{-# LANGUAGE BangPatterns #-} {-# LANGUAGE CPP #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveTraversable #-} {-# LANGUAGE StandaloneDeriving #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE PartialTypeSignatures #-} {-# LANGUAGE UndecidableInstances #-} -- Note [Pass sensitive types] {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE DerivingStrategies #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# OPTIONS_GHC -fno-warn-orphans #-} ----------------------------------------------------------------------------- -- | -- Module : Haddock.Types -- Copyright : (c) Simon Marlow 2003-2006, -- David Waern 2006-2009, -- Mateusz Kowalczyk 2013 -- License : BSD-like -- -- Maintainer : haddock@projects.haskellorg -- Stability : experimental -- Portability : portable -- -- Types that are commonly used through-out Haddock. Some of the most -- important types are defined here, like 'Interface' and 'DocName'. ----------------------------------------------------------------------------- module Haddock.Types ( module Haddock.Types , HsDocString, LHsDocString , Fixity(..) , module Documentation.Haddock.Types ) where import Control.DeepSeq import Control.Exception (throw) import Control.Monad.Catch import Control.Monad.State.Strict import Data.Typeable (Typeable) import Data.Map (Map) import Data.Data (Data) import qualified Data.Set as Set import Documentation.Haddock.Types import qualified GHC.Data.Strict as Strict import GHC.Types.Fixity (Fixity(..)) import GHC.Types.Name (stableNameCmp) import GHC.Types.Name.Reader (RdrName(..)) import GHC.Types.SourceText (SourceText(..)) import GHC.Types.SrcLoc (BufSpan(..), BufPos(..)) import GHC.Types.Var (Specificity) import GHC import GHC.Driver.Session (Language) import qualified GHC.LanguageExtensions as LangExt import GHC.Types.Name.Occurrence import GHC.Utils.Outputable ----------------------------------------------------------------------------- -- * Convenient synonyms ----------------------------------------------------------------------------- type IfaceMap = Map Module Interface type InstIfaceMap = Map Module InstalledInterface -- TODO: rename type DocMap a = Map Name (MDoc a) type ArgMap a = Map Name (Map Int (MDoc a)) type SubMap = Map Name [Name] type DeclMap = Map Name DeclMapEntry type InstMap = Map RealSrcSpan Name type FixMap = Map Name Fixity type DocPaths = (FilePath, Maybe FilePath) -- paths to HTML and sources type WarningMap = Map Name (Doc Name) ----------------------------------------------------------------------------- -- * Interfaces and Interface creation ----------------------------------------------------------------------------- -- | 'Interface' holds all information used to render a single Haddock page. -- It represents the /interface/ of a module. The core business of Haddock -- lies in creating this structure. Note that the record contains some fields -- that are only used to create the final record, and that are not used by the -- backends. data Interface = Interface { -- | The module behind this interface. ifaceMod :: !Module -- | Is this a signature? , ifaceIsSig :: !Bool -- | Original file name of the module. , ifaceOrigFilename :: !FilePath -- | Textual information about the module. , ifaceInfo :: !(HaddockModInfo Name) -- | Documentation header. , ifaceDoc :: !(Documentation Name) -- | Documentation header with cross-reference information. , ifaceRnDoc :: !(Documentation DocName) -- | Haddock options for this module (prune, ignore-exports, etc). , ifaceOptions :: [DocOption] -- | Declarations originating from the module. Excludes declarations without -- names (instances and stand-alone documentation comments). Includes -- names of subordinate declarations mapped to their parent declarations. , ifaceDeclMap :: !DeclMap -- | Documentation of declarations originating from the module (including -- subordinates). , ifaceDocMap :: !(DocMap Name) , ifaceArgMap :: !(ArgMap Name) , ifaceFixMap :: !