{-# LANGUAGE InstanceSigs #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE ScopedTypeVariables #-} ----------------------------------------------------------------------------- -- | -- Module : XMonad.Util.Run -- Description : Several commands, as well as an EDSL, to run external processes. -- Copyright : (C) 2007 Spencer Janssen, Andrea Rossato, glasser@mit.edu -- 2022 Tony Zorman -- License : BSD-style (see LICENSE) -- -- Maintainer : Tony Zorman -- Stability : unstable -- Portability : unportable -- -- This module provides several commands to run an external process. -- Additionally, it provides an abstraction—particularly geared towards -- programs like terminals or Emacs—to specify these processes from -- XMonad in a compositional way. -- -- Originally, this module was composed of functions formerly defined in -- "XMonad.Util.Dmenu" (by Spencer Janssen), "XMonad.Util.Dzen" (by -- glasser\@mit.edu) and @XMonad.Util.RunInXTerm@ (by Andrea Rossato). ----------------------------------------------------------------------------- module XMonad.Util.Run ( -- * Usage -- $usage runProcessWithInput, runProcessWithInputAndWait, safeSpawn, safeSpawnProg, unsafeSpawn, runInTerm, safeRunInTerm, seconds, spawnPipe, spawnPipeWithLocaleEncoding, spawnPipeWithUtf8Encoding, spawnPipeWithNoEncoding, -- * Compositionally Spawning Processes #EDSL# -- $EDSL -- ** Configuration and Running ProcessConfig (..), Input, spawnExternalProcess, proc, getInput, toInput, -- ** Programs inEditor, inTerm, termInDir, inProgram, -- ** General Combinators (>->), (>-$), (>&&>), (>||>), inWorkingDir, eval, execute, executeNoQuote, setXClass, asString, -- ** Emacs Integration EmacsLib (..), setFrameName, withEmacsLibs, inEmacs, elispFun, asBatch, require, progn, quote, findFile, list, saveExcursion, -- * Re-exports hPutStr, hPutStrLn, ) where import XMonad import XMonad.Prelude import qualified XMonad.Util.ExtensibleConf as XC import Codec.Binary.UTF8.String (encodeString) import Control.Concurrent (threadDelay) import System.Directory (getDirectoryContents) import System.IO import System.Posix.IO import System.Posix.Process (createSession, executeFile, forkProcess) import System.Process (runInteractiveProcess) {- $usage You can use this module by importing it in your @xmonad.hs@ > import XMonad.Util.Run It then all depends on what you want to do: - If you want to compositionally spawn programs, see [the relevant extended documentation](#g:EDSL). - For an example usage of 'runInTerm' see "XMonad.Prompt.Ssh". - For an example usage of 'runProcessWithInput' see "XMonad.Util.Dmenu", or "XMonad.Prompt.Shell". - For an example usage of 'runProcessWithInputAndWait' see "XMonad.Util.Dzen". -} -- | Returns the output. runProcessWithInput :: MonadIO m => FilePath -> [String] -> String -> m String runProcessWithInput cmd args input = io $ do (pin, pout, perr, _) <- runInteractiveProcess (encodeString cmd) (map encodeString args) Nothing Nothing hPutStr pin input hClose pin output <- hGetContents pout when (output == output) $ return () hClose pout hClose perr -- no need to waitForProcess, we ignore SIGCHLD return output -- | Wait is in μ (microseconds) runProcessWithInputAndWait :: MonadIO m => FilePath -> [String] -> String -> Int -> m () runProcessWithInputAndWait cmd args input timeout = io $ do _ <- xfork $ do (pin, pout, perr, _) <- runInteractiveProcess (encodeString cmd) (map encodeString args) Nothing Nothing hPutStr pin input hFlush pin threadDelay timeout hClose pin hClose pout hClose perr -- no need to waitForProcess, we ignore SIGCHLD return () return () -- | Multiplies by ONE MILLION, for functions that take microseconds. -- -- Use like: -- -- > (5.5 `seconds`) -- -- In GHC 7 and later, you must either enable the PostfixOperators extension -- (by adding -- -- > {-# LANGUAGE PostfixOperators #-} -- -- to the top of your file) or use seconds in prefix form: -- -- > seconds 5.5 seconds :: Rational -> Int seconds = fromEnum . (* 1000000) {- | 'safeSpawn' bypasses 'spawn', because spawn passes strings to \/bin\/sh to be interpreted as shell commands. This is often what one wants, but in many cases the passed string will contain shell metacharacters which one does not want interpreted as such (URLs particularly often have shell metacharacters like \'&\' in them). In this case, it is more useful to specify a file or program to be run and a string to