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Diffstat (limited to 'src/exper/Evaluate.hs')
| -rw-r--r-- | src/exper/Evaluate.hs | 461 |
1 files changed, 461 insertions, 0 deletions
diff --git a/src/exper/Evaluate.hs b/src/exper/Evaluate.hs new file mode 100644 index 000000000..7c5fb4b6a --- /dev/null +++ b/src/exper/Evaluate.hs @@ -0,0 +1,461 @@ +---------------------------------------------------------------------- +-- | +-- Module : Evaluate +-- Maintainer : AR +-- Stability : (stable) +-- Portability : (portable) +-- +-- > CVS $Date: 2005/11/01 15:39:12 $ +-- > CVS $Author: aarne $ +-- > CVS $Revision: 1.19 $ +-- +-- Computation of source terms. Used in compilation and in @cc@ command. +----------------------------------------------------------------------------- + +module GF.Compile.Evaluate (appEvalConcrete) where + +import GF.Data.Operations +import GF.Grammar.Grammar +import GF.Infra.Ident +import GF.Data.Str +import GF.Grammar.PrGrammar +import GF.Infra.Modules +import GF.Infra.Option +import GF.Grammar.Macros +import GF.Grammar.Lookup +import GF.Grammar.Refresh +import GF.Grammar.PatternMatch +import GF.Grammar.Lockfield (isLockLabel) ---- + +import GF.Grammar.AppPredefined + +import qualified Data.Map as Map + +import Data.List (nub,intersperse) +import Control.Monad (liftM2, liftM) +import Debug.Trace + + +data EEnv = EEnv { + computd :: Map.Map (Ident,Ident) FTerm, + temp :: Int + } + +emptyEEnv = EEnv Map.empty 0 + +lookupComputed :: (Ident,Ident) -> STM EEnv (Maybe FTerm) +lookupComputed mc = do + env <- readSTM + return $ Map.lookup mc $ computd env + +updateComputed :: (Ident,Ident) -> FTerm -> STM EEnv () +updateComputed mc t = updateSTM (\e -> e{computd = Map.insert mc t (computd e)}) + +getTemp :: STM EEnv Ident +getTemp = do + env <- readSTM + updateSTM (\e -> e{temp = temp e + 1}) + return $ identC ("#" ++ show (temp env)) + +data FTerm = + FTC Term + | FTF (Term -> FTerm) + +prFTerm :: Integer -> FTerm -> String +prFTerm i t = case t of + FTC t -> prt t + FTF f -> show i +++ "->" +++ prFTerm (i + 1) (f (EInt i)) + +term2fterm t = case t of + Abs x b -> FTF (\t -> term2fterm (subst [(x,t)] b)) + _ -> FTC t + +traceFTerm c ft = ft ----trace ("\n" ++ prt c +++ "=" +++ take 60 (prFTerm 0 ft)) ft + +fterm2term :: FTerm -> STM EEnv Term +fterm2term t = case t of + FTC t -> return t + FTF f -> do + x <- getTemp + b <- fterm2term $ f (Vr x) + return $ Abs x b + +subst g t = case t of + Vr x -> maybe t id $ lookup x g + _ -> composSafeOp (subst g) t + + +appFTerm :: FTerm -> [Term] -> FTerm +appFTerm ft ts = case (ft,ts) of + (FTF f, x:xs) -> appFTerm (f x) xs + _ -> ft +{- + (FTC _, []) -> ft + (FTC f, [a]) -> case appPredefined (App f a) of + Ok (t,_) -> FTC t + _ -> error $ "error: appFTerm" +++ prFTerm 0 ft +++ unwords (map prt ts) + _ -> error $ "error: appFTerm" +++ prFTerm 0 ft +++ unwords (map prt ts) +-} + +apps :: Term -> (Term,[Term]) +apps t = case t of + App f a -> (f',xs ++ [a]) where (f',xs) = apps f + _ -> (t,[]) + +appEvalConcrete gr bt = liftM fst $ appSTM (evalConcrete gr bt) emptyEEnv + +evalConcrete :: SourceGrammar -> BinTree Ident