%
-% (c) The AQUA Project, Glasgow University, 1996
+% (c) The AQUA Project, Glasgow University, 1996-1998
%
\section[TcHsSyn]{Specialisations of the @HsSyn@ syntax for the typechecker}
\begin{code}
module TcHsSyn (
- TcIdBndr(..), TcIdOcc(..),
+ mkHsTyApp, mkHsDictApp, mkHsConApp,
+ mkHsTyLam, mkHsDictLam, mkHsDictLet, mkHsApp,
+ hsLitType, hsPatType, mkHsAppTy, mkSimpleHsAlt,
+ nlHsIntLit, mkVanillaTuplePat,
- TcMonoBinds(..), TcHsBinds(..), TcBind(..), TcPat(..),
- TcExpr(..), TcGRHSsAndBinds(..), TcGRHS(..), TcMatch(..),
- TcQual(..), TcStmt(..), TcArithSeqInfo(..), TcRecordBinds(..),
- TcHsModule(..),
-
- TypecheckedHsBinds(..), TypecheckedBind(..),
- TypecheckedMonoBinds(..), TypecheckedPat(..),
- TypecheckedHsExpr(..), TypecheckedArithSeqInfo(..),
- TypecheckedQual(..), TypecheckedStmt(..),
- TypecheckedMatch(..), TypecheckedHsModule(..),
- TypecheckedGRHSsAndBinds(..), TypecheckedGRHS(..),
-
- mkHsTyApp, mkHsDictApp,
- mkHsTyLam, mkHsDictLam,
- tcIdType,
-
- zonkBinds,
- zonkInst,
- zonkId, -- TcIdBndr s -> NF_TcM s Id
- unZonkId -- Id -> NF_TcM s (TcIdBndr s)
+
+ -- re-exported from TcMonad
+ TcId, TcIdSet, TcDictBinds,
+
+ zonkTopDecls, zonkTopExpr, zonkTopLExpr,
+ zonkId, zonkTopBndrs
) where
-import Ubiq{-uitous-}
+#include "HsVersions.h"
-- friends:
import HsSyn -- oodles of it
-import Id ( GenId(..), IdDetails, PragmaInfo, -- Can meddle modestly with Ids
- DictVar(..), idType
- )
-- others:
-import TcMonad
-import TcType ( TcType(..), TcMaybe, TcTyVar(..),
- zonkTcTypeToType, zonkTcTyVarToTyVar,
- tcInstType
- )
-import Usage ( UVar(..) )
-import Util ( panic )
-
-import PprType ( GenType, GenTyVar ) -- instances
-import TyVar ( GenTyVar ) -- instances
-import Unique ( Unique ) -- instances
+import Id ( idType, setIdType, Id )
+
+import TcRnMonad
+import Type ( Type )
+import TcType ( TcType, TcTyVar, mkTyVarTy, mkTyConApp, isImmutableTyVar )
+import Kind ( isLiftedTypeKind, liftedTypeKind, isSubKind )
+import qualified Type
+import TcMType ( zonkQuantifiedTyVar, zonkType, zonkTcType, writeMetaTyVar )
+import TysPrim ( charPrimTy, intPrimTy, floatPrimTy,
+ doublePrimTy, addrPrimTy
+ )
+import TysWiredIn ( charTy, stringTy, intTy,
+ mkListTy, mkPArrTy, mkTupleTy, unitTy,
+ voidTy, listTyCon, tupleTyCon )
+import TyCon ( mkPrimTyCon, tyConKind, PrimRep(..) )
+import Kind ( splitKindFunTys )
+import Name ( Name, getOccName, mkInternalName, mkDerivedTyConOcc )
+import Var ( Var, isId, isLocalVar, tyVarKind )
+import VarSet
+import VarEnv
+import BasicTypes ( Boxity(..), IPName(..), ipNameName, mapIPName )
+import Maybes ( orElse )
+import Unique ( Uniquable(..) )
+import SrcLoc ( noSrcLoc, noLoc, Located(..), unLoc )
+import Util ( mapSnd )
+import Bag
+import Outputable
\end{code}
-Type definitions
-~~~~~~~~~~~~~~~~
+%************************************************************************
+%* *
+\subsection[mkFailurePair]{Code for pattern-matching and other failures}
+%* *
+%************************************************************************
-The @Tc...@ datatypes are the ones that apply {\em during} type checking.
-All the types in @Tc...@ things have mutable type-variables in them for
-unification.
+Note: If @hsPatType@ doesn't bear a strong resemblance to @exprType@,
+then something is wrong.
+\begin{code}
+mkVanillaTuplePat :: [OutPat Id] -> Boxity -> Pat Id
+-- A vanilla tuple pattern simply gets its type from its sub-patterns
+mkVanillaTuplePat pats box
+ = TuplePat pats box (mkTupleTy box (length pats) (map hsPatType pats))
+
+hsPatType :: OutPat Id -> Type
+hsPatType (L _ pat) = pat_type pat
+
+pat_type (ParPat pat) = hsPatType pat
+pat_type (WildPat ty) = ty
+pat_type (VarPat var) = idType var
+pat_type (VarPatOut var _) = idType var
+pat_type (BangPat pat) = hsPatType pat
+pat_type (LazyPat pat) = hsPatType pat
+pat_type (LitPat lit) = hsLitType lit
+pat_type (AsPat var pat) = idType (unLoc var)
+pat_type (ListPat _ ty) = mkListTy ty
+pat_type (PArrPat _ ty) = mkPArrTy ty
+pat_type (TuplePat pats box ty) = ty
+pat_type (ConPatOut _ _ _ _ _ ty) = ty
+pat_type (SigPatOut pat ty) = ty
+pat_type (NPat lit _ _ ty) = ty
+pat_type (NPlusKPat id _ _ _) = idType (unLoc id)
+pat_type (DictPat ds ms) = case (ds ++ ms) of
+ [] -> unitTy
+ [d] -> idType d
+ ds -> mkTupleTy Boxed (length ds) (map idType ds)
+
+
+hsLitType :: HsLit -> TcType
+hsLitType (HsChar c) = charTy
+hsLitType (HsCharPrim c) = charPrimTy
+hsLitType (HsString str) = stringTy
+hsLitType (HsStringPrim s) = addrPrimTy
+hsLitType (HsInt i) = intTy
+hsLitType (HsIntPrim i) = intPrimTy
+hsLitType (HsInteger i ty) = ty
+hsLitType (HsRat _ ty) = ty
+hsLitType (HsFloatPrim f) = floatPrimTy
+hsLitType (HsDoublePrim d) = doublePrimTy
+\end{code}
-At the end of type checking we zonk everything to @Typechecked...@ datatypes,
-which have immutable type variables in them.
+
+%************************************************************************
+%* *
+\subsection[BackSubst-HsBinds]{Running a substitution over @HsBinds@}
+%* *
+%************************************************************************
\begin{code}
-type TcIdBndr s = GenId (TcType s) -- Binders are all TcTypes
-data TcIdOcc s = TcId (TcIdBndr s) -- Bindees may be either
- | RealId Id
-
-type TcHsBinds s = HsBinds (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcBind s = Bind (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcMonoBinds s = MonoBinds (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcPat s = OutPat (TcTyVar s) UVar (TcIdOcc s)
-type TcExpr s = HsExpr (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcGRHSsAndBinds s = GRHSsAndBinds (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcGRHS s = GRHS (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcMatch s = Match (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcQual s = Qual (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcStmt s = Stmt (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcArithSeqInfo s = ArithSeqInfo (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcRecordBinds s = HsRecordBinds (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-type TcHsModule s = HsModule (TcTyVar s) UVar (TcIdOcc s) (TcPat s)
-
-type TypecheckedPat = OutPat TyVar UVar Id
-type TypecheckedMonoBinds = MonoBinds TyVar UVar Id TypecheckedPat
-type TypecheckedHsBinds = HsBinds TyVar UVar Id TypecheckedPat
-type TypecheckedBind = Bind TyVar UVar Id TypecheckedPat
-type TypecheckedHsExpr = HsExpr TyVar UVar Id TypecheckedPat
-type TypecheckedArithSeqInfo = ArithSeqInfo TyVar UVar Id TypecheckedPat
-type TypecheckedQual = Qual TyVar UVar Id TypecheckedPat
-type TypecheckedStmt = Stmt TyVar UVar Id TypecheckedPat
-type TypecheckedMatch = Match TyVar UVar Id TypecheckedPat
-type TypecheckedGRHSsAndBinds = GRHSsAndBinds TyVar UVar Id TypecheckedPat
-type TypecheckedGRHS = GRHS TyVar UVar Id TypecheckedPat
-type TypecheckedHsModule = HsModule TyVar UVar Id TypecheckedPat
+-- zonkId is used *during* typechecking just to zonk the Id's type
+zonkId :: TcId -> TcM TcId
+zonkId id
+ = zonkTcType (idType id) `thenM` \ ty' ->
+ returnM (setIdType id ty')
\end{code}
-\begin{code}
-mkHsTyApp expr [] = expr
-mkHsTyApp expr tys = TyApp expr tys
+The rest of the zonking is done *after* typechecking.
