from Data.Func import $
from StdFunc import o
+import Control.Monad
import Data.Either
+import Data.Monoid
import StdString
import StdList
+import StdMisc
import StdEnum
import RWST
import GenEq
import AST
-:: Gamma :== 'Map'.Map String Type
-:: Constraint :== String
-:: Infer a :== RWST [String] [Constraint] Gamma (Either SemError) a
+:: Scheme = Forall [String] Type
+:: Gamma :== 'Map'.Map String Scheme
+:: Constraints :== [(Type, Type)]
+:: Infer a :== RWST Gamma Constraints [String] (Either SemError) a
:: SemError
= ParseError Pos String
| UnifyError Pos Type Type
variableStream = map toString [1..]
sem :: AST -> SemOutput
-sem (AST vd fd) = Right $ (AST vd fd, 'Map'.newMap)
+sem (AST fd) = Right $ (AST fd, 'Map'.newMap)
+
+instance toString Scheme where
+ toString (Forall x t) = concat ["Forall ": map ((+++) "\n") x] +++ toString t
instance toString Gamma where
toString mp = concat [concat [k, ": ", toString v, "\n"]\\(k, v)<-'Map'.toList mp]
instance toString SemError where
toString se = "SemError: "
+
+uni :: Type Type -> Infer ()
+uni t1 t2 = tell [(t1, t2)]
+
+inEnv :: (String, Scheme) (Infer a) -> (Infer a)
+inEnv (x, sc) m = local scope m
+ where
+ scope e = 'Map'.put x sc ('Map'.del x e )
+
+class infer a :: a -> Infer Type
+
+instance infer Expr where
+ infer (VarExpr _ vd) = undef
+ infer (Op2Expr _ e1 op e2) = case op of
+ BiPlus = pure IntType
+ BiMinus = pure IntType
+ BiTimes = pure IntType
+ BiDivide = pure IntType
+ BiMod = pure IntType
+ BiLesser = pure IntType
+ BiGreater = pure IntType
+ BiLesserEq = pure IntType
+ BiGreaterEq = pure IntType
+ BiAnd = pure BoolType
+ BiOr = pure BoolType
+ BiEquals = infer e1
+ BiUnEqual = infer e1 // maybe check e2?
+ BiCons = infer e1 >>= \it1->pure $ ListType it1
+ infer (Op1Expr _ op e) = case op of
+ UnMinus = pure IntType
+ UnNegation = pure BoolType
+ infer (IntExpr _ _) = pure IntType
+ infer (CharExpr _ _) = pure CharType
+ infer (BoolExpr _ _) = pure BoolType
+ infer (FunExpr _ _ _ _) = undef
+ infer (EmptyListExpr _) = undef
+ 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