Info -> STM EEnv (BinTree Ident Info) +evalConcrete gr mo = mapMTree evaldef mo where + + evaldef (f,info) = case info of + CncFun (mt@(Just (_,ty@(cont,val)))) pde ppr -> + evalIn ("\nerror in linearization of function" +++ prt f +++ ":") $ + do + pde' <- case pde of + Yes de -> do + liftM yes $ pEval ty de + _ -> return pde + --- ppr' <- liftM yes $ evalPrintname gr c ppr pde' + return $ (f, CncFun mt pde' ppr) -- only cat in type actually needed + + _ -> return (f,info) + + pEval (context,val) trm = do ---- errIn ("parteval" +++ prt_ trm) $ do + let + vars = map fst context + args = map Vr vars + subst = [(v, Vr v) | v <- vars] + trm1 = mkApp trm args + trm3 <- recordExpand val trm1 >>= comp subst + return $ mkAbs vars trm3 + + recordExpand typ trm = case unComputed typ of + RecType tys -> case trm of + FV rs -> return $ FV [R [assign lab (P r lab) | (lab,_) <- tys] | r <- rs] + _ -> return $ R [assign lab (P trm lab) | (lab,_) <- tys] + _ -> return trm + + comp g t = case t of + + Q (IC "Predef") _ -> trace ("\nPredef:\n" ++ prt t) $ return t + + Q p c -> do + md <- lookupComputed (p,c) + case md of + Nothing -> do + d <- lookRes (p,c) + updateComputed (p,c) $ traceFTerm c $ term2fterm d + return d + Just d -> fterm2term d >>= comp g + App f a -> case apps t of + (h@(Q p c),xs) | p == IC "Predef" -> do + xs' <- mapM (comp g) xs + (t',b) <- stmErr $ appPredefined (foldl App h xs') + if b then return t' else comp g t' + (h@(Q p c),xs) -> do + xs' <- mapM (comp g) xs + md <- lookupComputed (p,c) + case md of + Just ft -> do + t <- fterm2term $ appFTerm ft xs' + comp g t + Nothing -> do + d <- lookRes (p,c) + let ft = traceFTerm c $ term2fterm d + updateComputed (p,c) ft + t' <- fterm2term $ appFTerm ft xs' + comp g t' + _ -> do + f' <- comp g f + a' <- comp g a + case (f',a') of + (Abs x b,_) -> comp (ext x a' g) b + (QC _ _,_) -> returnC $ App f' a' + (FV fs, _) -> mapM (\c -> comp g (App c a')) fs >>= return . variants + (_, FV as) -> mapM (\c -> comp g (App f' c)) as >>= return . variants + + (Alias _ _ d, _) -> comp g (App d a') + + (S (T i cs) e,_) -> prawitz g i (flip App a') cs e + + _ -> do + (t',b) <- stmErr $ appPredefined (App f' a') + if b then return t' else comp g t' + + + Vr x -> do + t' <- maybe (prtRaise ( + "context" +++ show g +++ ": no value given to variable") x) return $ lookup x g + case t' of + _ | t == t' -> return t + _ -> comp g t' + + Abs x b -> do + b' <- comp (ext x (Vr x) g) b + return $ Abs x b' + + Let (x,(_,a)) b -> do + a' <- comp g a + comp (ext x a' g) b + + Prod x a b -> do + a' <- comp g a + b' <- comp (ext x (Vr x) g) b + return $ Prod x a' b' + + P t l | isLockLabel l -> return $ R [] + ---- a workaround 18/2/2005: take this away and find the reason + ---- why earlier compilation destroys the lock field + + + P t l -> do + t' <- comp g t + case t' of + FV rs -> mapM (\c -> comp g (P c l)) rs >>= returnC . variants + R r -> maybe + (prtRaise (prt t' ++ ": no value for label") l) (comp g . snd) $ + lookup l r + + ExtR a (R b) -> case lookup l b of ----comp g (P (R b) l) of + Just (_,v) -> comp g v + _ -> comp g (P a l) + + S (T i