{-# LANGUAGE RecordWildCards #-} ---------------------------------------------------------------------------- -- | -- Module : Haddock.Interface.Rename -- Copyright : (c) Simon Marlow 2003-2006, -- David Waern 2006-2009 -- License : BSD-like -- -- Maintainer : haddock@projects.haskell.org -- Stability : experimental -- Portability : portable ----------------------------------------------------------------------------- module Haddock.Interface.Rename (renameInterface) where import Data.Traversable (mapM) import Haddock.GhcUtils import Haddock.Types import Bag (emptyBag) import GHC hiding (NoLink) import Name import RdrName (RdrName(Exact)) import PrelNames (eqTyCon_RDR) import Control.Applicative import Control.Monad hiding (mapM) import Data.List import qualified Data.Map as Map hiding ( Map ) import Prelude hiding (mapM) renameInterface :: DynFlags -> LinkEnv -> Bool -> Interface -> ErrMsgM Interface renameInterface dflags renamingEnv warnings iface = -- first create the local env, where every name exported by this module -- is mapped to itself, and everything else comes from the global renaming -- env let localEnv = foldl fn renamingEnv (ifaceVisibleExports iface) where fn env name = Map.insert name (ifaceMod iface) env -- rename names in the exported declarations to point to things that -- are closer to, or maybe even exported by, the current module. (renamedExportItems, missingNames1) = runRnFM localEnv (renameExportItems (ifaceExportItems iface)) (rnDocMap, missingNames2) = runRnFM localEnv (mapM renameDoc (ifaceDocMap iface)) (rnArgMap, missingNames3) = runRnFM localEnv (mapM (mapM renameDoc) (ifaceArgMap iface)) (renamedOrphanInstances, missingNames4) = runRnFM localEnv (mapM renameDocInstance (ifaceOrphanInstances iface)) (finalModuleDoc, missingNames5) = runRnFM localEnv (renameDocumentation (ifaceDoc iface)) -- combine the missing names and filter out the built-ins, which would -- otherwise always be missing. missingNames = nubByName id $ filter isExternalName -- XXX: isExternalName filters out too much (missingNames1 ++ missingNames2 ++ missingNames3 ++ missingNames4 ++ missingNames5) -- Filter out certain built in type constructors using their string -- representation. -- -- Note that since the renamed AST represents equality constraints as -- @HasOpTy t1 eqTyCon_RDR t2@ (and _not_ as @HsEqTy t1 t2@), we need to -- manually filter out 'eqTyCon_RDR' (aka @~@). strings = [ pretty dflags n | n <- missingNames , not (isSystemName n) , not (isBuiltInSyntax n) , Exact n /= eqTyCon_RDR ] in do -- report things that we couldn't link to. Only do this for non-hidden -- modules. unless (OptHide `elem` ifaceOptions iface || null strings || not warnings) $ tell ["Warning: " ++ moduleString (ifaceMod iface) ++ ": could not find link destinations for:\n"++ unwords (" " : strings) ] return $ iface { ifaceRnDoc = finalModuleDoc, ifaceRnDocMap = rnDocMap, ifaceRnArgMap = rnArgMap, ifaceRnExportItems = renamedExportItems, ifaceRnOrphanInstances = renamedOrphanInstances} -------------------------------------------------------------------------------- -- Monad for renaming -- -- The monad does two things for us: it passes around