+The main zonking pass runs over the bindings
-mkHsDictApp expr [] = expr
-mkHsDictApp expr dict_vars = DictApp expr dict_vars
+ a) to convert TcTyVars to TyVars etc, dereferencing any bindings etc
+ b) convert unbound TcTyVar to Void
+ c) convert each TcId to an Id by zonking its type
-mkHsTyLam [] expr = expr
-mkHsTyLam tyvars expr = TyLam tyvars expr
+The type variables are converted by binding mutable tyvars to immutable ones
+and then zonking as normal.
-mkHsDictLam [] expr = expr
-mkHsDictLam dicts expr = DictLam dicts expr
+The Ids are converted by binding them in the normal Tc envt; that
+way we maintain sharing; eg an Id is zonked at its binding site and they
+all occurrences of that Id point to the common zonked copy
-tcIdType :: TcIdOcc s -> TcType s
-tcIdType (TcId id) = idType id
-tcIdType other = panic "tcIdType"
-\end{code}
+It's all pretty boring stuff, because HsSyn is such a large type, and
+the environment manipulation is tiresome.
+\begin{code}
+data ZonkEnv = ZonkEnv (TcType -> TcM Type) -- How to zonk a type
+ (IdEnv Id) -- What variables are in scope
+ -- Maps an Id to its zonked version; both have the same Name
+ -- Is only consulted lazily; hence knot-tying
+
+emptyZonkEnv = ZonkEnv zonkTypeZapping emptyVarEnv
+
+extendZonkEnv :: ZonkEnv -> [Id] -> ZonkEnv
+extendZonkEnv (ZonkEnv zonk_ty env) ids
+ = ZonkEnv zonk_ty (extendVarEnvList env [(id,id) | id <- ids])
+
+extendZonkEnv1 :: ZonkEnv -> Id -> ZonkEnv
+extendZonkEnv1 (ZonkEnv zonk_ty env) id
+ = ZonkEnv zonk_ty (extendVarEnv env id id)
+
+setZonkType :: ZonkEnv -> (TcType -> TcM Type) -> ZonkEnv
+setZonkType (ZonkEnv _ env) zonk_ty = ZonkEnv zonk_ty env
+
+zonkEnvIds :: ZonkEnv -> [Id]
+zonkEnvIds (ZonkEnv _ env) = varEnvElts env
+
+zonkIdOcc :: ZonkEnv -> TcId -> Id
+-- Ids defined in this module should be in the envt;
+-- ignore others. (Actually, data constructors are also
+-- not LocalVars, even when locally defined, but that is fine.)
+-- (Also foreign-imported things aren't currently in the ZonkEnv;
+-- that's ok because they don't need zonking.)
+--
+-- Actually, Template Haskell works in 'chunks' of declarations, and
+-- an earlier chunk won't be in the 'env' that the zonking phase
+-- carries around. Instead it'll be in the tcg_gbl_env, already fully
+-- zonked. There's no point in looking it up there (except for error
+-- checking), and it's not conveniently to hand; hence the simple
+-- 'orElse' case in the LocalVar branch.
+--
+-- Even without template splices, in module Main, the checking of
+-- 'main' is done as a separate chunk.
+zonkIdOcc (ZonkEnv zonk_ty env) id
+ | isLocalVar id = lookupVarEnv env id `orElse` id
+ | otherwise = id
+
+zonkIdOccs env ids = map (zonkIdOcc env) ids
+
+-- zonkIdBndr is used *after* typechecking to get the Id's type
+-- to its final form. The TyVarEnv give
+zonkIdBndr :: ZonkEnv -> TcId -> TcM Id
+zonkIdBndr env id
+ = zonkTcTypeToType env (idType id) `thenM` \ ty' ->
+ returnM (setIdType id ty')
+
+zonkIdBndrs :: ZonkEnv -> [TcId] -> TcM [Id]
+zonkIdBndrs env ids = mappM (zonkIdBndr env) ids
+
+zonkTopBndrs :: [TcId] -> TcM [Id]
+zonkTopBndrs ids = zonkIdBndrs emptyZonkEnv ids
+\end{code}
\begin{code}
-instance Eq (TcIdOcc s) where
- (TcId id1) == (TcId id2) = id1 == id2
- (RealId id1) == (RealId id2) = id1 == id2
+zonkTopExpr :: HsExpr TcId -> TcM (HsExpr Id)
+zonkTopExpr e = zonkExpr emptyZonkEnv e
+
+zonkTopLExpr :: LHsExpr TcId -> TcM (LHsExpr Id)
+zonkTopLExpr e = zonkLExpr emptyZonkEnv e
+
+zonkTopDecls :: LHsBinds TcId -> [LRuleDecl TcId] -> [LForeignDecl TcId]
+ -> TcM ([Id],
+ Bag (LHsBind Id),
+ [LForeignDecl Id],
+ [LRuleDecl Id])
+zonkTopDecls binds rules fords
+ = do { (env, binds') <- zonkRecMonoBinds emptyZonkEnv binds
+ -- Top level is implicitly recursive
+ ; rules' <- zonkRules env rules
+ ; fords' <- zonkForeignExports env fords
+ ; return (zonkEnvIds env, binds', fords', rules') }
+
+---------------------------------------------
+zonkLocalBinds :: ZonkEnv -> HsLocalBinds TcId -> TcM (ZonkEnv, HsLocalBinds Id)
+zonkLocalBinds env EmptyLocalBinds
+ = return (env, EmptyLocalBinds)
+
+zonkLocalBinds env (HsValBinds binds)
+ = do { (env1, new_binds) <- zonkValBinds env binds
+ ; return (env1, HsValBinds new_binds) }
+
+zonkLocalBinds env (HsIPBinds (IPBinds binds dict_binds))
+ = mappM (wrapLocM zonk_ip_bind) binds `thenM` \ new_binds ->
+ let
+ env1 = extendZonkEnv env [ipNameName n | L _ (IPBind n _) <- new_binds]
+ in
+ zonkRecMonoBinds env1 dict_binds `thenM` \ (env2, new_dict_binds) ->
+ returnM (env2, HsIPBinds (IPBinds new_binds new_dict_binds))
+ where
+ zonk_ip_bind (IPBind n e)
+ = mapIPNameTc (zonkIdBndr env) n `thenM` \ n' ->
+ zonkLExpr env e `thenM` \ e' ->
+ returnM (IPBind n' e')
+
+
+---------------------------------------------
+zonkValBinds :: ZonkEnv -> HsValBinds TcId -> TcM (ZonkEnv, HsValBinds Id)
+zonkValBinds env bs@(ValBindsIn _ _)
+ = panic "zonkValBinds" -- Not in typechecker output
+zonkValBinds env (ValBindsOut binds sigs)
+ = do { (env1, new_binds) <- go env binds
+ ; return (env1, ValBindsOut new_binds sigs) }
+ where
+ go env [] = return (env, [])
+ go env ((r,b):bs) = do { (env1, b') <- zonkRecMonoBinds env b
+ ; (env2, bs') <- go env1 bs
+ ; return (env2, (r,b'):bs') }
+
+---------------------------------------------
+zonkRecMonoBinds :: ZonkEnv -> LHsBinds TcId -> TcM (ZonkEnv, LHsBinds Id)
+zonkRecMonoBinds env binds
+ = fixM (\ ~(_, new_binds) -> do
+ { let env1 = extendZonkEnv env (collectHsBindBinders new_binds)
+ ; binds' <- zonkMonoBinds env1 binds
+ ; return (env1, binds') })
+
+---------------------------------------------
+zonkMonoBinds :: ZonkEnv -> LHsBinds TcId -> TcM (LHsBinds Id)
+zonkMonoBinds env binds = mapBagM (wrapLocM (zonk_bind env)) binds
+
+zonk_bind :: ZonkEnv -> HsBind TcId -> TcM (HsBind Id)
+zonk_bind env bind@(PatBind { pat_lhs = pat, pat_rhs = grhss, pat_rhs_ty = ty})
+ = do { (_env, new_pat) <- zonkPat env pat -- Env already extended
+ ; new_grhss <- zonkGRHSs env grhss
+ ; new_ty <- zonkTcTypeToType env ty
+ ; return (bind { pat_lhs = new_pat, pat_rhs = new_grhss, pat_rhs_ty = new_ty }) }
+
+zonk_bind env (VarBind { var_id = var, var_rhs = expr })
+ = zonkIdBndr env var `thenM` \ new_var ->
+ zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (VarBind { var_id = new_var, var_rhs = new_expr })
