{-# LANGUAGE ScopedTypeVariables, CPP #-} module GFI (mainGFI,mainRunGFI) where import GF.Command.Interpreter import GF.Command.Importing import GF.Command.Commands import GF.Command.Abstract import GF.Command.Parse import GF.Data.ErrM import GF.Data.Operations (chunks) import GF.Grammar hiding (Ident) import GF.Grammar.Parser (runP, pExp) import GF.Grammar.ShowTerm import GF.Compile.Rename import GF.Compile.Concrete.Compute (computeConcrete) import GF.Compile.Concrete.TypeCheck (inferLType) import GF.Infra.Dependencies import GF.Infra.CheckM import GF.Infra.UseIO import GF.Infra.Option import GF.Infra.Modules (greatestResource, modules, emptyModInfo) import qualified System.Console.Haskeline as Haskeline import GF.Text.Coding import GF.Compile.Coding import PGF import PGF.Data import PGF.Macros import Data.Char import Data.Maybe import Data.List(isPrefixOf) import qualified Data.Map as Map import qualified Data.ByteString.Char8 as BS import qualified Text.ParserCombinators.ReadP as RP import System.IO import System.Cmd import System.CPUTime import System.Directory import Control.Exception import Control.Monad import Data.Version import GF.System.Signal --import System.IO.Error (try) #ifdef mingw32_HOST_OS import System.Win32.Console import System.Win32.NLS #endif import Paths_gf mainRunGFI :: Options -> [FilePath] -> IO () mainRunGFI opts files = do let opts1 = addOptions (modifyFlags (\f -> f{optVerbosity=Quiet})) opts gfenv <- emptyGFEnv gfenv <- importInEnv gfenv opts1 files loop opts1 gfenv return () mainGFI :: Options -> [FilePath] -> IO () mainGFI opts files = do putStrLn welcome gfenv <- emptyGFEnv gfenv <- importInEnv gfenv opts files loop opts gfenv return () loopOptNewCPU opts gfenv' | not (verbAtLeast opts Normal) = return gfenv' | otherwise = do cpu' <- getCPUTime putStrLnFlush (show ((cpu' - cputime gfenv') `div` 1000000000) ++ " msec") return $ gfenv' {cputime = cpu'} loop :: Options -> GFEnv -> IO GFEnv loop opts gfenv0 = do let loopNewCPU = loopOptNewCPU opts let isv = verbAtLeast opts Normal let ifv act = if isv then act else return () let env = commandenv gfenv0 let sgr = sourcegrammar gfenv0 s0 <- case flag optMode opts of ModeRun -> tryGetLine _ -> fetchCommand gfenv0 let gfenv = gfenv0 {history = s0 : history gfenv0} let pwords = case words s0 of w:ws -> getCommandOp w :ws ws -> ws -- special commands, requiring source grammar in env case pwords of {- "eh":w:_ -> do cs <- readFile w >>= return . map words . lines gfenv' <- foldM (flip (process False benv)) gfenv cs loopNewCPU gfenv' -} "q":_ -> ifv (putStrLn "See you.") >> return gfenv _ -> do r <- runInterruptibly $ case pwords of "!":ws -> do system $ unwords ws loopNewCPU gfenv "cc":ws -> do let pOpts style q ("-table" :ws) = pOpts TermPrintTable q ws pOpts style q ("-all" :ws) = pOpts TermPrintAll q ws pOpts style q ("-default":ws) = pOpts TermPrintDefault q ws pOpts style q ("-unqual" :ws) = pOpts style Unqualified ws pOpts style q ("-qual" :ws) = pOpts style Qualified ws pOpts style q ws = (style,q,unwords ws) (style,q,s) = pOpts TermPrintDefault Qualified (tail (words s0)) checkComputeTerm gr (L _ t) = do mo <- maybe (Bad "no source grammar in scope") return $ greatestResource gr ((t,_),_) <- runCheck $ do t <- renameSourceTerm gr mo t inferLType gr [] t computeConcrete sgr t case runP pExp (encodeUnicode utf8 s) of Left (_,msg) -> putStrLn msg Right t -> case checkComputeTerm sgr (codeTerm (decodeUnicode utf8 . BS.pack) (L (0,0) t)) of Ok x -> putStrLn $ showTerm sgr style q x Bad s -> putStrLn $ s loopNewCPU gfenv "dg":ws -> do let stop = case ws of ('-':'o':'n':'l':'y':'=':fs):_ -> Just $ chunks ',' fs _ -> Nothing writeFile "_gfdepgraph.dot" (depGraph stop sgr) putStrLn "wrote graph in file _gfdepgraph.dot" loopNewCPU gfenv "eh":w:_ -> do cs <- readFile w >>= return . map (interpretCommandLine env) . lines loopNewCPU gfenv "i":args -> do gfenv' <- case parseOptions args of Ok (opts',files) -> do curr_dir <- getCurrentDirectory lib_dir <- getLibraryDirectory (addOptions opts opts') importInEnv gfenv (addOptions opts (fixRelativeLibPaths curr_dir lib_dir opts')) files Bad err -> do putStrLn $ "Command parse error: " ++ err return gfenv loopNewCPU gfenv' -- other special commands, working on GFEnv "e":_ -> loopNewCPU $ gfenv { commandenv=emptyCommandEnv, sourcegrammar = emptySourceGrammar } "dc":f:ws -> do case readCommandLine (unwords ws) of Just comm -> loopNewCPU $ gfenv { commandenv = env { commandmacros = Map.insert f comm (commandmacros env) } } _ -> putStrLn "command definition not parsed" >> loopNewCPU gfenv "dt":f:ws -> do case readExpr (unwords ws) of Just exp -> loopNewCPU $ gfenv { commandenv = env { expmacros = Map.insert f exp (expmacros env) } } _ -> putStrLn "value definition not parsed" >> loopNewCPU gfenv "ph":_ -> mapM_ putStrLn (reverse (history gfenv0)) >> loopNewCPU gfenv "se":c:_ -> do let cod = renameEncoding c #ifdef mingw32_HOST_OS case cod of 'C':'P':c -> case reads c of [(cp,"")] -> do setConsoleCP cp setConsoleOutputCP cp _ -> return () "UTF-8" -> do setConsoleCP 65001 setConsoleOutputCP 65001 _ -> return () #endif enc <- mkTextEncoding cod hSetEncoding stdin enc hSetEncoding stdout enc hSetEncoding stderr enc loopNewCPU gfenv -- ordinary commands, working on CommandEnv _ -> do interpretCommandLine env s0 loopNewCPU gfenv -- gfenv' <- return $ either (const gfenv) id r gfenv' <- either (\e -> (print e >> return gfenv)) return r loop opts gfenv' fetchCommand :: GFEnv -> IO String fetchCommand gfenv = do path <- getAppUserDataDirectory "gf_history" let settings = Haskeline.Settings { Haskeline.complete = wordCompletion gfenv, Haskeline.historyFile = Just path, Haskeline.autoAddHistory = True } res <- Haskeline.runInputT settings (Haskeline.getInputLine (prompt (commandenv gfenv))) case res of Nothing -> return "q" Just s -> return s importInEnv :: GFEnv -> Options -> [FilePath] -> IO GFEnv importInEnv gfenv opts files | flag optRetainResource opts = do src <- importSource (sourcegrammar gfenv) opts files return $ gfenv {sourcegrammar = src} | otherwise = do let opts' = addOptions (setOptimization OptCSE False) opts pgf0 = multigrammar (commandenv gfenv) pgf1 <- importGrammar pgf0 opts' files if (verbAtLeast opts Normal) then putStrLnFlush $ unwords $ "\nLanguages:" : map showCId (languages pgf1) else return () return $ gfenv { commandenv = mkCommandEnv pgf1 } tryGetLine = do res <- try getLine case res of Left (e :: SomeException) -> return "q" Right l -> return l welcome = unlines [ " ", " * * * ", " * * ", " * * ", " * ", " * ", " * * * * * * * ", " * * * ", " * * * * * * ", " * * * ", " * * * ", " ", "This is GF version "++showVersion version++". ", "License: see help -license. ", "Bug reports: http://code.google.com/p/grammatical-framework/issues/list" ] prompt env | abs == wildCId = "> " | otherwise = showCId abs ++ "> " where abs = abstractName (multigrammar env) data GFEnv = GFEnv { sourcegrammar :: SourceGrammar, -- gfo grammar -retain commandenv :: CommandEnv, history :: [String], cputime :: Integer } emptyGFEnv :: IO GFEnv emptyGFEnv = do return $ GFEnv emptySourceGrammar{modules=[(identW,emptyModInfo)]} (mkCommandEnv emptyPGF) [] 0 wordCompletion gfenv (left,right) = do case wc_type (reverse left) of CmplCmd pref -> ret (length pref) [Haskeline.simpleCompletion name | name <- Map.keys (commands cmdEnv), isPrefixOf pref name] CmplStr (Just (Command _ opts _)) s0 -> do mb_state0 <- try (evaluate (initState pgf (optLang opts) (optType opts))) case mb_state0 of Right state0 -> let (rprefix,rs) = break isSpace (reverse s0) s = reverse rs prefix = reverse rprefix ws = words s in case loop state0 ws of Nothing -> ret 0 [] Just state -> let compls = getCompletions state prefix in ret (length prefix) (map (\x -> Haskeline.simpleCompletion x) (Map.keys compls)) Left (_ :: SomeException) -> ret 0 [] CmplOpt (Just (Command n _ _)) pref -> case Map.lookup n (commands cmdEnv) of Just inf -> do let flg_compls = [Haskeline.Completion ('-':flg++"=") ('-':flg) False | (flg,_) <- flags inf, isPrefixOf pref flg] opt_compls = [Haskeline.Completion ('-':opt) ('-':opt) True | (opt,_) <- options inf, isPrefixOf pref opt] ret (length pref+1) (flg_compls++opt_compls) Nothing -> ret (length pref) [] CmplIdent (Just (Command "i" _ _)) _ -- HACK: file name completion for command i -> Haskeline.completeFilename (left,right) CmplIdent _ pref -> do mb_abs <- try (evaluate (abstract pgf)) case mb_abs of Right abs -> ret (length pref) [Haskeline.simpleCompletion name | cid <- Map.keys (funs abs), let name = showCId cid, isPrefixOf pref name] Left (_ :: SomeException) -> ret (length pref) [] _ -> ret 0 [] where pgf = multigrammar cmdEnv cmdEnv = commandenv gfenv optLang opts = valCIdOpts "lang" (head (languages pgf)) opts optType opts = let str = valStrOpts "cat" (showCId $ lookStartCat pgf) opts in case readType str of Just ty -> ty Nothing -> error ("Can't parse '"++str++"' as type") loop ps [] = Just ps loop ps (t:ts) = case nextState ps t of Left es -> Nothing Right ps -> loop ps ts ret len xs = return (drop len left,xs) data CompletionType = CmplCmd Ident | CmplStr (Maybe Command) String | CmplOpt (Maybe Command) Ident | CmplIdent (Maybe Command) Ident deriving Show wc_type :: String -> CompletionType wc_type = cmd_name where cmd_name cs = let cs1 = dropWhile isSpace cs in go cs1 cs1 where go x [] = CmplCmd x go x (c:cs) | isIdent c = go x cs | otherwise = cmd x cs cmd x [] = ret CmplIdent x "" 0 cmd _ ('|':cs) = cmd_name cs cmd _ (';':cs) = cmd_name cs cmd x ('"':cs) = str x cs cs cmd x ('-':cs) = option x cs cs cmd x (c :cs) | isIdent c = ident x (c:cs) cs | otherwise = cmd x cs option x y [] = ret CmplOpt x y 1 option x y ('=':cs) = optValue x y cs option x y (c :cs) | isIdent c = option x y cs | otherwise = cmd x cs optValue x y ('"':cs) = str x y cs optValue x y cs = cmd x cs ident x y [] = ret CmplIdent x y 0 ident x y (c:cs) | isIdent c = ident x y cs | otherwise = cmd x cs str x y [] = ret CmplStr x y 1 str x y ('\"':cs) = cmd x cs str x y ('\\':c:cs) = str x y cs str x y (c:cs) = str x y cs ret f x y d = f cmd y where x1 = take (length x - length y - d) x x2 = takeWhile (\c -> isIdent c || isSpace c || c == '-' || c == '=' || c == '"') x1 cmd = case [x | (x,cs) <- RP.readP_to_S pCommand x2, all isSpace cs] of [x] -> Just x _ -> Nothing isIdent c = c == '_' || c == '\'' || isAlphaNum c