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{-# LANGUAGE DeriveDataTypeable, ExistentialQuantification, Rank2Types, MultiParamTypeClasses, FunctionalDependencies, FlexibleInstances, FlexibleContexts, PatternGuards #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Layout.MultiToggle
-- Copyright : (c) Lukas Mai
-- License : BSD-style (see LICENSE)
--
-- Maintainer : <l.mai@web.de>
-- Stability : unstable
-- Portability : unportable
--
-- Dynamically apply and unapply transformers to your window layout. This can
-- be used to rotate your window layout by 90 degrees, or to make the
-- currently focused window occupy the whole screen (\"zoom in\") then undo
-- the transformation (\"zoom out\").
module XMonad.Layout.MultiToggle (
-- * Usage
-- $usage
Transformer(..),
Toggle(..),
(??),
EOT(..),
single,
mkToggle,
mkToggle1,
HList,
HCons,
MultiToggle,
) where
import XMonad
import XMonad.StackSet (Workspace(..))
import Control.Arrow
import Data.Typeable
import Data.Maybe
-- $usage
-- The basic idea is to have a base layout and a set of layout transformers,
-- of which at most one is active at any time. Enabling another transformer
-- first disables any currently active transformer; i.e. it works like a
-- group of radio buttons.
--
-- To use this module, you need some data types which represent
-- transformers; for some commonly used transformers (including
-- MIRROR, NOBORDERS, and FULL used in the examples below) you can
-- simply import "XMonad.Layout.MultiToggle.Instances".
--
-- Somewhere else in your file you probably have a definition of @layout@;
-- the default looks like this:
--
-- > layout = tiled ||| Mirror tiled ||| Full
--
-- After changing this to
--
-- > layout = mkToggle (single MIRROR) (tiled ||| Full)
--
-- you can now dynamically apply the 'XMonad.Layout.Mirror' transformation:
--
-- > ...
-- > , ((modm, xK_x ), sendMessage $ Toggle MIRROR)
-- > ...
--
-- (That should be part of your key bindings.) When you press @mod-x@, the
-- active layout is mirrored. Another @mod-x@ and it's back to normal.
--
-- It's also possible to stack @MultiToggle@s. For example:
--
-- @
-- layout = id
-- . 'XMonad.Layout.NoBorders.smartBorders'
-- . mkToggle (NOBORDERS ?? FULL ?? EOT)
-- . mkToggle (single MIRROR)
-- $ tiled ||| 'XMonad.Layout.Grid.Grid' ||| 'XMonad.Layout.Circle.Circle'
-- @
--
-- By binding a key to @(sendMessage $ Toggle FULL)@ you can temporarily
-- maximize windows, in addition to being able to rotate layouts and remove
-- window borders.
--
-- You can also define your own transformers by creating a data type
-- which is an instance of the 'Transformer' class. For example, here
-- is the definition of @MIRROR@:
--
-- > data MIRROR = MIRROR deriving (Read, Show, Eq, Typeable)
-- > instance Transformer MIRROR Window where
-- > transform _ x k = k (Mirror x) (\(Mirror x') -> x')
--
-- Note, you need to put @{-\# LANGUAGE DeriveDataTypeable \#-}@ at the
-- beginning of your file.
-- | A class to identify custom transformers (and look up transforming
-- functions by type).
class (Eq t, Typeable t) => Transformer t a | t -> a where
transform :: (LayoutClass l a) => t -> l a ->
(forall l'. (LayoutClass l' a) => l' a -> (l' a -> l a) -> b) -> b
data (LayoutClass l a) => EL l a = forall l'. (LayoutClass l' a) => EL (l' a) (l' a -> l a)
unEL :: (LayoutClass l a) => EL l a -> (forall l'. (LayoutClass l' a) => l' a -> b) -> b
unEL (EL x _) k = k x
deEL :: (LayoutClass l a) => EL l a -> l a
deEL (EL x det) = det x
transform' :: (Transformer t a, LayoutClass l a) => t -> EL l a -> EL l a
transform' t (EL l det) = transform t l (\l' det' -> EL l' (det . det'))
-- | Toggle the specified layout transformer.
