{-# LANGUAGE FlexibleContexts #-} {-# OPTIONS_GHC -fno-warn-orphans #-} ----------------------------------------------------------------------------- -- | -- Module : Xmobar.Parsers -- Copyright : (c) Andrea Rossato -- License : BSD-style (see LICENSE) -- -- Maintainer : Andrea Rossato -- Stability : unstable -- Portability : unportable -- -- Parsers needed for Xmobar, a text based status bar -- ----------------------------------------------------------------------------- module Parsers ( parseString , parseTemplate , parseConfig ) where import Config import Commands import Runnable import Text.ParserCombinators.Parsec hiding ((<|>)) import qualified Text.ParserCombinators.Parsec as Parsec import qualified Data.Map as Map import Data.Foldable (sequenceA_) import Data.List (find,inits,tails) import Control.Applicative.Permutation (optAtom, runPermsSep) import Control.Applicative hiding (many) import Control.Monad.Writer import Data.Either -- | Runs the string parser parseString :: Config -> String -> IO [(String, String)] parseString c s = case parse (stringParser (fgColor c)) "" s of Left _ -> return [("Could not parse string: " ++ s, fgColor c)] Right x -> return (concat x) -- | Gets the string and combines the needed parsers stringParser :: String -> Parser [[(String, String)]] stringParser c = manyTill (textParser c <|> colorParser) eof -- | Parses a maximal string without color markup. textParser :: String -> Parser [(String, String)] textParser c = do s <- many1 $ noneOf "<" <|> ( try $ notFollowedBy' (char '<') (string "fc=" <|> string "/fc>" ) ) return [(s, c)] -- | Wrapper for notFollowedBy that returns the result of the first parser. -- Also works around the issue that, at least in Parsec 3.0.0, notFollowedBy -- accepts only parsers with return type Char. notFollowedBy' :: Parser a -> Parser b -> Parser a notFollowedBy' p e = do x <- p notFollowedBy (e >> return '*') return x -- | Parsers a string wrapped in a color specification. colorParser :: Parser [(String, String)] colorParser = do c <- between (string "") colors s <- manyTill (textParser c <|> colorParser) (try $ string "") return (concat s) -- | Parses a color specification (hex or named) colors :: Parser String colors = many1 (alphaNum <|> char ',' <|> char '#') -- | Parses the output template string templateStringParser :: Config -> Parser (String,String,String) templateStringParser c = do s <- allTillSep c com <- templateCommandParser c ss <- allTillSep c return (com, s, ss) -- | Parses the command part of the template string templateCommandParser :: Config -> Parser String templateCommandParser c = let chr = char . head . sepChar in between (chr c) (chr c) (allTillSep c) -- | Combines the template parsers templateParser :: Config -> Parser [(String,String,String)] templateParser = many . templateStringParser -- | Actually runs the template parsers parseTemplate :: Config -> String -> IO [(Runnable,String,String)] parseTemplate c s = do str <- case parse (templateParser c) "" s of Left _ -> return [("","","")] Right x -> return x let cl = map alias (commands c) m = Map.fromList $ zip cl (commands c) return $ combine c m str -- | Given a finite "Map" and a parsed templatet produces the -- | resulting output string. combine :: Config -> Map.Map String Runnable -> [(String, String, String)] -> [(Runnable,String,String)] combine _ _ [] = [] combine c m ((ts,s,ss):xs) = (com, s, ss) : combine c m xs where com = Map.findWithDefault dflt ts m dflt = Run $ Com ts [] [] 10 allTillSep :: Config -> Parser String allTillSep = many . noneOf . sepChar instance Applicative (GenParser tok st) where pure = return (<*>) = ap instance Alternative (GenParser tok st) where (<|>) x y = (Parsec.<|>) (try x) y empty = pzero readsToParsec :: Read b => CharParser st b readsToParsec = do pos0 <- getPosition input <- getInput case reads input of (result,rest):_ -> do sequenceA_ $ do ls <- fmap (lines . fst) . find ((==rest) . snd) $ zip (inits input) (tails input) lastLine <- safeLast ls return $ setPosition . flip setSourceColumn (length lastLine) . flip incSourceLine (length ls - 1) $ pos0 setInput rest return result _ -> setInput input >> fail "readsToParsec failed" safeLast :: [a] -> Maybe a safeLast [] = Nothing safeLast xs = Just (last xs) liftM9 :: (Monad m) => (a1 -> a2 -> a3 -> a4 -> a5 -> a6 -> a7 -> a8 -> a9 -> b) -> m a1 -> m a2 -> m a3 -> m a4 -> m a5 -> m a6 -> m a7 -> m a8 -> m a9 -> m b liftM9 fun a b c d e f g h i = fun `liftM` a `ap` b `ap` c `ap` d `ap` e `ap` f `ap` g `ap` h `ap` i -- | Parse the config, logging a list of fields that were missing and replaced -- by the default definition. parseConfig :: MonadWriter [String] m => String -> Either ParseError (m Config) parseConfig = flip parse "Config" $ sepEndSpaces ["Config","{"] *> perms <* wrapSkip (string "}") <* eof where perms = runPermsSep (wrapSkip $ string ",") $ liftM9 Config <$> withDef font "font" strField <*> withDef bgColor "bgColor" strField <*> withDef fgColor "fgColor" strField <*> withDef position "position" (field readsToParsec) <*> withDef lowerOnStart "lowerOnStart" (field parseEnum ) <*> withDef commands "commands" (field readsToParsec) <*> withDef sepChar "sepChar" strField <*> withDef alignSep "alignSep" strField <*> withDef template "template" strField wrapSkip x = many space *> x <* many space sepEndSpaces = mapM_ (\s -> string s <* many space) withDef ext name parser = optAtom (do tell [name]; return $ ext defaultConfig) (liftM return $ parser name) parseEnum = choice $ map (\x -> x <$ string (show x)) [minBound .. maxBound] strField name = flip field name $ between (char '"') (char '"') (many1 . satisfy $ (/= '"')) field cont name = sepEndSpaces [name,"="] *> cont