the environment for -- renaming, and it returns a list of names which couldn't be found in -- the environment. -------------------------------------------------------------------------------- newtype RnM a = RnM { unRn :: (Name -> (Bool, DocName)) -- name lookup function -> (a,[Name]) } instance Monad RnM where (>>=) = thenRn return = pure instance Functor RnM where fmap f x = do a <- x; return (f a) instance Applicative RnM where pure = returnRn (<*>) = ap returnRn :: a -> RnM a returnRn a = RnM (const (a,[])) thenRn :: RnM a -> (a -> RnM b) -> RnM b m `thenRn` k = RnM (\lkp -> case unRn m lkp of (a,out1) -> case unRn (k a) lkp of (b,out2) -> (b,out1++out2)) getLookupRn :: RnM (Name -> (Bool, DocName)) getLookupRn = RnM (\lkp -> (lkp,[])) outRn :: Name -> RnM () outRn name = RnM (const ((),[name])) lookupRn :: Name -> RnM DocName lookupRn name = do lkp <- getLookupRn case lkp name of (False,maps_to) -> do outRn name; return maps_to (True, maps_to) -> return maps_to runRnFM :: LinkEnv -> RnM a -> (a,[Name]) runRnFM env rn = unRn rn lkp where lkp n = case Map.lookup n env of Nothing -> (False, Undocumented n) Just mdl -> (True, Documented n mdl) -------------------------------------------------------------------------------- -- Renaming -------------------------------------------------------------------------------- rename :: Name -> RnM DocName rename = lookupRn renameL :: Located Name -> RnM (Located DocName) renameL = mapM rename renameExportItems :: [ExportItem GhcRn] -> RnM [ExportItem DocNameI] renameExportItems = mapM renameExportItem renameDocForDecl :: DocForDecl Name -> RnM (DocForDecl DocName) renameDocForDecl (doc, fnArgsDoc) = (,) <$> renameDocumentation doc <*> renameFnArgsDoc fnArgsDoc renameDocumentation :: Documentation Name -> RnM (Documentation DocName) renameDocumentation (Documentation mDoc mWarning) = Documentation <$> mapM renameDoc mDoc <*> mapM renameDoc mWarning renameLDocHsSyn :: LHsDocString -> RnM LHsDocString renameLDocHsSyn = return renameDoc :: Traversable t => t Name -> RnM (t DocName) renameDoc = traverse rename renameFnArgsDoc :: FnArgsDoc Name -> RnM (FnArgsDoc DocName) renameFnArgsDoc = mapM renameDoc renameLType :: LHsType GhcRn -> RnM (LHsType DocNameI) renameLType = mapM renameType renameLSigType :: LHsSigType GhcRn -> RnM (LHsSigType DocNameI) renameLSigType = renameImplicit renameLType renameLSigWcType :: LHsSigWcType GhcRn -> RnM (LHsSigWcType DocNameI) renameLSigWcType = renameWc (renameImplicit renameLType) renameLKind :: LHsKind GhcRn -> RnM (LHsKind DocNameI) renameLKind = renameLType renameMaybeLKind :: Maybe (LHsKind GhcRn) -> RnM (Maybe (LHsKind DocNameI)) renameMaybeLKind = traverse renameLKind renameFamilyResultSig :: LFamilyResultSig GhcRn -> RnM (LFamilyResultSig DocNameI) renameFamilyResultSig (L loc NoSig) = return (L loc NoSig) renameFamilyResultSig (L loc (KindSig ki)) = do { ki' <- renameLKind ki ; return (L loc (KindSig ki')) } renameFamilyResultSig (L loc (TyVarSig bndr)) = do { bndr' <- renameLTyVarBndr bndr ; return (L loc (TyVarSig bndr')) } renameInjectivityAnn :: LInjectivityAnn GhcRn -> RnM (LInjectivityAnn DocNameI) renameInjectivityAnn (L loc (InjectivityAnn lhs rhs)) = do { lhs' <- renameL lhs ; rhs' <- mapM renameL rhs ; return (L loc (InjectivityAnn lhs' rhs')) } renameMaybeInjectivityAnn :: Maybe (LInjectivityAnn GhcRn) -> RnM (Maybe (LInjectivityAnn DocNameI)) renameMaybeInjectivityAnn = traverse renameInjectivityAnn renameType :: HsType GhcRn -> RnM (HsType DocNameI) renameType t = case t of HsForAllTy { hst_bndrs = tyvars, hst_body = ltype } -> do tyvars' <- mapM renameLTyVarBndr tyvars ltype' <- renameLType ltype return (HsForAllTy { hst_bndrs = tyvars', hst_body = ltype' }) HsQualTy { hst_ctxt = lcontext , hst_body = ltype } -> do lcontext' <- renameLContext lcontext ltype' <- renameLType ltype return (HsQualTy { hst_ctxt = lcontext', hst_body = ltype' }) HsTyVar ip (L l n) -> return . HsTyVar ip . L l =<< rename n HsBangTy b ltype -> return . HsBangTy b =<< renameLType ltype HsAppTy a b -> do a' <- renameLType a b' <- renameLType b return (HsAppTy a' b') HsFunTy a b -> do a' <- renameLType a b' <- renameLType b return (HsFunTy a' b') HsListTy ty -> return . HsListTy =<< renameLType ty HsPArrTy ty -> return . HsPArrTy =<< renameLType ty HsIParamTy n ty -> liftM (HsIParamTy n) (renameLType ty) HsEqTy ty1 ty2 -> liftM2 HsEqTy (renameLType ty1) (renameLType ty2) HsTupleTy b ts -> return . HsTupleTy b =<< mapM renameLType ts HsSumTy ts -> HsSumTy <$> mapM renameLType ts HsOpTy a (L loc op) b -> do op' <- rename op a' <- renameLType a b' <- renameLType b return (HsOpTy a' (L loc op') b') HsParTy ty -> return . HsParTy =<< renameLType ty HsKindSig ty k -> do ty' <- renameLType ty k' <- renameLKind k return (HsKindSig ty' k') HsDocTy ty doc -> do ty' <- renameLType ty doc' <- renameLDocHsSyn doc return (HsDocTy ty' doc') HsTyLit x -> return (HsTyLit x) HsRecTy a -> HsRecTy <$> mapM renameConDeclFieldField a HsCoreTy a -> pure (HsCoreTy a) HsExplicitListTy i a b -> HsExplicitListTy i a <$> mapM renameLType b HsExplicitTupleTy a b -> HsExplicitTupleTy a <$> mapM renameLType b HsSpliceTy s _ -> renameHsSpliceTy s HsWildCardTy a -> HsWildCardTy <$> renameWildCardInfo a HsAppsTy _ -> error "renameType: HsAppsTy" -- | Rename splices, but _only_ those that turn out to be for types. -- I think this is actually safe for our possible inputs: -- -- * the input is from after GHC's renamer, so should have an 'HsSpliced' -- * the input is typechecked, and only 'HsSplicedTy' should get through that -- renameHsSpliceTy :: HsSplice GhcRn -> RnM (HsType DocNameI) renameHsSpliceTy (HsSpliced _ (HsSplicedTy t)) = renameType t renameHsSpliceTy (HsSpliced _ _) = error "renameHsSpliceTy: not an HsSplicedTy" renameHsSpliceTy _ = error "renameHsSpliceTy: not an HsSpliced" renameLHsQTyVars :: LHsQTyVars GhcRn -> RnM (LHsQTyVars DocNameI) renameLHsQTyVars (HsQTvs { hsq_implicit = _, hsq_explicit = tvs }) = do { tvs' <- mapM renameLTyVarBndr tvs ; return (HsQTvs { hsq_implicit = error "haddock:renameLHsQTyVars", hsq_explicit = tvs', hsq_dependent = error "haddock:renameLHsQTyVars" }) } -- This is rather bogus, but I'm not sure what else to do renameLTyVarBndr :: LHsTyVarBndr GhcRn -> RnM (LHsTyVarBndr DocNameI) renameLTyVarBndr (L loc (UserTyVar (L l n))) = do { n' <- rename n ; return (L