import AST
-
:: Scheme = Forall [TVar] Type
:: Gamma :== 'Map'.Map String Scheme //map from Variables! to types
:: Typing a :== StateT (Gamma, [TVar]) (Either SemError) a
variableStream :: [TVar]
variableStream = map toString [1..]
+defaultGamma :: Gamma //includes all default functions
+defaultGamma = extend "print" (Forall ["a"] ((IdType "a") ->> VoidType))
+ $ extend "isEmpty" (Forall ["a"] ((ListType (IdType "a")) ->> BoolType))
+ $ extend "read" (Forall [] (IntType ->> (ListType CharType)))
+ zero
+
sem :: AST -> Either [SemError] AST
-//sem a = pure a
sem (AST fd) = case foldM (const $ hasNoDups fd) () fd
>>| foldM (const isNiceMain) () fd
>>| hasMain fd
- >>| evalStateT (type fd) (zero, variableStream) of
+ >>| evalStateT (type fd) (defaultGamma, variableStream) of
Left e = Left [e]
- Right fds = Right (AST fds)
- //_ = case execRWST (constraints fd) zero variableStream of
- // Left e = Left [e]
- // Right (a, b) = Right b
+ Right (_,fds) = Right (AST fds)
where
- constraints :: [FunDecl] -> Typing ()
- constraints _ = pure ()
- //TODO: fix
- //constraints fds = mapM_ funconstraint fds >>| pure ()
-
- funconstraint :: FunDecl -> Typing ()
- funconstraint fd=:(FunDecl _ ident args mt vardecls stmts) = case mt of
- Nothing = abort "Cannot infer functions yet"
- _ = pure ()
- //Just t = inEnv (ident, (Forall [] t)) (
- // mapM_ vardeclconstraint vardecls >>| pure ())
-
- vardeclconstraint :: VarDecl -> Typing ()
- vardeclconstraint _ = pure ()
- //TODO: fix!
- //vardeclconstraint (VarDecl p mt ident expr) = infer expr
- //>>= \it->inEnv (ident, (Forall [] it)) (pure ())
-
hasNoDups :: [FunDecl] FunDecl -> Either SemError ()
hasNoDups fds (FunDecl p n _ _ _ _)
# mbs = map (\(FunDecl p` n` _ _ _ _)->if (n == n`) (Just p`) Nothing) fds
instance infer Expr where
infer e = case e of
- VarExpr _ (VarDef k fs) = (\t->(zero,t)) <$> lookup k
- //instantiate is key for the let polymorphism!
- //TODO: field selectors
+ VarExpr _ (VarDef k fs) = lookup k >>= \t ->
+ foldM foldFieldSelectors t fs >>= \finalT ->
+ pure (zero, finalT)
Op2Expr _ e1 op e2 =
infer e1 >>= \(s1, t1) ->
pure ((compose s3 $ compose s2 s1), subst s3 tv)
Op1Expr _ op e1 =
- abort "infereing op1" >>|
infer e1 >>= \(s1, t1) ->
fresh >>= \tv ->
let given = t1 ->> tv in
lift (unify expected given) >>= \s2 ->
pure (compose s2 s1, subst s2 tv)
- EmptyListExpr _ = abort "infereing []" >>| (\tv->(zero,tv)) <$> fresh
+ EmptyListExpr _ = (\tv->(zero,tv)) <$> fresh
TupleExpr _ (e1, e2) =
- abort "infereing (,)" >>|
infer e1 >>= \(s1, t1) ->
infer e2 >>= \(s2, t2) ->
pure (compose s2 s1, TupleType (t1,t2))
lookup f >>= \expected ->
let accST = (\(s,ts) e->infer e >>= \(s_,et)->pure (compose s_ s,ts++[et])) in
foldM accST (zero,[]) args >>= \(s1, argTs)->
- //abort (concat (["argsTs: "] ++ (map toString argTs))) >>|
fresh >>= \tv->
let given = foldr (->>) tv argTs in
lift (unify expected given) >>= \s2->
- pure (compose s2 s1, subst s2 tv)
+ let fReturnType = subst s2 tv in
+ foldM foldFieldSelectors fReturnType fs >>= \returnType ->
+ pure (compose s2 s1, returnType)
IntExpr _ _ = pure $ (zero, IntType)
BoolExpr _ _ = pure $ (zero, BoolType)
CharExpr _ _ = pure $ (zero, CharType)
+foldFieldSelectors :: Type FieldSelector -> Typing Type
+foldFieldSelectors (ListType t) (FieldHd) = pure t
+foldFieldSelectors t=:(ListType _) (FieldTl) = pure t
+foldFieldSelectors (TupleType (t1, _)) (FieldFst) = pure t1
+foldFieldSelectors (TupleType (_, t2)) (FieldSnd) = pure t2
+foldFieldSelectors t fs = liftT $ Left $ FieldSelectorError zero t fs
op2Type :: Op2 -> Typing Type
op2Type op
pure (compose s3 $ compose s2 s1, subst s3 wht)
AssStmt (VarDef k fs) e =
- infer e >>= \(s1, et)->
- applySubst s1 >>|
- changeGamma (extend k (Forall [] et)) >>| //todo: fieldselectors
- pure (s1, VoidType)
+ lookup k >>= \expected ->
+ infer e >>= \(s1, given)->
+ foldM reverseFs given (reverse fs) >>= \varType->
+ lift (unify expected varType) >>= \s2->
+ let s = compose s2 s1 in
+ applySubst s >>|
+ changeGamma (extend k (Forall [] (subst s varType))) >>|
+ pure (s, VoidType)
- FunStmt f es = undef //what is this?
