{-# LANGUAGE FlexibleInstances, MultiParamTypeClasses #-} ----------------------------------------------------------------------------- -- | -- Module : XMonad.Layout.OnHost -- Copyright : (c) Brandon S Allbery, Brent Yorgey -- License : BSD-style (see LICENSE) -- -- Maintainer : -- Stability : unstable -- Portability : unportable -- -- Configure layouts on a per-host basis: use layouts and apply -- layout modifiers selectively, depending on the host. Heavily based on -- "XMonad.Layout.PerWorkspace" by Brent Yorgey. ----------------------------------------------------------------------------- module XMonad.Layout.OnHost (-- * Usage -- $usage OnHost ,onHost ,onHosts ,modHost ,modHosts ) where import XMonad import qualified XMonad.StackSet as W import XMonad.Layout.LayoutModifier import Data.Maybe (fromMaybe) import System.Posix.Env (getEnv) -- $usage -- You can use this module by importing it into your ~\/.xmonad\/xmonad.hs file: -- -- > import XMonad.Layout.OnHost -- -- and modifying your 'layoutHook' as follows (for example): -- -- > layoutHook = modHost "baz" m1 $ -- apply layout modifier m1 to all layouts on host "baz" -- > onHost "foo" l1 $ -- layout l1 will be used on host "foo". -- > onHosts ["bar","quux"] l2 $ -- layout l2 will be used on hosts "bar" and "quux". -- > l3 -- layout l3 will be used on all other hosts. -- -- Note that @l1@, @l2@, and @l3@ can be arbitrarily complicated -- layouts, e.g. @(Full ||| smartBorders $ tabbed shrinkText -- defaultTConf ||| ...)@, and @m1@ can be any layout modifier, i.e. a -- function of type @(l a -> ModifiedLayout lm l a)@. -- -- In another scenario, suppose you wanted to have layouts A, B, and C -- available on all hosts, except that on host foo you want -- layout D instead of C. You could do that as follows: -- -- > layoutHook = A ||| B ||| onHost "foo" D C -- -- Note that we rely on '$HOST' being set in the environment, as is true on most -- modern systems; if it's not, you may want to use a wrapper around xmonad or -- perhaps use 'System.Posix.Env.setEnv' (or 'putEnv') to set it in 'main'. -- This is to avoid dragging in the network package as an xmonad dependency. -- If '$HOST' is not defined, it will behave as if the host name never matches. -- -- Also note that '$HOST' is usually a fully qualified domain name, not a short name. -- If you use a short name, this code will try to truncate $HOST to match; this may -- prove too magical, though, and may change in the future. -- | Specify one layout to use on a particular host, and another -- to use on all others. The second layout can be another call to -- 'onHost', and so on. onHost :: (LayoutClass l1 a, LayoutClass l2 a) => String -- ^ the name of the host to match -> (l1 a) -- ^ layout to use on the matched host -> (l2 a) -- ^ layout to use everywhere else -> OnHost l1 l2 a onHost host = onHosts [host] -- | Specify one layout to use on a particular set of hosts, and -- another to use on all other hosts. onHosts :: (LayoutClass l1 a, LayoutClass l2 a) => [String] -- ^ names of hosts to match -> (l1 a) -- ^ layout to use on matched hosts -> (l2 a) -- ^ layout to use everywhere else -> OnHost l1 l2 a onHosts hosts l1 l2 = OnHost hosts False l1 l2 -- | Specify a layout modifier to apply on a particular host; layouts -- on all other hosts will remain unmodified. modHost :: (LayoutClass l a) => String -- ^ name of the host to match -> (l a -> ModifiedLayout lm l a) -- ^ the modifier to apply on the matching host -> l a -- ^ the base layout -> OnHost (ModifiedLayout lm l) l a modHost host = modHosts [host] -- | Specify a layout modifier to apply on a particular set of -- hosts; layouts on all other hosts will remain -- unmodified. modHosts :: (LayoutClass l a) => [String] -- ^ names of the hosts to match -> (l a -> ModifiedLayout lm l a) -- ^ the modifier to apply on the matching hosts -> l a -- ^ the base layout -> OnHost (ModifiedLayout lm l) l a modHosts hosts f l = OnHost hosts False (f l) l -- | Structure for representing a host-specific layout along with -- a layout for all other hosts. We store the names of hosts -- to be matched, and the two layouts. We save the layout choice in -- the Bool, to be used to implement description. data OnHost l1 l2 a = OnHost [String] Bool (l1 a) (l2 a) deriving (Read, Show) instance (LayoutClass l1 a, LayoutClass l2 a, Show a) => LayoutClass (OnHost l1 l2) a where runLayout (W.Workspace i p@(OnHost hosts _ lt lf) ms) r = do h <- io $ getEnv "HOST" if maybe False (`elemFQDN` hosts) h then do (wrs, mlt') <- runLayout (W.Workspace i lt ms) r return (wrs, Just $ mkNewOnHostT p mlt') else do (wrs, mlt') <- runLayout (W.Workspace i lf ms) r return (wrs, Just $ mkNewOnHostF p mlt') handleMessage (OnHost hosts bool lt lf) m | bool = handleMessage lt m >>= maybe (return Nothing) (\nt -> return . Just $ OnHost hosts bool nt lf) | otherwise = handleMessage lf m >>= maybe (return Nothing) (\nf -> return . Just $ OnHost hosts bool lt nf) description (OnHost _ True l1 _) = description l1 description (OnHost _ _ _ l2) = description l2 -- | Construct new OnHost values with possibly modified layouts. mkNewOnHostT :: OnHost l1 l2 a -> Maybe (l1 a) -> OnHost l1 l2 a mkNewOnHostT (OnHost hosts _ lt lf) mlt' = (\lt' -> OnHost hosts True lt' lf) $ fromMaybe lt mlt' mkNewOnHostF :: OnHost l1 l2 a -> Maybe (l2 a) -> OnHost l1 l2 a mkNewOnHostF (OnHost hosts _ lt lf) mlf' = (\lf' -> OnHost hosts False lt lf') $ fromMaybe lf mlf' -- | 'Data.List.elem' except that if one side has a dot and the other doesn't, we truncate -- the one that does at the dot. elemFQDN :: String -> [String] -> Bool elemFQDN _ [] = False elemFQDN h0 (h:hs) | h0 `eqFQDN` h = True | otherwise = elemFQDN h0 hs -- | String equality, possibly truncating one side at a dot. eqFQDN :: String -> String -> Bool eqFQDN a b | '.' `elem` a && '.' `elem` b = a == b | '.' `elem` a = takeWhile (/= '.') a == b | '.' `elem` b = a == takeWhile (/= '.') b | otherwise = a == b