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|
{-# OPTIONS_GHC -fglasgow-exts #-} -- for deriving Typeable
{-# LANGUAGE FlexibleContexts, FlexibleInstances, MultiParamTypeClasses, PatternGuards, TypeSynonymInstances #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Layout.Decoration
-- Copyright : (c) 2007 Andrea Rossato
-- License : BSD-style (see xmonad/LICENSE)
--
-- Maintainer : andrea.rossato@unibz.it
-- Stability : unstable
-- Portability : unportable
--
-- A layout modifier and a class for easily creating decorated
-- layouts.
-----------------------------------------------------------------------------
module XMonad.Layout.Decoration
( -- * Usage:
-- $usage
decoration
, Theme (..), defaultTheme
, Decoration
, DecorationMsg (..)
, DecorationStyle (..)
, DefaultDecoration (..)
, Shrinker (..), DefaultShrinker
, shrinkText, CustomShrink ( CustomShrink )
, isInStack, isVisible, isInvisible, isWithin, fi
, module XMonad.Layout.LayoutModifier
) where
import Control.Monad (when)
import Data.Maybe
import Data.List
import XMonad
import qualified XMonad.StackSet as W
import XMonad.Hooks.UrgencyHook
import XMonad.Layout.LayoutModifier
import XMonad.Layout.WindowArranger (WindowArrangerMsg (..), diff, listFromList)
import XMonad.Util.NamedWindows (getName)
import XMonad.Util.Invisible
import XMonad.Util.XUtils
import XMonad.Util.Font
-- $usage
-- This module is intended for layout developers, who want to decorate
-- their layouts. End users will not find here very much for them.
--
-- For examples of 'DecorationStyle' instances you can have a look at
-- "XMonad.Layout.SimpleDecoration", "XMonad.Layout.Tabbed",
-- "XMonad.Layout.DwmStyle", or "XMonad.Layout.TabBarDecoration".
-- | A layout modifier that, with a 'Shrinker', a 'Theme', a
-- 'DecorationStyle', and a layout, will decorate this layout
-- according to the decoration style provided.
--
-- For some usage examples see "XMonad.Layout.DecorationMadness".
decoration :: (DecorationStyle ds a, Shrinker s) => s -> Theme -> ds a
-> l a -> ModifiedLayout (Decoration ds s) l a
decoration s t ds = ModifiedLayout (Decoration (I Nothing) s t ds)
-- | A 'Theme' is a record of colors, font etc., to customize a
-- 'DecorationStyle'.
--
-- For a collection of 'Theme's see "XMonad.Util.Themes"
data Theme =
Theme { activeColor :: String -- ^ Color of the active window
, inactiveColor :: String -- ^ Color of the inactive window
, urgentColor :: String -- ^ Color of the urgent window
, activeBorderColor :: String -- ^ Color of the border of the active window
, inactiveBorderColor :: String -- ^ Color of the border of the inactive window
, urgentBorderColor :: String -- ^ Color of the border of the urgent window
, activeTextColor :: String -- ^ Color of the text of the active window
, inactiveTextColor :: String -- ^ Color of the text of the inactive window
, urgentTextColor :: String -- ^ Color of the text of the urgent window
, fontName :: String -- ^ Font name
, decoWidth :: Dimension -- ^ Maximum width of the decorations (if supported by the 'DecorationStyle')
, decoHeight :: Dimension -- ^ Height of the decorations
} deriving (Show, Read)
-- | The default xmonad 'Theme'.
defaultTheme :: Theme
defaultTheme =
Theme { activeColor = "#999999"
, inactiveColor = "#666666"
, urgentColor = "#FFFF00"
, activeBorderColor = "#FFFFFF"
, inactiveBorderColor = "#BBBBBB"
, urgentBorderColor = "##00FF00"
, activeTextColor = "#FFFFFF"
, inactiveTextColor = "#BFBFBF"
, urgentTextColor = "#FF0000"
, fontName = "-misc-fixed-*-*-*-*-10-*-*-*-*-*-*-*"
, decoWidth = 200
, decoHeight = 20
}
-- | A 'Decoration' layout modifier will handle 'SetTheme', a message
-- to dynamically change the decoration 'Theme'.
data DecorationMsg = SetTheme Theme deriving ( Typeable )
instance Message DecorationMsg
-- | The 'Decoration' state component, where the list of decorated
-- window's is zipped with a list of decoration. A list of decoration
-- is a list of tuples, a 'Maybe' 'Window' and a 'Maybe Rectangle'.