+
+zonk_bind env bind@(FunBind { fun_id = var, fun_matches = ms, fun_co_fn = co_fn })
+ = wrapLocM (zonkIdBndr env) var `thenM` \ new_var ->
+ zonkCoFn env co_fn `thenM` \ (env1, new_co_fn) ->
+ zonkMatchGroup env1 ms `thenM` \ new_ms ->
+ returnM (bind { fun_id = new_var, fun_matches = new_ms, fun_co_fn = new_co_fn })
+
+zonk_bind env (AbsBinds { abs_tvs = tyvars, abs_dicts = dicts,
+ abs_exports = exports, abs_binds = val_binds })
+ = ASSERT( all isImmutableTyVar tyvars )
+ zonkIdBndrs env dicts `thenM` \ new_dicts ->
+ fixM (\ ~(new_val_binds, _) ->
+ let
+ env1 = extendZonkEnv env new_dicts
+ env2 = extendZonkEnv env1 (collectHsBindBinders new_val_binds)
+ in
+ zonkMonoBinds env2 val_binds `thenM` \ new_val_binds ->
+ mappM (zonkExport env2) exports `thenM` \ new_exports ->
+ returnM (new_val_binds, new_exports)
+ ) `thenM` \ (new_val_bind, new_exports) ->
+ returnM (AbsBinds { abs_tvs = tyvars, abs_dicts = new_dicts,
+ abs_exports = new_exports, abs_binds = new_val_bind })
+ where
+ zonkExport env (tyvars, global, local, prags)
+ = zonkIdBndr env global `thenM` \ new_global ->
+ mapM zonk_prag prags `thenM` \ new_prags ->
+ returnM (tyvars, new_global, zonkIdOcc env local, new_prags)
+ zonk_prag prag@(InlinePrag {}) = return prag
+ zonk_prag (SpecPrag expr ty ds inl) = do { expr' <- zonkExpr env expr
+ ; ty' <- zonkTcTypeToType env ty
+ ; let ds' = zonkIdOccs env ds
+ ; return (SpecPrag expr' ty' ds' inl) }
+\end{code}
-instance Outputable (TcIdOcc s) where
- ppr sty (TcId id) = ppr sty id
- ppr sty (RealId id) = ppr sty id
+%************************************************************************
+%* *
+\subsection[BackSubst-Match-GRHSs]{Match and GRHSs}
+%* *
+%************************************************************************
-instance NamedThing (TcIdOcc s) where
- getName (TcId id) = getName id
- getName (RealId id) = getName id
-\end{code}
+\begin{code}
+zonkMatchGroup :: ZonkEnv -> MatchGroup TcId-> TcM (MatchGroup Id)
+zonkMatchGroup env (MatchGroup ms ty)
+ = do { ms' <- mapM (zonkMatch env) ms
+ ; ty' <- zonkTcTypeToType env ty
+ ; return (MatchGroup ms' ty') }
+
+zonkMatch :: ZonkEnv -> LMatch TcId-> TcM (LMatch Id)
+zonkMatch env (L loc (Match pats _ grhss))
+ = do { (env1, new_pats) <- zonkPats env pats
+ ; new_grhss <- zonkGRHSs env1 grhss
+ ; return (L loc (Match new_pats Nothing new_grhss)) }
+-------------------------------------------------------------------------
+zonkGRHSs :: ZonkEnv -> GRHSs TcId -> TcM (GRHSs Id)
+
+zonkGRHSs env (GRHSs grhss binds)
+ = zonkLocalBinds env binds `thenM` \ (new_env, new_binds) ->
+ let
+ zonk_grhs (GRHS guarded rhs)
+ = zonkStmts new_env guarded `thenM` \ (env2, new_guarded) ->
+ zonkLExpr env2 rhs `thenM` \ new_rhs ->
+ returnM (GRHS new_guarded new_rhs)
+ in
+ mappM (wrapLocM zonk_grhs) grhss `thenM` \ new_grhss ->
+ returnM (GRHSs new_grhss new_binds)
+\end{code}
%************************************************************************
%* *
-\subsection[BackSubst-HsBinds]{Running a substitution over @HsBinds@}
+\subsection[BackSubst-HsExpr]{Running a zonkitution over a TypeCheckedExpr}
%* *
%************************************************************************
\begin{code}
-zonkId :: TcIdOcc s -> NF_TcM s Id
-unZonkId :: Id -> NF_TcM s (TcIdBndr s)
+zonkLExprs :: ZonkEnv -> [LHsExpr TcId] -> TcM [LHsExpr Id]
+zonkLExpr :: ZonkEnv -> LHsExpr TcId -> TcM (LHsExpr Id)
+zonkExpr :: ZonkEnv -> HsExpr TcId -> TcM (HsExpr Id)
-zonkId (RealId id) = returnNF_Tc id
+zonkLExprs env exprs = mappM (zonkLExpr env) exprs
+zonkLExpr env expr = wrapLocM (zonkExpr env) expr
-zonkId (TcId (Id u ty details prags info))
- = zonkTcTypeToType ty `thenNF_Tc` \ ty' ->
- returnNF_Tc (Id u ty' details prags info)
+zonkExpr env (HsVar id)
+ = returnM (HsVar (zonkIdOcc env id))
-unZonkId (Id u ty details prags info)
- = tcInstType [] ty `thenNF_Tc` \ ty' ->
- returnNF_Tc (Id u ty' details prags info)
-\end{code}
+zonkExpr env (HsIPVar id)
+ = returnM (HsIPVar (mapIPName (zonkIdOcc env) id))
-\begin{code}
-zonkInst :: (TcIdOcc s, TcExpr s) -> NF_TcM s (Id, TypecheckedHsExpr)
-zonkInst (id, expr)
- = zonkId id `thenNF_Tc` \ id' ->
- zonkExpr expr `thenNF_Tc` \ expr' ->
- returnNF_Tc (id', expr')
-\end{code}
+zonkExpr env (HsLit (HsRat f ty))
+ = zonkTcTypeToType env ty `thenM` \ new_ty ->
+ returnM (HsLit (HsRat f new_ty))
-\begin{code}
-zonkBinds :: TcHsBinds s -> NF_TcM s TypecheckedHsBinds
-
-zonkBinds EmptyBinds = returnNF_Tc EmptyBinds
-
-zonkBinds (ThenBinds binds1 binds2)
- = zonkBinds binds1 `thenNF_Tc` \ new_binds1 ->
- zonkBinds binds2 `thenNF_Tc` \ new_binds2 ->
- returnNF_Tc (ThenBinds new_binds1 new_binds2)
-
-zonkBinds (SingleBind bind)
- = zonkBind bind `thenNF_Tc` \ new_bind ->
- returnNF_Tc (SingleBind new_bind)
-
-zonkBinds (AbsBinds tyvars dicts locprs dict_binds val_bind)
- = mapNF_Tc zonkTcTyVarToTyVar tyvars `thenNF_Tc` \ new_tyvars ->
- mapNF_Tc zonkId dicts `thenNF_Tc` \ new_dicts ->
- mapNF_Tc subst_pair locprs `thenNF_Tc` \ new_locprs ->
- mapNF_Tc subst_bind dict_binds `thenNF_Tc` \ new_dict_binds ->
- zonkBind val_bind `thenNF_Tc` \ new_val_bind ->
- returnNF_Tc (AbsBinds new_tyvars new_dicts new_locprs new_dict_binds new_val_bind)
+zonkExpr env (HsLit lit)
+ = returnM (HsLit lit)
+
+zonkExpr env (HsOverLit lit)
+ = do { lit' <- zonkOverLit env lit
+ ; return (HsOverLit lit') }
+
+zonkExpr env (HsLam matches)
+ = zonkMatchGroup env matches `thenM` \ new_matches ->
+ returnM (HsLam new_matches)
+
+zonkExpr env (HsApp e1 e2)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ returnM (HsApp new_e1 new_e2)
+
+zonkExpr env (HsBracketOut body bs)
+ = mappM zonk_b bs `thenM` \ bs' ->
+ returnM (HsBracketOut body bs')
where
- subst_pair (l, g)
- = zonkId l `thenNF_Tc` \ new_l ->
- zonkId g `thenNF_Tc` \ new_g ->
- returnNF_Tc (new_l, new_g)
-
- subst_bind (v, e)
- = zonkId v `thenNF_Tc` \ new_v ->
- zonkExpr e `thenNF_Tc` \ new_e ->
- returnNF_Tc (new_v, new_e)
-\end{code}
+ zonk_b (n,e) = zonkLExpr env e `thenM` \ e' ->
+ returnM (n,e')
+
+zonkExpr env (HsSpliceE s) = WARN( True, ppr s ) -- Should not happen
+ returnM (HsSpliceE s)
+
+zonkExpr env (OpApp e1 op fixity e2)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env op `thenM` \ new_op ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ returnM (OpApp new_e1 new_op fixity new_e2)
