Copyright | Quentin Moser <moserq@gmail.com> |
---|---|
License | BSD-style (see LICENSE) |
Maintainer | orphaned |
Stability | unstable |
Portability | unportable |
Safe Haskell | Safe-Inferred |
Language | Haskell2010 |
Example layouts for XMonad.Layout.Groups.
Synopsis
- rowOfColumns :: Groups (ModifiedLayout Rename (Mirror (ZoomRow ClassEQ))) (ZoomRow GroupEQ) Window
- zoomColumnIn :: X ()
- zoomColumnOut :: X ()
- zoomColumnReset :: X ()
- toggleColumnFull :: X ()
- zoomWindowIn :: X ()
- zoomWindowOut :: X ()
- zoomWindowReset :: X ()
- toggleWindowFull :: X ()
- tallTabs :: Shrinker s => TiledTabsConfig s -> ModifiedLayout Rename (ModifiedLayout (Decoration TabbedDecoration s) (Groups (ModifiedLayout Rename Simplest) (Choose (ModifiedLayout Rename Tall) (Choose (ModifiedLayout Rename (Mirror Tall)) Full)))) Window
- mirrorTallTabs :: Shrinker s => TiledTabsConfig s -> ModifiedLayout Rename (ModifiedLayout (Decoration TabbedDecoration s) (Groups (ModifiedLayout Rename Simplest) (Choose (ModifiedLayout Rename (Mirror Tall)) (Choose Full (ModifiedLayout Rename Tall))))) Window
- fullTabs :: Shrinker s => TiledTabsConfig s -> ModifiedLayout Rename (ModifiedLayout (Decoration TabbedDecoration s) (Groups (ModifiedLayout Rename Simplest) (Choose Full (Choose (ModifiedLayout Rename Tall) (ModifiedLayout Rename (Mirror Tall)))))) Window
- data TiledTabsConfig s = TTC {
- vNMaster :: Int
- vRatio :: Rational
- vIncrement :: Rational
- hNMaster :: Int
- hRatio :: Rational
- hIncrement :: Rational
- tabsShrinker :: s
- tabsTheme :: Theme
- def :: Default a => a
- increaseNMasterGroups :: X ()
- decreaseNMasterGroups :: X ()
- shrinkMasterGroups :: X ()
- expandMasterGroups :: X ()
- nextOuterLayout :: X ()
- module XMonad.Layout.Groups.Helpers
- shrinkText :: DefaultShrinker
- data GroupEQ a = GroupEQ
- zoomRowG :: (Eq a, Show a, Read a, Show (l a), Read (l a)) => ZoomRow GroupEQ (Group l a)
Usage
This module contains example 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.
Example: Row of columns
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 :: Groups (ModifiedLayout Rename (Mirror (ZoomRow ClassEQ))) (ZoomRow GroupEQ) Window Source #
zoomColumnIn :: X () Source #
Increase the width of the focused column
zoomColumnOut :: X () Source #
Decrease the width of the focused column
zoomColumnReset :: X () Source #
Reset the width of the focused column
toggleColumnFull :: X () Source #
Toggle whether the currently focused column should take up all available space whenever it has focus
zoomWindowIn :: X () Source #
Increase the heigth of the focused window
zoomWindowOut :: X () Source #
Decrease the height of the focused window
zoomWindowReset :: X () Source #
Reset the height of the focused window
toggleWindowFull :: X () Source #
Toggle whether the currently focused window should take up the whole column whenever it has focus
Example: Tiled tab groups
A layout which arranges windows into tabbed groups, and the groups
themselves according to XMonad's default algorithm
(
). As their names
indicate, Tall
||| Mirror
Tall
||| Full
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 def
:
myLayout = tallTabs def
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.
tallTabs :: Shrinker s => TiledTabsConfig s -> ModifiedLayout Rename (ModifiedLayout (Decoration TabbedDecoration s) (Groups (ModifiedLayout Rename Simplest) (Choose (ModifiedLayout Rename Tall) (Choose (ModifiedLayout Rename (Mirror Tall)) Full)))) Window Source #
mirrorTallTabs :: Shrinker s => TiledTabsConfig s -> ModifiedLayout Rename (ModifiedLayout (Decoration TabbedDecoration s) (Groups (ModifiedLayout Rename Simplest) (Choose (ModifiedLayout Rename (Mirror Tall)) (Choose Full (ModifiedLayout Rename Tall))))) Window Source #
fullTabs :: Shrinker s => TiledTabsConfig s -> ModifiedLayout Rename (ModifiedLayout (Decoration TabbedDecoration s) (Groups (ModifiedLayout Rename Simplest) (Choose Full (Choose (ModifiedLayout Rename Tall) (ModifiedLayout Rename (Mirror Tall)))))) Window Source #
data TiledTabsConfig s Source #
Configuration data for the "tiled tab groups" layout
TTC | |
|
Instances
s ~ DefaultShrinker => Default (TiledTabsConfig s) Source # | |
Defined in XMonad.Layout.Groups.Examples def :: TiledTabsConfig s # |
increaseNMasterGroups :: X () Source #
Increase the number of master groups by one
decreaseNMasterGroups :: X () Source #
Decrease the number of master groups by one
shrinkMasterGroups :: X () Source #
Shrink the master area
expandMasterGroups :: X () Source #
Expand the master area
nextOuterLayout :: X () Source #
Rotate the available outer layout algorithms
Useful re-exports and utils
module XMonad.Layout.Groups.Helpers