-- The 'Window' will be displayed only if the rectangle is of type
-- 'Just'.
data DecorationState =
DS { decos :: [(OrigWin,DecoWin)]
, font :: XMonadFont
}
type DecoWin = (Maybe Window, Maybe Rectangle)
type OrigWin = (Window,Rectangle)
-- | The 'Decoration' 'LayoutModifier'. This data type is an instance
-- of the 'LayoutModifier' class. This data type will be passed,
-- together with a layout, to the 'ModifiedLayout' type constructor
-- to modify the layout by adding decorations according to a
-- 'DecorationStyle'.
data Decoration ds s a =
Decoration (Invisible Maybe DecorationState) s Theme (ds a)
deriving (Show, Read)
-- | The 'DecorationStyle' class, defines methods used in the
-- implementation of the 'Decoration' 'LayoutModifier' instance. A
-- type instance of this class is passed to the 'Decoration' type in
-- order to decorate a layout, by using these methods.
class (Read (ds a), Show (ds a), Eq a) => DecorationStyle ds a where
-- | The description that the 'Decoration' modifier will display.
describeDeco :: ds a -> String
describeDeco ds = show ds
-- | Shrink the window's rectangle when applying a decoration.
shrink :: ds a -> Rectangle -> Rectangle -> Rectangle
shrink _ (Rectangle _ _ _ dh) (Rectangle x y w h) = Rectangle x (y + fi dh) w (h - dh)
-- | The decoration event hook, where the
-- 'decorationMouseFocusHook' and 'decorationMouseDragHook' are
-- called. If you reimplement it those methods will not be
-- called.
decorationEventHook :: ds a -> DecorationState -> Event -> X ()
decorationEventHook ds s e = do decorationMouseFocusHook ds s e
decorationMouseDragHook ds s e
-- | This method is called when the user clicks the pointer over
-- the decoration.
decorationMouseFocusHook :: ds a -> DecorationState -> Event -> X ()
decorationMouseFocusHook _ s e = handleMouseFocusDrag False s e
-- | This method is called when the user starts grabbing the
-- decoration.
decorationMouseDragHook :: ds a -> DecorationState -> Event -> X ()
decorationMouseDragHook _ s e = handleMouseFocusDrag True s e
-- | The pure version of the main method, 'decorate'.
pureDecoration :: ds a -> Dimension -> Dimension -> Rectangle
-> W.Stack a -> [(a,Rectangle)] -> (a,Rectangle) -> Maybe Rectangle
pureDecoration _ _ ht _ s _ (w,Rectangle x y wh _) = if isInStack s w
then Just $ Rectangle x y wh ht
else Nothing
-- | Given the theme's decoration width and height, the screen
-- rectangle, the windows stack, the list of windows and
-- rectangles returned by the underlying layout and window to be
-- decorated, tupled with its rectangle, produce a 'Just'
-- 'Rectangle' or 'Nothing' if the window is not to be decorated.
decorate :: ds a -> Dimension -> Dimension -> Rectangle
-> W.Stack a -> [(a,Rectangle)] -> (a,Rectangle) -> X (Maybe Rectangle)
decorate ds w h r s wrs wr = return $ pureDecoration ds w h r s wrs wr
-- | The default 'DecorationStyle', with just the default methods'
-- implementations.
data DefaultDecoration a = DefaultDecoration deriving ( Read, Show )
instance Eq a => DecorationStyle DefaultDecoration a
-- | The long 'LayoutModifier' instance for the 'Decoration' type.
