{-# OPTIONS_GHC -fno-warn-missing-signatures #-} {-# LANGUAGE MultiParamTypeClasses, Rank2Types #-} ----------------------------------------------------------------------------- -- | -- Module : XMonad.Layout.Groups.Examples -- Copyright : Quentin Moser -- License : BSD-style (see LICENSE) -- -- Maintainer : orphaned -- Stability : unstable -- Portability : unportable -- -- Example layouts for "XMonad.Layout.Groups". -- ----------------------------------------------------------------------------- module XMonad.Layout.Groups.Examples ( -- * Usage -- $usage -- * Example: Row of columns -- $example1 rowOfColumns , zoomColumnIn , zoomColumnOut , zoomColumnReset , toggleColumnFull , zoomWindowIn , zoomWindowOut , zoomWindowReset , toggleWindowFull -- * Example: Tiled tab groups -- $example2 , tallTabs , mirrorTallTabs , fullTabs , TiledTabsConfig(..) , defaultTiledTabsConfig , increaseNMasterGroups , decreaseNMasterGroups , shrinkMasterGroups , expandMasterGroups , nextOuterLayout -- * Useful re-exports and utils , module XMonad.Layout.Groups.Helpers , shrinkText , defaultTheme , GroupEQ(..) , zoomRowG ) where import XMonad hiding ((|||)) import qualified XMonad.Layout.Groups as G import XMonad.Layout.Groups.Helpers import XMonad.Layout.ZoomRow import XMonad.Layout.Tabbed import XMonad.Layout.Named import XMonad.Layout.Renamed import XMonad.Layout.LayoutCombinators import XMonad.Layout.Decoration import XMonad.Layout.Simplest -- $usage -- This module contains example 'G.Groups'-based layouts. -- You can either import this module directly, or look at its source -- for ideas of how "XMonad.Layout.Groups" may be used. -- -- You can use the contents of this module by adding -- -- > import XMonad.Layout.Groups.Examples -- -- to the top of your @.\/.xmonad\/xmonad.hs@. -- -- For more information on using any of the layouts, jump directly -- to its \"Example\" section. -- -- Whichever layout you choose to use, you will probably want to be -- able to move focus and windows between groups in a consistent -- manner. For this, you should take a look at the functions from -- the "XMonad.Layout.Groups.Helpers" module, which are all -- re-exported by this module. -- -- For more information on how to extend your layour hook and key bindings, see -- "XMonad.Doc.Extending". -- * Helper: ZoomRow of Group elements -- | Compare two 'Group's by comparing the ids of their layouts. data GroupEQ a = GroupEQ deriving (Show, Read) instance Eq a => EQF GroupEQ (G.Group l a) where eq _ (G.G l1 _) (G.G l2 _) = G.sameID l1 l2 zoomRowG :: (Eq a, Show a, Read a, Show (l a), Read (l a)) => ZoomRow GroupEQ (G.Group l a) zoomRowG = zoomRowWith GroupEQ -- * Example 1: Row of columns -- $example1 -- A layout that arranges windows in a row of columns. It uses 'ZoomRow's for -- both, allowing you to: -- -- * Freely change the proportion of the screen width allocated to each column -- -- * Freely change the proportion of a column's heigth allocated to each of its windows -- -- * Set a column to occupy the whole screen space whenever it has focus -- -- * Set a window to occupy its whole column whenever it has focus -- -- to use this layout, add 'rowOfColumns' to your layout hook, for example: -- -- > myLayout = rowOfColumns -- -- To be able to change the sizes of columns and windows, you can create key bindings -- for the relevant actions: -- -- > ((modMask, xK_minus), zoomWindowOut) -- -- and so on. rowOfColumns = G.group column zoomRowG where column = renamed [CutWordsLeft 2, PrependWords "ZoomColumn"] $ Mirror zoomRow -- | Increase the width of the focused column zoomColumnIn :: X () zoomColumnIn = sendMessage $ G.ToEnclosing $ SomeMessage $ zoomIn -- | Decrease the width of the focused column zoomColumnOut :: X () zoomColumnOut = sendMessage $ G.ToEnclosing $ SomeMessage $ zoomOut -- | Reset the width of the focused column zoomColumnReset :: X () zoomColumnReset = sendMessage $ G.ToEnclosing $ SomeMessage $ zoomReset -- | Toggle whether the currently focused column should -- take up all available space whenever it has focus toggleColumnFull :: X () toggleColumnFull = sendMessage $ G.ToEnclosing $ SomeMessage $ ZoomFullToggle -- | Increase the heigth of the focused window zoomWindowIn :: X () zoomWindowIn = sendMessage zoomIn -- | Decrease the height of the focused window zoomWindowOut :: X () zoomWindowOut = sendMessage zoomOut -- | Reset the height of the focused window zoomWindowReset :: X () zoomWindowReset = sendMessage zoomReset -- | Toggle whether the currently focused window should -- take up the whole column whenever it has focus toggleWindowFull :: X () toggleWindowFull = sendMessage ZoomFullToggle -- * Example 2: Tabbed groups in a Tall/Full layout. -- $example2 -- A layout which arranges windows into tabbed groups, and the groups -- themselves according to XMonad's default algorithm -- (@'Tall' ||| 'Mirror' 'Tall' ||| 'Full'@). As their names -- indicate, 'tallTabs' starts as 'Tall', 'mirrorTallTabs' starts -- as 'Mirror' 'Tall' and 'fullTabs' starts as 'Full', but in any -- case you can freely switch between the three afterwards. -- -- You can use any of these three layouts by including it in your layout hook. -- You will need to provide it with a 'TiledTabsConfig' containing the size -- parameters for 'Tall' and 'Mirror' 'Tall', and the shrinker and decoration theme -- for the tabs. If you're happy with defaults, you can use 'defaultTiledTabsConfig': -- -- > myLayout = tallTabs defaultTiledTabsConfig -- -- To be able to increase\/decrease the number of master groups and shrink\/expand -- the master area, you can create key bindings for the relevant actions: -- -- > ((modMask, xK_h), shrinkMasterGroups) -- -- and so on. -- | Configuration data for the "tiled tab groups" layout data TiledTabsConfig s = TTC { vNMaster :: Int , vRatio :: Rational , vIncrement :: Rational , hNMaster :: Int , hRatio :: Rational , hIncrement :: Rational , tabsShrinker :: s , tabsTheme :: Theme } defaultTiledTabsConfig :: TiledTabsConfig DefaultShrinker defaultTiledTabsConfig = TTC 1 0.5 (3/100) 1 0.5 (3/100) shrinkText defaultTheme fullTabs c = _tab c $ G.group _tabs $ Full ||| _vert c ||| _horiz c tallTabs c = _tab c $ G.group _tabs $ _vert c ||| _horiz c ||| Full mirrorTallTabs c = _tab c $ G.group _tabs $ _horiz c ||| Full ||| _vert c _tabs = named "Tabs" Simplest _tab c l = renamed [CutWordsLeft 1] $ addTabs (tabsShrinker c) (tabsTheme c) l _vert c = named "Vertical" $ Tall (vNMaster c) (vIncrement c) (vRatio c) _horiz c = named "Horizontal" $ Mirror $ Tall (hNMaster c) (hIncrement c) (hRatio c) -- | Increase the number of master groups by one increaseNMasterGroups :: X () increaseNMasterGroups = sendMessage $ G.ToEnclosing $ SomeMessage $ IncMasterN 1 -- | Decrease the number of master groups by one decreaseNMasterGroups :: X () decreaseNMasterGroups = sendMessage $ G.ToEnclosing $ SomeMessage $ IncMasterN (-1) -- | Shrink the master area shrinkMasterGroups :: X () shrinkMasterGroups = sendMessage $ G.ToEnclosing $ SomeMessage $ Shrink -- | Expand the master area expandMasterGroups :: X () expandMasterGroups = sendMessage $ G.ToEnclosing $ SomeMessage $ Expand -- | Rotate the available outer layout algorithms nextOuterLayout :: X () nextOuterLayout = sendMessage $ G.ToEnclosing $ SomeMessage $ NextLayout