X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Ftypecheck%2FTcHsSyn.lhs;h=06cbe33daf73671c45dece935911e0cf949fb19e;hp=6b4449a1072463652947ba77b87cb6b4278b8d6a;hb=fdf8656855d26105ff36bdd24d41827b05037b91;hpb=a3bab0506498db41853543558c52a4fda0d183af

diff --git a/compiler/typecheck/TcHsSyn.lhs b/compiler/typecheck/TcHsSyn.lhs
index 6b4449a..06cbe33 100644
--- a/compiler/typecheck/TcHsSyn.lhs
+++ b/compiler/typecheck/TcHsSyn.lhs
@@ -35,6 +35,7 @@ import TcRnMonad
 import PrelNames
 import TcType
 import TcMType
+import Coercion
 import TysPrim
 import TysWiredIn
 import DataCon
@@ -43,14 +44,15 @@ import NameSet
 import Var
 import VarSet
 import VarEnv
+import DynFlags( DynFlag(..) )
 import Literal
 import BasicTypes
 import Maybes
 import SrcLoc
-import DynFlags( DynFlag(..) )
 import Bag
 import FastString
 import Outputable
+import Data.Traversable( traverse )
 \end{code}
 
 \begin{code}
@@ -269,15 +271,16 @@ zonkTopLExpr e = zonkLExpr emptyZonkEnv e
 
 zonkTopDecls :: Bag EvBind 
              -> LHsBinds TcId -> NameSet
-             -> [LRuleDecl TcId] -> [LTcSpecPrag] -> [LForeignDecl TcId]
-	     -> TcM ([Id], 
-	             Bag EvBind,
-		     Bag (LHsBind  Id),
-		     [LForeignDecl Id],
-		     [LTcSpecPrag],
-		     [LRuleDecl    Id])
-zonkTopDecls ev_binds binds sig_ns rules imp_specs fords
-  = do	{ (env1, ev_binds') <- zonkEvBinds emptyZonkEnv ev_binds
+             -> [LRuleDecl TcId] -> [LVectDecl TcId] -> [LTcSpecPrag] -> [LForeignDecl TcId]
+             -> TcM ([Id], 
+                     Bag EvBind,
+                     Bag (LHsBind  Id),
+                     [LForeignDecl Id],
+                     [LTcSpecPrag],
+                     [LRuleDecl    Id],
+                     [LVectDecl    Id])
+zonkTopDecls ev_binds binds sig_ns rules vects imp_specs fords
+  = do  { (env1, ev_binds') <- zonkEvBinds emptyZonkEnv ev_binds
 
 	 -- Warn about missing signatures
 	 -- Do this only when we we have a type to offer
@@ -286,11 +289,12 @@ zonkTopDecls ev_binds binds sig_ns rules imp_specs fords
                        | otherwise         = noSigWarn
 
         ; (env2, binds') <- zonkRecMonoBinds env1 sig_warn binds
-			-- Top level is implicitly recursive
-	; rules' <- zonkRules env2 rules
+                        -- Top level is implicitly recursive
+        ; rules' <- zonkRules env2 rules
+        ; vects' <- zonkVects env2 vects
         ; specs' <- zonkLTcSpecPrags env2 imp_specs
-	; fords' <- zonkForeignExports env2 fords
-	; return (zonkEnvIds env2, ev_binds', binds', fords', specs', rules') }
+        ; fords' <- zonkForeignExports env2 fords
+        ; return (zonkEnvIds env2, ev_binds', binds', fords', specs', rules', vects') }
 
 ---------------------------------------------
 zonkLocalBinds :: ZonkEnv -> HsLocalBinds TcId -> TcM (ZonkEnv, HsLocalBinds Id)
@@ -580,8 +584,7 @@ zonkExpr env (HsDo do_or_lc stmts body ty)
   = zonkStmts env stmts 	`thenM` \ (new_env, new_stmts) ->
     zonkLExpr new_env body	`thenM` \ new_body ->
     zonkTcTypeToType env ty	`thenM` \ new_ty   ->
-    zonkDo env do_or_lc	 	`thenM` \ new_do_or_lc ->
-    returnM (HsDo new_do_or_lc new_stmts new_body new_ty)
+    returnM (HsDo do_or_lc new_stmts new_body new_ty)
 