--
-- In 'redoLayout' we check the state: if there is no state we
-- initialize it.
--
-- The state is 'diff'ed against the list of windows produced by the
-- underlying layout: removed windows get deleted and new ones
-- decorated by 'createDecos', which will call 'decorate' to decide if
-- a window must be given a 'Rectangle', in which case a decoration
-- window will be created.
--
-- After that we resync the updated state with the windows' list and
-- then we process the resynced stated (as we do with a new state).
--
-- First we map the decoration windows, we update each decoration to
-- reflect any decorated window's change, and we insert, in the list
-- of windows and rectangles returned by the underlying layout, the
-- decoration for each window. This way xmonad will restack the
-- decorations and their windows accordingly. At the end we remove
-- invisible\/stacked windows.
--
-- Message handling is quite simple: when needed we release the state
-- component of the 'Decoration' 'LayoutModifier'. Otherwise we call
-- 'handleEvent', which will call the appropriate 'DecorationStyle'
-- methods to perform its tasks.
instance (DecorationStyle ds Window, Shrinker s) => LayoutModifier (Decoration ds s) Window where
redoLayout (Decoration (I (Just s)) sh t ds) _ Nothing _ = do
releaseResources s
return ([], Just $ Decoration (I Nothing) sh t ds)
redoLayout _ _ Nothing _ = return ([], Nothing)
redoLayout (Decoration st sh t ds) sc (Just stack) wrs
| I Nothing <- st = initState t ds sc stack wrs >>= processState
| I (Just s) <- st = do let dwrs = decos s
(d,a) = curry diff (get_ws dwrs) ws
toDel = todel d dwrs
toAdd = toadd a wrs
deleteDecos (map snd toDel)
let ndwrs = zip toAdd $ repeat (Nothing,Nothing)
ndecos <- resync (ndwrs ++ del_dwrs d dwrs) wrs
processState (s {decos = ndecos })
| otherwise = return (wrs, Nothing)
where
ws = map fst wrs
get_w = fst . fst
get_ws = map get_w
del_dwrs = listFromList get_w notElem
find_dw i = fst . snd . flip (!!) i
todel d = filter (flip elem d . get_w)
toadd a = filter (flip elem a . fst )
check_dwr dwr = case dwr of
(Nothing, Just dr) -> do dw <- createDecoWindow t dr
return (Just dw, Just dr)
_ -> return dwr
resync _ [] = return []
resync d ((w,r):xs) = case w `elemIndex` get_ws d of
Just i -> do dr <- decorate ds (decoWidth t) (decoHeight t) sc stack wrs (w,r)
dwr <- check_dwr (find_dw i d, dr)
dwrs <- resync d xs
return $ ((w,r),dwr) : dwrs
Nothing -> resync d xs
-- We drop any windows that are *precisely* stacked underneath
-- another window: these must be intended to be tabbed!
remove_stacked rs ((w,r):xs)
| r `elem` rs = remove_stacked rs xs
| otherwise = (w,r) : remove_stacked (r:rs) xs
remove_stacked _ [] = []
insert_dwr ((w,r),(Just dw,Just dr)) xs = (dw,dr):(w, shrink ds dr r):xs
insert_dwr (x ,( _ , _ )) xs = x:xs
dwrs_to_wrs = remove_stacked [] . foldr insert_dwr []
processState s = do let ndwrs = decos s
showDecos (map snd ndwrs)
updateDecos sh t (font s) ndwrs
return (dwrs_to_wrs ndwrs, Just (Decoration (I (Just (s {decos = ndwrs}))) sh t ds))
handleMess (Decoration (I (Just s@(DS {decos = dwrs}))) sh t ds) m
| Just e <- fromMessage m = do decorationEventHook ds s e
handleEvent sh t s e
return Nothing
| Just Hide <- fromMessage m = do hideDecos (map snd dwrs)
return Nothing
| Just (SetTheme nt) <- fromMessage m = do releaseResources s
return $ Just $ Decoration (I Nothing) sh nt ds
| Just ReleaseResources <- fromMessage m = do releaseResources s
return $ Just $ Decoration (I Nothing) sh t ds
handleMess _ _ = return Nothing
modifierDescription (Decoration _ _ _ ds) = describeDeco ds
-- | By default 'Decoration' handles 'PropertyEvent' and 'ExposeEvent'
-- only.
