Difference between revisions of "Xmonad/Config archive/Template xmonad.hs"

== ''NOTE: This is an ancient deprecated xmonad-0.6 file'' ==

Use the new versioned templates from the [[Xmonad/Config_archive]] You don't ''need'' to use this config file to replicate the default config. This is here to serve as an example. A minimal config that uses the default configuration is:

<haskell>

import XMonad

main = xmonad defaultConfig

</haskell>

This duplicates all of defaultConfig into your config file:

<haskell>

--

-- xmonad example config file.

--

-- A template showing all available configuration hooks,

-- and how to override the defaults in your own xmonad.hs conf file.

--

-- Normally, you'd only override those defaults you care about.

--

import XMonad

import System.Exit

import qualified XMonad.StackSet as W

import qualified Data.Map as M

-- The preferred terminal program, which is used in a binding below and by

-- certain contrib modules.

--

myTerminal = "xterm"

-- Width of the window border in pixels.

--

myBorderWidth = 1

-- modMask lets you specify which modkey you want to use. The default

-- is mod1Mask ("left alt"). You may also consider using mod3Mask

-- ("right alt"), which does not conflict with emacs keybindings. The

-- "windows key" is usually mod4Mask.

--

myModMask = mod1Mask

-- The mask for the numlock key. Numlock status is "masked" from the

-- current modifier status, so the keybindings will work with numlock on or

-- off. You may need to change this on some systems.

--

-- You can find the numlock modifier by running "xmodmap" and looking for a

-- modifier with Num_Lock bound to it:

--

-- > $ xmodmap | grep Num

-- > mod2 Num_Lock (0x4d)

--

-- Set numlockMask = 0 if you don't have a numlock key, or want to treat

-- numlock status separately.

--

myNumlockMask = mod2Mask

-- The default number of workspaces (virtual screens) and their names.

-- By default we use numeric strings, but any string may be used as a

-- workspace name. The number of workspaces is determined by the length

-- of this list.

--

-- A tagging example:

--

-- > workspaces = ["web", "irc", "code" ] ++ map show [4..9]

--

myWorkspaces = ["1","2","3","4","5","6","7","8","9"]

-- Border colors for unfocused and focused windows, respectively.

--

myNormalBorderColor = "#dddddd"

myFocusedBorderColor = "#ff0000"

-- Default offset of drawable screen boundaries from each physical

-- screen. Anything non-zero here will leave a gap of that many pixels

-- on the given edge, on the that screen. A useful gap at top of screen

-- for a menu bar (e.g. 15)

--

-- An example, to set a top gap on monitor 1, and a gap on the bottom of

-- monitor 2, you'd use a list of geometries like so:

--

-- > defaultGaps = [(18,0,0,0),(0,18,0,0)] -- 2 gaps on 2 monitors

--

-- Fields are: top, bottom, left, right.

--

myDefaultGaps = [(0,0,0,0)]

------------------------------------------------------------------------

-- Key bindings. Add, modify or remove key bindings here.

--

myKeys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $

-- launch a terminal

[ ((modMask .|. shiftMask, xK_Return), spawn $ XMonad.terminal conf)

-- launch dmenu

, ((modMask, xK_p ), spawn "exe=`dmenu_path | dmenu` && eval \"exec $exe\"")

-- launch gmrun

, ((modMask .|. shiftMask, xK_p ), spawn "gmrun")

-- close focused window

, ((modMask .|. shiftMask, xK_c ), kill)

-- Rotate through the available layout algorithms

, ((modMask, xK_space ), sendMessage NextLayout)

-- Reset the layouts on the current workspace to default

, ((modMask .|. shiftMask, xK_space ), setLayout $ XMonad.layoutHook conf)

-- Resize viewed windows to the correct size

, ((modMask, xK_n ), refresh)

-- Move focus to the next window

, ((modMask, xK_Tab ), windows W.focusDown)

-- Move focus to the next window

, ((modMask, xK_j ), windows W.focusDown)

-- Move focus to the previous window

, ((modMask, xK_k ), windows W.focusUp )

-- Move focus to the master window

, ((modMask, xK_m ), windows W.focusMaster )

-- Swap the focused window and the master window

, ((modMask, xK_Return), windows W.swapMaster)

-- Swap the focused window with the next window

, ((modMask .|. shiftMask, xK_j ), windows W.swapDown )

-- Swap the focused window with the previous window

, ((modMask .|. shiftMask, xK_k ), windows W.swapUp )

-- Shrink the master area

, ((modMask, xK_h ), sendMessage Shrink)

-- Expand the master area

, ((modMask, xK_l ), sendMessage Expand)

-- Push window back into tiling

, ((modMask, xK_t ), withFocused $ windows . W.sink)

-- Increment the number of windows in the master area

, ((modMask , xK_comma ), sendMessage (IncMasterN 1))