cs) e -> prawitz g i (flip P l) cs e + + _ -> returnC $ P t' l + + S t@(T _ cc) v -> do + v' <- comp g v + case v' of + FV vs -> do + ts' <- mapM (comp g . S t) vs + return $ variants ts' + _ -> case matchPattern cc v' of + Ok (c,g') -> comp (g' ++ g) c + _ | isCan v' -> prtRaise ("missing case" +++ prt v' +++ "in") t + _ -> do + t' <- comp g t + return $ S t' v' -- if v' is not canonical + + S t v -> do + t' <- comp g t + v' <- comp g v + case t' of + T _ [(PV IW,c)] -> comp g c --- an optimization + T _ [(PT _ (PV IW),c)] -> comp g c + + T _ [(PV z,c)] -> comp (ext z v' g) c --- another optimization + T _ [(PT _ (PV z),c)] -> comp (ext z v' g) c + + FV ccs -> mapM (\c -> comp g (S c v')) ccs >>= returnC . variants + + V ptyp ts -> do + vs <- stmErr $ allParamValues gr ptyp + ps <- stmErr $ mapM term2patt vs + let cc = zip ps ts + case v' of + FV vs -> mapM (\c -> comp g (S t' c)) vs >>= returnC . variants + _ -> case matchPattern cc v' of + Ok (c,g') -> comp (g' ++ g) c + _ | isCan v' -> prtRaise ("missing case" +++ prt v' +++ "in") t + _ -> return $ S t' v' -- if v' is not canonical + + T _ cc -> case v' of + FV vs -> mapM (\c -> comp g (S t' c)) vs >>= returnC . variants + _ -> case matchPattern cc v' of + Ok (c,g') -> comp (g' ++ g) c + _ | isCan v' -> prtRaise ("missing case" +++ prt v' +++ "in") t + _ -> return $ S t' v' -- if v' is not canonical + + Alias _ _ d -> comp g (S d v') + + S (T i cs) e -> prawitz g i (flip S v') cs e + + _ -> returnC $ S t' v' + + -- normalize away empty tokens + K "" -> return Empty + + -- glue if you can + Glue x0 y0 -> do + x <- comp g x0 + y <- comp g y0 + case (x,y) of + (Alias _ _ d, y) -> comp g $ Glue d y + (x, Alias _ _ d) -> comp g $ Glue x d + + (S (T i cs) e, s) -> prawitz g i (flip Glue s) cs e + (s, S (T i cs) e) -> prawitz g i (Glue s) cs e + (_,Empty) -> return x + (Empty,_) -> return y + (K a, K b) -> return $ K (a ++ b) + (_, Alts (d,vs)) -> do +---- (K a, Alts (d,vs)) -> do + let glx = Glue x + comp g $ Alts (glx d, [(glx v,c) | (v,c) <- vs]) + (Alts _, ka) -> checks [do + y' <- stmErr $ strsFromTerm ka +---- (Alts _, K a) -> checks [do + x' <- stmErr $ strsFromTerm x -- this may fail when compiling opers + return $ variants [ + foldr1 C (map K (str2strings (glueStr v u))) | v <- x', u <- y'] +---- foldr1 C (map K (str2strings (glueStr v (str a)))) | v <- x'] + ,return $ Glue x y + ] + (FV ks,_) -> do + kys <- mapM (comp g . flip Glue y) ks + return $ variants kys + (_,FV ks) -> do + xks <- mapM (comp g . Glue x) ks + return $ variants xks + + _ -> do + mapM_ checkNoArgVars [x,y] + r <- composOp (comp g) t + returnC r + + Alts _ -> do + r <- composOp (comp g) t + returnC r + + -- remove empty + C a b -> do + a' <- comp g a + b' <- comp g b + case (a',b') of + (Alts _, K a) -> checks [do + as <- stmErr $ strsFromTerm a' -- this may fail when compiling opers + return $ variants [ + foldr1 C (map K (str2strings (plusStr v (str a)))) | v <- as] + , + return $ C a' b' + ] + (Empty,_) -> returnC b' + (_,Empty) -> returnC a' + _ -> returnC $ C a' b' + + -- reduce free variation as much as you can + FV ts -> mapM (comp g) ts >>= returnC . variants + + -- merge record extensions if you can + ExtR r s -> do + r' <- comp g r + s' <- comp g s + case (r',s') of + (Alias _ _ d, _) -> comp g $ ExtR d s' + (_, Alias _ _ d) -> comp g $ Glue r' d + + (R rs, R ss) -> stmErr $ plusRecord r' s' + (RecType rs, RecType ss) -> stmErr $ plusRecType r' s' + _ -> return $ ExtR r' s' + + -- case-expand tables + -- if already expanded, don't expand again + T i@(TComp _) cs -> do + -- if there are no variables, don't even go inside + cs' <- if (null g) then return cs else mapPairsM (comp g) cs + return $ T i cs' + + --- this means some extra work; should implement TSh directly + TSh i cs -> comp g $ T i [(p,v) | (ps,v) <- cs, p <- ps] + + T i cs -> do + pty0 <- stmErr $ getTableType i + ptyp <- comp g pty0 + case allParamValues gr ptyp of + Ok vs -> do + + cs' <- mapM (compBranchOpt g) cs + sts <- stmErr $ mapM (matchPattern cs') vs + ts <- mapM (\ (c,g') -> comp (g' ++ g) c) sts + ps <- stmErr $ mapM term2patt vs + let ps' = ps --- PT ptyp (head ps) : tail ps + return $ --- V ptyp ts -- to save space, just course of values + T (TComp ptyp) (zip ps' ts) + _ -> do + cs' <- mapM (compBranch g) cs + return $ T i cs' -- happens with variable types + + -- otherwise go ahead + _ -> composOp (comp g) t >>= returnC + + lookRes (p,c) = case lookupResDefKind gr p c of + Ok (t,_) | noExpand p -> return t + Ok (t,0) -> comp [] t + Ok (t,_) -> return t + Bad s -> raise s + + noExpand p = errVal False $ do + mo <- lookupModMod gr p + return $ case getOptVal (iOpts (flags mo)) useOptimizer of + Just "noexpand" -> True + _ -> False + + prtRaise s t = raise (s +++ prt t) + + ext x a g = (x,a):g + + returnC = return --- . computed + + variants ts = case nub ts of + [t] -> t + ts -> FV ts + + isCan v = case v of + Con _ -> True + QC _ _ -> True + App f a -> isCan f && isCan a + R rs -> all (isCan . snd . snd) rs + _ -> False + + compBranch g (p,v) = do + let g' = contP p ++ g + v' <- comp g' v + return (p,v') + + compBranchOpt g c@(p,v) = case contP p of + [] -> return c + _ -> compBranch g c +---- _ -> err (const (return c)) return $ compBranch g c + + contP p = case p of + PV x -> [(x,Vr x)] + PC _ ps -> concatMap contP ps + PP _ _ ps -> concatMap contP ps + PT _ p -> contP p + PR rs -> concatMap (contP . snd) rs + + PAs x p -> (x,Vr x) : contP p + + PSeq p q -> concatMap contP [p,q] + PAlt p q -> concatMap contP [p,q] + PRep p -> contP p + PNeg p -> contP p + + _ -> [] + + prawitz g i f cs e = do + cs' <- mapM (compBranch g) [(p, f v) | (p,v) <- cs] + return $ S (T i cs') e + +-- | argument variables cannot be glued +checkNoArgVars :: Term -> STM EEnv Term +checkNoArgVars t = case t of + Vr (IA _) -> raise $ glueErrorMsg $ prt t + Vr (IAV _) -> raise $ glueErrorMsg $ prt t + _ -> composOp checkNoArgVars t + +glueErrorMsg s = + "Cannot glue (+) term with run-time variable" +++ s ++ "." ++++ + "Use Prelude.bind instead." + +stmErr :: Err a -> STM s a +stmErr e = stm (\s -> do + v <- e + return (v,s) + ) + +evalIn :: String -> STM s a -> STM s a +evalIn msg st = stm $ \s -> case appSTM st s of + Bad e -> Bad $ msg ++++ e + Ok vs -> Ok vs |