loc (UserTyVar (L l n'))) } renameLTyVarBndr (L loc (KindedTyVar (L lv n) kind)) = do { n' <- rename n ; kind' <- renameLKind kind ; return (L loc (KindedTyVar (L lv n') kind')) } renameLContext :: Located [LHsType GhcRn] -> RnM (Located [LHsType DocNameI]) renameLContext (L loc context) = do context' <- mapM renameLType context return (L loc context') renameWildCardInfo :: HsWildCardInfo GhcRn -> RnM (HsWildCardInfo DocNameI) renameWildCardInfo (AnonWildCard (L l name)) = AnonWildCard . L l <$> rename name renameInstHead :: InstHead GhcRn -> RnM (InstHead DocNameI) renameInstHead InstHead {..} = do cname <- rename ihdClsName types <- mapM renameType ihdTypes itype <- case ihdInstType of ClassInst { .. } -> ClassInst <$> mapM renameType clsiCtx <*> renameLHsQTyVars clsiTyVars <*> mapM renameSig clsiSigs <*> mapM renamePseudoFamilyDecl clsiAssocTys TypeInst ts -> TypeInst <$> traverse renameType ts DataInst dd -> DataInst <$> renameTyClD dd return InstHead { ihdClsName = cname , ihdTypes = types , ihdInstType = itype } renameLDecl :: LHsDecl GhcRn -> RnM (LHsDecl DocNameI) renameLDecl (L loc d) = return . L loc =<< renameDecl d renamePats :: [(HsDecl GhcRn, DocForDecl Name)] -> RnM [(HsDecl DocNameI, DocForDecl DocName)] renamePats = mapM (\(d,doc) -> do { d' <- renameDecl d ; doc' <- renameDocForDecl doc ; return (d',doc')}) renameDecl :: HsDecl GhcRn -> RnM (HsDecl DocNameI) renameDecl decl = case decl of TyClD d -> do d' <- renameTyClD d return (TyClD d') SigD s -> do s' <- renameSig s return (SigD s') ForD d -> do d' <- renameForD d return (ForD d') InstD d -> do d' <- renameInstD d return (InstD d') DerivD d -> do d' <- renameDerivD d return (DerivD d') _ -> error "renameDecl" renameLThing :: (a GhcRn -> RnM (a DocNameI)) -> Located (a GhcRn) -> RnM (Located (a DocNameI)) renameLThing fn (L loc x) = return . L loc =<< fn x renameTyClD :: TyClDecl GhcRn -> RnM (TyClDecl DocNameI) renameTyClD d = case d of -- TyFamily flav lname ltyvars kind tckind -> do FamDecl { tcdFam = decl } -> do decl' <- renameFamilyDecl decl return (FamDecl { tcdFam = decl' }) SynDecl { tcdLName = lname, tcdTyVars = tyvars, tcdFixity = fixity, tcdRhs = rhs, tcdFVs = _fvs } -> do lname' <- renameL lname tyvars' <- renameLHsQTyVars tyvars rhs' <- renameLType rhs return (SynDecl { tcdLName = lname', tcdTyVars = tyvars', tcdFixity = fixity, tcdRhs = rhs', tcdFVs = placeHolderNames }) DataDecl { tcdLName = lname, tcdTyVars = tyvars, tcdFixity = fixity, tcdDataDefn = defn, tcdFVs = _fvs } -> do lname' <- renameL lname tyvars' <- renameLHsQTyVars tyvars defn' <- renameDataDefn defn return (DataDecl { tcdLName = lname', tcdTyVars = tyvars', tcdFixity = fixity, tcdDataDefn = defn', tcdDataCusk = PlaceHolder, tcdFVs = placeHolderNames }) ClassDecl { tcdCtxt = lcontext, tcdLName = lname, tcdTyVars = ltyvars, tcdFixity = fixity , tcdFDs = lfundeps, tcdSigs = lsigs, tcdATs = ats, tcdATDefs = at_defs } -> do lcontext' <- renameLContext lcontext lname' <- renameL lname ltyvars' <- renameLHsQTyVars ltyvars lfundeps' <- mapM renameLFunDep lfundeps lsigs' <- mapM renameLSig lsigs ats' <- mapM (renameLThing renameFamilyDecl) ats at_defs' <- mapM renameLTyFamDefltEqn