give it as an argument so as to bypass the shell and be certain the program will receive the string as you typed it. Examples: > , ((modm, xK_Print), unsafeSpawn "import -window root $HOME/xwd-$(date +%s)$$.png") > , ((modm, xK_d ), safeSpawn "firefox" []) Note that the unsafeSpawn example must be unsafe and not safe because it makes use of shell interpretation by relying on @$HOME@ and interpolation, whereas the safeSpawn example can be safe because Firefox doesn't need any arguments if it is just being started. -} safeSpawn :: MonadIO m => FilePath -> [String] -> m () safeSpawn prog args = io $ void_ $ forkProcess $ do uninstallSignalHandlers _ <- createSession executeFile (encodeString prog) True (map encodeString args) Nothing where void_ = (>> return ()) -- TODO: replace with Control.Monad.void / void not in ghc6 apparently -- | Simplified 'safeSpawn'; only takes a program (and no arguments): -- -- > , ((modm, xK_d ), safeSpawnProg "firefox") safeSpawnProg :: MonadIO m => FilePath -> m () safeSpawnProg = flip safeSpawn [] -- | An alias for 'spawn'; the name emphasizes that one is calling out to a -- Turing-complete interpreter which may do things one dislikes; for details, see 'safeSpawn'. unsafeSpawn :: MonadIO m => String -> m () unsafeSpawn = spawn -- | Open a terminal emulator. The terminal emulator is specified in the default configuration as xterm by default. It is then -- asked to pass the shell a command with certain options. This is unsafe in the sense of 'unsafeSpawn' unsafeRunInTerm, runInTerm :: String -> String -> X () unsafeRunInTerm options command = asks (terminal . config) >>= \t -> unsafeSpawn $ t ++ " " ++ options ++ " -e " ++ command runInTerm = unsafeRunInTerm -- | Run a given program in the preferred terminal emulator; see 'runInTerm'. This makes use of 'safeSpawn'. safeRunInTerm :: String -> String -> X () safeRunInTerm options command = asks (terminal . config) >>= \t -> safeSpawn t [options, " -e " ++ command] -- | Launch an external application through the system shell and -- return a 'Handle' to its standard input. Note that the 'Handle' -- is a text 'Handle' using the current locale encoding. spawnPipe :: MonadIO m => String -> m Handle spawnPipe = spawnPipeWithLocaleEncoding -- | Same as 'spawnPipe'. spawnPipeWithLocaleEncoding :: MonadIO m => String -> m Handle spawnPipeWithLocaleEncoding = spawnPipe' localeEncoding -- | Same as 'spawnPipe', but forces the UTF-8 encoding regardless of locale. spawnPipeWithUtf8Encoding :: MonadIO m => String -> m Handle spawnPipeWithUtf8Encoding = spawnPipe' utf8 -- | Same as 'spawnPipe', but forces the 'char8' encoding, so unicode strings -- need 'Codec.Binary.UTF8.String.encodeString'. Should never be needed, but -- some X functions return already encoded Strings, so it may possibly be -- useful for someone. spawnPipeWithNoEncoding :: MonadIO m => String -> m Handle spawnPipeWithNoEncoding = spawnPipe' char8 spawnPipe' :: MonadIO m => TextEncoding -> String -> m Handle spawnPipe' encoding x = io $ do (rd, wr) <- createPipe setFdOption wr CloseOnExec True h <- fdToHandle wr hSetEncoding h encoding hSetBuffering h LineBuffering _ <- xfork $ do _ <- dupTo rd stdInput executeFile "/bin/sh" False ["-c", encodeString x] Nothing closeFd rd return h {- $EDSL To use the provided EDSL, you must first add the 'spawnExternalProcess' combinator to your xmonad configuration, like so: > main = xmonad $ … $ spawnExternalProcess def $ … $ def See 'ProcessConfig' for a list of all default configuration options, in case you'd like to change them—especially if you want to make use of the Emacs integration. After that, the real fun begins! The format for spawning these processes is always the same: a call to 'proc', its argument being a bunch of function calls, separated by the pipe operator '(>->)'. You can just bind the resulting function to a key; no additional plumbing required. For example, using "XMonad.Util.EZConfig" syntax and with @terminal = "alacritty"@ in you XMonad configuration, spawning a @ghci@ session with a special class name, "calculator", would look like > ("M-y", proc $ inTerm >-> setXClass "calculator" >-> execute "ghci") which would translate, more or less, to @\/usr\/bin\/sh -c "alacritty --class calculator -e ghci"@. The usefulness of this notation becomes apparent with more complicated examples: > proc $ inEmacs > >-> withEmacsLibs [OwnFile "mailboxes"] > >-> execute (elispFun "notmuch") > >-> setFrameName "mail" This is equivalent to spawning > emacs -l /home/slot/.config/emacs/lisp/mailboxes.el > -e '(notmuch)' > -F '(quote (name . "mail"))' Notice how we did not have to specify the whole path to @mailboxes.el@, since we had set the correct 'emacsLispDir' upon starting xmonad. This becomes especially relevant when running Emacs in batch mode, where one has to include [M,Non-GNU]ELPA packages in the call, whose exact names may change at any time. Then the following > do url <- getSelection -- from XMonad.Util.XSelection > proc $ inEmacs > >-> withEmacsLibs [ElpaLib "dash", ElpaLib "s", OwnFile "arXiv-citation"] > >-> asBatch > >-> execute (elispFun $ "arXiv-citation" <> asString url) becomes > emacs -L /home/slot/.config/emacs/elpa/dash-20220417.2250 > -L /home/slot/.config/emacs/elpa/s-20210616.619 > -l /home/slot/.config/emacs/lisp/arXiv-citation.el > --batch > -e '(arXiv-citation "")' which would be quite bothersome to type indeed! A blog post going into some more detail and also explaining how to integrate this new language with the "XMonad.Util.NamedScratchpad" module is available . -} ----------------------------------------------------------------------- -- Types and whatnot -- | Additional information that might be useful when spawning external -- programs. data ProcessConfig = ProcessConfig { editor :: !String -- ^ Default editor. Defaults to @"emacsclient -c -a ''"@. , emacsLispDir :: !FilePath -- ^ Directory for your custom Emacs lisp files. Probably -- @user-emacs-directory@ or @user-emacs-directory/lisp@. Defaults -- to @"~\/.config\/emacs\/lisp\/"@ , emacsElpaDir :: !FilePath -- ^ Directory for all packages from [M,Non-GNU]ELPA; probably -- @user-emacs-directory/elpa@. Defaults to -- @"~\/.config\/emacs\/elpa"@. , emacs :: !String -- ^ /Standalone/ Emacs executable; this should not be @emacsclient@ -- since, for example, the client does not support @--batch@ mode. -- Defaults to @"emacs"@. } -- | Given a 'ProcessConfig', remember it for spawning external -- processes later on. spawnExternalProcess :: ProcessConfig -> XConfig l -> XConfig l spawnExternalProcess = XC.modifyDef . const instance Default ProcessConfig where def :: ProcessConfig def = ProcessConfig { editor = "emacsclient -c -a ''" , emacsLispDir = "~/.config/emacs/lisp/" , emacsElpaDir = "~/.config/emacs/elpa/" , emacs = "emacs" } -- | Convenient type alias. type Input = ShowS ----------------------------------------------------------------------- -- Combinators -- | Combine inputs together. (>->) :: X Input -> X Input -> X Input (>->) = (<>) infixr 3 >-> -- | Combine an input with an ordinary string. (>-$) :: X Input -> X String -> X Input (>-$) xi xs = xi >-> fmap mkDList xs infixr 3 >-$ -- | @a >&&> b@ glues the different inputs @a@ and @b@ by means of @&&@. -- For example, -- -- @ -- pure "do something" >&&> pure "do another thing" -- @ -- -- would result in @do something && do another thing@ being executed by a -- shell. (>&&>) :: X Input -> X Input -> X Input a >&&> b = a <> toInput " && " <> b infixr 2 >&&> -- | Like '(>&&>)', but with @||@. (>||>) :: X Input -> X Input -> X Input a >||> b = a <> toInput " || " <> b infixr 2 >||> -- | Spawn a completed input. proc :: X Input -> X () proc xi = spawn =<< getInput xi -- | Create an effectful 'Input' from a 'String'. toInput :: String -> X Input toInput = pure . mkDList -- | Get the completed input string. getInput :: X Input -> X String getInput xi = xi <&> ($ "") -- | Use the 'editor'. inEditor :: X Input inEditor = XC.withDef $ \ProcessConfig{editor} -> pure $ mkDList editor -- | Use the 'XMonad.Core.XConfig.terminal'. inTerm :: X Input inTerm = asks $ mkDList . terminal . config -- | Execute the argument. Current /thing/ must support a @-e@ option. -- For programs such as Emacs, 'eval' may be the safer option; while -- @emacsclient@ supports @-e@, the @emacs@ executable itself does not. -- -- Note that this function always wraps its argument in single quotes; -- see 'executeNoQuote' for an alternative. execute :: String -> X Input execute this = pure ((" -e " <> tryQuote this) <>) -- | Like 'execute', but doesn't wrap its argument in single quotes. executeNoQuote :: String -> X Input executeNoQuote this = pure ((" -e " <> this) <>) -- | Eval(uate) the argument. Current /thing/ must support a @--eval@ -- option. eval :: String -> X Input eval this = pure ((" --eval " <> tryQuote this) <>) -- | Use 'emacs'. inEmacs :: X Input inEmacs = XC.withDef $ \ProcessConfig{emacs} -> pure $ mkDList emacs -- | Use the given program. inProgram :: String -> X Input inProgram = pure . mkDList -- | Spawn /thing/ in the current working directory. /thing/ must -- support a @--working-directory@ option. inWorkingDir :: X Input inWorkingDir = pure (" --working-directory " <>) -- | Set a frame name for the @emacsclient@. -- -- Note that this uses the @-F@ option to set the -- -- alist, which the @emacs@ executable does not support. setFrameName :: String -> X Input setFrameName n = pure ((" -F '(quote (name . \"" <> n <> "\"))' ") <>) -- | Set the appropriate X class for a window. This will more often -- than not actually be the -- . setXClass :: String -> X Input setXClass = pure . mkDList . (" --class " <>) -- | Spawn the 'XMonad.Core.XConfig.terminal' in some directory; it must -- support the @--working-directory@ option. termInDir :: X Input termInDir = inTerm >-> inWorkingDir ----------------------------------------------------------------------- -- Emacs -- | Transform the given input into an elisp function; i.e., surround it -- with parentheses. -- -- >>> elispFun "arxiv-citation URL" -- " '( arxiv-citation URL )' " elispFun :: String -> String elispFun f = " '( " <> f <> " )' " -- | Treat an argument as a string; i.e., wrap it with quotes. -- -- >>> asString "string" -- " \"string\" " asString :: String -> String asString s = " \"" <> s <> "\" " -- | Wrap the given commands in a @progn@. The given commands need not -- be wrapped in parentheses (but can); this will be done by the -- function. For example: -- -- >>> progn [require "this-lib", "function-from-this-lib arg", "(other-function arg2)"] -- "(progn (require (quote this-lib)) (function-from-this-lib arg) (other-function arg2))" progn :: [String] -> String progn = inParens . ("progn " <>) . unwords . map inParens -- | Require a package. -- -- >>> require "arxiv-citation" -- "(require (quote arxiv-citation))" require :: String -> String require = inParens . ("require " <>) . quote -- | Quote a symbol. -- -- >>> quote "new-process" -- "(quote new-process)" quote :: String -> String quote = inParens . ("quote " <>) -- | Call @find-file@. -- -- >>> findFile "/path/to/file" -- "(find-file \"/path/to/file\" )" findFile :: String -> String findFile = inParens . ("find-file" <>) . asString -- | Make a list of the given inputs. -- -- >>> list ["foo", "bar", "baz", "qux"] -- "(list foo bar baz qux)" list :: [String] -> String list = inParens . ("list " <>) . unwords -- | Like 'progn', but with @save-excursion@. -- -- >>> saveExcursion [require "this-lib", "function-from-this-lib arg", "(other-function arg2)"] -- "(save-excursion (require (quote this-lib)) (function-from-this-lib arg) (other-function arg2))" saveExcursion :: [String] -> String saveExcursion = inParens . ("save-excursion " <>) . unwords . map inParens ----------------------------------------------------------------------- -- Batch mode -- | Tell Emacs to enable batch-mode. asBatch :: X Input asBatch = pure (" --batch " <>) -- | An Emacs library. data EmacsLib = OwnFile !String -- ^ A /file/ from 'emacsLispDir'. | ElpaLib !String -- ^ A /directory/ in 'emacsElpaDir'. | Special !String -- ^ Special /files/; these will not be looked up somewhere, but -- forwarded verbatim (as a path). -- | Load some Emacs libraries. This is useful when executing scripts -- in batch mode. withEmacsLibs :: [EmacsLib] -> X Input withEmacsLibs libs = XC.withDef $ \ProcessConfig{emacsLispDir, emacsElpaDir} -> do lispDir <- mkAbsolutePath emacsLispDir elpaDir <- mkAbsolutePath emacsElpaDir lisp <- liftIO $ getDirectoryContents lispDir elpa <- liftIO $ getDirectoryContents elpaDir let getLib :: EmacsLib -> Maybe String = \case OwnFile f -> (("-l " <> lispDir) <>) <$> find (f `isPrefixOf`) lisp ElpaLib d -> (("-L " <> elpaDir) <>) <$> find ((d <> "-") `isPrefixOf`) elpa Special f -> Just $ " -l " <> f pure . mkDList . unwords . mapMaybe getLib $ libs ----------------------------------------------------------------------- -- Util mkDList :: String -> ShowS mkDList = (<>) . (<> " ") inParens :: String -> String inParens s = case s of '(' : _ -> s _ -> "(" <> s <> ")" tryQuote :: String -> String tryQuote s = case dropWhile (== ' ') s of '\'' : _ -> s _ -> "'" <> s <> "'"