{-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE StandaloneDeriving #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE LambdaCase #-} -- | Warnings for a module module GHC.Unit.Module.Warnings ( WarningCategory(..) , mkWarningCategory , defaultWarningCategory , validWarningCategory , InWarningCategory(..) , fromWarningCategory , WarningCategorySet , emptyWarningCategorySet , completeWarningCategorySet , nullWarningCategorySet , elemWarningCategorySet , insertWarningCategorySet , deleteWarningCategorySet , Warnings (..) , WarningTxt (..) , DeclWarnOccNames , ExportWarnNames , warningTxtCategory , warningTxtMessage , warningTxtSame , pprWarningTxtForMsg , emptyWarn , mkIfaceDeclWarnCache , mkIfaceExportWarnCache , emptyIfaceWarnCache , insertWarnDecls , insertWarnExports ) where import GHC.Prelude import GHC.Data.FastString (FastString, mkFastString, unpackFS) import GHC.Types.SourceText import GHC.Types.Name.Occurrence import GHC.Types.Name.Env import GHC.Types.Name (Name) import GHC.Types.SrcLoc import GHC.Types.Unique import GHC.Types.Unique.Set import GHC.Hs.Doc import GHC.Utils.Outputable import GHC.Utils.Binary import GHC.Unicode import Language.Haskell.Syntax.Concrete (HsToken (HsTok)) import Language.Haskell.Syntax.Extension import Data.Data import Data.List (isPrefixOf) import GHC.Generics ( Generic ) import Control.DeepSeq {- Note [Warning categories] ~~~~~~~~~~~~~~~~~~~~~~~~~ See GHC Proposal 541 for the design of the warning categories feature: https://github.com/ghc-proposals/ghc-proposals/blob/master/proposals/0541-warning-pragmas-with-categories.rst A WARNING pragma may be annotated with a category such as "x-partial" written after the 'in' keyword, like this: {-# WARNING in "x-partial" head "This function is partial..." #-} This is represented by the 'Maybe (Located WarningCategory)' field in 'WarningTxt'. The parser will accept an arbitrary string as the category name, then the renamer (in 'rnWarningTxt') will check it contains only valid characters, so we can generate a nicer error message than a parse error. The corresponding warnings can then be controlled with the -Wx-partial, -Wno-x-partial, -Werror=x-partial and -Wwarn=x-partial flags. Such a flag is distinguished from an 'unrecognisedWarning' by the flag parser testing 'validWarningCategory'. The 'x-' prefix means we can still usually report an unrecognised warning where the user has made a mistake. A DEPRECATED pragma may not have a user-defined category, and is always treated as belonging to the special category 'deprecations'. Similarly, a WARNING pragma without a category belongs to the 'deprecations' category. Thus the '-Wdeprecations' flag will enable all of the following: {-# WARNING in "deprecations" foo "This function is deprecated..." #-} {-# WARNING foo "This function is deprecated..." #-} {-# DEPRECATED foo "This function is deprecated..." #-} The '-Wwarnings-deprecations' flag is supported for backwards compatibility purposes as being equivalent to '-Wdeprecations'. The '-Wextended-warnings' warning group collects together all warnings with user-defined categories, so they can be enabled or disabled collectively. Moreover they are treated as being part of other warning groups such as '-Wdefault' (see 'warningGroupIncludesExtendedWarnings'). 'DynFlags' and 'DiagOpts' each contain a set of enabled and a set of fatal warning categories, just as they do for the finite enumeration of 'WarningFlag's built in to GHC. These are represented as 'WarningCategorySet's to allow for the possibility of them being infinite. -} data InWarningCategory = InWarningCategory { iwc_in :: !