fix haddock submodule pointer

[ghc-hetmet.git] / compiler / typecheck / TcHsType.lhs

diff --git a/compiler/typecheck/TcHsType.lhs b/compiler/typecheck/TcHsType.lhs
index 182d1fc..4fe6b60 100644 (file)
--- a/compiler/typecheck/TcHsType.lhs
+++ b/compiler/typecheck/TcHsType.lhs
@@ -37,6 +37,7 @@ import TcMType
 import TcUnify
 import TcIface
 import TcType
+import TysPrim ( ecKind )
 import {- Kind parts of -} Type
 import Var
 import VarSet
@@ -299,7 +300,7 @@ kc_check_hs_type (HsParTy ty) exp_kind
   = do { ty' <- kc_check_lhs_type ty exp_kind; return (HsParTy ty') }
 
 kc_check_hs_type ty@(HsAppTy ty1 ty2) exp_kind
-  = do { let (fun_ty, arg_tys) = splitHsAppTys ty1 ty2
+  = do { let (fun_ty, arg_tys) = splitHsAppTys ty1 [ty2]
        ; (fun_ty', fun_kind) <- kc_lhs_type fun_ty
        ; arg_tys' <- kcCheckApps fun_ty fun_kind arg_tys ty exp_kind
        ; return (mkHsAppTys fun_ty' arg_tys') }
@@ -364,6 +365,16 @@ kc_hs_type (HsPArrTy ty) = do
     ty' <- kcLiftedType ty
     return (HsPArrTy ty', liftedTypeKind)
 
+kc_hs_type (HsModalBoxType ecn ty) = do
+    kc_check_hs_type (HsTyVar ecn) (EK ecKind EkUnk)
+    ty' <- kcLiftedType ty
+    return (HsModalBoxType ecn ty', liftedTypeKind)
+
+kc_hs_type (HsKappaTy ty1 ty2) = do
+    ty1' <- kc_check_lhs_type ty1 (EK argTypeKind EkUnk)
+    ty2' <- kcTypeType ty2
+    return (HsKappaTy ty1' ty2', liftedTypeKind)
+
 kc_hs_type (HsKindSig ty k) = do
     ty' <- kc_check_lhs_type ty (EK k EkKindSig)
     return (HsKindSig ty' k, k)
@@ -387,11 +398,10 @@ kc_hs_type (HsOpTy ty1 op ty2) = do
     return (HsOpTy ty1' op ty2', res_kind)
 
 kc_hs_type (HsAppTy ty1 ty2) = do
+    let (fun_ty, arg_tys) = splitHsAppTys ty1 [ty2]
     (fun_ty', fun_kind) <- kc_lhs_type fun_ty
     (arg_tys', res_kind) <- kcApps fun_ty fun_kind arg_tys
     return (mkHsAppTys fun_ty' arg_tys', res_kind)
-  where
-    (fun_ty, arg_tys) = splitHsAppTys ty1 ty2
 
 kc_hs_type (HsPredTy pred)
   = wrongPredErr pred
@@ -458,20 +468,6 @@ kcCheckApps the_fun fun_kind args ty exp_kind
             -- This improves error message; Trac #2994
        ; kc_check_lhs_types args_w_kinds }
 
-splitHsAppTys :: LHsType Name -> LHsType Name -> (LHsType Name, [LHsType Name])
-splitHsAppTys fun_ty arg_ty = split fun_ty [arg_ty]
-  where
-    split (L _ (HsAppTy f a)) as = split f (a:as)
-    split f                  as = (f,as)
-
-mkHsAppTys :: LHsType Name -> [LHsType Name] -> HsType Name
-mkHsAppTys fun_ty [] = pprPanic "mkHsAppTys" (ppr fun_ty)
-mkHsAppTys fun_ty (arg_ty:arg_tys)
-  = foldl mk_app (HsAppTy fun_ty arg_ty) arg_tys
-  where
-    mk_app fun arg = HsAppTy (noLoc fun) arg   -- Add noLocs for inner nodes of
-                                               -- the application; they are
-                                               -- never used 
 
