{-# LANGUAGE PatternSynonyms #-} {- This module contains helper functions for reporting and creating unbound variables. -} module GHC.Rename.Unbound ( mkUnboundName , mkUnboundNameRdr , isUnboundName , reportUnboundName , reportUnboundName' , unknownNameSuggestions , WhatLooking(..) , WhereLooking(..) , LookingFor(..) , unboundName , unboundNameX , notInScopeErr , nameSpacesRelated ) where import GHC.Prelude import GHC.Driver.Session import GHC.Driver.Ppr import GHC.Tc.Errors.Types import GHC.Tc.Utils.Monad import GHC.Builtin.Names ( mkUnboundName, isUnboundName, getUnique) import GHC.Utils.Misc import GHC.Data.Maybe import GHC.Data.FastString import qualified GHC.LanguageExtensions as LangExt import GHC.Types.Hint ( GhcHint (SuggestExtension, RemindFieldSelectorSuppressed, ImportSuggestion, SuggestSimilarNames) , LanguageExtensionHint (SuggestSingleExtension) , ImportSuggestion(..), SimilarName(..), HowInScope(..) ) import GHC.Types.SrcLoc as SrcLoc import GHC.Types.Name import GHC.Types.Name.Reader import GHC.Types.Unique.DFM (udfmToList) import GHC.Unit.Module import GHC.Unit.Module.Imported import GHC.Unit.Home.ModInfo import GHC.Data.Bag import GHC.Utils.Outputable (empty) import Data.List (sortBy, partition, nub) import Data.List.NonEmpty ( pattern (:|), NonEmpty ) import Data.Function ( on ) {- ************************************************************************ * * What to do when a lookup fails * * ************************************************************************ -} -- What kind of suggestion are we looking for? #19843 data WhatLooking = WL_Anything -- Any binding | WL_Constructor -- Constructors and pattern synonyms -- E.g. in K { f1 = True }, if K is not in scope, -- suggest only constructors | WL_RecField -- Record fields -- E.g. in K { f1 = True, f2 = False }, if f2 is not in -- scope, suggest only constructor fields | WL_None -- No suggestions -- WS_None is used for rebindable syntax, where there -- is no point in suggesting alternative spellings deriving Eq data WhereLooking = WL_Anywhere -- Any binding | WL_Global -- Any top-level binding (local or imported) | WL_LocalTop -- Any top-level binding in this module | WL_LocalOnly -- Only local bindings -- (pattern synonyms declarations, -- see Note [Renaming pattern synonym variables] -- in GHC.Rename.Bind) data LookingFor = LF { lf_which :: WhatLooking , lf_where :: WhereLooking } mkUnboundNameRdr :: RdrName -> Name mkUnboundNameRdr rdr = mkUnboundName (rdrNameOcc rdr) reportUnboundName' :: WhatLooking -> RdrName -> RnM Name reportUnboundName' what_look rdr = unboundName (LF what_look WL_Anywhere) rdr reportUnboundName :: RdrName -> RnM Name reportUnboundName = reportUnboundName' WL_Anything unboundName :: LookingFor -> RdrName -> RnM Name unboundName lf rdr = unboundNameX lf rdr [] unboundNameX :: LookingFor -> RdrName -> [GhcHint] -> RnM Name unboundNameX looking_for rdr_name hints = do { dflags <- getDynFlags ; let show_helpful_errors = gopt Opt_HelpfulErrors dflags err = notInScopeErr (lf_where looking_for) rdr_name ; if not show_helpful_errors then addErr $ TcRnNotInScope err rdr_name [] hints else do { local_env <- getLocalRdrEnv ; global_env <- getGlobalRdrEnv ; impInfo <- getImports ; currmod <- getModule ; hpt <- getHpt ; let (imp_errs, suggs) = unknownNameSuggestions_ looking_for dflags hpt currmod global_env local_env impInfo rdr_name ; addErr $ TcRnNotInScope err rdr_name imp_errs (hints ++ suggs) } ; return (mkUnboundNameRdr rdr_name) } notInScopeErr :: WhereLooking -> RdrName -> NotInScopeError notInScopeErr where_look rdr_name | Just name <- isExact_maybe rdr_name = NoExactName name | WL_LocalTop <- where_look = NoTopLevelBinding | otherwise = NotInScope -- | Called from the