(Located (HsToken "in")), iwc_st :: !SourceText, iwc_wc :: (Located WarningCategory) } deriving Data fromWarningCategory :: WarningCategory -> InWarningCategory fromWarningCategory wc = InWarningCategory (noLoc HsTok) NoSourceText (noLoc wc) -- See Note [Warning categories] newtype WarningCategory = WarningCategory FastString deriving (Binary, Data, Eq, Outputable, Show, Uniquable, NFData) mkWarningCategory :: FastString -> WarningCategory mkWarningCategory = WarningCategory -- | The @deprecations@ category is used for all DEPRECATED pragmas and for -- WARNING pragmas that do not specify a category. defaultWarningCategory :: WarningCategory defaultWarningCategory = mkWarningCategory (mkFastString "deprecations") -- | Is this warning category allowed to appear in user-defined WARNING pragmas? -- It must either be the known category @deprecations@, or be a custom category -- that begins with @x-@ and contains only valid characters (letters, numbers, -- apostrophes and dashes). validWarningCategory :: WarningCategory -> Bool validWarningCategory cat@(WarningCategory c) = cat == defaultWarningCategory || ("x-" `isPrefixOf` s && all is_allowed s) where s = unpackFS c is_allowed c = isAlphaNum c || c == '\'' || c == '-' -- | A finite or infinite set of warning categories. -- -- Unlike 'WarningFlag', there are (in principle) infinitely many warning -- categories, so we cannot necessarily enumerate all of them. However the set -- is constructed by adding or removing categories one at a time, so we can -- represent it as either a finite set of categories, or a cofinite set (where -- we store the complement). data WarningCategorySet = FiniteWarningCategorySet (UniqSet WarningCategory) -- ^ The set of warning categories is the given finite set. | CofiniteWarningCategorySet (UniqSet WarningCategory) -- ^ The set of warning categories is infinite, so the constructor stores -- its (finite) complement. -- | The empty set of warning categories. emptyWarningCategorySet :: WarningCategorySet emptyWarningCategorySet = FiniteWarningCategorySet emptyUniqSet -- | The set consisting of all possible warning categories. completeWarningCategorySet :: WarningCategorySet completeWarningCategorySet = CofiniteWarningCategorySet emptyUniqSet -- | Is this set empty? nullWarningCategorySet :: WarningCategorySet -> Bool nullWarningCategorySet (FiniteWarningCategorySet s) = isEmptyUniqSet s nullWarningCategorySet CofiniteWarningCategorySet{} = False -- | Does this warning category belong to the set? elemWarningCategorySet :: WarningCategory -> WarningCategorySet -> Bool elemWarningCategorySet c (FiniteWarningCategorySet s) = c `elementOfUniqSet` s elemWarningCategorySet c (CofiniteWarningCategorySet s) = not (c `elementOfUniqSet` s) -- | Insert an element into a warning category set. insertWarningCategorySet :: WarningCategory -> WarningCategorySet -> WarningCategorySet insertWarningCategorySet c (FiniteWarningCategorySet s) = FiniteWarningCategorySet (addOneToUniqSet s c) insertWarningCategorySet c (CofiniteWarningCategorySet s) = CofiniteWarningCategorySet (delOneFromUniqSet s c) -- | Delete an element from a warning category set. deleteWarningCategorySet :: WarningCategory -> WarningCategorySet -> WarningCategorySet deleteWarningCategorySet c (FiniteWarningCategorySet s) = FiniteWarningCategorySet (delOneFromUniqSet s c) deleteWarningCategorySet c (CofiniteWarningCategorySet s) = CofiniteWarningCategorySet (addOneToUniqSet s c) -- | Warning Text -- -- reason/explanation from a WARNING or DEPRECATED pragma data WarningTxt pass = WarningTxt (Maybe (Located InWarningCategory)) -- ^ Warning category attached to this WARNING pragma, if any; -- see Note [Warning categories] (Located SourceText) [Located (WithHsDocIdentifiers StringLiteral pass)] | DeprecatedTxt (Located SourceText) [Located (WithHsDocIdentifiers StringLiteral pass)] deriving Generic -- | To which warning category does this WARNING or DEPRECATED pragma belong? -- See Note [Warning categories]. warningTxtCategory :: WarningTxt pass -> WarningCategory warningTxtCategory (WarningTxt (Just (L _ (InWarningCategory _ _ (L _ cat)))) _ _) = cat warningTxtCategory _ = defaultWarningCategory -- | The message that the WarningTxt was specified to output warningTxtMessage :: WarningTxt p -> [Located (WithHsDocIdentifiers StringLiteral p)] warningTxtMessage (WarningTxt _ _ m) = m warningTxtMessage (DeprecatedTxt _ m) = m -- | True if the 2 WarningTxts have the same category and messages warningTxtSame :: WarningTxt p1 -> WarningTxt p2 -> Bool warningTxtSame w1 w2 = warningTxtCategory w1 == warningTxtCategory w2 && literal_message w1 == literal_message w2 && same_type where