 ---------------------------
 splitFunKind :: SDoc -> Int -> TcKind -> [b] -> TcM ([(b,ExpKind)], TcKind)
@@ -585,6 +581,16 @@ ds_type (HsPArrTy ty) = do
     checkWiredInTyCon parrTyCon
     return (mkPArrTy tau_ty)
 
+ds_type (HsModalBoxType ecn ty) = do
+    tau_ty <- dsHsType ty
+    checkWiredInTyCon hetMetCodeTypeTyCon
+    return (mkHetMetCodeTypeTy (mkTyVar ecn ecKind) tau_ty)
+
+ds_type (HsKappaTy ty1 ty2) = do
+    tau_ty1 <- dsHsType ty1
+    tau_ty2 <- dsHsType ty2
+    return (mkHetMetKappaTy tau_ty1 tau_ty2)
+
 ds_type (HsTupleTy boxity tys) = do
     tau_tys <- dsHsTypes tys
     checkWiredInTyCon tycon
@@ -848,7 +854,7 @@ tcPatSig :: UserTypeCtxt
                 [(Name, TcType)], -- The new bit of type environment, binding
                                   -- the scoped type variables
                  HsWrapper)        -- Coercion due to unification with actual ty
-                                  -- Of shape:  res_ty ~ sig_ty
+                                   -- Of shape:  res_ty ~ sig_ty
 tcPatSig ctxt sig res_ty
   = do { (sig_tvs, sig_ty) <- tcHsPatSigType ctxt sig
        -- sig_tvs are the type variables free in 'sig', 
@@ -860,8 +866,7 @@ tcPatSig ctxt sig res_ty
                -- and hence is rigid, so use it to zap the res_ty
                   wrap <- tcSubType PatSigOrigin ctxt res_ty sig_ty
                ; return (sig_ty, [], wrap)
-
-       } else do {
+        } else do {
                -- Type signature binds at least one scoped type variable
        
                -- A pattern binding cannot bind scoped type variables
@@ -884,20 +889,20 @@ tcPatSig ctxt sig res_ty
        ; checkTc (null bad_tvs) (badPatSigTvs sig_ty bad_tvs)
 
        -- Now do a subsumption check of the pattern signature against res_ty
-       ; sig_tvs' <- tcInstSigTyVars sig_tvs
+        ; sig_tvs' <- tcInstSigTyVars sig_tvs
         ; let sig_ty' = substTyWith sig_tvs sig_tv_tys' sig_ty
               sig_tv_tys' = mkTyVarTys sig_tvs'
-        ; wrap <- tcSubType PatSigOrigin ctxt res_ty sig_ty'
+       ; wrap <- tcSubType PatSigOrigin ctxt res_ty sig_ty'
 
        -- Check that each is bound to a distinct type variable,
        -- and one that is not already in scope
-       ; binds_in_scope <- getScopedTyVarBinds
+        ; binds_in_scope <- getScopedTyVarBinds
        ; let tv_binds = map tyVarName sig_tvs `zip` sig_tv_tys'
        ; check binds_in_scope tv_binds
        
        -- Phew!
-       ; return (sig_ty', tv_binds, wrap)
-       } }
+        ; return (sig_ty', tv_binds, wrap)
+        } }
   where
     check _ [] = return ()
     check in_scope ((n,ty):rest) = do { check_one in_scope n ty
@@ -908,7 +913,7 @@ tcPatSig ctxt sig res_ty
                -- Must not bind to the same type variable
                -- as some other in-scope type variable
        where
-         dups = [n' | (n',ty') <- in_scope, tcEqType ty' ty]
+         dups = [n' | (n',ty') <- in_scope, eqType ty' ty]
 \end{code}