----------------------------------------------------------------------------- -- -- Module : Language.PureScript.TypeChecker.Kinds -- Copyright : (c) Phil Freeman 2013 -- License : MIT -- -- Maintainer : Phil Freeman -- Stability : experimental -- Portability : -- -- | -- This module implements the kind checker -- ----------------------------------------------------------------------------- {-# OPTIONS_GHC -fno-warn-orphans #-} {-# LANGUAGE MultiParamTypeClasses #-} module Language.PureScript.TypeChecker.Kinds ( kindOf, kindsOf, kindsOfAll ) where import Language.PureScript.Types import Language.PureScript.Kinds import Language.PureScript.Names import Language.PureScript.TypeChecker.Monad import Language.PureScript.Pretty import Control.Monad.State import Control.Monad.Error import Control.Monad.Unify import Control.Applicative import qualified Data.Map as M instance Partial Kind where unknown = KUnknown isUnknown (KUnknown u) = Just u isUnknown _ = Nothing instance Unifiable Check Kind where KUnknown u1 =?= KUnknown u2 | u1 == u2 = return () KUnknown u =?= k = u =:= k k =?= KUnknown u = u =:= k Star =?= Star = return () Bang =?= Bang = return () Row k1 =?= Row k2 = k1 =?= k2 FunKind k1 k2 =?= FunKind k3 k4 = do k1 =?= k3 k2 =?= k4 k1 =?= k2 = UnifyT . lift . throwError $ "Cannot unify " ++ prettyPrintKind k1 ++ " with " ++ prettyPrintKind k2 ++ "." -- | -- Infer the kind of a single type -- kindOf :: ModuleName -> Type -> Check Kind kindOf _ ty = rethrow (("Error checking kind of " ++ prettyPrintType ty ++ ":\n") ++) $ fmap tidyUp . liftUnify $ starIfUnknown <$> infer ty where tidyUp (k, sub) = sub $? k -- | -- Infer the kind of a type constructor with a collection of arguments and a collection of associated data constructors -- kindsOf :: ModuleName -> ProperName -> [String] -> [Type] -> Check Kind kindsOf moduleName name args ts = fmap tidyUp . liftUnify $ do tyCon <- fresh kargs <- replicateM (length args) fresh let dict = (name, tyCon) : zip (map ProperName args) kargs bindLocalTypeVariables moduleName dict $ solveTypes ts kargs tyCon where tidyUp (k, sub) = sub $? k -- | -- Simultaneously infer the kinds of several mutually recursive type constructors -- kindsOfAll :: ModuleName -> [(ProperName, [String], Type)] -> [(ProperName, [String], [Type])] -> Check ([Kind], [Kind]) kindsOfAll moduleName syns tys = fmap tidyUp . liftUnify $ do synVars <- replicateM (length syns) fresh let dict = zipWith (\(name, _, _) var -> (name, var)) syns synVars bindLocalTypeVariables moduleName dict $ do tyCons <- replicateM (length tys) fresh let dict' = zipWith (\(name, _, _) tyCon -> (name, tyCon)) tys tyCons bindLocalTypeVariables moduleName dict' $ do data_ks <- zipWithM (\tyCon (_, args, ts) -> do kargs <- replicateM (length args) fresh let argDict = zip (map ProperName args) kargs bindLocalTypeVariables moduleName argDict $ solveTypes ts kargs tyCon) tyCons tys syn_ks <- zipWithM (\synVar (_, args, ty) -> do kargs <- replicateM (length args) fresh let argDict = zip (map ProperName args) kargs bindLocalTypeVariables moduleName argDict $ solveTypes [ty] kargs synVar) synVars syns return (syn_ks, data_ks) where tidyUp ((ks1, ks2), sub) = (map (starIfUnknown . (sub $?)) ks1, map (starIfUnknown . (sub $?)) ks2) -- | -- Solve the set of kind constraints associated with the data constructors for a type constructor -- solveTypes :: [Type] -> [Kind] -> Kind -> UnifyT Kind Check Kind solveTypes ts kargs tyCon = do ks <- mapM infer ts tyCon =?= foldr FunKind Star kargs forM_ ks $ \k -> k =?= Star return tyCon -- | -- Default all unknown kinds to the Star kind of types -- starIfUnknown :: Kind -> Kind starIfUnknown (KUnknown _) = Star starIfUnknown (FunKind k1 k2) = FunKind (starIfUnknown k1) (starIfUnknown k2) starIfUnknown k = k -- | -- Infer a kind for a type -- infer :: Type -> UnifyT Kind Check Kind infer (Object row) = do k <- infer row k =?= Row Star return Star infer (TypeVar v) = do Just moduleName <- checkCurrentModule <$> get UnifyT . lift $ lookupTypeVariable moduleName (Qualified Nothing (ProperName v)) infer (TypeConstructor v) = do env <- liftCheck getEnv case M.lookup v (types env) of Nothing -> UnifyT . lift . throwError $ "Unknown type constructor '" ++ show v ++ "'" ++ show (M.keys (types env)) Just kind -> return kind infer (TypeApp t1 t2) = do k0 <- fresh k1 <- infer t1 k2 <- infer t2 k1 =?= FunKind k2 k0 return k0 infer (ForAll ident ty _) = do k1 <- fresh Just moduleName <- checkCurrentModule <$> get k2 <- bindLocalTypeVariables moduleName [(ProperName ident, k1)] $ infer ty k2 =?= Star return Star infer REmpty = do k <- fresh return $ Row k infer (RCons _ ty row) = do k1 <- infer ty k2 <- infer row k2 =?= Row k1 return $ Row k1 infer (ConstrainedType deps ty) = do forM_ deps $ \(className, tys) -> do _ <- infer $ foldl TypeApp (TypeConstructor className) tys return () k <- infer ty k =?= Star return Star infer _ = error "Invalid argument to infer"