---------------------------------------------------------------------- -- | -- Module : Ident -- Maintainer : AR -- Stability : (stable) -- Portability : (portable) -- -- > CVS $Date: 2005/11/15 11:43:33 $ -- > CVS $Author: aarne $ -- > CVS $Revision: 1.8 $ -- -- (Description of the module) ----------------------------------------------------------------------------- module GF.Infra.Ident (-- * Identifiers Ident(..), ident2bs, showIdent, ppIdent, identC, identV, identA, identAV, identW, argIdent, varStr, varX, isWildIdent, varIndex, -- * refreshing identifiers IdState, initIdStateN, initIdState, lookVar, refVar, refVarPlus ) where import GF.Data.Operations import qualified Data.ByteString.Char8 as BS import Text.PrettyPrint -- | the constructors labelled /INTERNAL/ are -- internal representation never returned by the parser data Ident = IC {-# UNPACK #-} !BS.ByteString -- ^ raw identifier after parsing, resolved in Rename | IW -- ^ wildcard -- -- below this constructor: internal representation never returned by the parser | IV {-# UNPACK #-} !BS.ByteString {-# UNPACK #-} !Int -- ^ /INTERNAL/ variable | IA {-# UNPACK #-} !BS.ByteString {-# UNPACK #-} !Int -- ^ /INTERNAL/ argument of cat at position | IAV {-# UNPACK #-} !BS.ByteString {-# UNPACK #-} !Int {-# UNPACK #-} !Int -- ^ /INTERNAL/ argument of cat with bindings at position -- deriving (Eq, Ord, Show, Read) ident2bs :: Ident -> BS.ByteString ident2bs i = case i of IC s -> s IV s n -> BS.append s (BS.pack ('_':show n)) IA s j -> BS.append s (BS.pack ('_':show j)) IAV s b j -> BS.append s (BS.pack ('_':show b ++ '_':show j)) IW -> BS.pack "_" showIdent :: Ident -> String showIdent i = BS.unpack $! ident2bs i ppIdent :: Ident -> Doc ppIdent = text . showIdent identC :: BS.ByteString -> Ident identV :: BS.ByteString -> Int -> Ident identA :: BS.ByteString -> Int -> Ident identAV:: BS.ByteString -> Int -> Int -> Ident identW :: Ident (identC, identV, identA, identAV, identW) = (IC, IV, IA, IAV, IW) -- normal identifier -- ident s = IC s -- | to mark argument variables argIdent :: Int -> Ident -> Int -> Ident argIdent 0 (IC c) i = identA c i argIdent b (IC c) i = identAV c b i -- | used in lin defaults varStr :: Ident varStr = identA (BS.pack "str") 0 -- | refreshing variables varX :: Int -> Ident varX = identV (BS.pack "x") isWildIdent :: Ident -> Bool isWildIdent x = case x of IW -> True IC s | s == BS.pack "_" -> True _ -> False varIndex :: Ident -> Int varIndex (IV _ n) = n varIndex _ = -1 --- other than IV should not count -- refreshing identifiers type IdState = ([(Ident,Ident)],Int) initIdStateN :: Int -> IdState initIdStateN i = ([],i) initIdState :: IdState initIdState = initIdStateN 0 lookVar :: Ident -> STM IdState Ident lookVar a@(IA _ _) = return a lookVar x = do (sys,_) <- readSTM stm (\s -> maybe (Bad ("cannot find" +++ show x +++ prParenth (show sys))) return $ lookup x sys >>= (\y -> return (y,s))) refVar :: Ident -> STM IdState Ident ----refVar IW = return IW --- no update of wildcard refVar x = do (_,m) <- readSTM let x' = IV (ident2bs x) m updateSTM (\(sys,mx) -> ((x, x'):sys, mx + 1)) return x' refVarPlus :: Ident -> STM IdState Ident ----refVarPlus IW = refVar (identC "h") refVarPlus x = refVar x {- ------------------------------ -- to test refreshExp :: Exp -> Err Exp refreshExp e = err Bad (return . fst) (appSTM (refresh e) initState) refresh :: Exp -> STM State Exp refresh e = case e of Atom x -> lookVar x >>= return . Atom App f a -> liftM2 App (refresh f) (refresh a) Abs x b -> liftM2 Abs (refVar x) (refresh b) Fun xs a b -> do a' <- refresh a xs' <- mapM refVar xs b' <- refresh b return $ Fun xs' a' b' data Exp = Atom Ident | App Exp Exp | Abs Ident Exp | Fun [Ident] Exp Exp deriving Show exp1 = Abs (IC "y") (Atom (IC "y")) exp2 = Abs (IC "y") (App (Atom (IC "y")) (Atom (IC "y"))) exp3 = Abs (IC "y") (Abs (IC "z") (App (Atom (IC "y")) (Atom (IC "z")))) exp4 = Abs (IC "y") (Abs (IC "y") (App (Atom (IC "y")) (Atom (IC "z")))) exp5 = Abs (IC "y") (Abs (IC "y") (App (Atom (IC "y")) (Atom (IC "y")))) exp6 = Abs (IC "y") (Fun [IC "x", IC "y"] (Atom (IC "y")) (Atom (IC "y"))) exp7 = Abs (IL "8") (Atom (IC "y")) -}