+
+zonkExpr env (NegApp expr op)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ zonkExpr env op `thenM` \ new_op ->
+ returnM (NegApp new_expr new_op)
+
+zonkExpr env (HsPar e)
+ = zonkLExpr env e `thenM` \new_e ->
+ returnM (HsPar new_e)
+
+zonkExpr env (SectionL expr op)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ zonkLExpr env op `thenM` \ new_op ->
+ returnM (SectionL new_expr new_op)
+
+zonkExpr env (SectionR op expr)
+ = zonkLExpr env op `thenM` \ new_op ->
+ zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (SectionR new_op new_expr)
+
+zonkExpr env (HsCase expr ms)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ zonkMatchGroup env ms `thenM` \ new_ms ->
+ returnM (HsCase new_expr new_ms)
+
+zonkExpr env (HsIf e1 e2 e3)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ zonkLExpr env e3 `thenM` \ new_e3 ->
+ returnM (HsIf new_e1 new_e2 new_e3)
+
+zonkExpr env (HsLet binds expr)
+ = zonkLocalBinds env binds `thenM` \ (new_env, new_binds) ->
+ zonkLExpr new_env expr `thenM` \ new_expr ->
+ returnM (HsLet new_binds new_expr)
+
+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 ->
+ returnM (HsDo (zonkDo env do_or_lc)
+ new_stmts new_body new_ty)
+
+zonkExpr env (ExplicitList ty exprs)
+ = zonkTcTypeToType env ty `thenM` \ new_ty ->
+ zonkLExprs env exprs `thenM` \ new_exprs ->
+ returnM (ExplicitList new_ty new_exprs)
+
+zonkExpr env (ExplicitPArr ty exprs)
+ = zonkTcTypeToType env ty `thenM` \ new_ty ->
+ zonkLExprs env exprs `thenM` \ new_exprs ->
+ returnM (ExplicitPArr new_ty new_exprs)
+
+zonkExpr env (ExplicitTuple exprs boxed)
+ = zonkLExprs env exprs `thenM` \ new_exprs ->
+ returnM (ExplicitTuple new_exprs boxed)
+
+zonkExpr env (RecordCon data_con con_expr rbinds)
+ = zonkExpr env con_expr `thenM` \ new_con_expr ->
+ zonkRbinds env rbinds `thenM` \ new_rbinds ->
+ returnM (RecordCon data_con new_con_expr new_rbinds)
+
+zonkExpr env (RecordUpd expr rbinds in_ty out_ty)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ zonkTcTypeToType env in_ty `thenM` \ new_in_ty ->
+ zonkTcTypeToType env out_ty `thenM` \ new_out_ty ->
+ zonkRbinds env rbinds `thenM` \ new_rbinds ->
+ returnM (RecordUpd new_expr new_rbinds new_in_ty new_out_ty)
+
+zonkExpr env (ExprWithTySigOut e ty)
+ = do { e' <- zonkLExpr env e
+ ; return (ExprWithTySigOut e' ty) }
+
+zonkExpr env (ExprWithTySig _ _) = panic "zonkExpr env:ExprWithTySig"
+
+zonkExpr env (ArithSeq expr info)
+ = zonkExpr env expr `thenM` \ new_expr ->
+ zonkArithSeq env info `thenM` \ new_info ->
+ returnM (ArithSeq new_expr new_info)
+
+zonkExpr env (PArrSeq expr info)
+ = zonkExpr env expr `thenM` \ new_expr ->
+ zonkArithSeq env info `thenM` \ new_info ->
+ returnM (PArrSeq new_expr new_info)
+
+zonkExpr env (HsSCC lbl expr)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (HsSCC lbl new_expr)
+
+-- hdaume: core annotations
+zonkExpr env (HsCoreAnn lbl expr)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (HsCoreAnn lbl new_expr)
+
+zonkExpr env (TyLam tyvars expr)
+ = ASSERT( all isImmutableTyVar tyvars )
+ zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (TyLam tyvars new_expr)
+
+zonkExpr env (TyApp expr tys)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ zonkTcTypeToTypes env tys `thenM` \ new_tys ->
+ returnM (TyApp new_expr new_tys)
+
+zonkExpr env (DictLam dicts expr)
+ = zonkIdBndrs env dicts `thenM` \ new_dicts ->
+ let
+ env1 = extendZonkEnv env new_dicts
+ in
+ zonkLExpr env1 expr `thenM` \ new_expr ->
+ returnM (DictLam new_dicts new_expr)
+
+zonkExpr env (DictApp expr dicts)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (DictApp new_expr (zonkIdOccs env dicts))
+
+-- arrow notation extensions
+zonkExpr env (HsProc pat body)
+ = do { (env1, new_pat) <- zonkPat env pat
+ ; new_body <- zonkCmdTop env1 body
+ ; return (HsProc new_pat new_body) }
+
+zonkExpr env (HsArrApp e1 e2 ty ho rl)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ zonkTcTypeToType env ty `thenM` \ new_ty ->
+ returnM (HsArrApp new_e1 new_e2 new_ty ho rl)
+
+zonkExpr env (HsArrForm op fixity args)
+ = zonkLExpr env op `thenM` \ new_op ->
+ mappM (zonkCmdTop env) args `thenM` \ new_args ->
+ returnM (HsArrForm new_op fixity new_args)
+
+zonkExpr env (HsCoerce co_fn expr)
+ = zonkCoFn env co_fn `thenM` \ (env1, new_co_fn) ->
+ zonkExpr env1 expr `thenM` \ new_expr ->
+ return (HsCoerce new_co_fn new_expr)
+
+zonkExpr env other = pprPanic "zonkExpr" (ppr other)
+
+zonkCmdTop :: ZonkEnv -> LHsCmdTop TcId -> TcM (LHsCmdTop Id)
+zonkCmdTop env cmd = wrapLocM (zonk_cmd_top env) cmd
+
+zonk_cmd_top env (HsCmdTop cmd stack_tys ty ids)
+ = zonkLExpr env cmd `thenM` \ new_cmd ->
+ zonkTcTypeToTypes env stack_tys `thenM` \ new_stack_tys ->
+ zonkTcTypeToType env ty `thenM` \ new_ty ->
+ mapSndM (zonkExpr env) ids `thenM` \ new_ids ->
+ returnM (HsCmdTop new_cmd new_stack_tys new_ty new_ids)
-\begin{code}
-------------------------------------------------------------------------
-zonkBind :: TcBind s -> NF_TcM s TypecheckedBind
+zonkCoFn :: ZonkEnv -> ExprCoFn -> TcM (ZonkEnv, ExprCoFn)
+zonkCoFn env CoHole = return (env, CoHole)
+zonkCoFn env (CoCompose c1 c2) = do { (env1, c1') <- zonkCoFn env c1
+ ; (env2, c2') <- zonkCoFn env1 c2
+ ; return (env2, CoCompose c1' c2') }
+zonkCoFn env (CoLams ids c) = do { ids' <- zonkIdBndrs env ids
+ ; let env1 = extendZonkEnv env ids'
+ ; (env2, c') <- zonkCoFn env1 c
+ ; return (env2, CoLams ids' c') }
+zonkCoFn env (CoTyLams tvs c) = ASSERT( all isImmutableTyVar tvs )
+ do { (env1, c') <- zonkCoFn env c
+ ; return (env1, CoTyLams tvs c') }
+zonkCoFn env (CoApps c ids) = do { (env1, c') <- zonkCoFn env c
+ ; return (env1, CoApps c' (zonkIdOccs env ids)) }
+zonkCoFn env (CoTyApps c tys) = do { tys' <- zonkTcTypeToTypes env tys
+ ; (env1, c') <- zonkCoFn env c
+ ; return (env1, CoTyApps c' tys') }
+zonkCoFn env (CoLet bs c) = do { (env1, bs') <- zonkRecMonoBinds env bs
+ ; (env2, c') <- zonkCoFn env1 c
+ ; return (env2, CoLet bs' c') }
-zonkBind EmptyBind = returnNF_Tc EmptyBind
-zonkBind (NonRecBind mbinds)
- = zonkMonoBinds mbinds `thenNF_Tc` \ new_mbinds ->
- returnNF_Tc (NonRecBind new_mbinds)
+-------------------------------------------------------------------------
+zonkDo :: ZonkEnv -> HsStmtContext Name -> HsStmtContext Name
+-- Only used for 'do', so the only Ids are in a MDoExpr table
