import System.IO (hFlush, stdout) import System.Environment (getArgs) import Control.Monad (mapM) import Control.Monad.Error (runErrorT) import Control.Monad.Trans (liftIO) import qualified Data.Map as Map import qualified Data.Traversable as DT import Readline (readline, load_history) import Types import Reader (read_str) import Printer (_pr_str) import Env (Env, env_new, env_bind, env_find, env_get, env_set) import Core as Core -- read mal_read :: String -> IOThrows MalVal mal_read str = read_str str -- eval is_pair (MalList x _:xs) = True is_pair (MalVector x _:xs) = True is_pair _ = False quasiquote :: MalVal -> MalVal quasiquote ast = case ast of (MalList (MalSymbol "unquote" : a1 : []) _) -> a1 (MalList (MalList (MalSymbol "splice-unquote" : a01 : []) _ : rest) _) -> MalList [(MalSymbol "concat"), a01, quasiquote (MalList rest Nil)] Nil (MalVector (MalList (MalSymbol "splice-unquote" : a01 : []) _ : rest) _) -> MalList [(MalSymbol "concat"), a01, quasiquote (MalVector rest Nil)] Nil (MalList (a0 : rest) _) -> MalList [(MalSymbol "cons"), quasiquote a0, quasiquote (MalList rest Nil)] Nil (MalVector (a0 : rest) _) -> MalList [(MalSymbol "cons"), quasiquote a0, quasiquote (MalVector rest Nil)] Nil _ -> MalList [(MalSymbol "quote"), ast] Nil is_macro_call :: MalVal -> Env -> IOThrows Bool is_macro_call (MalList (a0@(MalSymbol _) : rest) _) env = do e <- liftIO $ env_find env a0 case e of Just e -> do f <- env_get e a0 case f of MalFunc {macro=True} -> return True _ -> return False Nothing -> return False is_macro_call _ _ = return False macroexpand :: MalVal -> Env -> IOThrows MalVal macroexpand ast@(MalList (a0 : args) _) env = do mc <- is_macro_call ast env if mc then do mac <- env_get env a0 case mac of MalFunc {fn=(Fn f)} -> do new_ast <- f args macroexpand new_ast env _ -> return ast else return ast macroexpand ast _ = return ast eval_ast :: MalVal -> Env -> IOThrows MalVal eval_ast sym@(MalSymbol _) env = env_get env sym eval_ast ast@(MalList lst m) env = do new_lst <- mapM (\x -> (eval x env)) lst return $ MalList new_lst m eval_ast ast@(MalVector lst m) env = do new_lst <- mapM (\x -> (eval x env)) lst return $ MalVector new_lst m eval_ast ast@(MalHashMap lst m) env = do new_hm <- DT.mapM (\x -> (eval x env)) lst return $ MalHashMap new_hm m eval_ast ast env = return ast let_bind :: Env -> [MalVal] -> IOThrows Env let_bind env [] = return env let_bind env (b:e:xs) = do evaled <- eval e env x <- liftIO $ env_set env b evaled let_bind env xs apply_ast :: MalVal -> Env -> IOThrows MalVal apply_ast ast@(MalList (MalSymbol "def!" : args) _) env = do case args of (a1@(MalSymbol _): a2 : []) -> do evaled <- eval a2 env liftIO $ env_set env a1 evaled _ -> throwStr "invalid def!" apply_ast ast@(MalList (MalSymbol "let*" : args) _) env = do case args of (a1 : a2 : []) -> do params <- (_to_list a1) let_env <- liftIO $ env_new $ Just env let_bind let_env params eval a2 let_env _ -> throwStr "invalid let*" apply_ast ast@(MalList (MalSymbol "quote" : args) _) env = do case args of a1 : [] -> return a1 _ -> throwStr "invalid quote" apply_ast ast@(MalList (MalSymbol "quasiquote" : args) _) env = do case args of a1 : [] -> eval (quasiquote a1) env _ -> throwStr "invalid quasiquote" apply_ast ast@(MalList (MalSymbol "defmacro!" : args) _) env = do case args of (a1 : a2 : []) -> do func <- eval a2 env case func of MalFunc {fn=f, ast=a, env=e, params=p} -> do let new_func = MalFunc {fn=f, ast=a, env=e, params=p, macro=True, meta=Nil} in liftIO $ env_set env a1 new_func _ -> throwStr "defmacro! on non-function" _ -> throwStr "invalid defmacro!" apply_ast ast@(MalList (MalSymbol "macroexpand" : args) _) env = do case args of (a1 : []) -> macroexpand a1 env _ -> throwStr "invalid