typechecker ("GHC.Tc.Errors") when we find an unbound variable unknownNameSuggestions :: WhatLooking -> DynFlags -> HomePackageTable -> Module -> GlobalRdrEnv -> LocalRdrEnv -> ImportAvails -> RdrName -> ([ImportError], [GhcHint]) unknownNameSuggestions what_look = unknownNameSuggestions_ (LF what_look WL_Anywhere) unknownNameSuggestions_ :: LookingFor -> DynFlags -> HomePackageTable -> Module -> GlobalRdrEnv -> LocalRdrEnv -> ImportAvails -> RdrName -> ([ImportError], [GhcHint]) unknownNameSuggestions_ looking_for dflags hpt curr_mod global_env local_env imports tried_rdr_name = (imp_errs, suggs) where suggs = mconcat [ if_ne (SuggestSimilarNames tried_rdr_name) $ similarNameSuggestions looking_for dflags global_env local_env tried_rdr_name , map ImportSuggestion imp_suggs , extensionSuggestions tried_rdr_name , fieldSelectorSuggestions global_env tried_rdr_name ] (imp_errs, imp_suggs) = importSuggestions looking_for global_env hpt curr_mod imports tried_rdr_name if_ne :: (NonEmpty a -> b) -> [a] -> [b] if_ne _ [] = [] if_ne f (a : as) = [f (a :| as)] -- | When the name is in scope as field whose selector has been suppressed by -- NoFieldSelectors, display a helpful message explaining this. fieldSelectorSuggestions :: GlobalRdrEnv -> RdrName -> [GhcHint] fieldSelectorSuggestions global_env tried_rdr_name | null gres = [] | otherwise = [RemindFieldSelectorSuppressed tried_rdr_name parents] where gres = filter isNoFieldSelectorGRE $ lookupGRE_RdrName' tried_rdr_name global_env parents = [ parent | ParentIs parent <- map gre_par gres ] similarNameSuggestions :: LookingFor -> DynFlags -> GlobalRdrEnv -> LocalRdrEnv -> RdrName -> [SimilarName] similarNameSuggestions looking_for@(LF what_look where_look) dflags global_env local_env tried_rdr_name = fuzzyLookup (showPpr dflags tried_rdr_name) all_possibilities where all_possibilities :: [(String, SimilarName)] all_possibilities = case what_look of WL_None -> [] _ -> [ (showPpr dflags r, SimilarRdrName r (LocallyBoundAt loc)) | (r,loc) <- local_possibilities local_env ] ++ [ (showPpr dflags r, rp) | (r, rp) <- global_possibilities global_env ] tried_occ = rdrNameOcc tried_rdr_name tried_is_sym = isSymOcc tried_occ tried_ns = occNameSpace tried_occ tried_is_qual = isQual tried_rdr_name correct_name_space occ = (nameSpacesRelated dflags what_look tried_ns (occNameSpace occ)) && isSymOcc occ == tried_is_sym -- Treat operator and non-operators as non-matching -- This heuristic avoids things like -- Not in scope 'f'; perhaps you meant '+' (from Prelude) local_ok = case where_look of { WL_Anywhere -> True ; WL_LocalOnly -> True ; _ -> False } local_possibilities :: LocalRdrEnv -> [(RdrName, SrcSpan)] local_possibilities env | tried_is_qual = [] | not local_ok = [] | otherwise = [ (mkRdrUnqual occ, nameSrcSpan name) | name <- localRdrEnvElts env , let occ = nameOccName name , correct_name_space occ] global_possibilities :: GlobalRdrEnv -> [(RdrName, SimilarName)] global_possibilities global_env | tried_is_qual = [ (rdr_qual, SimilarRdrName rdr_qual how) | gre <- globalRdrEnvElts global_env , isGreOk looking_for gre , let occ = greOccName gre , correct_name_space occ , (mod, how) <- qualsInScope gre , let rdr_qual = mkRdrQual mod occ ] | otherwise = [ (rdr_unqual, sim) | gre <- globalRdrEnvElts global_env , isGreOk looking_for gre , let occ = greOccName gre rdr_unqual = mkRdrUnqual occ , correct_name_space occ , sim <- case (unquals_in_scope gre, quals_only gre) of (how:_, _) -> [ SimilarRdrName rdr_unqual how ] ([], pr:_) -> [ pr ] -- See Note [Only-quals] ([], []) -> [] ] -- Note [Only-quals] -- ~~~~~~~~~~~~~~~~~ -- The second alternative returns those names with the same -- OccName as the one we tried, but live in *qualified* imports -- e.g. if you have: -- -- > import qualified Data.Map as Map -- > foo :: Map -- -- then we suggest @Map.Map@. -------------------- unquals_in_scope :: GlobalRdrElt -> [HowInScope] unquals_in_scope (gre@GRE { gre_lcl = lcl, gre_imp = is }) | lcl = [ LocallyBoundAt (greDefinitionSrcSpan gre) ] | otherwise = [ ImportedBy ispec | i <- bagToList is, let ispec = is_decl i , not (is_qual ispec) ] -------------------- quals_only :: GlobalRdrElt -> [SimilarName] -- Ones for which *only* the qualified version is in scope quals_only (gre@GRE { gre_imp = is }) = [ (SimilarRdrName (mkRdrQual (is_as ispec) (greOccName gre)) (ImportedBy ispec)) | i <- bagToList is, let ispec = is_decl i, is_qual ispec ] -- | Generate errors and helpful suggestions if a qualified name Mod.foo is not in scope. importSuggestions :: LookingFor -> GlobalRdrEnv -> HomePackageTable -> Module -> ImportAvails -> RdrName -> ([ImportError], [ImportSuggestion]) importSuggestions looking_for global_env hpt currMod imports rdr_name | WL_LocalOnly <- lf_where looking_for = ([], []) | WL_LocalTop <- lf_where looking_for = ([], []) | not (isQual rdr_name || isUnqual rdr_name) = ([], []) | null interesting_imports , Just name <- mod_name , show_not_imported_line name = ([MissingModule name], []) | is_qualified , null helpful_imports , (mod : mods) <- map fst interesting_imports = ([ModulesDoNotExport (mod :| mods) occ_name], []) | mod : mods <- helpful_imports_non_hiding = ([], [CouldImportFrom (mod :| mods) occ_name]) | mod : mods <- helpful_imports_hiding = ([], [CouldUnhideFrom (mod :| mods) occ_name]) | otherwise = ([], []) where is_qualified = isQual rdr_name (mod_name, occ_name) = case rdr_name of Unqual occ_name -> (Nothing, occ_name) Qual mod_name occ_name -> (Just mod_name, occ_name) _ -> error "importSuggestions: dead code" -- What import statements provide "Mod" at all -- or, if this is an unqualified name, are not qualified imports interesting_imports = [ (mod, imp) | (mod, mod_imports) <- moduleEnvToList (imp_mods imports) , Just imp <- return $ pick (importedByUser mod_imports) ] -- We want to keep only one for each original module; preferably one with an -- explicit import list (for no particularly good reason) pick :: [ImportedModsVal] -> Maybe ImportedModsVal pick = listToMaybe . sortBy cmp . filter select where select imv = case mod_name of Just name -> imv_name imv == name Nothing -> not (imv_qualified imv) cmp a b = (compare `on` imv_is_hiding) a b `thenCmp` (SrcLoc.leftmost_smallest `on` imv_span) a b -- Which of these would export a 'foo' -- (all of these are restricted imports, because if they were not, we -- wouldn't have an out-of-scope error in the first place) helpful_imports = filter helpful interesting_imports where helpful (_,imv) = any (isGreOk looking_for) $ lookupGlobalRdrEnv (imv_all_exports imv) occ_name -- Which of these do that because of an explicit hiding list resp. an -- explicit import list (helpful_imports_hiding, helpful_imports_non_hiding) = partition (imv_is_hiding . snd) helpful_imports -- See Note [When to show/hide the module-not-imported line] show_not_imported_line :: ModuleName -> Bool -- #15611 show_not_imported_line modnam | modnam `elem` glob_mods = False -- #14225 -- 1 | moduleName currMod == modnam = False -- 2.1 | is_last_loaded_mod modnam hpt_uniques = False -- 2.2 | otherwise = True where hpt_uniques = map fst (udfmToList hpt) is_last_loaded_mod _ [] = False is_last_loaded_mod modnam uniqs = last uniqs == getUnique modnam glob_mods = nub [ mod | gre <- globalRdrEnvElts global_env , (mod, _) <- qualsInScope gre ] extensionSuggestions :: RdrName -> [GhcHint] extensionSuggestions rdrName | rdrName == mkUnqual varName (fsLit "mdo") || rdrName == mkUnqual