X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fiface%2FBuildTyCl.lhs;h=dfa8ba2ffc11c122f69b3c57cbd4b6fa700d6be1;hp=bf71ca843ce8fa5158f27b326197aa2aa42341cb;hb=9da4639011348fb6c318e3cba4b08622f811d9c4;hpb=bb106f283663e9c16a4c72ec9ca57109ae57a0ed

diff --git a/compiler/iface/BuildTyCl.lhs b/compiler/iface/BuildTyCl.lhs
index bf71ca8..dfa8ba2 100644
--- a/compiler/iface/BuildTyCl.lhs
+++ b/compiler/iface/BuildTyCl.lhs
@@ -15,32 +15,32 @@ module BuildTyCl (
 import IfaceEnv		( newImplicitBinder )
 import TcRnMonad
 
-import DataCon		( DataCon, isNullarySrcDataCon, dataConUnivTyVars,
-			  mkDataCon, dataConFieldLabels, dataConInstOrigArgTys,
-                          dataConTyCon )
+import DataCon		( DataCon, isNullarySrcDataCon, 
+			  mkDataCon, dataConFieldLabels, dataConInstOrigArgTys )
 import Var		( tyVarKind, TyVar, Id )
 import VarSet		( isEmptyVarSet, intersectVarSet, elemVarSet )
 import TysWiredIn  	( unitTy )
 import BasicTypes	( RecFlag, StrictnessMark(..) )
 import Name		( Name )
-import OccName		( mkDataConWrapperOcc, mkDataConWorkerOcc, mkClassTyConOcc,
-			  mkClassDataConOcc, mkSuperDictSelOcc, mkNewTyCoOcc )
+import OccName		( mkDataConWrapperOcc, mkDataConWorkerOcc,
+			  mkClassTyConOcc, mkClassDataConOcc,
+			  mkSuperDictSelOcc, mkNewTyCoOcc, 
+			  mkInstTyCoOcc ) 
 import MkId		( mkDataConIds, mkRecordSelId, mkDictSelId )
 import Class		( mkClass, Class( classTyCon), FunDep, DefMeth(..) )
 import TyCon		( mkSynTyCon, mkAlgTyCon, visibleDataCons,
 			  tyConStupidTheta, tyConDataCons, isNewTyCon,
 			  mkClassTyCon, TyCon( tyConTyVars ),
-			  isRecursiveTyCon, tyConArity, AlgTyConRhs(..),
-			  SynTyConRhs(..), newTyConRhs )
+			  isRecursiveTyCon, AlgTyConRhs(..),
+			  SynTyConRhs(..), newTyConRhs, AlgTyConParent(..) )
 import Type		( mkArrowKinds, liftedTypeKind, typeKind, 
 			  tyVarsOfType, tyVarsOfTypes, tyVarsOfPred,
 			  splitTyConApp_maybe, splitAppTy_maybe,
 			  getTyVar_maybe, 
-			  mkPredTys, mkTyVarTys, ThetaType, Type, Kind,
+			  mkPredTys, mkTyVarTys, ThetaType, Type, 
 			  TyThing(..), 
-			  substTyWith, zipTopTvSubst, substTheta, mkForAllTys,
-                          mkTyConApp, mkTyVarTy )
-import Coercion         ( mkNewTypeCoercion )
+			  substTyWith, zipTopTvSubst, substTheta )
+import Coercion         ( mkNewTypeCoercion, mkDataInstCoercion )
 import Outputable
 import List		( nub )
 
@@ -67,15 +67,46 @@ buildAlgTyCon :: Name -> [TyVar]
 	      -> RecFlag
 	      -> Bool			-- True <=> want generics functions
 	      -> Bool			-- True <=> was declared in GADT syntax
+	      -> Maybe (TyCon, [Type])  -- family instance if applicable
 	      -> TcRnIf m n TyCon
 
