xmonad-contrib-0.18.0.9: Community-maintained extensions for xmonad
CopyrightClemens Fruhwirth <clemens@endorphin.org>
LicenseBSD-style (see LICENSE)
MaintainerClemens Fruhwirth <clemens@endorphin.org>
Stabilityunstable
Portabilityunportable
Safe HaskellSafe-Inferred
LanguageHaskell2010

XMonad.Actions.GridSelect

Description

GridSelect displays items(e.g. the opened windows) in a 2D grid and lets the user select from it with the cursor/hjkl keys or the mouse.

Synopsis

Usage

You can use this module with the following in your xmonad.hs:

   import XMonad.Actions.GridSelect

Then add a keybinding, e.g.

   , ((modm, xK_g), goToSelected def)

This module also supports displaying arbitrary information in a grid and letting the user select from it. E.g. to spawn an application from a given list, you can use the following:

  , ((modm, xK_s), spawnSelected def ["xterm","gmplayer","gvim"])

Customizing

Using a common GSConfig

It is possible to bind a gsconfig at top-level in your configuration. Like so:

-- the top of your config
{-# LANGUAGE NoMonomorphismRestriction #-}
import XMonad
...
gsconfig1 = def { gs_cellheight = 30, gs_cellwidth = 100 }

An example where buildDefaultGSConfig is used instead of def in order to specify a custom colorizer is gsconfig2 (found in XMonad.Actions.GridSelect):

gsconfig2 colorizer = (buildDefaultGSConfig colorizer) { gs_cellheight = 30, gs_cellwidth = 100 }
-- | A green monochrome colorizer based on window class
greenColorizer = colorRangeFromClassName
                     black            -- lowest inactive bg
                     (0x70,0xFF,0x70) -- highest inactive bg
                     black            -- active bg
                     white            -- inactive fg
                     white            -- active fg
  where black = minBound
        white = maxBound

Then you can bind to:

    ,((modm, xK_g), goToSelected $ gsconfig2 myWinColorizer)
    ,((modm, xK_p), spawnSelected (gsconfig2 defaultColorizer) ["xterm","gvim"])

Custom keybindings

You can build you own navigation mode and submodes by combining the exported action ingredients and assembling them using makeXEventhandler and shadowWithKeymap.

myNavigation :: TwoD a (Maybe a)
myNavigation = makeXEventhandler $ shadowWithKeymap navKeyMap navDefaultHandler
 where navKeyMap = M.fromList [
          ((0,xK_Escape), cancel)
         ,((0,xK_Return), select)
         ,((0,xK_slash) , substringSearch myNavigation)
         ,((0,xK_Left)  , move (-1,0)  >> myNavigation)
         ,((0,xK_h)     , move (-1,0)  >> myNavigation)
         ,((0,xK_Right) , move (1,0)   >> myNavigation)
         ,((0,xK_l)     , move (1,0)   >> myNavigation)
         ,((0,xK_Down)  , move (0,1)   >> myNavigation)
         ,((0,xK_j)     , move (0,1)   >> myNavigation)
         ,((0,xK_Up)    , move (0,-1)  >> myNavigation)
         ,((0,xK_y)     , move (-1,-1) >> myNavigation)
         ,((0,xK_i)     , move (1,-1)  >> myNavigation)
         ,((0,xK_n)     , move (-1,1)  >> myNavigation)
         ,((0,xK_m)     , move (1,-1)  >> myNavigation)
         ,((0,xK_space) , setPos (0,0) >> myNavigation)
         ]
       -- The navigation handler ignores unknown key symbols
       navDefaultHandler = const myNavigation

You can then define gsconfig3 which may be used in exactly the same manner as gsconfig1:

gsconfig3 = def
   { gs_cellheight = 30
   , gs_cellwidth = 100
   , gs_navigate = myNavigation
   }

Configuration

data GSConfig a Source #

The Default instance gives a basic configuration for gridselect, with the colorizer chosen based on the type.