+zonkDo env (MDoExpr tbl) = MDoExpr (mapSnd (zonkIdOcc env) tbl)
+zonkDo env do_or_lc = do_or_lc
-zonkBind (RecBind mbinds)
- = zonkMonoBinds mbinds `thenNF_Tc` \ new_mbinds ->
- returnNF_Tc (RecBind new_mbinds)
+-------------------------------------------------------------------------
+zonkOverLit :: ZonkEnv -> HsOverLit TcId -> TcM (HsOverLit Id)
+zonkOverLit env (HsIntegral i e)
+ = do { e' <- zonkExpr env e; return (HsIntegral i e') }
+zonkOverLit env (HsFractional r e)
+ = do { e' <- zonkExpr env e; return (HsFractional r e') }
-------------------------------------------------------------------------
-zonkMonoBinds :: TcMonoBinds s -> NF_TcM s TypecheckedMonoBinds
+zonkArithSeq :: ZonkEnv -> ArithSeqInfo TcId -> TcM (ArithSeqInfo Id)
-zonkMonoBinds EmptyMonoBinds = returnNF_Tc EmptyMonoBinds
+zonkArithSeq env (From e)
+ = zonkLExpr env e `thenM` \ new_e ->
+ returnM (From new_e)
-zonkMonoBinds (AndMonoBinds mbinds1 mbinds2)
- = zonkMonoBinds mbinds1 `thenNF_Tc` \ new_mbinds1 ->
- zonkMonoBinds mbinds2 `thenNF_Tc` \ new_mbinds2 ->
- returnNF_Tc (AndMonoBinds new_mbinds1 new_mbinds2)
+zonkArithSeq env (FromThen e1 e2)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ returnM (FromThen new_e1 new_e2)
-zonkMonoBinds (PatMonoBind pat grhss_w_binds locn)
- = zonkPat pat `thenNF_Tc` \ new_pat ->
- zonkGRHSsAndBinds grhss_w_binds `thenNF_Tc` \ new_grhss_w_binds ->
- returnNF_Tc (PatMonoBind new_pat new_grhss_w_binds locn)
+zonkArithSeq env (FromTo e1 e2)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ returnM (FromTo new_e1 new_e2)
-zonkMonoBinds (VarMonoBind var expr)
- = zonkId var `thenNF_Tc` \ new_var ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (VarMonoBind new_var new_expr)
+zonkArithSeq env (FromThenTo e1 e2 e3)
+ = zonkLExpr env e1 `thenM` \ new_e1 ->
+ zonkLExpr env e2 `thenM` \ new_e2 ->
+ zonkLExpr env e3 `thenM` \ new_e3 ->
+ returnM (FromThenTo new_e1 new_e2 new_e3)
-zonkMonoBinds (FunMonoBind name ms locn)
- = zonkId name `thenNF_Tc` \ new_name ->
- mapNF_Tc zonkMatch ms `thenNF_Tc` \ new_ms ->
- returnNF_Tc (FunMonoBind new_name new_ms locn)
-\end{code}
-%************************************************************************
-%* *
-\subsection[BackSubst-Match-GRHSs]{Match and GRHSsAndBinds}
-%* *
-%************************************************************************
+-------------------------------------------------------------------------
+zonkStmts :: ZonkEnv -> [LStmt TcId] -> TcM (ZonkEnv, [LStmt Id])
+zonkStmts env [] = return (env, [])
+zonkStmts env (s:ss) = do { (env1, s') <- wrapLocSndM (zonkStmt env) s
+ ; (env2, ss') <- zonkStmts env1 ss
+ ; return (env2, s' : ss') }
+
+zonkStmt :: ZonkEnv -> Stmt TcId -> TcM (ZonkEnv, Stmt Id)
+zonkStmt env (ParStmt stmts_w_bndrs)
+ = mappM zonk_branch stmts_w_bndrs `thenM` \ new_stmts_w_bndrs ->
+ let
+ new_binders = concat (map snd new_stmts_w_bndrs)
+ env1 = extendZonkEnv env new_binders
+ in
+ return (env1, ParStmt new_stmts_w_bndrs)
+ where
+ zonk_branch (stmts, bndrs) = zonkStmts env stmts `thenM` \ (env1, new_stmts) ->
+ returnM (new_stmts, zonkIdOccs env1 bndrs)
+
+zonkStmt env (RecStmt segStmts lvs rvs rets binds)
+ = zonkIdBndrs env rvs `thenM` \ new_rvs ->
+ let
+ env1 = extendZonkEnv env new_rvs
+ in
+ zonkStmts env1 segStmts `thenM` \ (env2, new_segStmts) ->
+ -- Zonk the ret-expressions in an envt that
+ -- has the polymorphic bindings in the envt
+ mapM (zonkExpr env2) rets `thenM` \ new_rets ->
+ let
+ new_lvs = zonkIdOccs env2 lvs
+ env3 = extendZonkEnv env new_lvs -- Only the lvs are needed
+ in
+ zonkRecMonoBinds env3 binds `thenM` \ (env4, new_binds) ->
+ returnM (env4, RecStmt new_segStmts new_lvs new_rvs new_rets new_binds)
+
+zonkStmt env (ExprStmt expr then_op ty)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ zonkExpr env then_op `thenM` \ new_then ->
+ zonkTcTypeToType env ty `thenM` \ new_ty ->
+ returnM (env, ExprStmt new_expr new_then new_ty)
+
+zonkStmt env (LetStmt binds)
+ = zonkLocalBinds env binds `thenM` \ (env1, new_binds) ->
+ returnM (env1, LetStmt new_binds)
+
+zonkStmt env (BindStmt pat expr bind_op fail_op)
+ = do { new_expr <- zonkLExpr env expr
+ ; (env1, new_pat) <- zonkPat env pat
+ ; new_bind <- zonkExpr env bind_op
+ ; new_fail <- zonkExpr env fail_op
+ ; return (env1, BindStmt new_pat new_expr new_bind new_fail) }
-\begin{code}
-zonkMatch :: TcMatch s -> NF_TcM s TypecheckedMatch
-zonkMatch (PatMatch pat match)
- = zonkPat pat `thenNF_Tc` \ new_pat ->
- zonkMatch match `thenNF_Tc` \ new_match ->
- returnNF_Tc (PatMatch new_pat new_match)
+-------------------------------------------------------------------------
+zonkRbinds :: ZonkEnv -> HsRecordBinds TcId -> TcM (HsRecordBinds Id)
-zonkMatch (GRHSMatch grhss_w_binds)
- = zonkGRHSsAndBinds grhss_w_binds `thenNF_Tc` \ new_grhss_w_binds ->
- returnNF_Tc (GRHSMatch new_grhss_w_binds)
+zonkRbinds env rbinds
+ = mappM zonk_rbind rbinds
+ where
+ zonk_rbind (field, expr)
+ = zonkLExpr env expr `thenM` \ new_expr ->
+ returnM (fmap (zonkIdOcc env) field, new_expr)
-------------------------------------------------------------------------
-zonkGRHSsAndBinds :: TcGRHSsAndBinds s
- -> NF_TcM s TypecheckedGRHSsAndBinds
-
-zonkGRHSsAndBinds (GRHSsAndBindsOut grhss binds ty)
- = mapNF_Tc zonk_grhs grhss `thenNF_Tc` \ new_grhss ->
- zonkBinds binds `thenNF_Tc` \ new_binds ->
- zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- returnNF_Tc (GRHSsAndBindsOut new_grhss new_binds new_ty)
- where
- zonk_grhs (GRHS guard expr locn)
- = zonkExpr guard `thenNF_Tc` \ new_guard ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (GRHS new_guard new_expr locn)
-
- zonk_grhs (OtherwiseGRHS expr locn)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (OtherwiseGRHS new_expr locn)
+mapIPNameTc :: (a -> TcM b) -> IPName a -> TcM (IPName b)
+mapIPNameTc f (Dupable n) = f n `thenM` \ r -> returnM (Dupable r)
+mapIPNameTc f (Linear n) = f n `thenM` \ r -> returnM (Linear r)
\end{code}
+
%************************************************************************
%* *
-\subsection[BackSubst-HsExpr]{Running a zonkitution over a TypeCheckedExpr}
+\subsection[BackSubst-Pats]{Patterns}
%* *
%************************************************************************
-ToDo: panic on things that can't be in @TypecheckedHsExpr@.
