module Rahm.Desktop.Layout where import GHC.TypeLits import Data.Proxy (Proxy(..)) import Control.Arrow (second) import XMonad.Hooks.ManageDocks import XMonad.Layout.Circle import XMonad.Layout.Accordion import Control.Applicative import XMonad.Layout.Spacing import Data.List import Data.Typeable (cast) import XMonad.Layout.Spiral import XMonad.Layout.ThreeColumns import XMonad.Layout.Grid import XMonad.Layout.Dishes import XMonad.Layout.MosaicAlt import XMonad.Layout.Fullscreen import qualified XMonad.Layout.Dwindle as D import XMonad.Layout import XMonad.Layout.LayoutModifier import XMonad import XMonad.Core import XMonad.Layout.NoBorders (smartBorders, noBorders) import Rahm.Desktop.Layout.CornerLayout (Corner(..)) import Rahm.Desktop.Layout.List import Rahm.Desktop.Layout.ReinterpretMessage import Rahm.Desktop.Layout.Pop import Rahm.Desktop.Layout.Flip import Rahm.Desktop.Layout.Rotate import Rahm.Desktop.Layout.Redescribe import Rahm.Desktop.Layout.Hole import Rahm.Desktop.Layout.ConsistentMosaic import Rahm.Desktop.Layout.Bordering import qualified Data.Map as M import qualified Rahm.Desktop.StackSet as W myLayout = fullscreenFull $ avoidStruts myLayoutList mySpacing = spacingRaw True (Border 5 5 5 5) True (Border 5 5 5 5) True mods = bordering . mySpacing . poppable . flippable . rotateable . hole myLayoutList = layoutList $ mods (reinterpretIncMaster $ spiral (6/7)) |: mods (MosaicWrap $ modifyMosaic (MosaicAlt M.empty :: MosaicAlt Window)) |: mods (reinterpretIncMaster $ Corner (3/4) (3/100)) |: mods (Redescribe UsingTall (Tall 1 (3/100) (1/2))) |: mods (Redescribe UsingThreeCol (ThreeCol 1 (3/100) (1/2))) |: mods Grid |: mods (Dishes 2 (1/6)) |: mods (reinterpretIncMaster $ D.Dwindle D.R D.CW 1.5 1.1) |: nil nLayouts :: Int nLayouts = layoutListLength myLayoutList -- Mosaic doesn't have the concept of a "Master Space", so reinterpret messages -- intended to modify the master space and instead have those messages expand -- and shrink the current window. -- -- "ForMosaic" is an instance of the Symbol kind. This is some neat type-system -- hacking one can do in Haskell. instance DoReinterpret "ForMosaic" where -- IncMaster message reinterpretMessage _ (fromMessage -> Just (IncMasterN n)) = do Just . SomeMessage <$> ( if n > 0 then expandPositionAlt else shrinkPositionAlt) -- ResizeMaster message reinterpretMessage _ (fromMessage -> Just m) = do Just . SomeMessage <$> (case m of Expand -> expandPositionAlt Shrink -> shrinkPositionAlt) -- Messages that don't match the above, just leave it unmodified. reinterpretMessage _ m = return (Just m) instance DoReinterpret "IncMasterToResizeMaster" where reinterpretMessage _ (fromMessage -> Just (IncMasterN n)) = return $ Just $ if n > 0 then SomeMessage Expand else SomeMessage Shrink reinterpretMessage _ m = return (Just m) modifyMosaic :: l a -> ModifiedLayout (ReinterpretMessage "ForMosaic") l a modifyMosaic = ModifiedLayout ReinterpretMessage reinterpretIncMaster :: l a -> ModifiedLayout (ReinterpretMessage "IncMasterToResizeMaster") l a reinterpretIncMaster = ModifiedLayout ReinterpretMessage data UsingTall = UsingTall deriving (Read, Show) instance Describer UsingTall Tall where newDescription _ (Tall mast _ _) _ = "Tall(" ++ show mast ++ ")" data UsingThreeCol = UsingThreeCol deriving (Read, Show) instance Describer UsingThreeCol ThreeCol where newDescription _ (ThreeCol mast _ _) _ = "ThreeCol(" ++ show mast ++ ")" newDescription _ (ThreeColMid mast _ _) _ = "ThreeColMid(" ++ show mast ++ ")"