{-# LANGUAGE DeriveDataTypeable, CPP #-} import PGF (PGF) import qualified PGF import Cache import FastCGIUtils import URLEncoding import Network.FastCGI import Text.JSON import qualified Codec.Binary.UTF8.String as UTF8 (encodeString, decodeString) import Control.Concurrent import Control.Monad import Data.Char import Data.Function (on) import Data.List (sortBy) import qualified Data.Map as Map import Data.Maybe import System.Directory import System.FilePath import System.Process logFile :: FilePath logFile = "pgf-error.log" main :: IO () main = do stderrToFile logFile cache <- newCache PGF.readPGF #ifndef mingw32_HOST_OS runFastCGIConcurrent' forkIO 100 (handleErrors (handleCGIErrors (cgiMain cache))) #else runFastCGI (handleErrors (handleCGIErrors (cgiMain cache))) #endif cgiMain :: Cache PGF -> CGI CGIResult cgiMain cache = do path <- getVarWithDefault "SCRIPT_FILENAME" "" pgf <- liftIO $ readCache cache path command <- liftM (maybe "grammar" (urlDecodeUnicode . UTF8.decodeString)) (getInput "command") pgfMain pgf command pgfMain :: PGF -> String -> CGI CGIResult pgfMain pgf command = case command of "parse" -> return (doParse pgf) `ap` getText `ap` getCat `ap` getFrom >>= outputJSONP "complete" -> return (doComplete pgf) `ap` getText `ap` getCat `ap` getFrom `ap` getLimit >>= outputJSONP "linearize" -> return (doLinearize pgf) `ap` getTree `ap` getTo >>= outputJSONP "random" -> getCat >>= \c -> getLimit >>= liftIO . doRandom pgf c >>= outputJSONP "translate" -> return (doTranslate pgf) `ap` getText `ap` getCat `ap` getFrom `ap` getTo >>= outputJSONP "grammar" -> return (doGrammar pgf) `ap` requestAcceptLanguage >>= outputJSONP "abstrtree" -> getTree >>= liftIO . doGraphvizAbstrTree pgf >>= outputPNG "parsetree" -> getTree >>= \t -> getFrom >>= \(Just l) -> liftIO (doGraphvizParseTree pgf l t) >>= outputPNG "alignment" -> getTree >>= liftIO . doGraphvizAlignment pgf >>= outputPNG _ -> throwCGIError 400 "Unknown command" ["Unknown command: " ++ show command] where getText :: CGI String getText = liftM (maybe "" (urlDecodeUnicode . UTF8.decodeString)) $ getInput "input" getTree :: CGI PGF.Tree getTree = do mt <- getInput "tree" t <- maybe (throwCGIError 400 "No tree given" ["No tree given"]) return mt maybe (throwCGIError 400 "Bad tree" ["Bad tree: " ++ t]) return (PGF.readExpr t) getCat :: CGI (Maybe PGF.Type) getCat = do mcat <- getInput "cat" case mcat of Nothing -> return Nothing Just "" -> return Nothing Just cat -> case PGF.readType cat of Nothing -> throwCGIError 400 "Bad category" ["Bad category: " ++ cat] Just typ | typ `elem` PGF.categories pgf -> return $ Just typ | otherwise -> throwCGIError 400 "Unknown category" ["Unknown category: " ++ PGF.showType [] typ] getFrom :: CGI (Maybe PGF.Language) getFrom = getLang "from" getTo :: CGI (Maybe PGF.Language) getTo = getLang "to" getLimit :: CGI (Maybe Int) getLimit = readInput "limit" getLang :: String -> CGI (Maybe PGF.Language) getLang i = do mlang <- getInput i case mlang of Nothing -> return Nothing Just "" -> return Nothing Just l -> case PGF.readLanguage l of Nothing -> throwCGIError 400 "Bad language" ["Bad language: " ++ l] Just lang | lang `elem` PGF.languages pgf -> return $ Just lang | otherwise -> throwCGIError 400 "Unknown language" ["Unknown language: " ++ l] doListGrammars :: IO JSValue doListGrammars = do cwd <- getCurrentDirectory ps <- getDirectoryContents cwd let fs = filter ((== ".pgf") . map toLower . takeExtension) $ map takeFileName ps return $ showJSON $ map toJSObject [[("name", f)] | f <- fs] doTranslate :: PGF -> String -> Maybe PGF.Type -> Maybe PGF.Language -> Maybe PGF.Language -> JSValue doTranslate pgf input mcat mfrom mto = showJSON [toJSObject [("from", showJSON (PGF.showLanguage from)), ("tree", showJSON tree), ("linearizations",showJSON [toJSObject [("to", PGF.showLanguage to),("text",output)] | (to,output) <- linearize' pgf mto tree]) ] | (from,trees) <- parse' pgf input mcat mfrom, tree <- trees] doParse :: PGF -> String -> Maybe PGF.Type -> Maybe PGF.Language -> JSValue doParse pgf input mcat mfrom = showJSON $ map toJSObject [[("from", PGF.showLanguage from),("tree",PGF.showExpr [] tree)] | (from,trees) <- parse' pgf input mcat mfrom, tree <- trees ] doComplete :: PGF -> String -> Maybe PGF.Type -> Maybe PGF.Language -> Maybe Int -> JSValue doComplete pgf input mcat mfrom mlimit = showJSON $ map toJSObject $ limit [[("from", PGF.showLanguage from),("text",text)] | (from,compls) <- complete' pgf input mcat mfrom, text <- compls] where limit xs = maybe xs (\n -> take n xs) mlimit doLinearize :: PGF -> PGF.Tree -> Maybe PGF.Language -> JSValue doLinearize pgf tree mto = showJSON $ map toJSObject [[("to", PGF.showLanguage to),("text",text)] | (to,text) <- linearize' pgf mto tree] doRandom :: PGF -> Maybe PGF.Type -> Maybe Int -> IO JSValue doRandom pgf mcat mlimit = do trees <- random' pgf mcat return $ showJSON $ map toJSObject [[("tree", PGF.showExpr [] tree)] | tree <- limit trees] where limit = take (fromMaybe 1 mlimit) doGrammar :: PGF -> Maybe (Accept Language) -> JSValue doGrammar pgf macc = showJSON $ toJSObject [("name", showJSON (PGF.abstractName pgf)), ("userLanguage", showJSON (selectLanguage pgf macc)), ("categories", showJSON categories), ("languages", showJSON languages)] where languages = map toJSObject [[("name", showJSON l), ("languageCode", showJSON $ fromMaybe "" (PGF.languageCode pgf l)), ("canParse", showJSON $ PGF.canParse pgf l)] | l <- PGF.languages pgf] categories = map toJSObject [[("cat", PGF.showType [] cat)] | cat <- PGF.categories pgf] doGraphvizAbstrTree pgf tree = do let dot = PGF.graphvizAbstractTree pgf (True,True) tree readProcess "dot" ["-T","png"] dot doGraphvizParseTree pgf lang tree = do let dot = PGF.graphvizParseTree pgf lang tree readProcess "dot" ["-T","png"] (UTF8.encodeString dot) doGraphvizAlignment pgf tree = do let dot = PGF.graphvizAlignment pgf tree readProcess "dot" ["-T","png"] (UTF8.encodeString dot) instance JSON PGF.CId where readJSON x = readJSON x >>= maybe (fail "Bad language.") return . PGF.readLanguage showJSON = showJSON . PGF.showLanguage instance JSON PGF.Expr where readJSON x = readJSON x >>= maybe (fail "Bad expression.") return . PGF.readExpr showJSON = showJSON . PGF.showExpr [] -- * PGF utilities cat :: PGF -> Maybe PGF.Type -> PGF.Type cat pgf mcat = fromMaybe (PGF.startCat pgf) mcat parse' :: PGF -> String -> Maybe PGF.Type -> Maybe PGF.Language -> [(PGF.Language,[PGF.Tree])] parse' pgf input mcat mfrom = [(from,ts) | from <- froms, PGF.canParse pgf from, let ts = PGF.parse pgf from cat input, not (null ts)] where froms = maybe (PGF.languages pgf) (:[]) mfrom cat = fromMaybe (PGF.startCat pgf) mcat complete' :: PGF -> String -> Maybe PGF.Type -> Maybe PGF.Language -> [(PGF.Language,[String])] complete' pgf input mcat mfrom = [(from,order ss) | from <- froms, PGF.canParse pgf from, let ss = PGF.complete pgf from cat input, not (null ss)] where froms = maybe (PGF.languages pgf) (:[]) mfrom cat = fromMaybe (PGF.startCat pgf) mcat order = sortBy (compare `on` map toLower) linearize' :: PGF -> Maybe PGF.Language -> PGF.Tree -> [(PGF.Language,String)] linearize' pgf mto tree = case mto of Nothing -> PGF.linearizeAllLang pgf tree Just to -> [(to,PGF.linearize pgf to tree)] random' :: PGF -> Maybe PGF.Type -> IO [PGF.Tree] random' pgf mcat = PGF.generateRandom pgf (fromMaybe (PGF.startCat pgf) mcat) selectLanguage :: PGF -> Maybe (Accept Language) -> PGF.Language selectLanguage pgf macc = case acceptable of [] -> case PGF.languages pgf of [] -> error "No concrete syntaxes in PGF grammar." l:_ -> l Language c:_ -> fromJust (langCodeLanguage pgf c) where langCodes = mapMaybe (PGF.languageCode pgf) (PGF.languages pgf) acceptable = negotiate (map Language langCodes) macc langCodeLanguage :: PGF -> String -> Maybe PGF.Language langCodeLanguage pgf code = listToMaybe [l | l <- PGF.languages pgf, PGF.languageCode pgf l == Just code] -- * General utilities cleanFilePath :: FilePath -> FilePath cleanFilePath = takeFileName