(Map Name Fixity) , ifaceExportItems :: [ExportItem GhcRn] , ifaceRnExportItems :: [ExportItem DocNameI] -- | All names exported by the module. , ifaceExports :: [Name] -- | All \"visible\" names exported by the module. -- A visible name is a name that will show up in the documentation of the -- module. , ifaceVisibleExports :: [Name] -- | Aliases of module imports as in @import A.B.C as C@. , ifaceModuleAliases :: !AliasMap -- | Instances exported by the module. , ifaceInstances :: [HaddockClsInst] -- | Orphan instances , ifaceOrphanInstances :: [DocInstance GhcRn] , ifaceRnOrphanInstances :: [DocInstance DocNameI] -- | The number of haddockable and haddocked items in the module, as a -- tuple. Haddockable items are the exports and the module itself. , ifaceHaddockCoverage :: (Int, Int) -- | Warnings for things defined in this module. , ifaceWarningMap :: WarningMap -- | Tokenized source code of module (available if Haddock is invoked with -- source generation flag). , ifaceHieFile :: !(Maybe FilePath) , ifaceDynFlags :: !DynFlags } -- | A subset of the fields of 'Interface' that we store in the interface -- files. data InstalledInterface = InstalledInterface { -- | The module represented by this interface. instMod :: Module -- | Is this a signature? , instIsSig :: Bool -- | Textual information about the module. , instInfo :: HaddockModInfo Name -- | Documentation of declarations originating from the module (including -- subordinates). , instDocMap :: DocMap Name , instArgMap :: ArgMap Name -- | All names exported by this module. , instExports :: [Name] -- | All \"visible\" names exported by the module. -- A visible name is a name that will show up in the documentation of the -- module. , instVisibleExports :: [Name] -- | Haddock options for this module (prune, ignore-exports, etc). , instOptions :: [DocOption] , instFixMap :: Map Name Fixity } -- | Convert an 'Interface' to an 'InstalledInterface' toInstalledIface :: Interface -> InstalledInterface toInstalledIface interface = InstalledInterface { instMod = ifaceMod interface , instIsSig = ifaceIsSig interface , instInfo = ifaceInfo interface , instDocMap = ifaceDocMap interface , instArgMap = ifaceArgMap interface , instExports = ifaceExports interface , instVisibleExports = ifaceVisibleExports interface , instOptions = ifaceOptions interface , instFixMap = ifaceFixMap interface } -- | A monad in which we create Haddock interfaces. Not to be confused with -- `GHC.Tc.Types.IfM` which is used to write GHC interfaces. -- -- In the past `createInterface` was running in the `Ghc` monad but proved hard -- to sustain as soon as we moved over for Haddock to be a plugin. Also abstracting -- over the Ghc specific clarifies where side effects happen. newtype IfM m a = IfM { unIfM :: StateT (IfEnv m) m a } deriving newtype instance Functor m => Functor (IfM m) deriving newtype instance (Monad m, Applicative m) => Applicative (IfM m) deriving newtype instance Monad m => Monad (IfM m) deriving newtype instance MonadIO m => MonadIO (IfM m) deriving newtype instance Monad m => MonadState (IfEnv m) (IfM m) -- | Interface creation environment. The name sets are used primarily during -- processing of doc strings to avoid emitting the same type of warning for the -- same name twice. This was previously done using a Writer monad and then -- nubbing the list of warning messages after accumulation. This new approach -- was implemented to avoid the nubbing of potentially large lists of strings. data IfEnv m = IfEnv { -- | Lookup names in the environment. ifeLookupName :: Name -> m (Maybe TyThing) -- | Names which we have warned about for being out of scope , ifeOutOfScopeNames :: !(Set.Set String) -- | Names which we have warned about for being ambiguous , ifeAmbiguousNames :: !(Set.Set String) -- | Named which we have warned about for being inappropriately namespaced -- as values , ifeInvalidValues :: !