handleEvent :: Shrinker s => s -> Theme -> DecorationState -> Event -> X ()
handleEvent sh t (DS dwrs fs) e
| PropertyEvent {ev_window = w} <- e
, Just i <- w `elemIndex` (map (fst . fst) dwrs) = updateDeco sh t fs (dwrs !! i)
| ExposeEvent {ev_window = w} <- e
, Just i <- w `elemIndex` (catMaybes $ map (fst . snd) dwrs) = updateDeco sh t fs (dwrs !! i)
handleEvent _ _ _ _ = return ()
-- | Mouse focus and mouse drag are handled by the same function, this
-- way we can start dragging unfocused windows too.
handleMouseFocusDrag :: Bool -> DecorationState -> Event -> X ()
handleMouseFocusDrag b (DS dwrs _) ButtonEvent { ev_window = ew
, ev_event_type = et
, ev_x_root = ex
, ev_y_root = ey }
| et == buttonPress
, Just ((mainw,r),_) <- lookFor ew dwrs = do
focus mainw
when b $ mouseDrag (\x y -> do
let rect = Rectangle (x - (fi ex - rect_x r))
(y - (fi ey - rect_y r))
(rect_width r)
(rect_height r)
sendMessage (SetGeometry rect)) (return ())
handleMouseFocusDrag _ _ _ = return ()
-- | Given a window and the state, if a matching decoration is in the
-- state return it with its ('Maybe') 'Rectangle'.
lookFor :: Window -> [(OrigWin,DecoWin)] -> Maybe (OrigWin,(Window,Maybe Rectangle))
lookFor w ((wr,(Just dw,dr)):dwrs) | w == dw = Just (wr,(dw,dr))
| otherwise = lookFor w dwrs
lookFor w ((_, (Nothing, _)):dwrs) = lookFor w dwrs
lookFor _ [] = Nothing
-- | Initialize the 'DecorationState' by initializing the font
-- structure and by creating the needed decorations.
initState :: DecorationStyle ds Window => Theme -> ds Window -> Rectangle
-> W.Stack Window -> [(Window,Rectangle)] -> X DecorationState
initState t ds sc s wrs = do
fs <- initXMF (fontName t)
dwrs <- createDecos t ds sc s wrs wrs
return $ DS dwrs fs
-- | Delete windows stored in the state and release the font structure.
releaseResources :: DecorationState -> X ()
releaseResources s = do
deleteDecos (map snd $ decos s)
releaseXMF (font s)
-- | Create the decoration windows of a list of windows and their
-- rectangles, by calling the 'decorate' method of the
-- 'DecorationStyle' received.
