{-# LANGUAGE DeriveDataTypeable #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Actions.DynamicWorkspaceOrder
-- Copyright : (c) Brent Yorgey 2009
-- License : BSD-style (see LICENSE)
--
-- Maintainer : <byorgey@gmail.com>
-- Stability : experimental
-- Portability : unportable
--
-- Remember a dynamically updateable ordering on workspaces, together
-- with tools for using this ordering with "XMonad.Actions.CycleWS"
-- and "XMonad.Hooks.DynamicLog".
--
-----------------------------------------------------------------------------
module XMonad.Actions.DynamicWorkspaceOrder
( -- * Usage
-- $usage
getWsCompareByOrder
, getSortByOrder
, swapWith
, moveTo
, moveToGreedy
, shiftTo
) where
import XMonad
import qualified XMonad.StackSet as W
import qualified XMonad.Util.ExtensibleState as XS
import XMonad.Util.WorkspaceCompare (WorkspaceCompare, WorkspaceSort, mkWsSort)
import XMonad.Actions.CycleWS (findWorkspace, WSType(..), Direction1D(..), doTo)
import qualified Data.Map as M
import qualified Data.Set as S
import Data.Maybe (fromJust, fromMaybe)
import Data.Ord (comparing)
-- $usage
-- You can use this module by importing it into your ~\/.xmonad\/xmonad.hs file:
--
-- > import qualified XMonad.Actions.DynamicWorkspaceOrder as DO
--
-- Then add keybindings to swap the order of workspaces (these
-- examples use "XMonad.Util.EZConfig" emacs-style keybindings):
--
-- > , ("M-C-<R>", DO.swapWith Next NonEmptyWS)
-- > , ("M-C-<L>", DO.swapWith Prev NonEmptyWS)
--
-- See "XMonad.Actions.CycleWS" for information on the possible
-- arguments to 'swapWith'.
--
-- However, by itself this will do nothing; 'swapWith' does not change
-- the actual workspaces in any way. It simply keeps track of an
-- auxiliary ordering on workspaces. Anything which cares about the
-- order of workspaces must be updated to use the auxiliary ordering.
--
-- To change the order in which workspaces are displayed by
-- "XMonad.Hooks.DynamicLog", use 'getSortByOrder' in your
-- 'XMonad.Hooks.DynamicLog.ppSort' field, for example:
--
-- > ... dynamicLogWithPP $ byorgeyPP {
-- > ...
-- > , ppSort = DO.getSortByOrder
-- > ...
-- > }
--
-- To use workspace cycling commands like those from
-- "XMonad.Actions.CycleWS", use the versions of 'moveTo',
-- 'moveToGreedy', and 'shiftTo' exported by this module. For example:
--
-- > , ("M-S-<R>", DO.shiftTo Next HiddenNonEmptyWS)
-- > , ("M-S-<L>", DO.shiftTo Prev HiddenNonEmptyWS)
-- > , ("M-<R>", DO.moveTo Next HiddenNonEmptyWS)
-- > , ("M-<L>", DO.moveTo Prev HiddenNonEmptyWS)
--
-- For slight variations on these, use the source for examples and
-- tweak as desired.
-- | Extensible state storage for the workspace order.
data WSOrderStorage = WSO { unWSO :: Maybe (M.Map WorkspaceId Int) }
deriving (Typeable, Read, Show)
instance ExtensionClass WSOrderStorage where
initialValue = WSO Nothing
extensionType = PersistentExtension
-- | Lift a Map function to a function on WSOrderStorage.
withWSO :: (M.Map WorkspaceId Int -> M.Map WorkspaceId Int)
-> (WSOrderStorage -> WSOrderStorage)
withWSO f = WSO . fmap f . unWSO
-- | Update the ordering storage: initialize if it doesn't yet exist;
-- add newly created workspaces at the end as necessary.
updateOrder :: X ()
updateOrder = do
WSO mm <- XS.get
case mm of
Nothing -> do
-- initialize using ordering of workspaces from the user's config
ws <- asks (workspaces . config)
XS.put . WSO . Just . M.fromList $ zip ws [0..]
Just m -> do
-- check for new workspaces and add them at the end
curWs <- gets (S.fromList . map W.tag . W.workspaces . windowset)
let mappedWs = M.keysSet m
newWs = curWs `S.difference` mappedWs
nextIndex = 1 + maximum (-1 : M.elems m)
newWsIxs = zip (S.toAscList newWs) [nextIndex..]
XS.modify . withWSO . M.union . M.fromList $ newWsIxs
-- | A comparison function which orders workspaces according to the
-- stored dynamic ordering.
getWsCompareByOrder :: X WorkspaceCompare
getWsCompareByOrder = do
updateOrder
-- after the call to updateOrder we are guaranteed that the dynamic
-- workspace order is initialized and contains all existing
-- workspaces.
WSO (Just m) <- XS.get
return $ comparing (fromMaybe 1000 . flip M.lookup m)
-- | Sort workspaces according to the stored dynamic ordering.
getSortByOrder :: X WorkspaceSort
getSortByOrder = mkWsSort getWsCompareByOrder
-- | Swap the current workspace with another workspace in the stored
-- dynamic order.
swapWith :: Direction1D -> WSType -> X ()
swapWith dir which = findWorkspace getSortByOrder dir which 1 >>= swapWithCurrent
-- | Swap the given workspace with the current one.
swapWithCurrent :: WorkspaceId -> X ()
swapWithCurrent w = do
cur <- gets (W.currentTag . windowset)
swapOrder w cur
-- | Swap the two given workspaces in the dynamic order.
swapOrder :: WorkspaceId -> WorkspaceId -> X ()
swapOrder w1 w2 = do
io $ print (w1,w2)
WSO (Just m) <- XS.get
let [i1,i2] = map (fromJust . flip M.lookup m) [w1,w2]
XS.modify (withWSO (M.insert w1 i2 . M.insert w2 i1))
windows id -- force a status bar update
-- | View the next workspace of the given type in the given direction,
-- where \"next\" is determined using the dynamic workspace order.
moveTo :: Direction1D -> WSType -> X ()
moveTo dir t = doTo dir t getSortByOrder (windows . W.view)
-- | Same as 'moveTo', but using 'greedyView' instead of 'view'.
moveToGreedy :: Direction1D -> WSType -> X ()
moveToGreedy dir t = doTo dir t getSortByOrder (windows . W.greedyView)
-- | Shift the currently focused window to the next workspace of the
-- given type in the given direction, using the dynamic workspace order.
shiftTo :: Direction1D -> WSType -> X ()
shiftTo dir t = doTo dir t getSortByOrder (windows . W.shift)