(Set.Set String) } -- | Run an `IfM` action. runIfM :: (Monad m) -- | Lookup a global name in the current session. Used in cases -- where declarations don't => (Name -> m (Maybe TyThing)) -- | The action to run. -> IfM m a -- | Result and accumulated error/warning messages. -> m a runIfM lookup_name action = do let if_env = IfEnv { ifeLookupName = lookup_name , ifeOutOfScopeNames = Set.empty , ifeAmbiguousNames = Set.empty , ifeInvalidValues = Set.empty } evalStateT (unIfM action) if_env -- | Look up a name in the current environment lookupName :: Monad m => Name -> IfM m (Maybe TyThing) lookupName name = IfM $ do lookup_name <- gets ifeLookupName lift (lookup_name name) -- | Very basic logging function that simply prints to stdout warn :: MonadIO m => String -> IfM m () warn msg = liftIO $ putStrLn msg ----------------------------------------------------------------------------- -- * Export items & declarations ----------------------------------------------------------------------------- data ExportItem name -- | An exported declaration. = ExportDecl (XExportDecl name) -- | An exported entity for which we have no documentation (perhaps because it -- resides in another package). | ExportNoDecl { expItemName :: !(IdP name) -- | Subordinate names. , expItemSubs :: [IdP name] } -- | A section heading. | ExportGroup { -- | Section level (1, 2, 3, ...). expItemSectionLevel :: !Int -- | Section id (for hyperlinks). , expItemSectionId :: !String -- | Section heading text. , expItemSectionText :: !(Doc (IdP name)) } -- | Some documentation. | ExportDoc !(MDoc (IdP name)) -- | A cross-reference to another module. | ExportModule !Module -- | A type family mapping a name type index to types of export declarations. -- The pre-renaming type index ('GhcRn') is mapped to the type of export -- declarations which do not include Hoogle output ('ExportD'), since Hoogle output is -- generated during the Haddock renaming step. The post-renaming type index -- ('DocNameI') is mapped to the type of export declarations which do include -- Hoogle output ('RnExportD'). type family XExportDecl x where XExportDecl GhcRn = ExportD GhcRn XExportDecl DocNameI = RnExportD -- | Represents an export declaration that Haddock has discovered to be exported -- from a module. The @name@ index indicated whether the declaration has been -- renamed such that each 'Name' points to it's optimal link destination. data ExportD name = ExportD { -- | A declaration. expDDecl :: !(LHsDecl name) -- | Bundled patterns for a data type declaration , expDPats :: [(HsDecl name, DocForDecl (IdP name))] -- | Maybe a doc comment, and possibly docs for arguments (if this -- decl is a function or type-synonym). , expDMbDoc :: !(DocForDecl (IdP name)) -- | Subordinate names, possibly with documentation. , expDSubDocs :: [(IdP name, DocForDecl (IdP name))] -- | Instances relevant to this declaration, possibly with -- documentation. , expDInstances :: [DocInstance name] -- | Fixity decls relevant to this declaration (including subordinates). , expDFixities :: [(IdP name, Fixity)] -- | Whether the ExportD is from a TH splice or not, for generating -- the appropriate type of Source link. , expDSpliced :: !Bool } -- | Represents export declarations that have undergone renaming such that every -- 'Name' in the declaration points to an optimal link destination. Since Hoogle -- output is also generated during the renaming step, each declaration is also -- attached to its Hoogle textual database entries, /if/ Hoogle output is -- enabled and the module is not hidden in the generated documentation using the -- @{-# OPTIONS_HADDOCK hide #-}@ pragma. data RnExportD = RnExportD { -- | The renamed export declaration rnExpDExpD :: !(ExportD DocNameI) -- | If Hoogle textbase (textual database) output is enabled, the text -- output lines for this declaration. If Hoogle output is not enabled, the -- list will be empty. , rnExpDHoogle :: [String] } data Documentation name = Documentation { documentationDoc :: Maybe (MDoc name) , documentationWarning :: Maybe (Doc name) } deriving Functor instance NFData name => NFData (Documentation name) where rnf (Documentation d w) = d `deepseq` w `deepseq` () -- | Arguments and result are indexed by Int, zero-based from the left, -- because that's the easiest to use when recursing over types. type FnArgsDoc name = Map Int (MDoc name) type DocForDecl name = (Documentation name, FnArgsDoc name) noDocForDecl :: DocForDecl name noDocForDecl = (Documentation Nothing Nothing, mempty) -- | As we build the declaration map, we really only care to track whether we -- have only seen a value declaration for a 'Name', or anything else. This type -- is used to represent those cases. If