createDecos :: DecorationStyle ds Window => Theme -> ds Window -> Rectangle -> W.Stack Window
-> [(Window,Rectangle)] -> [(Window,Rectangle)] -> X [(OrigWin,DecoWin)]
createDecos t ds sc s wrs ((w,r):xs) = do
deco <- decorate ds (decoWidth t) (decoHeight t) sc s wrs (w,r)
case deco of
Just dr -> do dw <- createDecoWindow t dr
dwrs <- createDecos t ds sc s wrs xs
return $ ((w,r), (Just dw, Just dr)) : dwrs
Nothing -> do dwrs <- createDecos t ds sc s wrs xs
return $ ((w,r), (Nothing, Nothing)) : dwrs
createDecos _ _ _ _ _ [] = return []
createDecoWindow :: Theme -> Rectangle -> X Window
createDecoWindow t r = let mask = Just (exposureMask .|. buttonPressMask) in
createNewWindow r mask (inactiveColor t) True
showDecos :: [DecoWin] -> X ()
showDecos = showWindows . catMaybes . map fst
hideDecos :: [DecoWin] -> X ()
hideDecos = hideWindows . catMaybes . map fst
deleteDecos :: [DecoWin] -> X ()
deleteDecos = deleteWindows . catMaybes . map fst
updateDecos :: Shrinker s => s -> Theme -> XMonadFont -> [(OrigWin,DecoWin)] -> X ()
updateDecos s t f = mapM_ $ updateDeco s t f
-- | Update a decoration window given a shrinker, a theme, the font
-- structure and the needed 'Rectangle's
updateDeco :: Shrinker s => s -> Theme -> XMonadFont -> (OrigWin,DecoWin) -> X ()
updateDeco sh t fs ((w,_),(Just dw,Just (Rectangle _ _ wh ht))) = do
nw <- getName w
ur <- readUrgents
dpy <- asks display
let focusColor win ic ac uc = (maybe ic (\focusw -> case () of
_ | focusw == win -> ac
| win `elem` ur -> uc
| otherwise -> ic) . W.peek)
`fmap` gets windowset
(bc,borderc,tc) <- focusColor w (inactiveColor t, inactiveBorderColor t, inactiveTextColor t)
(activeColor t, activeBorderColor t, activeTextColor t)
(urgentColor t, urgentBorderColor t, urgentTextColor t)
let s = shrinkIt sh
name <- shrinkWhile s (\n -> do size <- io $ textWidthXMF dpy fs n
return $ size > fromIntegral wh - fromIntegral (ht `div` 2)) (show nw)
paintAndWrite dw fs wh ht 1 bc borderc tc bc AlignCenter name
updateDeco _ _ _ (_,(Just w,Nothing)) = hideWindow w
updateDeco _ _ _ _ = return ()
-- | True if the window is in the 'Stack'. The 'Window' comes second
-- to facilitate list processing, even though @w \`isInStack\` s@ won't
-- work...;)
isInStack :: Eq a => W.Stack a -> a -> Bool
isInStack s = flip elem (W.integrate s)
-- | Given a 'Rectangle' and a list of 'Rectangle's is True if the
-- 'Rectangle' is not completely contained by any 'Rectangle' of the
-- list.
isVisible :: Rectangle -> [Rectangle] -> Bool
isVisible r = and . foldr f []
where f x xs = if r `isWithin` x then False : xs else True : xs
-- | The contrary of 'isVisible'.
isInvisible :: Rectangle -> [Rectangle] -> Bool
isInvisible r = not . isVisible r
-- | True is the first 'Rectangle' is totally within the second
-- 'Rectangle'.
isWithin :: Rectangle -> Rectangle -> Bool
isWithin (Rectangle x y w h) (Rectangle rx ry rw rh)
| x >= rx, x <= rx + fi rw
, y >= ry, y <= ry + fi rh
, x + fi w <= rx + fi rw
, y + fi h <= ry + fi rh = True
| otherwise = False
shrinkWhile :: (String -> [String]) -> (String -> X Bool) -> String -> X String
shrinkWhile sh p x = sw $ sh x
where sw [n] = return n
sw [] = return ""
sw (n:ns) = do
cond <- p n
if cond
then sw ns
else return n
data CustomShrink = CustomShrink
instance Show CustomShrink where show _ = ""
instance Read CustomShrink where readsPrec _ s = [(CustomShrink,s)]
class (Read s, Show s) => Shrinker s where
shrinkIt :: s -> String -> [String]
data DefaultShrinker = DefaultShrinker
instance Show DefaultShrinker where show _ = ""
instance Read DefaultShrinker where readsPrec _ s = [(DefaultShrinker,s)]
instance Shrinker DefaultShrinker where
shrinkIt _ "" = [""]
shrinkIt s cs = cs : shrinkIt s (init cs)
shrinkText :: DefaultShrinker
shrinkText = DefaultShrinker
|