If you want to replace the gs_colorizer field, use buildDefaultGSConfig instead of def to avoid ambiguous type variables.

Constructors

GSConfig 

Fields

Instances

Instances details
HasColorizer a => Default (GSConfig a) Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

def :: GSConfig a #

def :: Default a => a #

The default value for this type.

type TwoDPosition = (Integer, Integer) Source #

buildDefaultGSConfig :: (a -> Bool -> X (String, String)) -> GSConfig a Source #

Builds a default gs config from a colorizer function.

Variations on gridselect

gridselect :: GSConfig a -> [(String, a)] -> X (Maybe a) Source #

Brings up a 2D grid of elements in the center of the screen, and one can select an element with cursors keys. The selected element is returned.

gridselectWindow :: GSConfig Window -> X (Maybe Window) Source #

Like gridSelect but with the current windows and their titles as elements

withSelectedWindow :: (Window -> X ()) -> GSConfig Window -> X () Source #

Brings up a 2D grid of windows in the center of the screen, and one can select a window with cursors keys. The selected window is then passed to a callback function.

bringSelected :: GSConfig Window -> X () Source #

Brings selected window to the current workspace.

goToSelected :: GSConfig Window -> X () Source #

Switches to selected window's workspace and focuses that window.

gridselectWorkspace :: GSConfig WorkspaceId -> (WorkspaceId -> WindowSet -> WindowSet) -> X () Source #

Select a workspace and view it using the given function (normally view or greedyView)

Another option is to shift the current window to the selected workspace:

gridselectWorkspace (\ws -> W.greedyView ws . W.shift ws)

gridselectWorkspace' :: GSConfig WorkspaceId -> (WorkspaceId -> X ()) -> X () Source #

Select a workspace and run an arbitrary action on it.

spawnSelected :: GSConfig String -> [String] -> X () Source #

Select an application to spawn from a given list

runSelectedAction :: GSConfig (X ()) -> [(String, X ())] -> X () Source #

Select an action and run it in the X monad

Colorizers

class HasColorizer a where Source #

That is fromClassName if you are selecting a Window, or defaultColorizer if you are selecting a String. The catch-all instance HasColorizer a uses the focusedBorderColor and normalBorderColor colors.

Methods

defaultColorizer :: a -> Bool -> X (String, String) Source #

Instances

Instances details
HasColorizer Window Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

defaultColorizer :: Window -> Bool -> X (String, String) Source #

HasColorizer String Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

defaultColorizer :: String -> Bool -> X (String, String) Source #

HasColorizer a Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

defaultColorizer :: a -> Bool -> X (String, String) Source #

fromClassName :: Window -> Bool -> X (String, String) Source #

Colorize a window depending on it's className.

stringColorizer :: String -> Bool -> X (String, String) Source #

Default colorizer for Strings

colorRangeFromClassName Source #

Arguments

:: (Word8, Word8, Word8)

Beginning of the color range

-> (Word8, Word8, Word8)

End of the color range

-> (Word8, Word8, Word8)

Background of the active window

-> (Word8, Word8, Word8)

Inactive text color

-> (Word8, Word8, Word8)

Active text color

-> Window 
-> Bool 
-> X (String, String) 

A colorizer that picks a color inside a range, and depending on the window's class.

stringToRatio :: String -> Double Source #

Generates a Double from a string, trying to achieve a random distribution. We create a random seed from the hash of all characters in the string, and use it to generate a ratio between 0 and 1

Navigation Mode assembly

data TwoD a b Source #

Instances

Instances details
Applicative (TwoD a) Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

pure :: a0 -> TwoD a a0 #

(<*>) :: TwoD a (a0 -> b) -> TwoD a a0 -> TwoD a b #

liftA2 :: (a0 -> b -> c) -> TwoD a a0 -> TwoD a b -> TwoD a c #

(*>) :: TwoD a a0 -> TwoD a b -> TwoD a b #

(<*) :: TwoD a a0 -> TwoD a b -> TwoD a a0 #

Functor (TwoD a) Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

fmap :: (a0 -> b) -> TwoD a a0 -> TwoD a b #

(<$) :: a0 -> TwoD a b -> TwoD a a0 #

Monad (TwoD a) Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

(>>=) :: TwoD a a0 -> (a0 -> TwoD a b) -> TwoD a b #

(>>) :: TwoD a a0 -> TwoD a b -> TwoD a b #

return :: a0 -> TwoD a a0 #

MonadState (TwoDState a) (TwoD a) Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

