windows ws }) i ) workspaces clientList' main :: IO () main = do args <- getArgs let ( commandFromArgs, focusWindows ) = let readInt s = case Text.decimal (Text.pack s) of Right (i, "") -> i _ -> (-1) in case args of "shift" : focusWindows_ -> ( ShiftWindowToWorkspace undefined, map readInt focusWindows_ ) "shiftview" : focusWindows_ -> ( ShiftWindowToAndViewWorkspace undefined, map readInt focusWindows_ ) "view" : focusWindows_ -> ( ViewWorkspace, map readInt focusWindows_ ) _ -> error $ "bad arguments: " <> show args Just activeWindow <- X11.withDefaultDisplay getActiveWindow screenGeometry <- X11.withDefaultDisplay $ \display -> do let rootWindow = X11.defaultRootWindow display getGeometry display rootWindow workspaces <- X11.withDefaultDisplay $ \display -> do getWorkspaces display screenGeometry (Set.fromList focusWindows) let screen0 = Screen False NoBuffering (BlockBuffering $ Just 4096) [ 1000 -- X & Y on button press and release , 1005 -- UTF-8 mouse mode , 1047 -- use alternate screen buffer , 80 -- enable sixel scrolling ] [ 25 -- hide cursor ] result <- do withFile "/dev/tty" ReadWriteMode $ \i -> withFile "/dev/tty" WriteMode $ \o -> withScreen i o screen0 $ \_ -> do (putEvent, getEvent) <- do v <- newEmptyMVar return (putMVar v, takeMVar v) let q1 = updateFoundWorkspaces $ def { command = commandFromArgs , screenHeight = geometry_height screenGeometry , screenWidth = geometry_width screenGeometry , termBorder = 2 , workspaces = let f workspace@Workspace{workspace_name} = ( workspace_name, workspace ) in Map.fromList (map f workspaces) } signalHandlers = [ (sigINT, putEvent EShutdown) , (28, winchHandler i putEvent) ] installHandlers signalHandlers winchHandler i putEvent threadIds <- mapM forkIO [ forever $ scan i >>= putEvent . EScan ] result <- run o getEvent q1 mapM_ killThread threadIds return result case snd result of FocusWorkspace name -> do case command (fst result) of ViewWorkspace -> do X11.withDefaultDisplay $ \d -> do let Just s = name `List.elemIndex` map workspace_name workspaces switchDesktop d (fromIntegral s) ShiftWindowToWorkspace _ -> do X11.withDefaultDisplay $ \d -> let Just s = name `List.elemIndex` map workspace_name workspaces in windowToDesktop d activeWindow (fromIntegral s) ShiftWindowToAndViewWorkspace _ -> do X11.withDefaultDisplay $ \d -> do let Just s = name `List.elemIndex` map workspace_name workspaces windowToDesktop d activeWindow (fromIntegral s) switchDesktop d (fromIntegral s) _ -> return () switchDesktop :: X11.Display -> CLong -> IO () switchDesktop d s = X11.allocaXEvent $ \e -> do X11.setEventType e X11.clientMessage X11.setClientMessageEvent' e w X11._NET_CURRENT_DESKTOP 32 [fromIntegral s,0,0,0,0] X11.sendEvent d w False mask e where w = X11.defaultRootWindow d mask = X11.structureNotifyMask windowToDesktop :: X11.Display -> X11.Window -> CLong -> IO () windowToDesktop d w s = X11.allocaXEvent $ \e -> do X11.setEventType e X11.clientMessage X11.setClientMessageEvent' e (fromIntegral w) X11._NET_WM_DESKTOP 32 [fromIntegral s,0,0,0,0] X11.sendEvent d (fromIntegral w) True mask e where mask = X11.substructureRedirectMask .