literal_message :: WarningTxt p -> [StringLiteral] literal_message = map (hsDocString . unLoc) . warningTxtMessage same_type | DeprecatedTxt {} <- w1, DeprecatedTxt {} <- w2 = True | WarningTxt {} <- w1, WarningTxt {} <- w2 = True | otherwise = False deriving instance Eq InWarningCategory deriving instance (Eq (HsToken "in"), Eq (IdP pass)) => Eq (WarningTxt pass) deriving instance (Data pass, Data (IdP pass)) => Data (WarningTxt pass) instance Outputable InWarningCategory where ppr (InWarningCategory _ _ wt) = text "in" <+> doubleQuotes (ppr wt) instance Outputable (WarningTxt pass) where ppr (WarningTxt mcat lsrc ws) = case unLoc lsrc of NoSourceText -> pp_ws ws SourceText src -> ftext src <+> ctg_doc <+> pp_ws ws <+> text "#-}" where ctg_doc = maybe empty (\ctg -> ppr ctg) mcat ppr (DeprecatedTxt lsrc ds) = case unLoc lsrc of NoSourceText -> pp_ws ds SourceText src -> ftext src <+> pp_ws ds <+> text "#-}" pp_ws :: [Located (WithHsDocIdentifiers StringLiteral pass)] -> SDoc pp_ws [l] = ppr $ unLoc l pp_ws ws = text "[" <+> vcat (punctuate comma (map (ppr . unLoc) ws)) <+> text "]" pprWarningTxtForMsg :: WarningTxt p -> SDoc pprWarningTxtForMsg (WarningTxt _ _ ws) = doubleQuotes (vcat (map (ftext . sl_fs . hsDocString . unLoc) ws)) pprWarningTxtForMsg (DeprecatedTxt _ ds) = text "Deprecated:" <+> doubleQuotes (vcat (map (ftext . sl_fs . hsDocString . unLoc) ds)) -- | Warning information from a module data Warnings pass = WarnSome (DeclWarnOccNames pass) -- ^ Names deprecated (may be empty) (ExportWarnNames pass) -- ^ Exports deprecated (may be empty) | WarnAll (WarningTxt pass) -- ^ Whole module deprecated -- For the module-specific names only an OccName is needed because -- (1) a deprecation always applies to a binding -- defined in the module in which the deprecation appears. -- (2) deprecations are only reported outside the defining module. -- this is important because, otherwise, if we saw something like -- -- {-# DEPRECATED f "" #-} -- f = ... -- h = f -- g = let f = undefined in f -- -- we'd need more information than an OccName to know to say something -- about the use of f in h but not the use of the locally bound f in g -- -- however, because we only report about deprecations from the outside, -- and a module can only export one value called f, -- an OccName suffices. -- -- this is in contrast with fixity declarations, where we need to map -- a Name to its fixity declaration. -- -- For export deprecations we need to know where the symbol comes from, since -- we need to be able to check if the deprecated export that was imported is -- the same thing as imported by another import, which would not trigger -- a deprecation message. -- | Deprecated declarations type DeclWarnOccNames pass = [(OccName, WarningTxt pass)] -- | Names that are deprecated as exports type ExportWarnNames pass = [(Name, WarningTxt pass)] deriving instance Eq (IdP pass) => Eq (Warnings pass) emptyWarn :: Warnings p emptyWarn = WarnSome [] [] -- | Constructs the cache for the 'mi_decl_warn_fn' field of a 'ModIface' mkIfaceDeclWarnCache :: Warnings p -> OccName -> Maybe (WarningTxt p) mkIfaceDeclWarnCache (WarnAll t) = \_ -> Just t mkIfaceDeclWarnCache (WarnSome vs _) = lookupOccEnv (mkOccEnv vs) -- | Constructs the cache for the 'mi_export_warn_fn' field of a 'ModIface' mkIfaceExportWarnCache :: Warnings p -> Name -> Maybe (WarningTxt p) mkIfaceExportWarnCache (WarnAll _) = const Nothing -- We do not want a double report of the module deprecation mkIfaceExportWarnCache (WarnSome _ ds) = lookupNameEnv (mkNameEnv ds) emptyIfaceWarnCache :: name -> Maybe (WarningTxt p) emptyIfaceWarnCache _ = Nothing insertWarnDecls :: Warnings p -- ^ Existing warnings -> [(OccName, WarningTxt p)] -- ^ New declaration deprecations -> Warnings p -- ^ Updated warnings insertWarnDecls ws@(WarnAll _) _ = ws insertWarnDecls (WarnSome wns wes) wns' = WarnSome (wns ++ wns') wes insertWarnExports :: Warnings p -- ^ Existing warnings -> [(Name, WarningTxt p)] -- ^ New export deprecations -> Warnings p -- ^ Updated warnings insertWarnExports ws@(WarnAll _) _ = ws insertWarnExports (WarnSome wns wes) wes' = WarnSome wns (wes ++ wes')