{- This module contains miscellaneous functions related to renaming. -} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE ViewPatterns #-} {-# LANGUAGE TypeFamilies #-} {-# OPTIONS_GHC -Wno-incomplete-uni-patterns #-} module GHC.Rename.Utils ( checkDupRdrNames, checkShadowedRdrNames, checkDupNames, checkDupAndShadowedNames, dupNamesErr, checkTupSize, addFvRn, mapFvRn, mapMaybeFvRn, warnUnusedMatches, warnUnusedTypePatterns, warnUnusedTopBinds, warnUnusedLocalBinds, checkUnusedRecordWildcard, mkFieldEnv, unknownSubordinateErr, badQualBndrErr, typeAppErr, HsDocContext(..), pprHsDocContext, inHsDocContext, withHsDocContext, newLocalBndrRn, newLocalBndrsRn, bindLocalNames, bindLocalNamesFV, addNameClashErrRn, extendTyVarEnvFVRn, checkInferredVars, noNestedForallsContextsErr, addNoNestedForallsContextsErr ) where import GHC.Prelude import GHC.Core.Type import GHC.Hs import GHC.Types.Name.Reader import GHC.Driver.Types import GHC.Tc.Utils.Env import GHC.Tc.Utils.Monad import GHC.Types.Name import GHC.Types.Name.Set import GHC.Types.Name.Env import GHC.Core.DataCon import GHC.Types.SrcLoc as SrcLoc import GHC.Utils.Outputable import GHC.Utils.Misc import GHC.Types.Basic ( TopLevelFlag(..) ) import GHC.Data.List.SetOps ( removeDups ) import GHC.Data.Maybe ( whenIsJust ) import GHC.Driver.Session import GHC.Data.FastString import Control.Monad import Data.List import GHC.Settings.Constants ( mAX_TUPLE_SIZE ) import qualified Data.List.NonEmpty as NE import qualified GHC.LanguageExtensions as LangExt {- ********************************************************* * * \subsection{Binding} * * ********************************************************* -} newLocalBndrRn :: Located RdrName -> RnM Name -- Used for non-top-level binders. These should -- never be qualified. newLocalBndrRn (L loc rdr_name) | Just name <- isExact_maybe rdr_name = return name -- This happens in code generated by Template Haskell -- See Note [Binders in Template Haskell] in "GHC.ThToHs" | otherwise = do { unless (isUnqual rdr_name) (addErrAt loc (badQualBndrErr rdr_name)) ; uniq <- newUnique ; return (mkInternalName uniq (rdrNameOcc rdr_name) loc) } newLocalBndrsRn :: [Located RdrName] -> RnM [Name] newLocalBndrsRn = mapM newLocalBndrRn bindLocalNames :: [Name] -> RnM a -> RnM a bindLocalNames names enclosed_scope = do { lcl_env <- getLclEnv ; let th_level = thLevel (tcl_th_ctxt lcl_env) th_bndrs' = extendNameEnvList (tcl_th_bndrs lcl_env) [ (n, (NotTopLevel, th_level)) | n <- names ] rdr_env' = extendLocalRdrEnvList (tcl_rdr lcl_env) names ; setLclEnv (lcl_env { tcl_th_bndrs = th_bndrs' , tcl_rdr = rdr_env' }) enclosed_scope } bindLocalNamesFV :: [Name] -> RnM (a, FreeVars) -> RnM (a, FreeVars) bindLocalNamesFV names enclosed_scope = do { (result, fvs) <- bindLocalNames names enclosed_scope ; return (result, delFVs names fvs) } ------------------------------------- extendTyVarEnvFVRn :: [Name] -> RnM (a, FreeVars) -> RnM (a, FreeVars) extendTyVarEnvFVRn tyvars thing_inside = bindLocalNamesFV tyvars thing_inside ------------------------------------- checkDupRdrNames :: [Located RdrName] -> RnM () -- Check for duplicated names in a binding group checkDupRdrNames rdr_names_w_loc = mapM_ (dupNamesErr getLoc) dups where (_, dups) = removeDups (\n1 n2 -> unLoc n1 `compare` unLoc n2) rdr_names_w_loc checkDupNames :: [Name] -> RnM () -- Check for duplicated names in a binding group checkDupNames names = check_dup_names (filterOut isSystemName names) -- See Note [Binders in Template Haskell] in "GHC.ThToHs" check_dup_names :: [Name] -> RnM () check_dup_names names = mapM_ (dupNamesErr nameSrcSpan) dups where (_, dups) = removeDups (\n1 n2 -> nameOccName n1 `compare` nameOccName n2) names --------------------- checkShadowedRdrNames :: [Located RdrName] -> RnM () checkShadowedRdrNames loc_rdr_names = do { envs <- getRdrEnvs ; checkShadowedOccs envs get_loc_occ filtered_rdrs } where filtered_rdrs = filterOut (isExact . unLoc) loc_rdr_names -- See Note [Binders in Template Haskell] in "GHC.ThToHs" get_loc_occ (L loc rdr) = (loc,rdrNameOcc rdr) checkDupAndShadowedNames :: (GlobalRdrEnv, LocalRdrEnv) -> [Name] -> RnM () checkDupAndShadowedNames envs names = do { check_dup_names filtered_names ; checkShadowedOccs envs get_loc_occ filtered_names } where filtered_names = filterOut isSystemName names -- See Note [Binders in Template Haskell] in "GHC.ThToHs" get_loc_occ name = (nameSrcSpan name, nameOccName name) ------------------------------------- checkShadowedOccs :: (GlobalRdrEnv, LocalRdrEnv) -> (a -> (SrcSpan, OccName)) -> [a] -> RnM () checkShadowedOccs (global_env,local_env) get_loc_occ ns = whenWOptM Opt_WarnNameShadowing $ do { traceRn "checkShadowedOccs:shadow" (ppr (map get_loc_occ ns)) ; mapM_ check_shadow ns } where check_shadow n | startsWithUnderscore occ = return () -- Do not report shadowing for "_x" -- See #3262 | Just n <- mb_local = complain [text "bound at" <+> ppr (nameSrcLoc n)] | otherwise = do { gres' <- filterM is_shadowed_gre gres ; complain (map pprNameProvenance gres') } where (loc,occ) = get_loc_occ n mb_local = lookupLocalRdrOcc local_env occ gres = lookupGRE_RdrName (mkRdrUnqual occ) global_env -- Make an Unqualified RdrName and look that up, so that -- we don't find any GREs that are in scope qualified-only complain [] = return () complain pp_locs = addWarnAt (Reason Opt_WarnNameShadowing) loc (shadowedNameWarn occ pp_locs) is_shadowed_gre :: GlobalRdrElt -> RnM Bool -- Returns False for record selectors that are shadowed, when -- punning or wild-cards are on (cf #2723) is_shadowed_gre gre | isRecFldGRE gre = do { dflags <- getDynFlags ; return $ not (xopt LangExt.RecordPuns dflags || xopt LangExt.RecordWildCards dflags) } is_shadowed_gre _other = return True ------------------------------------- -- | Throw an error message if a user attempts to quantify an inferred type -- variable in a place where specificity cannot be observed. For example, -- @forall {a}. [a] -> [a]@ would be rejected to the inferred type variable -- @{a}@, but @forall a. [a] -> [a]@ would be accepted. -- See @Note [Unobservably inferred type variables]@. checkInferredVars :: HsDocContext -> Maybe SDoc -- ^ The error msg if the signature is not allowed to contain -- manually written inferred variables. -> LHsSigType GhcPs -> RnM () checkInferredVars _ Nothing _ = return () checkInferredVars ctxt (Just msg) ty = let bndrs = forallty_bndrs (hsSigType ty) in case find ((==) InferredSpec . hsTyVarBndrFlag) bndrs of Nothing -> return () Just _ -> addErr $ withHsDocContext ctxt msg where forallty_bndrs :: LHsType GhcPs -> [HsTyVarBndr Specificity GhcPs] forallty_bndrs (L _ ty) = case ty of HsParTy _ ty' -> forallty_bndrs ty' HsForAllTy { hst_tele = HsForAllInvis { hsf_invis_bndrs = tvs }} -> map unLoc tvs _ -> [] {- Note [Unobservably inferred type variables] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ While GHC's parser allows the use of inferred type variables (e.g., `forall {a}. <...>`) just about anywhere that type variable binders can appear, there are some situations where the distinction between inferred and specified type variables cannot be observed. For example, consider this instance declaration: instance forall {a}. Eq (T a) where ... Making {a} inferred is pointless, as there is no way for user code to "apply" an instance declaration in a way where the inferred/specified distinction would make a difference. (Notably, there is no opportunity for visible type application of an instance declaration.) Anyone who writes such code is likely confused, so in an attempt to be helpful, we emit an error message if a user writes code like this. The checkInferredVars function is responsible for implementing this restriction. It turns out to be somewhat cumbersome to enforce this restriction in certain cases. Specifically: * Quantified constraints. In the type `f :: (forall {a}. C a) => Proxy Int`, there is no way to observe that {a} is inferred. Nevertheless, actually rejecting this code would be tricky, as we would need to reject `forall {a}. <...