|. X11.substructureNotifyMask run :: Handle -> IO Event -> State -> IO (State, Action) run o getEvent = rec . Right where rec = \case Right q -> redraw o q >> getEvent >>= processEvent q >>= rec Left q -> return q installHandlers :: [(Signal, IO ())] -> IO () installHandlers = mapM_ (\(s, h) -> installHandler s (Catch h) Nothing) processEvent :: State -> Event -> IO (Either (State, Action) State) processEvent q = \case EScan (ScanKey s) -> do let key = Text.pack s (q', action) = keymap key q realizeAction = \case None -> return $ Right q' FocusWorkspace name -> do return $ Left (q', FocusWorkspace name) realizeAction action EScan mouseInfo@ScanMouse{} -> Right <$> mousemap mouseInfo q EShutdown -> return $ Left (q,None) EResize w h -> return $ Right q { termWidth = w, termHeight = h , flashMessage = Plain $ "resize " <> Text.show (w,h) , workspaceViewportHeight = newWorkspaceViewportHeight , workspaceViewportOffset = newWorkspaceViewportOffset } where newWorkspaceViewportHeight = h - 2 {- input line + status line -} newWorkspaceViewportOffset = if newWorkspaceViewportHeight > workspaceViewportHeight q then max 0 $ workspaceViewportOffset q + (workspaceViewportHeight q - newWorkspaceViewportHeight) else if newWorkspaceViewportHeight <= workspaceCursor q - workspaceViewportOffset q then workspaceViewportOffset q + (workspaceViewportHeight q - newWorkspaceViewportHeight) else workspaceViewportOffset q moveWorkspaceCursor :: Int -> State -> State moveWorkspaceCursor i q@State{..} = q { workspaceCursor = newWorkspaceCursor , workspaceViewportOffset = newWorkspaceViewportOffset } where newWorkspaceCursor = max 0 $ min (workspaceCursor + i) $ length foundWorkspaces - 1 newWorkspaceViewportOffset = if newWorkspaceCursor < workspaceViewportOffset then newWorkspaceCursor else if newWorkspaceCursor >= workspaceViewportOffset + workspaceViewportHeight then newWorkspaceCursor - workspaceViewportHeight + 1 else workspaceViewportOffset setCount :: Int -> State -> State setCount i q = q { count = i } keymap :: Text -> State -> ( State, Action ) keymap s | [ "\ESC[4" , Text.decimal -> Right (termHeightPixels, "") , Text.unsnoc -> Just (Text.decimal -> Right (termWidthPixels, "") , 't') ] <- Text.split (==';') s = \q -> ( q { termHeightPixels, termWidthPixels } , None ) keymap s | [ "\ESC[6" , Text.decimal -> Right (charHeight, "") , Text.unsnoc -> Just (Text.decimal -> Right (charWidth, "") , 't') ] <- Text.split (==';') s = \q -> ( q { charHeight, charWidth } , None ) -- Up keymap "\ESC[A" = \q@State{..} -> ( moveWorkspaceCursor count q & setCount 1 , None ) -- Down keymap "\ESC[B" = \q@State{..} -> ( moveWorkspaceCursor (-count) q & setCount 1 , None ) -- PgUp keymap "\ESC[5~" = \q@State{..} -> ( moveWorkspaceCursor (count * max 1 (workspaceViewportHeight - 1)) q & setCount 1 , None ) -- PgDn keymap "\ESC[6~" = \q@State{..} -> ( moveWorkspaceCursor (-count * max 1 (workspaceViewportHeight - 1)) q & setCount 1 , None ) -- Right keymap "\ESC[C" = \q@State{..} -> ( q { buffer = Buffer.move Buffer.CharsForward 1 buffer } , None ) -- Left keymap "\ESC[D" = \q@State{..} -> ( q { buffer = Buffer.move Buffer.CharsBackward 1 buffer } , None ) -- Home keymap "\ESC[H" = \q@State{..} -> ( q { ex_offsetY = ex_offsetY - 1 } , None ) keymap "\ESC[7~" = \q@State{..