get :: TwoD a (TwoDState a) #

put :: TwoDState a -> TwoD a () #

state :: (TwoDState a -> (a0, TwoDState a)) -> TwoD a a0 #

makeXEventhandler :: ((KeySym, String, KeyMask) -> TwoD a (Maybe a)) -> TwoD a (Maybe a) Source #

Embeds a key handler into the X event handler that dispatches key events to the key handler, while non-key event go to the standard handler.

shadowWithKeymap :: Map (KeyMask, KeySym) a -> ((KeySym, String, KeyMask) -> a) -> (KeySym, String, KeyMask) -> a Source #

When the map contains (KeySym,KeyMask) tuple for the given event, the associated action in the map associated shadows the default key handler

Built-in Navigation Mode

defaultNavigation :: TwoD a (Maybe a) Source #

By default gridselect used the defaultNavigation action, which binds left,right,up,down and vi-style h,l,j,k navigation. Return quits gridselect, returning the selected element, while Escape cancels the selection. Slash enters the substring search mode. In substring search mode, every string-associated keystroke is added to a search string, which narrows down the object selection. Substring search mode comes back to regular navigation via Return, while Escape cancels the search. If you want that navigation style, add defaultNavigation as gs_navigate to your GSConfig object. This is done by buildDefaultGSConfig automatically.

substringSearch :: TwoD a (Maybe a) -> TwoD a (Maybe a) Source #

Navigation submode used for substring search. It returns to the first argument navigation style when the user hits Return.

navNSearch :: TwoD a (Maybe a) Source #

This navigation style combines navigation and search into one mode at the cost of losing vi style navigation. With this style, there is no substring search submode, but every typed character is added to the substring search.

Navigation Components

setPos :: (Integer, Integer) -> TwoD a () Source #

Sets the absolute position of the cursor.

move :: (Integer, Integer) -> TwoD a () Source #

Moves the cursor by the offsets specified

moveNext :: TwoD a () Source #

movePrev :: TwoD a () Source #

select :: TwoD a (Maybe a) Source #

Closes gridselect returning the element under the cursor

cancel :: TwoD a (Maybe a) Source #

Closes gridselect returning no element.

transformSearchString :: (String -> String) -> TwoD a () Source #

Apply a transformation function the current search string

Rearrangers

Rearrangers allow for arbitrary post-filter rearranging of the grid elements.

For example, to be able to switch to a new dynamic workspace by typing in its name, you can use the following keybinding action:

import XMonad.Actions.DynamicWorkspaces (addWorkspace)

gridselectWorkspace' def
                         { gs_navigate   = navNSearch
                         , gs_rearranger = searchStringRearrangerGenerator id
                         }
                     addWorkspace

type Rearranger a = String -> [(String, a)] -> X [(String, a)] Source #

A function taking the search string and a list of elements, and returning a potentially rearranged list of elements.

noRearranger :: Rearranger a Source #

A rearranger that leaves the elements unmodified.

searchStringRearrangerGenerator :: (String -> a) -> Rearranger a Source #

A generator for rearrangers that append a single element based on the search string, if doing so would not be redundant (empty string or value already present).

Screenshots

Selecting a workspace:

Selecting a window by title:

Types

data TwoDState a Source #

Instances

Instances details
MonadState (TwoDState a) (TwoD a) Source # 
Instance details

Defined in XMonad.Actions.GridSelect

Methods

get :: TwoD a (TwoDState a) #

put :: TwoDState a -> TwoD a () #

state :: (TwoDState a -> (a0, TwoDState a)) -> TwoD a a0 #