data Toggle a = forall t. (Transformer t a) => Toggle t
deriving (Typeable)
instance (Typeable a) => Message (Toggle a)
data MultiToggleS ts l a = MultiToggleS (l a) (Maybe Int) ts
deriving (Read, Show)
data MultiToggle ts l a = MultiToggle{
currLayout :: EL l a,
currIndex :: Maybe Int,
transformers :: ts
}
expand :: (LayoutClass l a, HList ts a) => MultiToggleS ts l a -> MultiToggle ts l a
expand (MultiToggleS b i ts) =
resolve ts (fromMaybe (-1) i) id
(\x mt ->
let g = transform' x in mt{ currLayout = g $ currLayout mt }
)
(MultiToggle (EL b id) i ts)
collapse :: (LayoutClass l a) => MultiToggle ts l a -> MultiToggleS ts l a
collapse mt = MultiToggleS (deEL (currLayout mt)) (currIndex mt) (transformers mt)
instance (LayoutClass l a, Read (l a), HList ts a, Read ts) => Read (MultiToggle ts l a) where
readsPrec p s = map (first expand) $ readsPrec p s
instance (Show ts, Show (l a), LayoutClass l a) => Show (MultiToggle ts l a) where
showsPrec p = showsPrec p . collapse
-- | Construct a @MultiToggle@ layout from a transformer table and a base
-- layout.
mkToggle :: (LayoutClass l a) => ts -> l a -> MultiToggle ts l a
mkToggle ts l = MultiToggle (EL l id) Nothing ts
-- | Construct a @MultiToggle@ layout from a single transformer and a base
-- layout.
mkToggle1 :: (LayoutClass l a) => t -> l a -> MultiToggle (HCons t EOT) l a
mkToggle1 t = mkToggle (single t)
-- | Marks the end of a transformer list.
data EOT = EOT deriving (Read, Show)
data HCons a b = HCons a b deriving (Read, Show)
infixr 0 ??
-- | Prepend an element to a heterogeneous list. Used to build transformer
-- tables for 'mkToggle'.
(??) :: (HList b w) => a -> b -> HCons a b
(??) = HCons
-- | Construct a singleton transformer table.
single :: a -> HCons a EOT
single = (?? EOT)
class HList c a where
find :: (Transformer t a) => c -> t -> Maybe Int
resolve :: c -> Int -> b -> (forall t. (Transformer t a) => t -> b) -> b
instance HList EOT w where
find EOT _ = Nothing
resolve EOT _ d _ = d
instance (Transformer a w, HList b w) => HList (HCons a b) w where
find (HCons x xs) t
| t `geq` x = Just 0
| otherwise = fmap succ (find xs t)
resolve (HCons x xs) n d k =
case n `compare` 0 of
LT -> d
EQ -> k x
GT -> resolve xs (pred n) d k
geq :: (Typeable a, Eq a, Typeable b) => a -> b -> Bool
geq a b = Just a == cast b
instance (Typeable a, Show ts, HList ts a, LayoutClass l a) => LayoutClass (MultiToggle ts l) a where
description mt = currLayout mt `unEL` \l -> description l
runLayout (Workspace i mt s) r = case currLayout mt of
EL l det -> fmap (fmap . fmap $ (\x -> mt { currLayout = EL x det })) $
runLayout (Workspace i l s) r
handleMessage mt m
| Just (Toggle t) <- fromMessage m
, i@(Just _) <- find (transformers mt) t
= case currLayout mt of
EL l det -> do
l' <- fromMaybe l `fmap` handleMessage l (SomeMessage ReleaseResources)
return . Just $
mt {
currLayout = (if cur then id else transform' t) (EL (det l') id),
currIndex = if cur then Nothing else i
}
where cur = (i == currIndex mt)
| otherwise
= case currLayout mt of
EL l det -> fmap (fmap (\x -> mt { currLayout = EL x det })) $
handleMessage l m
|