at_defs -- we don't need the default methods or the already collected doc entities return (ClassDecl { tcdCtxt = lcontext', tcdLName = lname', tcdTyVars = ltyvars' , tcdFixity = fixity , tcdFDs = lfundeps', tcdSigs = lsigs', tcdMeths= emptyBag , tcdATs = ats', tcdATDefs = at_defs', tcdDocs = [], tcdFVs = placeHolderNames }) where renameLFunDep (L loc (xs, ys)) = do xs' <- mapM rename (map unLoc xs) ys' <- mapM rename (map unLoc ys) return (L loc (map noLoc xs', map noLoc ys')) renameLSig (L loc sig) = return . L loc =<< renameSig sig renameFamilyDecl :: FamilyDecl GhcRn -> RnM (FamilyDecl DocNameI) renameFamilyDecl (FamilyDecl { fdInfo = info, fdLName = lname , fdTyVars = ltyvars , fdFixity = fixity , fdResultSig = result , fdInjectivityAnn = injectivity }) = do info' <- renameFamilyInfo info lname' <- renameL lname ltyvars' <- renameLHsQTyVars ltyvars result' <- renameFamilyResultSig result injectivity' <- renameMaybeInjectivityAnn injectivity return (FamilyDecl { fdInfo = info', fdLName = lname' , fdTyVars = ltyvars' , fdFixity = fixity , fdResultSig = result' , fdInjectivityAnn = injectivity' }) renamePseudoFamilyDecl :: PseudoFamilyDecl GhcRn -> RnM (PseudoFamilyDecl DocNameI) renamePseudoFamilyDecl (PseudoFamilyDecl { .. }) = PseudoFamilyDecl <$> renameFamilyInfo pfdInfo <*> renameL pfdLName <*> mapM renameLType pfdTyVars <*> renameFamilyResultSig pfdKindSig renameFamilyInfo :: FamilyInfo GhcRn -> RnM (FamilyInfo DocNameI) renameFamilyInfo DataFamily = return DataFamily renameFamilyInfo OpenTypeFamily = return OpenTypeFamily renameFamilyInfo (ClosedTypeFamily eqns) = do { eqns' <- mapM (mapM (mapM renameTyFamInstEqn)) eqns ; return $ ClosedTypeFamily eqns' } renameDataDefn :: HsDataDefn GhcRn -> RnM (HsDataDefn DocNameI) renameDataDefn (HsDataDefn { dd_ND = nd, dd_ctxt = lcontext, dd_cType = cType , dd_kindSig = k, dd_cons = cons }) = do lcontext' <- renameLContext lcontext k' <- renameMaybeLKind k cons' <- mapM (mapM renameCon) cons -- I don't think we need the derivings, so we return Nothing return (HsDataDefn { dd_ND = nd, dd_ctxt = lcontext', dd_cType = cType , dd_kindSig = k', dd_cons = cons' , dd_derivs = noLoc [] }) renameCon :: ConDecl GhcRn -> RnM (ConDecl DocNameI) renameCon decl@(ConDeclH98 { con_name = lname, con_qvars = ltyvars , con_cxt = lcontext, con_details = details , con_doc = mbldoc }) = do lname' <- renameL lname ltyvars' <- traverse renameLHsQTyVars ltyvars lcontext' <- traverse renameLContext lcontext details' <- renameDetails details mbldoc' <- mapM renameLDocHsSyn mbldoc return (decl { con_name = lname', con_qvars = ltyvars', con_cxt = lcontext' , con_details = details', con_doc = mbldoc' }) where renameDetails (RecCon (L l fields)) = do fields' <- mapM renameConDeclFieldField fields return (RecCon (L l fields')) renameDetails (PrefixCon ps) = return . PrefixCon =<< mapM renameLType ps renameDetails (InfixCon a b) = do a' <- renameLType a b' <- renameLType b return (InfixCon a' b') renameCon decl@(ConDeclGADT { con_names = lnames , con_type = lty , con_doc = mbldoc }) = do lnames' <- mapM renameL lnames lty' <- renameLSigType lty mbldoc' <- mapM renameLDocHsSyn mbldoc return (decl { con_names = lnames' , con_type = lty', con_doc = mbldoc' }) renameConDeclFieldField :: LConDeclField GhcRn -> RnM (LConDeclField DocNameI) renameConDeclFieldField (L l (ConDeclField names t doc)) = do names' <- mapM renameLFieldOcc names t' <- renameLType t doc' <- mapM renameLDocHsSyn doc return $ L l (ConDeclField names' t' doc') renameLFieldOcc :: LFieldOcc GhcRn -> RnM (LFieldOcc DocNameI) renameLFieldOcc (L l (FieldOcc lbl sel)) = do sel' <- rename sel return $ L l (FieldOcc lbl sel') renameSig :: Sig GhcRn -> RnM (Sig DocNameI) renameSig sig = case sig of TypeSig lnames ltype -> do lnames' <- mapM renameL lnames ltype' <- renameLSigWcType ltype return (TypeSig lnames' ltype') ClassOpSig is_default lnames sig_ty -> do lnames' <- mapM renameL lnames ltype' <- renameLSigType sig_ty return (ClassOpSig is_default lnames' ltype') PatSynSig lnames sig_ty -> do lnames' <- mapM renameL lnames sig_ty' <- renameLSigType sig_ty return $ PatSynSig lnames' sig_ty' FixSig (FixitySig lnames fixity) -> do lnames' <- mapM renameL lnames return $ FixSig (FixitySig lnames' fixity) MinimalSig src (L l s) -> do s' <- traverse renameL s return $ MinimalSig src (L l s') -- we have filtered out all other kinds of signatures in Interface.Create _ -> error "expected TypeSig" renameForD :: ForeignDecl GhcRn -> RnM (ForeignDecl DocNameI) renameForD (ForeignImport lname ltype co x) = do lname' <- renameL lname ltype' <- renameLSigType ltype return (ForeignImport lname' ltype' co x) renameForD (ForeignExport lname ltype co x) = do lname' <- renameL lname ltype' <- renameLSigType ltype return (ForeignExport lname' ltype' co x) renameInstD :: InstDecl GhcRn -> RnM (InstDecl DocNameI) renameInstD (ClsInstD { cid_inst = d }) = do d' <- renameClsInstD d return (ClsInstD { cid_inst = d' }) renameInstD (TyFamInstD { tfid_inst = d }) = do d' <- renameTyFamInstD d return (TyFamInstD { tfid_inst = d' }) renameInstD (DataFamInstD { dfid_inst = d }) = do d' <- renameDataFamInstD d return (DataFamInstD { dfid_inst = d' }) renameDerivD :: DerivDecl GhcRn -> RnM (DerivDecl DocNameI) renameDerivD (DerivDecl { deriv_type = ty , deriv_strategy = strat , deriv_overlap_mode = omode }) = do ty' <- renameLSigType ty return (DerivDecl { deriv_type = ty' , deriv_strategy = strat , deriv_overlap_mode = omode }) renameClsInstD :: ClsInstDecl GhcRn -> RnM (ClsInstDecl DocNameI) renameClsInstD (ClsInstDecl { cid_overlap_mode = omode , cid_poly_ty =ltype, cid_tyfam_insts = lATs , cid_datafam_insts = lADTs }) = do ltype' <- renameLSigType ltype lATs' <- mapM (mapM renameTyFamInstD) lATs lADTs' <- mapM (mapM renameDataFamInstD) lADTs return (ClsInstDecl { cid_overlap_mode = omode , cid_poly_ty = ltype', cid_binds = emptyBag , cid_sigs = [] , cid_tyfam_insts = lATs', cid_datafam_insts = lADTs' }) renameTyFamInstD :: TyFamInstDecl GhcRn -> RnM (TyFamInstDecl DocNameI) renameTyFamInstD (TyFamInstDecl { tfid_eqn = eqn }) = do { eqn' <- renameTyFamInstEqn eqn ; return (TyFamInstDecl { tfid_eqn = eqn' }) } renameTyFamInstEqn :: TyFamInstEqn GhcRn -> RnM (TyFamInstEqn DocNameI) renameTyFamInstEqn eqn = renameImplicit rename_ty_fam_eqn eqn where rename_ty_fam_eqn :: FamEqn GhcRn (HsTyPats GhcRn) (LHsType GhcRn) -> RnM (FamEqn DocNameI (HsTyPats DocNameI) (LHsType DocNameI)) rename_ty_fam_eqn (FamEqn { feqn_tycon = tc, feqn_pats = pats , feqn_fixity = fixity, feqn_rhs = rhs }) = do { tc' <- renameL tc ; pats' <- mapM renameLType pats ; rhs' <- renameLType rhs ; return (FamEqn { feqn_tycon = tc' , feqn_pats = pats' , feqn_fixity = fixity , feqn_rhs = rhs' }) } renameLTyFamDefltEqn :: LTyFamDefltEqn GhcRn -> RnM (LTyFamDefltEqn DocNameI) renameLTyFamDefltEqn (L loc (FamEqn { feqn_tycon = tc, feqn_pats = tvs , feqn_fixity = fixity, feqn_rhs = rhs })) = do { tc' <- renameL tc ; tvs' <- renameLHsQTyVars tvs ; rhs' <- renameLType rhs ; return (L loc (FamEqn { feqn_tycon = tc' , feqn_pats = tvs' , feqn_fixity = fixity , feqn_rhs = rhs' })) } renameDataFamInstD :: DataFamInstDecl GhcRn -> RnM (DataFamInstDecl DocNameI) renameDataFamInstD (DataFamInstDecl { dfid_eqn = eqn }) = do { eqn' <- renameImplicit rename_data_fam_eqn eqn ; return (DataFamInstDecl { dfid_eqn = eqn' }) } where rename_data_fam_eqn :: FamEqn GhcRn (HsTyPats GhcRn) (HsDataDefn GhcRn) -> RnM (FamEqn DocNameI (HsTyPats DocNameI) (HsDataDefn DocNameI)) rename_data_fam_eqn (FamEqn { feqn_tycon = tc, feqn_pats = pats , feqn_fixity = fixity, feqn_rhs = defn }) = do { tc' <- renameL tc ; pats' <- mapM renameLType pats ; defn' <- renameDataDefn defn ; return (FamEqn { feqn_tycon = tc' , feqn_pats = pats' , feqn_fixity = fixity , feqn_rhs = defn' }) } renameImplicit :: (in_thing -> RnM out_thing) -> HsImplicitBndrs GhcRn in_thing -> RnM (HsImplicitBndrs DocNameI out_thing) renameImplicit rn_thing (HsIB { hsib_body = thing }) = do { thing' <- rn_thing thing ; return (HsIB { hsib_body = thing' , hsib_vars = PlaceHolder , hsib_closed = PlaceHolder }) } renameWc :: (in_thing -> RnM out_thing) -> HsWildCardBndrs GhcRn in_thing -> RnM (HsWildCardBndrs DocNameI out_thing) renameWc rn_thing (HsWC { hswc_body = thing }) = do { thing' <- rn_thing thing ; return (HsWC { hswc_body = thing' , hswc_wcs = PlaceHolder }) } renameDocInstance :: DocInstance GhcRn -> RnM (DocInstance DocNameI) renameDocInstance (inst, idoc, L l n) = do inst' <- renameInstHead inst n' <- rename n idoc' <- mapM renameDoc idoc return (inst', idoc',L l n') renameExportItem :: ExportItem GhcRn -> RnM (ExportItem DocNameI) renameExportItem item = case item of ExportModule mdl -> return (ExportModule mdl) ExportGroup lev id_ doc -> do doc' <- renameDoc doc return (ExportGroup lev id_ doc') ExportDecl decl pats doc subs instances fixities splice -> do decl' <- renameLDecl decl pats' <- renamePats pats doc' <- renameDocForDecl doc subs' <- mapM renameSub subs instances' <- forM instances renameDocInstance fixities' <- forM fixities $ \(name, fixity) -> do name' <- lookupRn name return (name', fixity) return (ExportDecl decl' pats' doc' subs' instances' fixities' splice) ExportNoDecl x subs -> do x' <- lookupRn x subs' <- mapM lookupRn subs return (ExportNoDecl x' subs') ExportDoc doc -> do doc' <- renameDoc doc return (ExportDoc doc') renameSub :: (Name, DocForDecl Name) -> RnM (DocName, DocForDecl DocName) renameSub (n,doc) = do n' <- rename n doc' <- renameDocForDecl doc return (n', doc')