{-# LANGUAGE MultiParamTypeClasses, TypeSynonymInstances #-}
-- --------------------------------------------------------------------------
-- -- |
-- -- Module : TilePrime.hs
-- -- Copyright : (c) Eric Mertens 2007
-- -- License : BSD3-style (see LICENSE)
-- --
-- -- Maintainer : emertens@gmail.com
-- -- Stability : unstable
-- -- Portability : not portable
-- --
-- -- TilePrime. Tile windows filling gaps created by resize hints
-- --
-- -----------------------------------------------------------------------------
--
module XMonad.Layout.TilePrime (
-- * Usage
-- $usage
TilePrime(TilePrime)
) where
import Control.Monad (mplus)
import Data.List (mapAccumL)
import Graphics.X11.Xlib
import Graphics.X11.Xlib.Extras (getWMNormalHints)
import XMonad.Operations
import XMonad hiding (trace)
import qualified XMonad.StackSet as W
import {-#SOURCE#-} Config (borderWidth)
-- $usage
-- You can use this module with the following in your Config.hs file:
--
-- > import XMonad.Layout.TilePrime
--
-- and add the following line to your 'layouts'
--
-- > , Layout $ TilePrime nmaster delta ratio False
--
-- Use True as the last argument to get a wide layout.
-- %import XMonad.Layout.TilePrime
-- %layout , Layout $ TilePrime nmaster delta ratio False
data TilePrime a = TilePrime
{ nmaster :: Int
, delta, frac :: Rational
, flipped :: Bool
} deriving (Show, Read)
instance LayoutClass TilePrime Window where
description c | flipped c = "TilePrime Horizontal"
| otherwise = "TilePrime Vertical"
pureMessage c m = fmap resize (fromMessage m) `mplus`
fmap incmastern (fromMessage m)
where
resize Shrink = c { frac = max 0 $ frac c - delta c }
resize Expand = c { frac = min 1 $ frac c + delta c }
incmastern (IncMasterN d) = c { nmaster = max 0 $ nmaster c + d }
doLayout TilePrime { frac = f, nmaster = m, flipped = flp } rect s = do
let xs = W.integrate s
hints <- withDisplay $ \ disp -> io (mapM (getWMNormalHints disp) xs)
let xs' = zip xs hints
(leftXs, rightXs) = splitAt m xs'
(leftRect, rightRect)
| null rightXs = (rect, Rectangle 0 0 0 0)
| null leftXs = (Rectangle 0 0 0 0, rect)
| flp = splitVerticallyBy f rect
| otherwise = splitHorizontallyBy f rect
masters = fillWindows leftRect leftXs
slaves = fillWindows rightRect rightXs
return (masters ++ slaves, Nothing)
where
fillWindows r xs = snd $ mapAccumL aux (r,n) xs
where n = fromIntegral (length xs) :: Rational
aux (r,n) (x,hint) = ((rest,n-1),(x,r'))
where
(allocated, _) | flp = splitHorizontallyBy (recip n) r
| otherwise = splitVerticallyBy (recip n) r
(w,h) = applySizeHints hint `underBorders` rect_D allocated
r' = r { rect_width = w, rect_height = h }
rest | flp = r { rect_x = rect_x r + toEnum (fromEnum w)
, rect_width = rect_width r - w }
| otherwise = r { rect_y = rect_y r + toEnum (fromEnum h)
, rect_height = rect_height r - h }
rect_D :: Rectangle -> D
rect_D Rectangle { rect_width = w, rect_height = h } = (w,h)
-- | Transform a function on dimensions into one without regard for borders
underBorders :: (D -> D) -> D -> D
underBorders f = adjBorders 1 . f . adjBorders (-1)
-- | Modify dimensions by a multiple of the current borders
adjBorders :: Dimension -> D -> D
adjBorders mult (w,h) = (w+2*mult*borderWidth, h+2*mult*borderWidth)