 zonkExpr env (ExplicitList ty exprs)
   = zonkTcTypeToType env ty	`thenM` \ new_ty ->
@@ -675,7 +678,7 @@ zonkCoFn env WpHole   = return (env, WpHole)
 zonkCoFn env (WpCompose c1 c2) = do { (env1, c1') <- zonkCoFn env c1
 				    ; (env2, c2') <- zonkCoFn env1 c2
 				    ; return (env2, WpCompose c1' c2') }
-zonkCoFn env (WpCast co)    = do { co' <- zonkTcTypeToType env co
+zonkCoFn env (WpCast co)    = do { co' <- zonkTcCoToCo env co
 				 ; return (env, WpCast co') }
 zonkCoFn env (WpEvLam ev)   = do { (env', ev') <- zonkEvBndrX env ev
 				 ; return (env', WpEvLam ev') }
@@ -689,13 +692,6 @@ zonkCoFn env (WpLet bs)     = do { (env1, bs') <- zonkTcEvBinds env bs
 				 ; return (env1, WpLet bs') }
 
 -------------------------------------------------------------------------
-zonkDo :: ZonkEnv -> HsStmtContext Name -> TcM (HsStmtContext Name)
--- Only used for 'do', so the only Ids are in a MDoExpr table
-zonkDo env (MDoExpr tbl) = do { tbl' <- mapSndM (zonkExpr env) tbl
-                              ; return (MDoExpr tbl') }
-zonkDo _   do_or_lc      = return do_or_lc
-
--------------------------------------------------------------------------
 zonkOverLit :: ZonkEnv -> HsOverLit TcId -> TcM (HsOverLit Id)
 zonkOverLit env lit@(OverLit { ol_witness = e, ol_type = ty })
   = do	{ ty' <- zonkTcTypeToType env ty
@@ -747,7 +743,7 @@ zonkStmt env (ParStmt stmts_w_bndrs)
 
 zonkStmt env (RecStmt { recS_stmts = segStmts, recS_later_ids = lvs, recS_rec_ids = rvs
                       , recS_ret_fn = ret_id, recS_mfix_fn = mfix_id, recS_bind_fn = bind_id
-                      , recS_rec_rets = rets, recS_dicts = binds })
+                      , recS_rec_rets = rets })
   = do { new_rvs <- zonkIdBndrs env rvs
        ; new_lvs <- zonkIdBndrs env lvs
        ; new_ret_id  <- zonkExpr env ret_id
@@ -758,13 +754,11 @@ zonkStmt env (RecStmt { recS_stmts = segStmts, recS_later_ids = lvs, recS_rec_id
 	-- Zonk the ret-expressions in an envt that 
 	-- has the polymorphic bindings in the envt
        ; new_rets <- mapM (zonkExpr env2) rets
-       ; let env3 = extendZonkEnv env new_lvs	-- Only the lvs are needed
-       ; (env4, new_binds) <- zonkTcEvBinds env3 binds
-       ; return (env4,
+       ; return (extendZonkEnv env new_lvs,     -- Only the lvs are needed
                  RecStmt { recS_stmts = new_segStmts, recS_later_ids = new_lvs
                          , recS_rec_ids = new_rvs, recS_ret_fn = new_ret_id
                          , recS_mfix_fn = new_mfix_id, recS_bind_fn = new_bind_id
-                         , recS_rec_rets = new_rets, recS_dicts = new_binds }) }
+                         , recS_rec_rets = new_rets }) }
 
 zonkStmt env (ExprStmt expr then_op ty)
   = zonkLExpr env expr		`thenM` \ new_expr ->
@@ -1012,10 +1006,24 @@ zonkRule env (HsRule name act (vars{-::[RuleBndr TcId]-}) lhs fv_lhs rhs fv_rhs)
 
    zonk_it env v
      | isId v     = do { v' <- zonkIdBndr env v; return (extendZonkEnv1 env v', v') }
-     | isCoVar v  = do { v' <- zonkEvBndr env v; return (extendZonkEnv1 env v', v') }
      | otherwise  = ASSERT( isImmutableTyVar v) return (env, v)
 \end{code}
 