} -> ( q { ex_offsetY = ex_offsetY - 1 } , None ) -- End keymap "\ESC[F" = \q@State{..} -> ( q { ex_offsetY = ex_offsetY + 1 } , None ) keymap "\ESC[8~" = \q@State{..} -> ( q { ex_offsetY = ex_offsetY + 1 } , None ) -- Backspace keymap "\b" = \q@State{..} -> ( updateFoundWorkspaces q { buffer = Buffer.delete Buffer.CharsBackward 1 buffer } , None ) keymap "\DEL" = \q@State{..} -> ( updateFoundWorkspaces q { buffer = Buffer.delete Buffer.CharsBackward 1 buffer } , None ) keymap "\n" = \q -> ( q , maybe None (FocusWorkspace . workspace_name) (lookupCursoredWorkspace q) ) keymap s | Text.length s == 1 , [c] <- Text.unpack s , Char.isPrint c = \q0 -> let q = updateFoundWorkspaces q0 { buffer = Buffer.insertChar c (buffer q0) } in ( q , case lookupCursoredWorkspace q of Just Workspace{workspace_focused,workspace_name} -> if length (foundWorkspaces q) == 1 then if not workspace_focused then FocusWorkspace workspace_name else None else None Nothing -> None ) keymap s = \q -> ( displayKey s q , None ) updateFoundWorkspaces :: State -> State updateFoundWorkspaces q@State{..} = q { foundWorkspaces = newFoundWorkspaces , workspaceCursor = max 0 $ min workspaceCursor $ length newFoundWorkspaces - 1 } where f = Text.isPrefixOf (Text.pack (Buffer.showBuffer buffer)) newFoundWorkspaces = map fst . List.sortOn (workspaceSortKey . snd) . filter (f . fst) . Map.toList $ workspaces -- smaller is "more important" workspaceSortKey ws@Workspace{..} = ( not $ isWorkspaceUrgent ws -- urgent workspaces are most importsnt , workspace_focused -- focused workspace is least important , List.null workspace_windows -- non-empty workspaces are more important , workspace_name -- sort by name ) isWorkspaceUrgent = List.any window_urgent . workspace_windows mousemap :: Scan -> State -> IO State mousemap info = displayMouse info displayKey :: Text -> State -> State displayKey s q = q { flashMessage = Plain $ Text.show s } displayMouse :: Scan -> State -> IO State displayMouse info q = return q { flashMessage = SGR [38,5,202] $ Plain $ Text.show info } winchHandler :: Handle -> (Event -> IO ()) -> IO () winchHandler h putEvent = do hPutStr h "\ESC[14t" -- query terminal width / height (in pixels) hPutStr h "\ESC[16t" -- query character width / height Term.hSize h >>= \case Just Term.Window {Term.width = width, Term.height = height} -> putEvent $ EResize width height Nothing -> return () redraw :: Handle -> State -> IO () redraw o q@State{..} = do Text.hPutStr o . pp $ "\ESC[H" <> (mintercalate "\n" $ map eraseRight2 $ render0 q) <> workspacePreview hFlush o where workspacePreview :: Blessings Text workspacePreview = let previewWidth = paddingRight * charWidth :: Int previewHeight = round $ (fromIntegral previewWidth :: Double) / fromIntegral screenWidth * fromIntegral screenHeight :: Int previewGeometry = Geometry { geometry_width = fromIntegral previewWidth , geometry_height = fromIntegral previewHeight , geometry_x = fromIntegral $ termWidthPixels - previewWidth , geometry_y = fromIntegral $ ex_offsetY } in fromMaybe "" (renderWorkspacePreview previewGeometry q <$> lookupCursoredWorkspace q) renderWorkspacePreview :: Geometry -> State -> Workspace -> Blessings Text renderWorkspacePreview geometry qq = Plain . Text.decodeUtf8With (\_ _ -> Nothing) . Pager.renderWorkspacePreview geometry qq maxWidth = termWidth - paddingRight paddingRight = 10 eraseRight2 s = if Blessings.length s < maxWidth then s <> SGR [38,5,234] (Plain $ Text.pack $ replicate (maxWidth - Blessings.length s) '@') else s render0 :: State -> [Blessings Text] render0 q@State{..