----------------------------------------------------------------------------- -- | -- Module : XMonad.Actions.RotSlaves -- Copyright : (c) Hans Philipp Annen <haphi@gmx.net>, Mischa Dieterle <der_m@freenet.de> -- License : BSD3-style (see LICENSE) -- -- Maintainer : Hans Philipp Annen <haphi@gmx.net> -- Stability : stable -- Portability : unportable -- -- Rotate all windows except the master window and keep the focus in -- place. ----------------------------------------------------------------------------- module XMonad.Actions.RotSlaves ( -- $usage rotSlaves', rotSlavesUp, rotSlavesDown, rotAll', rotAllUp, rotAllDown ) where import XMonad.StackSet import XMonad -- $usage -- -- To use this module, import it with: -- -- > import XMonad.Actions.RotSlaves -- -- and add whatever keybindings you would like, for example: -- -- > , ((modm .|. shiftMask, xK_Tab ), rotSlavesUp) -- -- This operation will rotate all windows except the master window, -- while the focus stays where it is. It is useful together with the -- TwoPane layout (see "XMonad.Layout.TwoPane"). -- -- For detailed instructions on editing your key bindings, see -- "XMonad.Doc.Extending#Editing_key_bindings". -- | Rotate the windows in the current stack, excluding the first one -- (master). rotSlavesUp,rotSlavesDown :: X () rotSlavesUp = windows $ modify' (rotSlaves' (\l -> (tail l)++[head l])) rotSlavesDown = windows $ modify' (rotSlaves' (\l -> [last l]++(init l))) -- | The actual rotation, as a pure function on the window stack. rotSlaves' :: ([a] -> [a]) -> Stack a -> Stack a rotSlaves' _ s@(Stack _ [] []) = s rotSlaves' f (Stack t [] rs) = Stack t [] (f rs) -- Master has focus rotSlaves' f s@(Stack _ ls _ ) = Stack t' (reverse revls') rs' -- otherwise where (master:ws) = integrate s (revls',t':rs') = splitAt (length ls) (master:(f ws)) -- | Rotate all the windows in the current stack. rotAllUp,rotAllDown :: X () rotAllUp = windows $ modify' (rotAll' (\l -> (tail l)++[head l])) rotAllDown = windows $ modify' (rotAll' (\l -> [last l]++(init l))) -- | The actual rotation, as a pure function on the window stack. rotAll' :: ([a] -> [a]) -> Stack a -> Stack a rotAll' f s = Stack r (reverse revls) rs where (revls,r:rs) = splitAt (length (up s)) (f (integrate s))