-- Deincrement the number of windows in the master area

, ((modMask , xK_period), sendMessage (IncMasterN (-1)))

-- toggle the status bar gap

, ((modMask , xK_b ),

modifyGap (\i n -> let x = (XMonad.defaultGaps conf ++ repeat (0,0,0,0)) !! i

in if n == x then (0,0,0,0) else x))

-- Quit xmonad

, ((modMask .|. shiftMask, xK_q ), io (exitWith ExitSuccess))

-- Restart xmonad

, ((modMask , xK_q ),

broadcastMessage ReleaseResources >> restart "xmonad" True)

]

++

--

-- mod-[1..9], Switch to workspace N

-- mod-shift-[1..9], Move client to workspace N

--

[((m .|. modMask, k), windows $ f i)

| (i, k) <- zip (XMonad.workspaces conf) [xK_1 .. xK_9]

, (f, m) <- [(W.greedyView, 0), (W.shift, shiftMask)]]

++

--

-- mod-{w,e,r}, Switch to physical/Xinerama screens 1, 2, or 3

-- mod-shift-{w,e,r}, Move client to screen 1, 2, or 3

--

[((m .|. modMask, key), screenWorkspace sc >>= flip whenJust (windows . f))

| (key, sc) <- zip [xK_w, xK_e, xK_r] [0..]

, (f, m) <- [(W.view, 0), (W.shift, shiftMask)]]

------------------------------------------------------------------------

-- Mouse bindings: default actions bound to mouse events

--

myMouseBindings (XConfig {XMonad.modMask = modMask}) = M.fromList $

-- mod-button1, Set the window to floating mode and move by dragging

[ ((modMask, button1), (\w -> focus w >> mouseMoveWindow w))

-- mod-button2, Raise the window to the top of the stack

, ((modMask, button2), (\w -> focus w >> windows W.swapMaster))

-- mod-button3, Set the window to floating mode and resize by dragging

, ((modMask, button3), (\w -> focus w >> mouseResizeWindow w))

-- you may also bind events to the mouse scroll wheel (button4 and button5)

]

------------------------------------------------------------------------

-- Layouts:

-- You can specify and transform your layouts by modifying these values.

-- If you change layout bindings be sure to use 'mod-shift-space' after

-- restarting (with 'mod-q') to reset your layout state to the new

-- defaults, as xmonad preserves your old layout settings by default.

--

-- The available layouts. Note that each layout is separated by |||,

-- which denotes layout choice.

--

myLayout = tiled ||| Mirror tiled ||| Full

where

-- default tiling algorithm partitions the screen into two panes

tiled = Tall nmaster delta ratio

-- The default number of windows in the master pane

nmaster = 1

-- Default proportion of screen occupied by master pane

ratio = 1/2

-- Percent of screen to increment by when resizing panes

delta = 3/100

------------------------------------------------------------------------

-- Window rules:

-- Execute arbitrary actions and WindowSet manipulations when managing

-- a new window. You can use this to, for example, always float a

-- particular program, or have a client always appear on a particular

-- workspace.

--

-- To find the property name associated with a program, use

-- > xprop | grep WM_CLASS

-- and click on the client you're interested in.

--

-- To match on the WM_NAME, you can use 'title' in the same way that

-- 'className' and 'resource' are used below.

--

myManageHook = composeAll

[ className =? "MPlayer" --> doFloat

, className =? "Gimp" --> doFloat

, resource =? "desktop_window" --> doIgnore

, resource =? "kdesktop" --> doIgnore ]

-- Whether focus follows the mouse pointer.

myFocusFollowsMouse :: Bool

myFocusFollowsMouse = True

------------------------------------------------------------------------

-- Status bars and logging

-- Perform an arbitrary action on each internal state change or X event.

-- See the 'DynamicLog' extension for examples.

--

-- To emulate dwm's status bar

--

-- > logHook = dynamicLogDzen

--

myLogHook = return ()

------------------------------------------------------------------------

-- Now run xmonad with all the defaults we set up.

-- Run xmonad with the settings you specify. No need to modify this.

--

main = xmonad defaults

-- A structure containing your configuration settings, overriding

-- fields in the default config. Any you don't override, will

-- use the defaults defined in xmonad/XMonad/Config.hs

--

-- No need to modify this.

--

defaults = defaultConfig {

-- simple stuff

terminal = myTerminal,

focusFollowsMouse = myFocusFollowsMouse,

borderWidth = myBorderWidth,

modMask = myModMask,

numlockMask = myNumlockMask,

workspaces = myWorkspaces,

normalBorderColor = myNormalBorderColor,

focusedBorderColor = myFocusedBorderColor,

defaultGaps = myDefaultGaps,

-- key bindings

keys = myKeys,

mouseBindings = myMouseBindings,

-- hooks, layouts

layoutHook = myLayout,

manageHook = myManageHook,

logHook = myLogHook

}

</haskell>