} = map (Blessings.take maxWidth) ((shownWorkspacesPadding <> shownWorkspaces) `join` (shownWindowsPadding <> fromMaybe mempty shownWindows)) <> [prompt <> inputLine] <> [statusLine] where prompt = SGR [38,5,147] "> " inputLine = Blessings.take (maxWidth - Blessings.length prompt) (renderBuffer q) statusLine = ls <> sp <> rs where ln = Blessings.length ls ls = (Blessings.take termWidth (SGR [38,5,242] flashMessage <> Plain (Text.show count))) sn = termWidth - ln - rn sp = (SGR [38,5,234] $ Plain $ Text.pack $ replicate sn '#') rn = Blessings.length rs rs = case command of ViewWorkspace -> SGR [38,5,236] "view" ShiftWindowToWorkspace _ -> SGR [38,5,236] "shift" ShiftWindowToAndViewWorkspace _ -> SGR [38,5,236] "sh+vi" maxWidth = termWidth - paddingRight paddingRight = 10 n = termHeight - 2 shownWorkspaces :: [Blessings Text] shownWorkspaces = reverse $ map showWorkspace $ zip [workspaceViewportOffset..] (take n (drop workspaceViewportOffset $ foundWorkspaces')) where foundWorkspaces' = catMaybes $ map (flip Map.lookup workspaces) foundWorkspaces shownWorkspacesPadding = replicate (n - length shownWorkspaces) (SGR [38,5,234] "~") showWorkspace :: (Int, Workspace) -> Blessings Text showWorkspace (index, Workspace{..}) = let isUrgent = any window_urgent workspace_windows (ls,rs) = Text.splitAt (Buffer.length buffer) workspace_name marker = if index == workspaceCursor then SGR [38,5,177] "> " else Plain " " fgColor = if isUrgent then SGR [38,5,196] else if workspace_focused then SGR [38,5,238] else if length workspace_windows == 0 then SGR [38,5,246] else id in marker <> SGR [48,5,023] (fgColor (Plain ls)) <> fgColor (Plain rs) shownWindows :: Maybe [Blessings Text] shownWindows = take (length shownWorkspaces) . map (SGR [38,5,236] . Plain . window_title) . workspace_windows <$> lookupCursoredWorkspace q shownWindowsPadding = replicate (n - maybe 0 length shownWindows) (SGR [38,5,234] "~") renderBuffer :: State -> Blessings Text renderBuffer State{buffer=(ls0,rs0)} = let ls = Text.pack ls0 rs = Text.pack rs0 in case Text.uncons rs of Just (c, rs') -> Plain ls <> SGR [48,5,200] (Plain $ Text.singleton c) <> Plain rs' Nothing -> let c = ' ' in Plain ls <> SGR [48,5,200] (Plain $ Text.singleton c) <> Plain rs join :: [Blessings Text] -> [Blessings Text] -> [Blessings Text] join ls rs = zipWith (<>) lsFilled rs where lsWidth = maximum $ map Blessings.length ls lsFilled = map (lsFill lsWidth) ls lsFill n s = if Blessings.length s < n then s <> SGR [38,5,234] (Plain (Text.pack (replicate (n - Blessings.length s) '#') <> Text.singleton '|')) else s <> SGR [38,5,234] (Plain (Text.singleton '|')) lookupCursoredWorkspace :: State -> Maybe Workspace lookupCursoredWorkspace State{..} = flip Map.lookup workspaces =<< foundWorkspaces !!? workspaceCursor