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module Compiler where
import qualified Ast as A
import Control.Monad.State
import Data.Either (rights)
import Data.Maybe (catMaybes, fromMaybe)
import Env
import Error
import System.Environment (getEnv, getEnvironment)
import Text.Parsec (ParseError, SourcePos)
import Text.Read (Lexeme (String))
type CompState = (Env, [Error])
type CompResult = Either [Error] (Maybe A.Type)
startState :: CompState
startState = (emptyEnv, [])
-- | @foldlEither fn init xs@ folds left @xs@ applying a function @fn@ that
-- returns either, returning accumulated right and the collected lefts as a
-- list.
foldlEither :: (accr -> b -> Either accl accr) -> (accr, [accl]) -> [b] -> (accr, [accl])
foldlEither fn init xs =
foldl
( \(r, l) x -> case fn r x of
Left e -> (r, e : l)
Right x -> (x, l)
)
init
xs
-- | @addError error@ adds @error@ to the state and returns no type to allow
-- the compilation to continue.
addError :: Error -> State CompState CompResult
addError e = do
(ev, errs) <- get
put (ev, e : errs)
pure $ Right Nothing
-- | @typecheckCall args params@ resolves @args@ and compares it with @params@,
-- returning a string describing an error or Nothing in case of type match.
typecheckCall :: [A.Expr] -> [A.Type] -> State CompState (Maybe String)
typecheckCall args params
| length args /= length params = return $ Just "invalid number of arguments in function call"
| length params == 0 = pure Nothing
| otherwise = do
-- resolve all args types
targs <- fmap rights $ traverse compile args
case sequence targs of
Just t
-- after resolution, we could have less "rights"
| length t /= length params -> return $ Nothing
-- compare types
| all (\(a, b) -> a == b) $ zip t params ->
return $ Nothing -- all good!
| otherwise -> return $ Just ("type mismatch in function call\n found: " ++ A.showList t ++ "\n expected: " ++ A.showList params)
Nothing ->
-- there was an error in on argument
pure Nothing
showMaybet :: Maybe A.Type -> String
showMaybet Nothing = "()"
showMaybet (Just t) = show t
-- | @typecheckVal value typ@ resolves @value@ and compares it to @typ@ type,
-- returning a string describing an error or Nothing in case of type match.
typecheckVal :: A.Expr -> Maybe A.Type -> State CompState (Maybe String)
typecheckVal value typ = do
r <- compile value
case r of
Right r
| r == typ -> pure Nothing
| otherwise -> return $ Just $ "type mismatch\n found: " ++ showMaybet r ++ "\n expected: " ++ showMaybet typ
Left _ -> pure Nothing -- error resolving value
-- | @typecheckReturn value fret@ resolves @value@ and compares it with @fret@,
-- returning a string decribing an error or Nothing in case of a type match.
typecheckReturn :: Maybe A.Expr -> Maybe A.Type -> State CompState (Maybe String)
typecheckReturn Nothing Nothing = return $ Nothing
typecheckReturn Nothing fret = return $ Just $ "invalid return value\n found: ()\n expected: " ++ showMaybet fret
typecheckReturn (Just value) fret = typecheckVal value fret
-- built-in types
types = ["bool", "u8", "s8", "u16", "s16"]
definedType :: A.Type -> Bool
definedType (A.Type t) = t `elem` types
definedType (A.FuncType ts r) =
all definedType ts && fromMaybe False (fmap definedType r)
verifyFuncType :: String -> [A.FuncParam] -> Maybe A.Type -> SourcePos -> [Error]
verifyFuncType ident params ret pos = do
( catMaybes $
map
( \(id, t, _, pos) ->
if not (definedType t)
then Just $ Error UndefinedType ("undefined type in function declaration \"" ++ id ++ "\"") pos
else Nothing
)
params
)
++ if not (fromMaybe True (fmap definedType ret))
then [Error UndefinedType ("undefined return type in \"" ++ ident ++ "\"") pos]
else []
compile :: A.Expr -> State CompState CompResult
compile x = do
case x of
(A.Module name pos) -> return $ Right Nothing
(A.Num _ _) -> return $ Right $ Just $ A.Type "u8" -- TODO: placeholder
(A.Bool' _ _) -> return $ Right $ Just $ A.Type "bool"
(A.BinOp A.Assign pos a@(A.Variable _ _) b) -> do
l <- compile a
case l of
Right tl -> do
tr <- typecheckVal b $ tl
case tr of
Just err -> addError $ Error TypeError err pos
Nothing -> return $ Right $ tl
_ -> return $ Right Nothing -- error resolving left
(A.BinOp A.Assign pos _ _) ->
addError $ Error InvalidTarget "invalid assignment target" pos
(A.BinOp _ _ a b) -> do
l <- compile a
r <- compile b
return $ l -- TODO: placeholder
(A.Func ident params ret body priv anon pos) -> do
-- current env
(ev, errs) <- get
-- check for undefined types
(ev, errs) <- return $ (ev, (verifyFuncType ident params ret pos) ++ errs)
-- updated with the function
(ev, errs) <-
return $ case addSymUniq ev (ident, ftype, priv, pos) of
Left err -> (ev, err : errs)
Right ev -> (ev, errs)
-- lambdas can only access local variables (closures aren't supported)
fev <- return $ if anon then emptyEnv else ev
-- with parameters
(nev, errs) <- return $ foldlEither addSymUniq (addEnv fev, errs) params
-- helper for return
nev <- return $ addSym nev ("$fn$", ftype, True, pos)
put (nev, errs)
r <- compileAll body
(_, errs) <- get
-- store updated errors and the env with the function
put (ev, errs)
return $ Right $ Just ftype
where
ftype = A.toFuncType params ret
(A.Call ident args pos) -> do
r <- compile ident
case r of
Right (Just (A.FuncType params rtyp)) -> do
r <- typecheckCall args params
case r of
Just err -> addError $ Error TypeError err pos
Nothing -> return $ Right rtyp
Right _ -> addError $ Error NonCallable "non callable value in function call" pos
_ -> pure $ Right Nothing
(A.Var ident typ val priv pos) -> do
(ev, errs) <- get
(ev, errs) <- return $ foldlEither addSymUniq (ev, errs) [(ident, typ, priv, pos)]
errs <-
return $
if not (definedType typ)
then Error UndefinedType ("undefined type in variable declaration \"" ++ ident ++ "\"") pos : errs
else errs
put (ev, errs)
vt <- typecheckVal val $ Just typ
case vt of
Just err -> addError $ Error TypeError err pos
Nothing -> return $ Right $ Just typ
(A.Return value pos) -> do
(ev, errs) <- get
case getSyml ev "$fn$" of
Nothing -> addError $ Error UnexpectedReturn "return without function call" pos
Just (_, A.FuncType _ rtyp, _, _) -> do
r <- typecheckReturn value rtyp
case r of
Just err -> addError $ Error TypeError err pos
Nothing -> return $ Right rtyp
(A.Variable ident pos) -> do
(ev, errs) <- get
case getSym ev ident of
Just (_, t, _, _) -> return $ Right $ Just t
Nothing -> addError $ Error Undefined ("undefined variable \"" ++ ident ++ "\"") pos
compileAll :: [A.Expr] -> State CompState CompResult
compileAll (x : xs) = do
compile x
compileAll xs
compileAll [] = do
(_, errs) <- get
case errs of
[] -> pure $ Right Nothing
_ -> return $ Left errs
|