-
\begin{code}
-zonkExpr :: TcExpr s -> NF_TcM s TypecheckedHsExpr
-
-zonkExpr (HsVar name)
- = zonkId name `thenNF_Tc` \ new_name ->
- returnNF_Tc (HsVar new_name)
-
-zonkExpr (HsLitOut lit ty)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- returnNF_Tc (HsLitOut lit new_ty)
-
-zonkExpr (HsLam match)
- = zonkMatch match `thenNF_Tc` \ new_match ->
- returnNF_Tc (HsLam new_match)
-
-zonkExpr (HsApp e1 e2)
- = zonkExpr e1 `thenNF_Tc` \ new_e1 ->
- zonkExpr e2 `thenNF_Tc` \ new_e2 ->
- returnNF_Tc (HsApp new_e1 new_e2)
-
-zonkExpr (OpApp e1 op e2)
- = zonkExpr e1 `thenNF_Tc` \ new_e1 ->
- zonkExpr op `thenNF_Tc` \ new_op ->
- zonkExpr e2 `thenNF_Tc` \ new_e2 ->
- returnNF_Tc (OpApp new_e1 new_op new_e2)
-
-zonkExpr (SectionL expr op)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- zonkExpr op `thenNF_Tc` \ new_op ->
- returnNF_Tc (SectionL new_expr new_op)
-
-zonkExpr (SectionR op expr)
- = zonkExpr op `thenNF_Tc` \ new_op ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (SectionR new_op new_expr)
-
-zonkExpr (CCall fun args may_gc is_casm result_ty)
- = mapNF_Tc zonkExpr args `thenNF_Tc` \ new_args ->
- zonkTcTypeToType result_ty `thenNF_Tc` \ new_result_ty ->
- returnNF_Tc (CCall fun new_args may_gc is_casm new_result_ty)
-
-zonkExpr (HsSCC label expr)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (HsSCC label new_expr)
-
-zonkExpr (HsCase expr ms src_loc)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- mapNF_Tc zonkMatch ms `thenNF_Tc` \ new_ms ->
- returnNF_Tc (HsCase new_expr new_ms src_loc)
-
-zonkExpr (HsLet binds expr)
- = zonkBinds binds `thenNF_Tc` \ new_binds ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (HsLet new_binds new_expr)
-
-zonkExpr (HsDoOut stmts m_id mz_id src_loc)
- = zonkStmts stmts `thenNF_Tc` \ new_stmts ->
- zonkId m_id `thenNF_Tc` \ m_new ->
- zonkId mz_id `thenNF_Tc` \ mz_new ->
- returnNF_Tc (HsDoOut new_stmts m_new mz_new src_loc)
-
-zonkExpr (ListComp expr quals)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- zonkQuals quals `thenNF_Tc` \ new_quals ->
- returnNF_Tc (ListComp new_expr new_quals)
-
---ExplicitList: not in typechecked exprs
-
-zonkExpr (ExplicitListOut ty exprs)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- mapNF_Tc zonkExpr exprs `thenNF_Tc` \ new_exprs ->
- returnNF_Tc (ExplicitListOut new_ty new_exprs)
-
-zonkExpr (ExplicitTuple exprs)
- = mapNF_Tc zonkExpr exprs `thenNF_Tc` \ new_exprs ->
- returnNF_Tc (ExplicitTuple new_exprs)
-
-zonkExpr (RecordCon con rbinds)
- = panic "zonkExpr:RecordCon"
-zonkExpr (RecordUpd exp rbinds)
- = panic "zonkExpr:RecordUpd"
-
-zonkExpr (HsIf e1 e2 e3 src_loc)
- = zonkExpr e1 `thenNF_Tc` \ new_e1 ->
- zonkExpr e2 `thenNF_Tc` \ new_e2 ->
- zonkExpr e3 `thenNF_Tc` \ new_e3 ->
- returnNF_Tc (HsIf new_e1 new_e2 new_e3 src_loc)
-
-zonkExpr (ArithSeqOut expr info)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- zonkArithSeq info `thenNF_Tc` \ new_info ->
- returnNF_Tc (ArithSeqOut new_expr new_info)
-
-zonkExpr (TyLam tyvars expr)
- = mapNF_Tc zonkTcTyVarToTyVar tyvars `thenNF_Tc` \ new_tyvars ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (TyLam new_tyvars new_expr)
-
-zonkExpr (TyApp expr tys)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- mapNF_Tc zonkTcTypeToType tys `thenNF_Tc` \ new_tys ->
- returnNF_Tc (TyApp new_expr new_tys)
-
-zonkExpr (DictLam dicts expr)
- = mapNF_Tc zonkId dicts `thenNF_Tc` \ new_dicts ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (DictLam new_dicts new_expr)
-
-zonkExpr (DictApp expr dicts)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- mapNF_Tc zonkId dicts `thenNF_Tc` \ new_dicts ->
- returnNF_Tc (DictApp new_expr new_dicts)
-
-zonkExpr (ClassDictLam dicts methods expr)
- = mapNF_Tc zonkId dicts `thenNF_Tc` \ new_dicts ->
- mapNF_Tc zonkId methods `thenNF_Tc` \ new_methods ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (ClassDictLam new_dicts new_methods new_expr)
-
-zonkExpr (Dictionary dicts methods)
- = mapNF_Tc zonkId dicts `thenNF_Tc` \ new_dicts ->
- mapNF_Tc zonkId methods `thenNF_Tc` \ new_methods ->
- returnNF_Tc (Dictionary new_dicts new_methods)
-
-zonkExpr (SingleDict name)
- = zonkId name `thenNF_Tc` \ new_name ->
- returnNF_Tc (SingleDict new_name)
-
--------------------------------------------------------------------------
-zonkArithSeq :: TcArithSeqInfo s -> NF_TcM s TypecheckedArithSeqInfo
-
-zonkArithSeq (From e)
- = zonkExpr e `thenNF_Tc` \ new_e ->
- returnNF_Tc (From new_e)
-
-zonkArithSeq (FromThen e1 e2)
- = zonkExpr e1 `thenNF_Tc` \ new_e1 ->
- zonkExpr e2 `thenNF_Tc` \ new_e2 ->
- returnNF_Tc (FromThen new_e1 new_e2)
-
-zonkArithSeq (FromTo e1 e2)
- = zonkExpr e1 `thenNF_Tc` \ new_e1 ->
- zonkExpr e2 `thenNF_Tc` \ new_e2 ->
- returnNF_Tc (FromTo new_e1 new_e2)
-
-zonkArithSeq (FromThenTo e1 e2 e3)
- = zonkExpr e1 `thenNF_Tc` \ new_e1 ->
- zonkExpr e2 `thenNF_Tc` \ new_e2 ->
- zonkExpr e3 `thenNF_Tc` \ new_e3 ->
- returnNF_Tc (FromThenTo new_e1 new_e2 new_e3)
-
--------------------------------------------------------------------------
-zonkQuals :: [TcQual s] -> NF_TcM s [TypecheckedQual]
-
-zonkQuals quals
- = mapNF_Tc zonk_qual quals
+zonkPat :: ZonkEnv -> OutPat TcId -> TcM (ZonkEnv, OutPat Id)
+-- Extend the environment as we go, because it's possible for one
+-- pattern to bind something that is used in another (inside or
+-- to the right)
+zonkPat env pat = wrapLocSndM (zonk_pat env) pat
+
+zonk_pat env (ParPat p)
+ = do { (env', p') <- zonkPat env p
+ ; return (env', ParPat p') }
+