+\begin{code}
+zonkVects :: ZonkEnv -> [LVectDecl TcId] -> TcM [LVectDecl Id]
+zonkVects env = mappM (wrapLocM (zonkVect env))
+
+zonkVect :: ZonkEnv -> VectDecl TcId -> TcM (VectDecl Id)
+zonkVect env (HsVect v Nothing)
+  = do { v' <- wrapLocM (zonkIdBndr env) v
+       ; return $ HsVect v' Nothing
+       }
+zonkVect env (HsVect v (Just e))
+  = do { v' <- wrapLocM (zonkIdBndr env) v
+       ; e' <- zonkLExpr env e
+       ; return $ HsVect v' (Just e')
+       }
+\end{code}
 
 %************************************************************************
 %*									*
@@ -1027,10 +1035,10 @@ zonkRule env (HsRule name act (vars{-::[RuleBndr TcId]-}) lhs fv_lhs rhs fv_rhs)
 zonkEvTerm :: ZonkEnv -> EvTerm -> TcM EvTerm
 zonkEvTerm env (EvId v)           = ASSERT2( isId v, ppr v ) 
                                     return (EvId (zonkIdOcc env v))
-zonkEvTerm env (EvCoercion co)    = do { co' <- zonkTcTypeToType env co
+zonkEvTerm env (EvCoercion co)    = do { co' <- zonkTcCoToCo env co
                                        ; return (EvCoercion co') }
 zonkEvTerm env (EvCast v co)      = ASSERT( isId v) 
-                                    do { co' <- zonkTcTypeToType env co
+                                    do { co' <- zonkTcCoToCo env co
                                        ; return (EvCast (zonkIdOcc env v) co') }
 zonkEvTerm env (EvSuperClass d n) = return (EvSuperClass (zonkIdOcc env d) n)
 zonkEvTerm env (EvDFunApp df tys tms)
@@ -1085,7 +1093,7 @@ zonkTypeCollecting unbound_tv_set
   = zonkType (mkZonkTcTyVar zonk_unbound_tyvar)
   where
     zonk_unbound_tyvar tv 
-	= do { tv' <- zonkQuantifiedTyVar tv
+        = do { tv' <- zonkQuantifiedTyVar tv
 	     ; tv_set <- readMutVar unbound_tv_set
 	     ; writeMutVar unbound_tv_set (extendVarSet tv_set tv')
 	     ; return (mkTyVarTy tv') }
@@ -1105,4 +1113,28 @@ zonkTypeZapping ty
     zonk_unbound_tyvar tv = do { let ty = anyTypeOfKind (tyVarKind tv)
 			       ; writeMetaTyVar tv ty
 			       ; return ty }
+
+zonkTcCoToCo :: ZonkEnv -> Coercion -> TcM Coercion
+zonkTcCoToCo env co
+  = go co
+  where
+    go (CoVarCo cv)         = return (CoVarCo (zonkEvVarOcc env cv))
+    go (Refl ty)            = do { ty' <- zonkTcTypeToType env ty
+                                 ; return (Refl ty') }
+    go (TyConAppCo tc cos)  = do { cos' <- mapM go cos; return (mkTyConAppCo tc cos') }
+    go (AxiomInstCo ax cos) = do { cos' <- mapM go cos; return (AxiomInstCo ax cos') }
+    go (AppCo co1 co2)      = do { co1' <- go co1; co2' <- go co2
+                                 ; return (mkAppCo co1' co2') }
+    go (PredCo pco)         = do { pco' <- go `traverse` pco; return (mkPredCo pco') }
+    go (UnsafeCo t1 t2)     = do { t1' <- zonkTcTypeToType env t1
+                                 ; t2' <- zonkTcTypeToType env t2
+                                 ; return (mkUnsafeCo t1' t2') }
+    go (SymCo co)           = do { co' <- go co; return (mkSymCo co')  }
+    go (NthCo n co)         = do { co' <- go co; return (mkNthCo n co')  }
+    go (TransCo co1 co2)    = do { co1' <- go co1; co2' <- go co2
+                                 ; return (mkTransCo co1' co2')  }
+    go (InstCo co ty)       = do { co' <- go co; ty' <- zonkTcTypeToType env ty
+                                 ; return (mkInstCo co' ty')  }
+    go (ForAllCo tv co)     = ASSERT( isImmutableTyVar tv )
+                              do { co' <- go co; return (mkForAllCo tv co') }
 \end{code}
\ No newline at end of file