>` as a constraint but *accept* other uses of `forall {a}. <...>` as a type (e.g., `g :: (forall {a}. a -> a) -> b -> b`). This is quite tedious to do in practice, so we don't bother. * Default method type signatures (#18432). These are tricky because inferred type variables can appear nested, e.g., class C a where m :: forall b. a -> b -> forall c. c -> c default m :: forall b. a -> b -> forall {c}. c -> c m _ _ = id Robustly checking for nested, inferred type variables ends up being a pain, so we don't try to do this. For now, we simply allow inferred quantifiers to be specified here, even though doing so is pointless. All we lose is a warning. Aside from the places where we already use checkInferredVars, most of the other places where inferred vars don't make sense are in any case already prohibited from having foralls /at all/. For example: instance forall a. forall {b}. Eq (Either a b) where ... Here the nested `forall {b}` is already prohibited. (See Note [No nested foralls or contexts in instance types] in GHC.Hs.Type). -} -- | Examines a non-outermost type for @forall@s or contexts, which are assumed -- to be nested. For example, in the following declaration: -- -- @ -- instance forall a. forall b. C (Either a b) -- @ -- -- The outermost @forall a@ is fine, but the nested @forall b@ is not. We -- invoke 'noNestedForallsContextsErr' on the type @forall b. C (Either a b)@ -- to catch the nested @forall@ and create a suitable error message. -- 'noNestedForallsContextsErr' returns @'Just' err_msg@ if such a @forall@ or -- context is found, and returns @Nothing@ otherwise. -- -- This is currently used in the following places: -- -- * In GADT constructor types (in 'rnConDecl'). -- See @Note [GADT abstract syntax] (Wrinkle: No nested foralls or contexts)@ -- in "GHC.Hs.Type". -- -- * In instance declaration types (in 'rnClsIntDecl' and 'rnSrcDerivDecl' in -- "GHC.Rename.Module" and 'renameSig' in "GHC.Rename.Bind"). -- See @Note [No nested foralls or contexts in instance types]@ in -- "GHC.Hs.Type". noNestedForallsContextsErr :: SDoc -> LHsType GhcRn -> Maybe (SrcSpan, SDoc) noNestedForallsContextsErr what lty = case ignoreParens lty of L l (HsForAllTy { hst_tele = tele }) | HsForAllVis{} <- tele -- The only two places where this function is called correspond to -- types of terms, so we give a slightly more descriptive error -- message in the event that they contain visible dependent -- quantification (currently only allowed in kinds). -> Just (l, vcat [ text "Illegal visible, dependent quantification" <+> text "in the type of a term" , text "(GHC does not yet support this)" ]) | HsForAllInvis{} <- tele -> Just (l, nested_foralls_contexts_err) L l (HsQualTy {}) -> Just (l, nested_foralls_contexts_err) _ -> Nothing where nested_foralls_contexts_err = what <+> text "cannot contain nested" <+> quotes forAllLit <> text "s or contexts" -- | A common way to invoke 'noNestedForallsContextsErr'. addNoNestedForallsContextsErr :: HsDocContext -> SDoc -> LHsType GhcRn -> RnM () addNoNestedForallsContextsErr ctxt what lty = whenIsJust (noNestedForallsContextsErr what lty) $ \(l, err_msg) -> addErrAt l $ withHsDocContext ctxt err_msg {- ************************************************************************ * * \subsection{Free variable manipulation} * * ************************************************************************ -} -- A useful utility addFvRn :: FreeVars -> RnM (thing, FreeVars) -> RnM (thing, FreeVars) addFvRn fvs1 thing_inside = do { (res, fvs2) <- thing_inside ; return (res, fvs1 `plusFV` fvs2) } mapFvRn :: (a -> RnM (b, FreeVars)) -> [a] -> RnM ([b], FreeVars) mapFvRn f xs = do stuff <- mapM f xs case unzip stuff of (ys, fvs_s) -> return (ys, plusFVs fvs_s) mapMaybeFvRn :: (a -> RnM (b, FreeVars)) -> Maybe a -> RnM (Maybe b, FreeVars) mapMaybeFvRn _ Nothing = return (Nothing, emptyFVs) mapMaybeFvRn f (Just x) = do { (y, fvs) <- f x; return (Just y, fvs) } {- ************************************************************************ * * \subsection{Envt utility functions} * * ************************************************************************ -} warnUnusedTopBinds :: [GlobalRdrElt] -> RnM () warnUnusedTopBinds gres = whenWOptM Opt_WarnUnusedTopBinds $ do env <- getGblEnv let isBoot = tcg_src env == HsBootFile let noParent gre = case gre_par gre of NoParent -> True _ -> False -- Don't warn about unused bindings with parents in -- .hs-boot files, as you are sometimes required to give -- unused bindings (trac #3449). -- HOWEVER, in a signature file, you are never obligated to put a -- definition in the main text. Thus, if you define something -- and forget to export it, we really DO want to warn. gres' = if isBoot then filter noParent gres else gres warnUnusedGREs gres' -- | Checks to see if we need to warn for -Wunused-record-wildcards or -- -Wredundant-record-wildcards checkUnusedRecordWildcard :: SrcSpan -> FreeVars -> Maybe [Name] -> RnM () checkUnusedRecordWildcard _ _ Nothing = return () checkUnusedRecordWildcard loc _ (Just []) = do -- Add a new warning if the .. pattern binds no variables setSrcSpan loc $ warnRedundantRecordWildcard checkUnusedRecordWildcard loc fvs (Just dotdot_names) = setSrcSpan loc $ warnUnusedRecordWildcard dotdot_names fvs -- | Produce a warning when the `..` pattern binds no new -- variables. -- -- @ -- data P = P { x :: Int } -- -- foo (P{x, ..}) = x -- @ -- -- The `..` here doesn't bind any variables as `x` is already bound. warnRedundantRecordWildcard :: RnM () warnRedundantRecordWildcard = whenWOptM Opt_WarnRedundantRecordWildcards (addWarn (Reason Opt_WarnRedundantRecordWildcards) redundantWildcardWarning) -- | Produce a warning when no variables bound by a `..` pattern are used. -- -- @ -- data P = P { x :: Int } -- -- foo (P{..}) = () -- @ -- -- The `..` pattern binds `x` but it is not used in the RHS so we issue -- a warning. warnUnusedRecordWildcard :: [Name] -> FreeVars -> RnM () warnUnusedRecordWildcard ns used_names = do let used = filter (`elemNameSet` used_names) ns traceRn "warnUnused" (ppr ns $$ ppr used_names $$ ppr used) warnIfFlag Opt_WarnUnusedRecordWildcards (null used) unusedRecordWildcardWarning warnUnusedLocalBinds, warnUnusedMatches, warnUnusedTypePatterns :: [Name] -> FreeVars -> RnM () warnUnusedLocalBinds = check_unused Opt_WarnUnusedLocalBinds warnUnusedMatches = check_unused Opt_WarnUnusedMatches warnUnusedTypePatterns = check_unused Opt_WarnUnusedTypePatterns check_unused :: WarningFlag -> [Name] -> FreeVars -> RnM () check_unused flag bound_names used_names = whenWOptM flag (warnUnused flag (filterOut (`elemNameSet` used_names) bound_names)) ------------------------- -- Helpers warnUnusedGREs :: [GlobalRdrElt] -> RnM () warnUnusedGREs gres = mapM_ warnUnusedGRE gres warnUnused :: WarningFlag -> [Name] -> RnM () warnUnused flag names = do fld_env <- mkFieldEnv <$> getGlobalRdrEnv mapM_ (warnUnused1 flag fld_env) names warnUnused1 :: WarningFlag -> NameEnv (FieldLabelString, Name) -> Name -> RnM () warnUnused1 flag fld_env name = when (reportable name occ) $ addUnusedWarning flag occ (nameSrcSpan name) (text $ "Defined but not used" ++ opt_str) where occ = case lookupNameEnv fld_env name of Just (fl, _) -> mkVarOccFS fl Nothing -> nameOccName name opt_str = case flag of