macroexpand" apply_ast ast@(MalList (MalSymbol "try*" : args) _) env = do case args of (a1 : []) -> eval a1 env (a1 : (MalList ((MalSymbol "catch*") : a21 : a22 : []) _) : []) -> do res <- liftIO $ runErrorT $ eval a1 env case res of Right val -> return val Left err -> do exc <- case err of (StringError str) -> return $ MalString str (MalValError mv) -> return $ mv try_env <- liftIO $ env_new $ Just env liftIO $ env_set try_env a21 exc eval a22 try_env _ -> throwStr "invalid try*" apply_ast ast@(MalList (MalSymbol "do" : args) _) env = do case args of ([]) -> return Nil _ -> do el <- eval_ast (MalList args Nil) env case el of (MalList lst _) -> return $ last lst apply_ast ast@(MalList (MalSymbol "if" : args) _) env = do case args of (a1 : a2 : a3 : []) -> do cond <- eval a1 env if cond == MalFalse || cond == Nil then eval a3 env else eval a2 env (a1 : a2 : []) -> do cond <- eval a1 env if cond == MalFalse || cond == Nil then return Nil else eval a2 env _ -> throwStr "invalid if" apply_ast ast@(MalList (MalSymbol "fn*" : args) _) env = do case args of (a1 : a2 : []) -> do params <- (_to_list a1) return $ (_malfunc a2 env (MalList params Nil) (\args -> do fn_env1 <- liftIO $ env_new $ Just env fn_env2 <- liftIO $ env_bind fn_env1 params args eval a2 fn_env2)) _ -> throwStr "invalid fn*" apply_ast ast@(MalList _ _) env = do mc <- is_macro_call ast env if mc then do new_ast <- macroexpand ast env eval new_ast env else case ast of MalList _ _ -> do el <- eval_ast ast env case el of (MalList ((Func (Fn f) _) : rest) _) -> f $ rest (MalList ((MalFunc {ast=ast, env=fn_env, params=(MalList params Nil)} : rest)) _) -> do fn_env1 <- liftIO $ env_new $ Just fn_env fn_env2 <- liftIO $ env_bind fn_env1 params rest eval ast fn_env2 el -> throwStr $ "invalid apply: " ++ (show el) _ -> return ast eval :: MalVal -> Env -> IOThrows MalVal eval ast env = do case ast of (MalList _ _) -> apply_ast ast env _ -> eval_ast ast env -- print mal_print :: MalVal -> String mal_print exp = show exp -- repl rep :: Env -> String -> IOThrows String rep env line = do ast <- mal_read line exp <- eval ast env return $ mal_print exp repl_loop :: Env -> IO () repl_loop env = do line <- readline "user> " case line of Nothing -> return () Just "" -> repl_loop env Just str -> do res <- runErrorT $ rep env str out <- case res of Left (StringError str) -> return $ "Error: " ++ str Left (MalValError mv) -> return $ "Error: " ++ (show mv) Right val -> return val putStrLn out hFlush stdout repl_loop env main = do args <- getArgs load_history repl_env <- env_new Nothing -- core.hs: defined using Haskell (mapM (\(k,v) -> (env_set repl_env (MalSymbol k) v)) Core.ns) env_set repl_env (MalSymbol "eval") (_func (\[ast] -> eval ast repl_env)) env_set repl_env (MalSymbol "*ARGV*") (MalList [] Nil) -- core.mal: defined using the language itself runErrorT $ rep repl_env "(def! *host-language* \"haskell\")" runErrorT $ rep repl_env "(def! not (fn* (a) (if a false true)))" runErrorT $ rep repl_env "(def! load-file (fn* (f) (eval (read-string (str \"(do \" (slurp f) \")\")))))" runErrorT $ rep repl_env "(defmacro! cond (fn* (& xs) (if (> (count xs) 0) (list 'if (first xs) (if (> (count xs) 1) (nth xs 1) (throw \"odd number of forms to cond\")) (cons 'cond (rest (rest xs)))))))" runErrorT $ rep repl_env "(defmacro! or (fn* (& xs) (if (empty? xs) nil (if (= 1 (count xs)) (first xs) `(let* (or_FIXME ~(first xs)) (if or_FIXME or_FIXME (or ~@(rest xs))))))))" if length args > 0 then do env_set repl_env (MalSymbol "*ARGV*") (MalList (map MalString (drop 1 args)) Nil) runErrorT $ rep repl_env $ "(load-file \"" ++ (args !! 0) ++ "\")" return () else do runErrorT $ rep repl_env "(println (str \"Mal [\" *host-language* \"]\"))" repl_loop repl_env