+ FunStmt f es _ = pure (zero, VoidType)
ReturnStmt Nothing = pure (zero, VoidType)
ReturnStmt (Just e) = infer e
+reverseFs :: Type FieldSelector -> Typing Type
+reverseFs t FieldHd = pure $ ListType t
+reverseFs t FieldTl = pure $ ListType t
+reverseFs t FieldFst = fresh >>= \tv -> pure $ TupleType (t, tv)
+reverseFs t FieldSnd = fresh >>= \tv -> pure $ TupleType (tv, t)
+
//The type of a list of statements is either an encountered
//return, or VoidType
instance infer [a] | infer a where
//the type class inferes the type of an AST element (VarDecl or FunDecl)
//and adds it to the AST element
-class type a :: a -> Typing a
+class type a :: a -> Typing (Substitution, a)
instance type VarDecl where
type (VarDecl p expected k e) =
- infer e >>= \(s, given) ->
- applySubst s >>|
+ infer e >>= \(s1, given) ->
+ applySubst s1 >>|
case expected of
Nothing = pure zero
Just expected_ = lift (unify expected_ given)
- >>|
- generalize given >>= \t ->
+ >>= \s2->
+ applySubst s2 >>|
+ let vtype = subst (compose s2 s1) given in
+ generalize vtype >>= \t ->
changeGamma (extend k t) >>|
- pure (VarDecl p (Just given) k e)
+ pure (compose s2 s1, VarDecl p (Just vtype) k e)
instance type FunDecl where
type (FunDecl p f args expected vds stmts) =
+ gamma >>= \outerScope-> //functions are infered in their own scopde
introduce f >>|
mapM introduce args >>= \argTs->
- type vds >>= \tVds->
- infer stmts >>= \(s1, result)->
- let given = foldr (->>) result argTs in
+ type vds >>= \(s1, tVds)->
+ applySubst s1 >>|
+ infer stmts >>= \(s2, result)->
applySubst s1 >>|
+ let argTs_ = map (subst $ compose s2 s1) argTs in
+ //abort (concat $ intersperse "\n" $ map toString argTs_) >>|
+ let given = foldr (->>) result argTs_ in
(case expected of
Nothing = pure zero
Just expected_ = lift (unify expected_ given))
- >>= \s2 ->
- let ftype = subst (compose s2 s1) given in
+ >>= \s3 ->
+ let ftype = subst (compose s3 $ compose s2 s1) given in
generalize ftype >>= \t->
+ putGamma outerScope >>|
changeGamma (extend f t) >>|
- pure (FunDecl p f args (Just ftype) tVds stmts)
-
-instance toString (Maybe a) | toString a where
- toString Nothing = "Nothing"
- toString (Just e) = concat ["Just ", toString e]
+ pure (compose s3 $ compose s2 s1, FunDecl p f args (Just ftype) tVds stmts)
instance type [a] | type a where
- type dcls = mapM type dcls
+ type [] = pure (zero, [])
+ type [v:vs] =
+ type v >>= \(s1, v_)->
+ applySubst s1 >>|
+ type vs >>= \(s2, vs_)->
+ applySubst (compose s2 s1) >>|
+ pure (compose s2 s1, [v_:vs_])
introduce :: String -> Typing Type
introduce k =
toString (Error e) = concat ["Unknown error during semantical",
"analysis: ", e]
+instance toString (Maybe a) | toString a where
+ toString Nothing = "Nothing"
+ toString (Just e) = concat ["Just ", toString e]
+
instance MonadTrans (StateT (Gamma, [TVar])) where
liftT m = StateT \s-> m >>= \a-> return (a, s)
Mapmap f ('Map'.Bin sz k v ml mr) = 'Map'.Bin sz k (f v)
(Mapmap f ml)
(Mapmap f mr)
-
-//// ------------------------
-//// First step: Inference
-//// ------------------------//
-
-//unify :: Type Type -> Infer ()