+zonk_pat env (WildPat ty)
+ = do { ty' <- zonkTcTypeToType env ty
+ ; return (env, WildPat ty') }
+
+zonk_pat env (VarPat v)
+ = do { v' <- zonkIdBndr env v
+ ; return (extendZonkEnv1 env v', VarPat v') }
+
+zonk_pat env (VarPatOut v binds)
+ = do { v' <- zonkIdBndr env v
+ ; (env', binds') <- zonkRecMonoBinds (extendZonkEnv1 env v') binds
+ ; returnM (env', VarPatOut v' binds') }
+
+zonk_pat env (LazyPat pat)
+ = do { (env', pat') <- zonkPat env pat
+ ; return (env', LazyPat pat') }
+
+zonk_pat env (BangPat pat)
+ = do { (env', pat') <- zonkPat env pat
+ ; return (env', BangPat pat') }
+
+zonk_pat env (AsPat (L loc v) pat)
+ = do { v' <- zonkIdBndr env v
+ ; (env', pat') <- zonkPat (extendZonkEnv1 env v') pat
+ ; return (env', AsPat (L loc v') pat') }
+
+zonk_pat env (ListPat pats ty)
+ = do { ty' <- zonkTcTypeToType env ty
+ ; (env', pats') <- zonkPats env pats
+ ; return (env', ListPat pats' ty') }
+
+zonk_pat env (PArrPat pats ty)
+ = do { ty' <- zonkTcTypeToType env ty
+ ; (env', pats') <- zonkPats env pats
+ ; return (env', PArrPat pats' ty') }
+
+zonk_pat env (TuplePat pats boxed ty)
+ = do { ty' <- zonkTcTypeToType env ty
+ ; (env', pats') <- zonkPats env pats
+ ; return (env', TuplePat pats' boxed ty') }
+
+zonk_pat env (ConPatOut n tvs dicts binds stuff ty)
+ = ASSERT( all isImmutableTyVar tvs )
+ do { new_ty <- zonkTcTypeToType env ty
+ ; new_dicts <- zonkIdBndrs env dicts
+ ; let env1 = extendZonkEnv env new_dicts
+ ; (env2, new_binds) <- zonkRecMonoBinds env1 binds
+ ; (env', new_stuff) <- zonkConStuff env2 stuff
+ ; returnM (env', ConPatOut n tvs new_dicts new_binds new_stuff new_ty) }
+
+zonk_pat env (LitPat lit) = return (env, LitPat lit)
+
+zonk_pat env (SigPatOut pat ty)
+ = do { ty' <- zonkTcTypeToType env ty
+ ; (env', pat') <- zonkPat env pat
+ ; return (env', SigPatOut pat' ty') }
+
+zonk_pat env (NPat lit mb_neg eq_expr ty)
+ = do { lit' <- zonkOverLit env lit
+ ; mb_neg' <- case mb_neg of
+ Nothing -> return Nothing
+ Just neg -> do { neg' <- zonkExpr env neg
+ ; return (Just neg') }
+ ; eq_expr' <- zonkExpr env eq_expr
+ ; ty' <- zonkTcTypeToType env ty
+ ; return (env, NPat lit' mb_neg' eq_expr' ty') }
+
+zonk_pat env (NPlusKPat (L loc n) lit e1 e2)
+ = do { n' <- zonkIdBndr env n
+ ; lit' <- zonkOverLit env lit
+ ; e1' <- zonkExpr env e1
+ ; e2' <- zonkExpr env e2
+ ; return (extendZonkEnv1 env n', NPlusKPat (L loc n') lit' e1' e2') }
+
+zonk_pat env (DictPat ds ms)
+ = do { ds' <- zonkIdBndrs env ds
+ ; ms' <- zonkIdBndrs env ms
+ ; return (extendZonkEnv env (ds' ++ ms'), DictPat ds' ms') }
+
+---------------------------
+zonkConStuff env (PrefixCon pats)
+ = do { (env', pats') <- zonkPats env pats
+ ; return (env', PrefixCon pats') }
+
+zonkConStuff env (InfixCon p1 p2)
+ = do { (env1, p1') <- zonkPat env p1
+ ; (env', p2') <- zonkPat env1 p2
+ ; return (env', InfixCon p1' p2') }
+
+zonkConStuff env (RecCon rpats)
+ = do { (env', pats') <- zonkPats env pats
+ ; returnM (env', RecCon (fields `zip` pats')) }
where
- zonk_qual (GeneratorQual pat expr)
- = zonkPat pat `thenNF_Tc` \ new_pat ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (GeneratorQual new_pat new_expr)
+ (fields, pats) = unzip rpats
- zonk_qual (FilterQual expr)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (FilterQual new_expr)
+---------------------------
+zonkPats env [] = return (env, [])
+zonkPats env (pat:pats) = do { (env1, pat') <- zonkPat env pat
+ ; (env', pats') <- zonkPats env1 pats
+ ; return (env', pat':pats') }
+\end{code}
- zonk_qual (LetQual binds)
- = zonkBinds binds `thenNF_Tc` \ new_binds ->
- returnNF_Tc (LetQual new_binds)
+%************************************************************************
+%* *
+\subsection[BackSubst-Foreign]{Foreign exports}
+%* *
+%************************************************************************
--------------------------------------------------------------------------
-zonkStmts :: [TcStmt s] -> NF_TcM s [TypecheckedStmt]
-zonkStmts stmts
- = mapNF_Tc zonk_stmt stmts
+\begin{code}
+zonkForeignExports :: ZonkEnv -> [LForeignDecl TcId] -> TcM [LForeignDecl Id]
+zonkForeignExports env ls = mappM (wrapLocM (zonkForeignExport env)) ls
+
+zonkForeignExport :: ZonkEnv -> ForeignDecl TcId -> TcM (ForeignDecl Id)
+zonkForeignExport env (ForeignExport i hs_ty spec isDeprec) =
+ returnM (ForeignExport (fmap (zonkIdOcc env) i) undefined spec isDeprec)
+zonkForeignExport env for_imp
+ = returnM for_imp -- Foreign imports don't need zonking
+\end{code}
+
+\begin{code}
+zonkRules :: ZonkEnv -> [LRuleDecl TcId] -> TcM [LRuleDecl Id]
+zonkRules env rs = mappM (wrapLocM (zonkRule env)) rs
+
+zonkRule :: ZonkEnv -> RuleDecl TcId -> TcM (RuleDecl Id)
+zonkRule env (HsRule name act (vars::[RuleBndr TcId]) lhs rhs)
+ = mappM zonk_bndr vars `thenM` \ new_bndrs ->
+ newMutVar emptyVarSet `thenM` \ unbound_tv_set ->
+ let
+ env_rhs = extendZonkEnv env [id | b <- new_bndrs, let id = unLoc b, isId id]
+ -- Type variables don't need an envt
+ -- They are bound through the mutable mechanism
+
+ env_lhs = setZonkType env_rhs (zonkTypeCollecting unbound_tv_set)
+ -- We need to gather the type variables mentioned on the LHS so we can
+ -- quantify over them. Example:
+ -- data T a = C
+ --
+ -- foo :: T a -> Int
+ -- foo C = 1
+ --
+ -- {-# RULES "myrule" foo C = 1 #-}
+ --
+ -- After type checking the LHS becomes (foo a (C a))
+ -- and we do not want to zap the unbound tyvar 'a' to (), because
+ -- that limits the applicability of the rule. Instead, we
+ -- want to quantify over it!
