Difference between revisions of "Xmonad/General xmonad.hs config tips"
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See [[Xmonad/Frequently asked questions#I need to find the class / title / some other X property of my program!]] for how to get the properties of windows. |
See [[Xmonad/Frequently asked questions#I need to find the class / title / some other X property of my program!]] for how to get the properties of windows. |
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| + | See also the [http://xmonad.org/xmonad-docs/xmonad/XMonad-ManageHook.html documentation for ManageHook]. |
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== Making windows unfloat == |
== Making windows unfloat == |
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Revision as of 10:48, 20 December 2008
This site is for general tips for configuring xmonad.hs, for example "How to make window X float by default" and others. If you can't find what you're searching for, you may want to look at the Config archive.
Please add what you found useful, and of course improving existing tips or adding alternatives is highly appreciated!
Making window float by default, or send it to specific workspace
This example sends Firefox to workspace "web" by default, makes Gajim float and sends it to webspace "jabber" and Xmessage is floating by default, too.
myManageHook :: ManageHook
myManageHook = composeAll . concat $
[ [ className =? c --> doFloat | c <- myFloats ]
, [ className =? "Firefox-bin" --> doF (W.shift "web" ) ]
, [ className =? "Gajim.py" --> doF (W.shift "jabber" ) ] ]
where myFloats = ["Gajim.py", "Xmessage"]
main = xmonad $ defaultConfig
{
'''....'''
, manageHook = manageHook defaultConfig <+> myManageHook
'''...'''
}
Here's another example, using both classes and titles:
myManageHook :: ManageHook
myManageHook = composeAll . concat $
[ [ title =? t --> doFloat | t <- myTitleFloats]
, [ className =? c --> doFloat | c <- myClassFloats ] ]
where
myTitleFloats = ["Transferring"] -- for the KDE "open link" popup from konsole
myClassFloats = ["Pinentry"] -- for gpg passphrase entry
See Xmonad/Frequently asked questions#I need to find the class / title / some other X property of my program! for how to get the properties of windows.
See also the documentation for ManageHook.
Making windows unfloat
A related task is - how do I unfloat windows of a particular class or name? Well, as before, we need to set up a managehook, and then we write a simple function which duplicates the mod-t functionality of unfloating (but with a different type):
myManageHook :: ManageHook
myManageHook = composeAll [ className =? "defcon.bin.x86" --> unfloat,
className =? "Darwinia" --> unfloat ]
<+> manageDocks
where unfloat = ask >>= doF . W.sink
Ignoring a client (or having it sticky)
You can have the position and geometry of a client window respected, and have that window be sticky, by ignoring it when it is created:
main = xmonad $ defaultConfig
{
....
, manageHook = manageHook defaultConfig
<+>
(className =? "XClock" --> doIgnore)
...
}
Would let xclock be sticky, and have its geometry respected.
Adding your own keybindings
This adds Mod-x keybinding for running xlock.
import qualified Data.Map as M
'''....'''
main = xmonad $ defaultConfig
{
'''....'''
, keys = \c -> mykeys c `M.union` keys defaultConfig c }
'''....'''
}
where
mykeys (XConfig {modMask = modm}) = M.fromList $
[ ((modm , xK_x), spawn "xlock") ]
For a list of the identifiers used for various keys, see [1].
This is also described in [2]
Adding your own mouse bindings
Adding your own mouse bindings is explained in [3]
If you have a mouse with more than 5 buttons you can simply use '6' instead of 'button6' which isn't defined.
e.g. with EZConfig:
,((0, 6), (\w -> focus w >> windows W.swapMaster))
Sharing a configuration across different hosts
It is possible to have different parts of the configuration file vary from one host to another, without needing a different config file for each host. Here is an example from my configuration file:
import System.Posix.Unistd
.
.
.
main = do
host <- fmap nodeName getSystemID
-- equivalent, and arguably more readable is
-- host <- getSystemID >>= return . nodeName
xmonad $ defaultConfig
{ terminal = "rxvt"
, modMask = (if host == "janice" then
mod1Mask .|. controlMask
else
mod4Mask)}
Binding keys to a specific layout
Sometimes people want to bind a key to a particular layout, rather than having to cycle through the available layouts:
You can do this using the JumpToLayout message from the XMonad.Layout.LayoutCombinators extension module. For example:
import XMonad hiding ( (|||) ) -- don't use the normal ||| operator
import XMonad.Layout.LayoutCombinators -- use the one from LayoutCombinators instead
import XMonad.Util.EZConfig -- add keybindings easily
main = xmonad myConfig
myConfig = defaultConfig {
...
layoutHook = tall ||| Mirror tall ||| Full
...
} `additionalKeysP`
[ ("M-<F1>", sendMessage $ JumpToLayout "Tall")
, ("M-<F2>", sendMessage $ JumpToLayout "Mirror Tall")
, ("M-<F3>", sendMessage $ JumpToLayout "Full")
]
tall = Tall 1 (3/100) (1/2)
Using local state in the config file
As the xmonad config file is really just the entry point to the entire program, you can do arbitrary IO effects before running xmonad. Including initialising mutable "global" state. That state could even be made persistent , independent of xmonad's built-in persistence (by writing it to a file on mod-q).
Here's an example where we store the layouts "IncMaster" value in a local mutable variable, so that we can provide a key binding that takes that value to compute an offset.
import XMonad
import XMonad.Util.EZConfig
import Data.IORef
import XMonad.Actions.FocusNth
main = do
offset <- newIORef 1
xmonad $ defaultConfig
`additionalKeys`
([ ((modMask defaultConfig, xK_comma ),
do io $ modifyIORef offset (\i -> max 0 (i-1))
sendMessage (IncMasterN (-1))
)
, ((modMask defaultConfig, xK_period ),
do io $ modifyIORef offset (+1)
sendMessage (IncMasterN 1)
) -- %! Expand the master area
] ++ [((modMask defaultConfig .|. shiftMask, k), do
n <- io $ readIORef offset
focusNth (i+n))
| (i, k) <- zip [0 .. 8] [xK_1 ..]]
)
Note IORef is allocated at startup.