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{-# LANGUAGE FlexibleInstances, TypeSynonymInstances #-}

-----------------------------------------------------------------------------
-- |
-- Module      :  XMonad.Actions.FlexibleManipulate
-- Copyright   :  (c) Michael Sloan
-- License     :  BSD3-style (see LICENSE)
--
-- Maintainer  :  <mgsloan@gmail.com>
-- Stability   :  unstable
-- Portability :  unportable
--
-- Move and resize floating windows without warping the mouse.
--
-----------------------------------------------------------------------------

-- Based on the FlexibleResize code by Lukas Mai (mauke).

module XMonad.Actions.FlexibleManipulate (
	-- * Usage
	-- $usage
	mouseWindow, discrete, linear, resize, position
) where

import XMonad
import XMonad.Operations
import Graphics.X11.Xlib
import Graphics.X11.Xlib.Extras

-- $usage
-- First, add this import to your @~\/.xmonad\/xmonad.hs@:
--
-- > import qualified XMonad.Actions.FlexibleManipulate as Flex
--
-- Now set up the desired mouse binding, for example:
--
-- >     , ((modMask x, button1), (\w -> focus w >> Flex.mouseWindow Flex.linear w))
--
-- * Flex.'linear' indicates that positions between the edges and the
--   middle indicate a combination scale\/position.
--
-- * Flex.'discrete' indicates that there are discrete pick
--   regions. (The window is divided by thirds for each axis.)
--
-- * Flex.'resize' performs only a resize of the window, based on which
--   quadrant the mouse is in.
--
-- * Flex.'position' is similar to the built-in
--   'XMonad.Operations.mouseMoveWindow'.
--
-- You can also write your own function for this parameter. It should take
-- a value between 0 and 1 indicating position, and return a value indicating
-- the corresponding position if plain Flex.'linear' was used.
--
-- For detailed instructions on editing your mouse bindings, see
-- "XMonad.Doc.Extending#Editing_mouse_bindings".

discrete, linear, resize, position :: Double -> Double

-- | Manipulate the window based on discrete pick regions; the window
--   is divided into regions by thirds along each axis.
discrete x | x < 0.33 = 0
           | x > 0.66 = 1
           | otherwise = 0.5

-- | Scale\/reposition the window by factors obtained from the mouse
--   position by linear interpolation. Dragging precisely on a corner
--   resizes that corner; dragging precisely in the middle moves the
--   window without resizing; anything else is an interpolation
--   between the two.
linear = id

-- | Only resize the window, based on the window quadrant the mouse is in.
resize x = if x < 0.5 then 0 else 1

-- | Only reposition the window.
position = const 0.5

-- | Given an interpolation function, implement an appropriate window
--   manipulation action.
mouseWindow :: (Double -> Double) -> Window -> X ()
mouseWindow f w = whenX (isClient w) $ withDisplay $ \d -> do
    io $ raiseWindow d w
    [wpos, wsize] <- io $ getWindowAttributes d w >>= return . winAttrs
    sh <- io $ getWMNormalHints d w
    pointer <- io $ queryPointer d w >>= return . pointerPos

    let uv = (pointer - wpos) / wsize
        fc = mapP f uv
        mul = mapP (\x -> 2 - 2 * abs(x - 0.5)) fc --Fudge factors: interpolation between 1 when on edge, 2 in middle
        atl = ((1, 1) - fc) * mul
        abr = fc * mul
    mouseDrag (\ex ey -> io $ do
        let offset = (fromIntegral ex, fromIntegral ey) - pointer
            npos = wpos + offset * atl
            nbr = (wpos + wsize) + offset * abr
            ntl = minP (nbr - (32, 32)) npos    --minimum size
            nwidth = applySizeHints sh $ mapP (round :: Double -> Integer) (nbr - ntl)
        moveResizeWindow d w (round $ fst ntl) (round $ snd ntl) `uncurry` nwidth
        return ())
        (float w)

    float w

  where
    pointerPos (_,_,_,px,py,_,_,_) = (fromIntegral px,fromIntegral py) :: Pnt
    winAttrs :: WindowAttributes -> [Pnt]
    winAttrs x = pairUp $ map (fromIntegral . ($ x)) [wa_x, wa_y, wa_width, wa_height]


-- I'd rather I didn't have to do this, but I hate writing component 2d math
type Pnt = (Double, Double)

pairUp :: [a] -> [(a,a)]
pairUp [] = []
pairUp [_] = []
pairUp (x:y:xs) = (x, y) : (pairUp xs)

mapP :: (a -> b) -> (a, a) -> (b, b)
mapP f (x, y) = (f x, f y)
zipP :: (a -> b -> c) -> (a,a) -> (b,b) -> (c,c)
zipP f (ax,ay) (bx,by) = (f ax bx, f ay by)

minP :: Ord a => (a,a) -> (a,a) -> (a,a)
minP = zipP min

instance Num Pnt where
    (+) = zipP (+)
    (-) = zipP (-)
    (*) = zipP (*)
    abs = mapP abs
    signum = mapP signum
    fromInteger = const undefined

instance Fractional Pnt where
    fromRational = const undefined
    recip = mapP recip