 buildAlgTyCon tc_name tvs stupid_theta rhs is_rec want_generics gadt_syn
-  = do	{ let { tycon = mkAlgTyCon tc_name kind tvs stupid_theta
-				   rhs fields is_rec want_generics gadt_syn
-	      ; kind    = mkArrowKinds (map tyVarKind tvs) liftedTypeKind
-	      ; fields  = mkTyConSelIds tycon rhs
-	  }
-	; return tycon }
+	      mb_family
+  = do { -- We need to tie a knot as the coercion of a data instance depends
+	 -- on the instance representation tycon and vice versa.
+       ; tycon <- fixM (\ tycon_rec -> do 
+	 { parent <- parentInfo mb_family tycon_rec
+	 ; let { tycon = mkAlgTyCon tc_name kind tvs stupid_theta rhs
+				    fields parent is_rec want_generics gadt_syn
+	       ; kind    = mkArrowKinds (map tyVarKind tvs) liftedTypeKind
+	       ; fields  = mkTyConSelIds tycon rhs
+	       }
+         ; return tycon
+         })
+       ; return tycon 
+       }
+  where
+    -- If a family tycon with instance types is given, the current tycon is an
+    -- instance of that family and we need to
+    --
+    -- (1) create a coercion that identifies the family instance type and the
+    --     representation type from Step (1); ie, it is of the form 
+    --	   `Co tvs :: F ts :=: R tvs', where `Co' is the name of the coercion,
+    --	   `F' the family tycon and `R' the (derived) representation tycon,
+    --	   and
+    -- (2) produce a `AlgTyConParent' value containing the parent and coercion
+    --     information.
+    --
+    parentInfo Nothing                  rep_tycon = 
+      return NoParentTyCon
+    parentInfo (Just (family, instTys)) rep_tycon =
+      do { -- Create the coercion
+	 ; co_tycon_name <- newImplicitBinder tc_name mkInstTyCoOcc
+	 ; let co_tycon = mkDataInstCoercion co_tycon_name tvs
+					     family instTys rep_tycon
+	 ; return $ FamilyTyCon family instTys co_tycon
+	 }
+    
 
 ------------------------------------------------------
 mkAbstractTyConRhs :: AlgTyConRhs
@@ -97,21 +128,20 @@ mkNewTyConRhs :: Name -> TyCon -> DataCon -> TcRnIf m n AlgTyConRhs
 -- because the latter is part of a knot, whereas the former is not.
 mkNewTyConRhs tycon_name tycon con 
   = do	{ co_tycon_name <- newImplicitBinder tycon_name mkNewTyCoOcc
-	; let co_tycon = mkNewTypeCoercion co_tycon_name tycon tvs rhs_ty
-              cocon_maybe 
-                | all_coercions || isRecursiveTyCon tycon 
-                = Just co_tycon
-                | otherwise              
-                = Nothing
-	; return (NewTyCon { data_con = con, 
+	; let co_tycon = mkNewTypeCoercion co_tycon_name tycon etad_rhs
+              cocon_maybe | all_coercions || isRecursiveTyCon tycon 
+		          = Just co_tycon
+                	  | otherwise              
+                	  = Nothing
+	; return (NewTyCon { data_con    = con, 
+		       	     nt_rhs      = rhs_ty,
+		       	     nt_etad_rhs = etad_rhs,
  		       	     nt_co = cocon_maybe, 
                              -- Coreview looks through newtypes with a Nothing
                              -- for nt_co, or uses explicit coercions otherwise
-		       	     nt_rhs = rhs_ty,
-		       	     nt_etad_rhs = eta_reduce tvs rhs_ty,
 		       	     nt_rep = mkNewTyConRep tycon rhs_ty }) }
   where
-        -- if all_coercions is True then we use coercions for all newtypes
+        -- If all_coercions is True then we use coercions for all newtypes
         -- otherwise we use coercions for recursive newtypes and look through
         -- non-recursive newtypes
     all_coercions = True
@@ -120,18 +150,20 @@ mkNewTyConRhs tycon_name tycon con
 	-- Instantiate the data con with the 
 	-- type variables from the tycon
 
-    eta_reduce [] ty = ([], ty)
-    eta_reduce (a:as) ty | null as', 
-			   Just (fun, arg) <- splitAppTy_maybe ty',
+    etad_rhs :: ([TyVar], Type)
+    etad_rhs = eta_reduce (reverse tvs) rhs_ty
+
+    eta_reduce :: [TyVar]		-- Reversed
+	       -> Type			-- Rhs type
+	       -> ([TyVar], Type)	-- Eta-reduced version (tyvars in normal order)
+    eta_reduce (a:as) ty | Just (fun, arg) <- splitAppTy_maybe ty,
 			   Just tv <- getTyVar_maybe arg,
 			   tv == a,
 			   not (a `elemVarSet` tyVarsOfType fun)
-			 = ([], fun)	-- Successful eta reduction
-			 | otherwise
-			 = (a:as', ty')
-	where
-  	  (as', ty') = eta_reduce as ty
+			 = eta_reduce as fun
+    eta_reduce tvs ty = (reverse tvs, ty)
 				
+
 mkNewTyConRep :: TyCon		-- The original type constructor
 	      -> Type		-- The arg type of its constructor
 	      -> Type		-- Chosen representation type
@@ -195,7 +227,8 @@ buildDataCon src_name declared_infix arg_stricts field_lbls
 		data_con = mkDataCon src_name declared_infix
 				     arg_stricts field_lbls
 				     univ_tvs ex_tvs eq_spec ctxt
-				     arg_tys tycon stupid_ctxt dc_ids
+				     arg_tys tycon
+				     stupid_ctxt dc_ids
 		dc_ids = mkDataConIds wrap_name work_name data_con
 
 	; returnM data_con }