-//unify t1 t2 = tell [(t1, t2)]//
-
-//fresh :: Infer Type
-//fresh = (gets id) >>= \vars-> (put $ tail vars) >>| (pure $ IdType $ head vars)//
-
-//op2Type :: Op2 -> Infer Type
-//op2Type op
-//| elem op [BiPlus, BiMinus, BiTimes, BiDivide, BiMod]
-// = pure (IntType ->> IntType ->> IntType)
-//| elem op [BiEquals, BiUnEqual]
-// = fresh >>= \t1-> fresh >>= \t2-> pure (t1 ->> t2 ->> BoolType)
-//| elem op [BiLesser, BiGreater, BiLesserEq, BiGreaterEq]
-// = pure (IntType ->> IntType ->> BoolType)
-//| elem op [BiAnd, BiOr]
-// = pure (BoolType ->> BoolType ->> BoolType)
-//| op == BiCons
-// = fresh >>= \t1-> pure (t1 ->> ListType t1 ->> ListType t1)//
-
-//op1Type :: Op1 -> Infer Type
-//op1Type UnNegation = pure $ (BoolType ->> BoolType)
-//op1Type UnMinus = pure $ (IntType ->> IntType)//
-
-////instantiate :: Scheme -> Infer Type
-////instantiate (Forall as t) = mapM (const fresh) as//
-
-//lookupEnv :: String -> Infer Type
-//lookupEnv ident = asks ('Map'.get ident)
-// >>= \m->case m of
-// Nothing = liftT $ Left $ UndeclaredVariableError zero ident
-// Just (Forall as t) = pure t //instantiate ???//
-
-//class infer a :: a -> Infer Type
-//instance infer Expr where
-// infer (VarExpr _ (VarDef ident fs)) = lookupEnv ident
-// infer (Op2Expr _ e1 op e2) =
-// infer e1 >>= \t1 ->
-// infer e2 >>= \t2 ->
-// fresh >>= \frsh ->
-// let given = t1 ->> (t2 ->> frsh) in
-// op2Type op >>= \expected ->
-// unify expected given >>|
-// return frsh
-// infer (Op1Expr _ op e) =
-// infer e >>= \t1 ->
-// fresh >>= \frsh ->
-// let given = t1 ->> frsh in
-// op1Type op >>= \expected ->
-// unify expected given >>|
-// pure frsh
-// infer (IntExpr _ _) = pure IntType
-// infer (CharExpr _ _) = pure CharType
-// infer (BoolExpr _ _) = pure BoolType
-// infer (FunExpr _ f args sels) = //todo, iets met field selectors
-// lookupEnv f >>= \expected ->
-// fresh >>= \frsh ->
-// mapM infer args >>= \argTypes ->
-// let given = foldr (->>) frsh argTypes in
-// unify expected given >>|
-// pure frsh
-// infer (EmptyListExpr _) = ListType <$> fresh
-// infer (TupleExpr _ (e1, e2)) =
-// infer e1 >>= \et1->infer e2 >>= \et2->pure $ TupleType (et1, et2)//
-
-////:: VarDef = VarDef String [FieldSelector]
-////:: FieldSelector = FieldHd | FieldTl | FieldFst | FieldSnd
-////:: Op1 = UnNegation | UnMinus
-////:: Op2 = BiPlus | BiMinus | BiTimes | BiDivide | BiMod | BiEquals | BiLesser |
-//// BiGreater | BiLesserEq | BiGreaterEq | BiUnEqual | BiAnd | BiOr | BiCons
-////:: FunDecl = FunDecl Pos String [String] (Maybe Type) [VarDecl] [Stmt]
-////:: FunCall = FunCall String [Expr]
-////:: Stmt
-//// = IfStmt Expr [Stmt] [Stmt]
-//// | WhileStmt Expr [Stmt]
-//// | AssStmt VarDef Expr
-//// | FunStmt FunCall
-//// | ReturnStmt (Maybe Expr)
-////:: Pos = {line :: Int, col :: Int}
-////:: AST = AST [VarDecl] [FunDecl]
-////:: VarDecl = VarDecl Pos Type String Expr
-////:: Type
-//// = TupleType (Type, Type)
-//// | ListType Type
-//// | IdType String
-//// | IntType
-//// | BoolType
-//// | CharType
-//// | VarType
-//// | VoidType
-//// | (->>) infixl 7 Type Type