+ --
+ -- It's easiest to find the free tyvars here. Attempts to do so earlier
+ -- are tiresome, because (a) the data type is big and (b) finding the
+ -- free type vars of an expression is necessarily monadic operation.
+ -- (consider /\a -> f @ b, where b is side-effected to a)
+ in
+ zonkLExpr env_lhs lhs `thenM` \ new_lhs ->
+ zonkLExpr env_rhs rhs `thenM` \ new_rhs ->
+
+ readMutVar unbound_tv_set `thenM` \ unbound_tvs ->
+ let
+ final_bndrs :: [Located Var]
+ final_bndrs = map noLoc (varSetElems unbound_tvs) ++ new_bndrs
+ in
+ returnM (HsRule name act (map RuleBndr final_bndrs) new_lhs new_rhs)
+ -- I hate this map RuleBndr stuff
where
- zonk_stmt (BindStmt pat expr src_loc)
- = zonkPat pat `thenNF_Tc` \ new_pat ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (BindStmt new_pat new_expr src_loc)
-
- zonk_stmt (ExprStmt expr src_loc)
- = zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (ExprStmt new_expr src_loc)
-
- zonk_stmt (LetStmt binds)
- = zonkBinds binds `thenNF_Tc` \ new_binds ->
- returnNF_Tc (LetStmt new_binds)
+ zonk_bndr (RuleBndr v)
+ | isId (unLoc v) = wrapLocM (zonkIdBndr env) v
+ | otherwise = ASSERT( isImmutableTyVar (unLoc v) )
+ return v
\end{code}
+
%************************************************************************
%* *
-\subsection[BackSubst-Pats]{Patterns}
+\subsection[BackSubst-Foreign]{Foreign exports}
%* *
%************************************************************************
\begin{code}
-zonkPat :: TcPat s -> NF_TcM s TypecheckedPat
-
-zonkPat (WildPat ty)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- returnNF_Tc (WildPat new_ty)
-
-zonkPat (VarPat v)
- = zonkId v `thenNF_Tc` \ new_v ->
- returnNF_Tc (VarPat new_v)
-
-zonkPat (LazyPat pat)
- = zonkPat pat `thenNF_Tc` \ new_pat ->
- returnNF_Tc (LazyPat new_pat)
-
-zonkPat (AsPat n pat)
- = zonkId n `thenNF_Tc` \ new_n ->
- zonkPat pat `thenNF_Tc` \ new_pat ->
- returnNF_Tc (AsPat new_n new_pat)
-
-zonkPat (ConPat n ty pats)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- mapNF_Tc zonkPat pats `thenNF_Tc` \ new_pats ->
- returnNF_Tc (ConPat n new_ty new_pats)
-
-zonkPat (ConOpPat pat1 op pat2 ty)
- = zonkPat pat1 `thenNF_Tc` \ new_pat1 ->
- zonkPat pat2 `thenNF_Tc` \ new_pat2 ->
- zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- returnNF_Tc (ConOpPat new_pat1 op new_pat2 new_ty)
-
-zonkPat (ListPat ty pats)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- mapNF_Tc zonkPat pats `thenNF_Tc` \ new_pats ->
- returnNF_Tc (ListPat new_ty new_pats)
-
-zonkPat (TuplePat pats)
- = mapNF_Tc zonkPat pats `thenNF_Tc` \ new_pats ->
- returnNF_Tc (TuplePat new_pats)
-
-zonkPat (LitPat lit ty)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- returnNF_Tc (LitPat lit new_ty)
-
-zonkPat (NPat lit ty expr)
- = zonkTcTypeToType ty `thenNF_Tc` \ new_ty ->
- zonkExpr expr `thenNF_Tc` \ new_expr ->
- returnNF_Tc (NPat lit new_ty new_expr)
-
-zonkPat (DictPat ds ms)
- = mapNF_Tc zonkId ds `thenNF_Tc` \ new_ds ->
- mapNF_Tc zonkId ms `thenNF_Tc` \ new_ms ->
- returnNF_Tc (DictPat new_ds new_ms)
-\end{code}
+zonkTcTypeToType :: ZonkEnv -> TcType -> TcM Type
+zonkTcTypeToType (ZonkEnv zonk_ty _) ty = zonk_ty ty
+zonkTcTypeToTypes :: ZonkEnv -> [TcType] -> TcM [Type]
+zonkTcTypeToTypes env tys = mapM (zonkTcTypeToType env) tys
+zonkTypeCollecting :: TcRef TyVarSet -> TcType -> TcM Type
+-- This variant collects unbound type variables in a mutable variable
+zonkTypeCollecting unbound_tv_set
+ = zonkType zonk_unbound_tyvar
+ where
+ zonk_unbound_tyvar tv
+ = zonkQuantifiedTyVar tv `thenM` \ tv' ->
+ readMutVar unbound_tv_set `thenM` \ tv_set ->
+ writeMutVar unbound_tv_set (extendVarSet tv_set tv') `thenM_`
+ return (mkTyVarTy tv')
+
+zonkTypeZapping :: TcType -> TcM Type
+-- This variant is used for everything except the LHS of rules
+-- It zaps unbound type variables to (), or some other arbitrary type
+zonkTypeZapping ty
+ = zonkType zonk_unbound_tyvar ty
+ where
+ -- Zonk a mutable but unbound type variable to an arbitrary type
+ -- We know it's unbound even though we don't carry an environment,
+ -- because at the binding site for a type variable we bind the
+ -- mutable tyvar to a fresh immutable one. So the mutable store
+ -- plays the role of an environment. If we come across a mutable
+ -- type variable that isn't so bound, it must be completely free.
+ zonk_unbound_tyvar tv = do { writeMetaTyVar tv ty; return ty }
+ where
+ ty = mkArbitraryType tv
+
+
+-- When the type checker finds a type variable with no binding,
+-- which means it can be instantiated with an arbitrary type, it
+-- usually instantiates it to Void. Eg.
+--
+-- length []
+-- ===>
+-- length Void (Nil Void)
+--
+-- But in really obscure programs, the type variable might have
+-- a kind other than *, so we need to invent a suitably-kinded type.
+--
+-- This commit uses
+-- Void for kind *
+-- List for kind *->*
+-- Tuple for kind *->...*->*
+--
+-- which deals with most cases. (Previously, it only dealt with
+-- kind *.)
+--
+-- In the other cases, it just makes up a TyCon with a suitable
+-- kind. If this gets into an interface file, anyone reading that
+-- file won't understand it. This is fixable (by making the client
+-- of the interface file make up a TyCon too) but it is tiresome and
+-- never happens, so I am leaving it
+
+mkArbitraryType :: TcTyVar -> Type
+-- Make up an arbitrary type whose kind is the same as the tyvar.
+-- We'll use this to instantiate the (unbound) tyvar.
+mkArbitraryType tv
+ | liftedTypeKind `isSubKind` kind = voidTy -- The vastly common case
+ | otherwise = mkTyConApp tycon []
+ where
+ kind = tyVarKind tv
+ (args,res) = splitKindFunTys kind
+
+ tycon | kind == tyConKind listTyCon -- *->*
+ = listTyCon -- No tuples this size
+
+ | all isLiftedTypeKind args && isLiftedTypeKind res
+ = tupleTyCon Boxed (length args) -- *-> ... ->*->*
+
+ | otherwise
+ = pprTrace "Urk! Inventing strangely-kinded void TyCon:" (ppr tc_name $$ ppr kind) $
+ mkPrimTyCon tc_name kind 0 [] VoidRep
+ -- Same name as the tyvar, apart from making it start with a colon (sigh)
+ -- I dread to think what will happen if this gets out into an
+ -- interface file. Catastrophe likely. Major sigh.
+
+ tc_name = mkInternalName (getUnique tv) (mkDerivedTyConOcc (getOccName tv)) noSrcLoc
+\end{code}
projects / ghc-hetmet.git / blobdiff