varName (fsLit "rec") = [SuggestExtension $ SuggestSingleExtension empty LangExt.RecursiveDo] | otherwise = [] qualsInScope :: GlobalRdrElt -> [(ModuleName, HowInScope)] -- Ones for which the qualified version is in scope qualsInScope gre@GRE { gre_lcl = lcl, gre_imp = is } | lcl = case greDefinitionModule gre of Nothing -> [] Just m -> [(moduleName m, LocallyBoundAt (greDefinitionSrcSpan gre))] | otherwise = [ (is_as ispec, ImportedBy ispec) | i <- bagToList is, let ispec = is_decl i ] isGreOk :: LookingFor -> GlobalRdrElt -> Bool isGreOk (LF what_look where_look) gre = what_ok && where_ok where -- when looking for record fields, what_ok checks whether the GRE is a -- record field. Otherwise, it checks whether the GRE is a record field -- defined in a module with -XNoFieldSelectors - it wouldn't be a useful -- suggestion in that case. what_ok = case what_look of WL_RecField -> isRecFldGRE gre _ -> not (isNoFieldSelectorGRE gre) where_ok = case where_look of WL_LocalTop -> isLocalGRE gre WL_LocalOnly -> False _ -> True -- see Note [Related name spaces] nameSpacesRelated :: DynFlags -- ^ to find out whether -XDataKinds is enabled -> WhatLooking -- ^ What kind of name are we looking for -> NameSpace -- ^ Name space of the original name -> NameSpace -- ^ Name space of a name that might have been meant -> Bool nameSpacesRelated dflags what_looking ns ns' = ns' `elem` ns : [ other_ns | (orig_ns, others) <- other_namespaces , ns == orig_ns , (other_ns, wls) <- others , what_looking `elem` WL_Anything : wls ] where -- explanation: -- [(orig_ns, [(other_ns, what_looking_possibilities)])] -- A particular other_ns is related if the original namespace is orig_ns -- and what_looking is either WL_Anything or is one of -- what_looking_possibilities other_namespaces = [ (varName , [(dataName, [WL_Constructor])]) , (dataName , [(varName , [WL_RecField])]) , (tvName , (tcClsName, [WL_Constructor]) : promoted_datacons) , (tcClsName, (tvName , []) : promoted_datacons) ] -- If -XDataKinds is enabled, the data constructor name space is also -- related to the type-level name spaces data_kinds = xopt LangExt.DataKinds dflags promoted_datacons = [(dataName, [WL_Constructor]) | data_kinds] {- Note [Related name spaces] ~~~~~~~~~~~~~~~~~~~~~~~~~ Name spaces are related if there is a chance to mean the one when one writes the other, i.e. variables <-> data constructors and type variables <-> type constructors. In most contexts, this mistake can happen in both directions. Not so in patterns: When a user writes foo (just a) = ... It is possible that they meant to use `Just` instead. However, when they write foo (Map a) = ... It is unlikely that they mean to use `map`, since variables cannot be used here. Similarly, when we look for record fields, data constructors are not in a related namespace. Furthermore, with -XDataKinds, the data constructor name space is related to the type variable and type constructor name spaces. Note [When to show/hide the module-not-imported line] -- #15611 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ For the error message: Not in scope X.Y Module X does not export Y No module named ‘X’ is imported: there are 2 cases, where we hide the last "no module is imported" line: 1. If the module X has been imported. 2. If the module X is the current module. There are 2 subcases: 2.1 If the unknown module name is in a input source file, then we can use the getModule function to get the current module name. (See test T15611a) 2.2 If the unknown module name has been entered by the user in GHCi, then the getModule function returns something like "interactive:Ghci1", and we have to check the current module in the last added entry of the HomePackageTable. (See test T15611b) -}