X-Git-Url: https://ruin.nu/git/?p=proglang.git;a=blobdiff_plain;f=Interpret.hs;h=5afcefb10b28cd6ac4a390e71958499b5cfdc956;hp=8ac65bf247c9acf10699573d40669e65ca43782b;hb=cdcd3b92ee3145e646634d428b02118238d47f33;hpb=92fd10b102519d03741d61c2679c4cfbe1b486a4 diff --git a/Interpret.hs b/Interpret.hs index 8ac65bf..5afcefb 100644 --- a/Interpret.hs +++ b/Interpret.hs @@ -1,32 +1,42 @@ -module Interpret (eval, execute, Value(VInt, VBool)) where +module Interpret (interpret, eval, execute,addFunction, emptyState, Value(..), State(..)) where import Abssyntax -import Control.Monad.State +import Control.Monad.State hiding (State) +import Control.Monad.Error +import Control.Concurrent.MVar import Data.Map as Map import Prelude hiding (lookup) +emptyState = State{variables=[empty], functions=(empty)} + data Value = VInt Integer | VBool Bool deriving Eq instance Show Value where show (VInt n) = show n - show (VBool b) = show b + show (VBool True) = "1" + show (VBool False) = "0" type Variables = [Map Ident Value] +type Function = ([Decl],[Stm]) + +data State = State {variables::Variables,functions::(Map Ident Function),ret::(MVar Value)} -inList :: Eq a => a -> [a] -> Bool -inList _ [] = False -inList a (x:xs) = if a == x then True else inList a xs +interpret :: [Func] -> [Stm] -> IO () +interpret fun st = do + mv <- newEmptyMVar + runStateT (do mapM Interpret.addFunction fun; mapM execute st) emptyState{ret=mv} + return () --eval :: (MonadState Variables m) => Exp -> m Value -eval :: Exp -> StateT Variables IO Value +eval :: Exp -> StateT State IO Value eval (EBool b) = return (VBool b) eval (EInt n) = return (VInt n) eval (EVar i) = getVariableValue i -eval (EAss i e) = setVariableValue i e +eval (EAss i e) = setVariableValue i e eval (BiOpExp e o e') = do v <- eval e v'<- eval e' - if inList o [Eq,NEq] then return $ opE o v v' + if elem o [Eq,NEq] then return $ opE o v v' else let (VInt n1) = v in let (VInt n2) = v' in return $ op o n1 n2 eval (EPost i o) = do (VInt n) <- getVariableValue i @@ -43,60 +53,70 @@ eval EReadI = do return $ VInt $ read s eval EReadB = do s <- lift $ getWord - return $ VBool $ read s + return $ VBool $ if (read s == 0) then False else True +eval (EFunc i as) = do + vs <- mapM eval as + state <- get + (ds,ss) <- lookup i $ functions state + let m = foldr (\((Decl t i),v) m -> insert i v m) empty $ zip ds vs + in modify (\s -> s{variables=[m]}) + mapM_ execute ss `catchError` (\_ -> return ()) + v <- lift $ takeMVar $ ret state + put state + return v getWord :: IO String getWord = do c <- getChar - if inList c ['\n','\r',' ', '\t'] + if elem c [' ', '\n', '\t', '\r'] then return "" else do l <- getWord - return (c:l) + return (c:l) -- op :: Op -> (a -> a -> Value) opE Eq = \e e' -> VBool $ e == e' opE NEq = \e e' -> VBool $ not (e == e') op Plus = \e e' -> VInt $ e + e' -op Minus = \e e' -> VInt $ e - e' -op Times = \e e' -> VInt $ e * e' -op Div = \e e' -> VInt $ e `div` e' +op Minus = \e e' -> VInt $ e - e' +op Times = \e e' -> VInt $ e * e' +op Div = \e e' -> VInt $ e `div` e' op Lt = \e e' -> VBool $ e < e' op ELt = \e e' -> VBool $ e <= e' op Gt = \e e' -> VBool $ e > e' op EGt = \e e' -> VBool $ e >= e' -getVariableValue :: (MonadState Variables m) => Ident -> m Value +getVariableValue :: (MonadState State m) => Ident -> m Value getVariableValue i = do - ms <- get - findVariable i ms + s <- get + findVariable i $ variables s -findVariable :: (MonadState Variables m) => Ident -> Variables -> m Value +findVariable :: (MonadState State m) => Ident -> Variables -> m Value findVariable i [] = fail $ "Variable "++show i++" not found in any scope." findVariable i (m:ms) = if member i m then lookup i m else findVariable i ms --setVariableValue :: (MonadState Variables m) => Ident -> Exp -> m Value --setVariableValue :: (MonadState Variables m) => Ident -> Exp -> m Value -setVariableValue :: Ident -> Exp -> StateT Variables IO Value +setVariableValue :: Ident -> Exp -> StateT State IO Value setVariableValue i e = do v <- eval e - ms <- get - put $ updateVariable i v ms + state <- get + modify (\s -> s{variables= updateVariable i v $ variables state} ) return v updateVariable :: Ident -> Value -> Variables -> Variables updateVariable _ _ [] = [] updateVariable i v (m:ms) = if member i m then insert i v m:ms else m:updateVariable i v ms -pushAndPop :: (MonadState Variables m) => m a -> m () +pushAndPop :: (MonadState State m) => m a -> m () pushAndPop s = do - modify (empty:) + modify (\s -> s { variables = empty:variables s}) s - modify tail + modify (\s -> s { variables = tail $ variables s}) -- execute :: (MonadState Variables m) => Stm -> m () -execute :: Stm -> StateT Variables IO () +execute :: Stm -> StateT State IO () execute (SNoop) = return () execute (SExp e) = eval e >> return () execute (SIf b s s') = do @@ -109,7 +129,18 @@ execute (SBlock ss) = pushAndPop $ mapM execute ss execute (SWhile e s) = do (VBool b) <- eval e if b then pushAndPop (execute s) >> execute (SWhile e s) else return () +execute (SDeclD t i) = execute $ SDecl t i $ case t of + TInt -> EInt 0 + TBool -> EBool False execute (SDecl t i e) =do - e' <- eval e - (m:ms) <- get - put $ (insert i e' m):ms + v <- eval e + state <- get + let (m:ms) = variables state in modify (\s -> s{variables=insert i v m:ms }) +execute (SReturn e) = do + v <- eval e + s <- get + lift $ putMVar (ret s) v + throwError $ userError "Returning.." + +addFunction :: (MonadState State m) => Func -> m () +addFunction (Func _ i d ss) = modify (\s -> s{functions=insert i (d,ss) (functions s) })