Opt_WarnUnusedTypePatterns -> " on the right hand side" _ -> "" warnUnusedGRE :: GlobalRdrElt -> RnM () warnUnusedGRE gre@(GRE { gre_name = name, gre_lcl = lcl, gre_imp = is }) | lcl = do fld_env <- mkFieldEnv <$> getGlobalRdrEnv warnUnused1 Opt_WarnUnusedTopBinds fld_env name | otherwise = when (reportable name occ) (mapM_ warn is) where occ = greOccName gre warn spec = addUnusedWarning Opt_WarnUnusedTopBinds occ span msg where span = importSpecLoc spec pp_mod = quotes (ppr (importSpecModule spec)) msg = text "Imported from" <+> pp_mod <+> ptext (sLit "but not used") -- | Make a map from selector names to field labels and parent tycon -- names, to be used when reporting unused record fields. mkFieldEnv :: GlobalRdrEnv -> NameEnv (FieldLabelString, Name) mkFieldEnv rdr_env = mkNameEnv [ (gre_name gre, (lbl, par_is (gre_par gre))) | gres <- occEnvElts rdr_env , gre <- gres , Just lbl <- [greLabel gre] ] -- | Should we report the fact that this 'Name' is unused? The -- 'OccName' may differ from 'nameOccName' due to -- DuplicateRecordFields. reportable :: Name -> OccName -> Bool reportable name occ | isWiredInName name = False -- Don't report unused wired-in names -- Otherwise we get a zillion warnings -- from Data.Tuple | otherwise = not (startsWithUnderscore occ) addUnusedWarning :: WarningFlag -> OccName -> SrcSpan -> SDoc -> RnM () addUnusedWarning flag occ span msg = addWarnAt (Reason flag) span $ sep [msg <> colon, nest 2 $ pprNonVarNameSpace (occNameSpace occ) <+> quotes (ppr occ)] unusedRecordWildcardWarning :: SDoc unusedRecordWildcardWarning = wildcardDoc $ text "No variables bound in the record wildcard match are used" redundantWildcardWarning :: SDoc redundantWildcardWarning = wildcardDoc $ text "Record wildcard does not bind any new variables" wildcardDoc :: SDoc -> SDoc wildcardDoc herald = herald $$ nest 2 (text "Possible fix" <> colon <+> text "omit the" <+> quotes (text "..")) addNameClashErrRn :: RdrName -> [GlobalRdrElt] -> RnM () addNameClashErrRn rdr_name gres | all isLocalGRE gres && not (all isRecFldGRE gres) -- If there are two or more *local* defns, we'll have reported = return () -- that already, and we don't want an error cascade | otherwise = addErr (vcat [ text "Ambiguous occurrence" <+> quotes (ppr rdr_name) , text "It could refer to" , nest 3 (vcat (msg1 : msgs)) ]) where (np1:nps) = gres msg1 = text "either" <+> ppr_gre np1 msgs = [text " or" <+> ppr_gre np | np <- nps] ppr_gre gre = sep [ pp_gre_name gre <> comma , pprNameProvenance gre] -- When printing the name, take care to qualify it in the same -- way as the provenance reported by pprNameProvenance, namely -- the head of 'gre_imp'. Otherwise we get confusing reports like -- Ambiguous occurrence ‘null’ -- It could refer to either ‘T15487a.null’, -- imported from ‘Prelude’ at T15487.hs:1:8-13 -- or ... -- See #15487 pp_gre_name gre@(GRE { gre_name = name, gre_par = parent , gre_lcl = lcl, gre_imp = iss }) | FldParent { par_lbl = Just lbl } <- parent = text "the field" <+> quotes (ppr lbl) | otherwise = quotes (pp_qual <> dot <> ppr (nameOccName name)) where pp_qual | lcl = ppr (nameModule name) | imp : _ <- iss -- This 'imp' is the one that -- pprNameProvenance chooses , ImpDeclSpec { is_as = mod } <- is_decl imp = ppr mod | otherwise = pprPanic "addNameClassErrRn" (ppr gre $$ ppr iss) -- Invariant: either 'lcl' is True or 'iss' is non-empty shadowedNameWarn :: OccName -> [SDoc] -> SDoc shadowedNameWarn occ shadowed_locs = sep [text "This binding for" <+> quotes (ppr occ) <+> text "shadows the existing binding" <> plural shadowed_locs, nest 2 (vcat shadowed_locs)] unknownSubordinateErr :: SDoc -> RdrName -> SDoc unknownSubordinateErr doc op -- Doc is "method of class" or -- "field of constructor" = quotes (ppr op) <+> text "is not a (visible)" <+> doc dupNamesErr :: Outputable n => (n -> SrcSpan) -> NE.NonEmpty n -> RnM () dupNamesErr get_loc names = addErrAt big_loc $ vcat [text "Conflicting definitions for" <+> quotes (ppr (NE.head names)), locations] where locs = map get_loc (NE.toList names) big_loc = foldr1 combineSrcSpans locs locations = text "Bound at:" <+> vcat (map ppr (sortBy SrcLoc.leftmost_smallest locs)) badQualBndrErr :: RdrName -> SDoc badQualBndrErr rdr_name = text "Qualified name in binding position:" <+> ppr rdr_name typeAppErr :: String -> LHsType GhcPs -> SDoc typeAppErr what (L _ k) = hang (text "Illegal visible" <+> text what <+> text "application" <+> quotes (char '@' <> ppr k)) 2 (text "Perhaps you intended to use TypeApplications") checkTupSize :: Int -> RnM () checkTupSize tup_size | tup_size <= mAX_TUPLE_SIZE = return () | otherwise = addErr (sep [text "A" <+> int tup_size <> ptext (sLit "-tuple is too large for GHC"), nest 2 (parens (text "max size is" <+> int mAX_TUPLE_SIZE)), nest 2 (text "Workaround: use nested tuples or define a data type")]) {- ************************************************************************ * * \subsection{Contexts for renaming errors} * * ************************************************************************ -} -- AZ:TODO: Change these all to be Name instead of RdrName. -- Merge TcType.UserTypeContext in to it. data HsDocContext = TypeSigCtx SDoc | StandaloneKindSigCtx SDoc | PatCtx | SpecInstSigCtx | DefaultDeclCtx | ForeignDeclCtx (Located RdrName) | DerivDeclCtx | RuleCtx FastString | TyDataCtx (Located RdrName) | TySynCtx (Located RdrName) | TyFamilyCtx (Located RdrName) | FamPatCtx (Located RdrName) -- The patterns of a type/data family instance | ConDeclCtx [Located Name] | ClassDeclCtx (Located RdrName) | ExprWithTySigCtx | TypBrCtx | HsTypeCtx | GHCiCtx | SpliceTypeCtx (LHsType GhcPs) | ClassInstanceCtx | GenericCtx SDoc -- Maybe we want to use this more! withHsDocContext :: HsDocContext -> SDoc -> SDoc withHsDocContext ctxt doc = doc $$ inHsDocContext ctxt inHsDocContext :: HsDocContext -> SDoc inHsDocContext ctxt = text "In" <+> pprHsDocContext ctxt pprHsDocContext :: HsDocContext -> SDoc pprHsDocContext (GenericCtx doc) = doc pprHsDocContext (TypeSigCtx doc) = text "the type signature for" <+> doc pprHsDocContext (StandaloneKindSigCtx doc) = text "the standalone kind signature for" <+> doc pprHsDocContext PatCtx = text "a pattern type-signature" pprHsDocContext SpecInstSigCtx = text "a SPECIALISE instance pragma" pprHsDocContext DefaultDeclCtx = text "a `default' declaration" pprHsDocContext DerivDeclCtx = text "a deriving declaration" pprHsDocContext (RuleCtx name) = text "the rewrite rule" <+> doubleQuotes (ftext name) pprHsDocContext (TyDataCtx tycon) = text "the data type declaration for" <+> quotes (ppr tycon) pprHsDocContext (FamPatCtx tycon) = text "a type pattern of family instance for" <+> quotes (ppr tycon) pprHsDocContext (TySynCtx name) = text "the declaration for type synonym" <+> quotes (ppr name) pprHsDocContext (TyFamilyCtx name) = text "the declaration for type family" <+> quotes (ppr name) pprHsDocContext (ClassDeclCtx name) = text "the declaration for class" <+> quotes (ppr name) pprHsDocContext ExprWithTySigCtx = text "an expression type signature" pprHsDocContext TypBrCtx = text "a Template-Haskell quoted type" pprHsDocContext HsTypeCtx = text "a type argument" pprHsDocContext GHCiCtx = text "GHCi input" pprHsDocContext (SpliceTypeCtx hs_ty) = text "the spliced type" <+> quotes (ppr hs_ty) pprHsDocContext ClassInstanceCtx = text "GHC.Tc.Gen.Splice.reifyInstances" pprHsDocContext (ForeignDeclCtx name) = text "the foreign declaration for" <+> quotes (ppr name) pprHsDocContext (ConDeclCtx [name]) = text "the definition of data constructor" <+> quotes (ppr name) pprHsDocContext (ConDeclCtx names) = text "the definition of data constructors" <+> interpp'SP names