the only declaration attached to a -- 'Name' is a 'ValD', we will consult the GHC interface file to determine the -- type of the value, and attach the 'SrcSpan' from the 'EValD' constructor to -- it. If we see any other type of declaration for the 'Name', we can just use -- it. -- -- This type saves us from storing /every/ declaration we see for a given 'Name' -- in the map, which is unnecessary and very problematic for overall memory -- usage. data DeclMapEntry = EValD !SrcSpan | EOther (LHsDecl GhcRn) instance Semigroup DeclMapEntry where (EValD _) <> e = e e <> _ = e -- | Transform a declaration into a 'DeclMapEntry'. If it is a 'ValD' -- declaration, only the source location will be noted (since that is all we -- care to store in the 'DeclMap' due to the way top-level bindings with no type -- signatures are handled). Otherwise, the entire declaration will be kept. toDeclMapEntry :: LHsDecl GhcRn -> DeclMapEntry toDeclMapEntry (L l (ValD _ _)) = EValD (locA l) toDeclMapEntry d = EOther d ----------------------------------------------------------------------------- -- * Cross-referencing ----------------------------------------------------------------------------- -- | Type of environment used to cross-reference identifiers in the syntax. type LinkEnv = Map Name Module -- | An 'RdrName' tagged with some type/value namespace information. data NsRdrName = NsRdrName { namespace :: !Namespace , rdrName :: !RdrName } instance NFData NsRdrName where rnf (NsRdrName ns rdrN) = ns `seq` rdrN `deepseq` () -- | Extends 'Name' with cross-reference information. data DocName = Documented Name Module -- ^ This thing is part of the (existing or resulting) -- documentation. The 'Module' is the preferred place -- in the documentation to refer to. | Undocumented Name -- ^ This thing is not part of the (existing or resulting) -- documentation, as far as Haddock knows. deriving (Eq, Data) data DocNameI type instance NoGhcTc DocNameI = DocNameI type instance IdP DocNameI = DocName instance CollectPass DocNameI where collectXXPat _ ext = dataConCantHappen ext collectXXHsBindsLR ext = dataConCantHappen ext collectXSplicePat _ ext = dataConCantHappen ext instance NamedThing DocName where getName (Documented name _) = name getName (Undocumented name) = name -- | Useful for debugging instance Outputable DocName where ppr = ppr . getName instance OutputableBndr DocName where pprBndr _ = ppr . getName pprPrefixOcc = pprPrefixOcc . getName pprInfixOcc = pprInfixOcc . getName class NamedThing name => SetName name where setName :: Name -> name -> name instance SetName Name where setName name' _ = name' instance SetName DocName where setName name' (Documented _ mdl) = Documented name' mdl setName name' (Undocumented _) = Undocumented name' -- | Adds extra "wrapper" information to a name. -- -- This is to work around the fact that most name types in GHC ('Name', 'RdrName', -- 'OccName', ...) don't include backticks or parens. data Wrap n = Unadorned { unwrap :: n } -- ^ don't do anything to the name | Parenthesized { unwrap :: n } -- ^ add parentheses around the name | Backticked { unwrap :: n } -- ^ add backticks around the name deriving (Show, Functor, Foldable, Traversable) instance NFData n => NFData (Wrap n) where rnf w = case w of Unadorned n -> rnf n Parenthesized n -> rnf n Backticked n -> rnf n -- | Useful for debugging instance Outputable n => Outputable (Wrap n) where ppr (Unadorned n) = ppr n ppr (Parenthesized n) = hcat [ char '(', ppr n, char ')' ] ppr (Backticked n) = hcat [ char '`', ppr n, char '`' ] showWrapped :: (a -> String) -> Wrap a -> String showWrapped f (Unadorned n) = f n showWrapped f (Parenthesized n) = "(" ++ f n ++ ")" showWrapped f (Backticked n) = "`" ++ f n ++ "`" instance HasOccName DocName where occName = occName . getName ----------------------------------------------------------------------------- -- * Instances ----------------------------------------------------------------------------- data HaddockClsInst = HaddockClsInst { haddockClsInstPprHoogle :: Maybe String , haddockClsInstName :: Name , haddockClsInstClsName :: Name , haddockClsInstIsOrphan :: Bool , haddockClsInstHead :: ([Int], SName, [SimpleType]) , haddockClsInstSynified :: InstHead GhcRn , haddockClsInstTyNames :: Set.Set Name } -- | TODO: This instance is not lawful. We leave the 'InstHead' segment of the -- class instance evaluated only to WHNF. This should probably be fixed. instance NFData HaddockClsInst where rnf (HaddockClsInst h n cn o hd s ns) = h `deepseq` n `deepseq` cn `deepseq` o `deepseq` hd `deepseq` s `seq` ns `deepseq` () -- | Stable name for stable comparisons. GHC's `Name` uses unstable -- ordering based on their `Unique`'s. newtype SName = SName Name deriving newtype NFData instance Eq SName where SName n1 == SName n2 = n1 `stableNameCmp` n2 == EQ instance Ord SName where SName n1 `compare` SName n2 = n1 `stableNameCmp` n2 -- | Simplified type for sorting types, ignoring qualification (not visible -- in Haddock output) and unifying special tycons with normal ones. -- For the benefit of the user (looks nice and predictable) and the -- tests (which prefer output to be deterministic). data SimpleType = SimpleType SName [SimpleType] | SimpleIntTyLit Integer | SimpleStringTyLit String | SimpleCharTyLit Char deriving (Eq,Ord) instance NFData SimpleType where rnf st = case st of SimpleType sn sts -> sn `deepseq` sts `deepseq` () SimpleIntTyLit i -> rnf i SimpleStringTyLit s -> rnf s SimpleCharTyLit c -> rnf c -- | The three types of instances data InstType name = ClassInst { clsiCtx :: [HsType name] , clsiTyVars :: LHsQTyVars name , clsiSigs :: [Sig name] , clsiAssocTys :: [PseudoFamilyDecl name] } | TypeInst (Maybe (HsType name)) -- ^ Body (right-hand side) | DataInst (TyClDecl name) -- ^ Data constructors instance (OutputableBndrId p) => Outputable (InstType (GhcPass p)) where ppr (ClassInst { .. }) = text "ClassInst" <+> ppr clsiCtx <+> ppr clsiTyVars <+> ppr clsiSigs ppr (TypeInst a) = text "TypeInst" <+> ppr a ppr (DataInst a) = text "DataInst" <+> ppr a -- | Almost the same as 'FamilyDecl' except for type binders. -- -- In order to perform type specialization for class instances, we need to -- substitute class variables to appropriate type. However, type variables in -- associated type are specified using 'LHsTyVarBndrs' instead of 'HsType'. -- This makes type substitution impossible and to overcome this issue, -- 'PseudoFamilyDecl' type is introduced. data PseudoFamilyDecl name = PseudoFamilyDecl { pfdInfo :: FamilyInfo name , pfdLName :: LocatedN (IdP name) , pfdTyVars :: [LHsType name] , pfdKindSig :: LFamilyResultSig name } mkPseudoFamilyDecl :: FamilyDecl GhcRn -> PseudoFamilyDecl GhcRn mkPseudoFamilyDecl (FamilyDecl { .. }) = PseudoFamilyDecl { pfdInfo = fdInfo , pfdLName = fdLName , pfdTyVars = [ L loc (mkType bndr) | L loc bndr <- hsq_explicit fdTyVars ] , pfdKindSig = fdResultSig } where mkType :: HsTyVarBndr flag GhcRn -> HsType GhcRn mkType (KindedTyVar _ _ (L loc name) lkind) = HsKindSig noAnn tvar lkind where tvar = L (na2la loc) (HsTyVar noAnn NotPromoted (L loc name)) mkType (UserTyVar _ _ name) = HsTyVar noAnn NotPromoted name -- | An instance head that may have documentation and a source location. type DocInstance name = (InstHead name, Maybe (MDoc (IdP name)), Located (IdP name), Maybe Module) -- | The head of an instance. Consists of a class name, a list of type -- parameters (which may be annotated with kinds), and an instance type data InstHead name = InstHead { ihdClsName :: IdP name , ihdTypes :: [HsType name] , ihdInstType :: InstType name } -- | An instance origin information. -- -- This is used primarily in HTML backend to generate unique instance -- identifiers (for expandable sections). data InstOrigin name = OriginClass name | OriginData name | OriginFamily name instance NamedThing name => NamedThing (InstOrigin name) where getName (OriginClass name) = getName name getName (OriginData name) = getName name getName (OriginFamily name) = getName name ----------------------------------------------------------------------------- -- * Documentation comments ----------------------------------------------------------------------------- type LDoc id = Located (Doc id) type Doc id = DocH (Wrap (ModuleName, OccName)) (Wrap id) type MDoc id = MetaDoc (Wrap (ModuleName, OccName)) (Wrap id) type DocMarkup id a = DocMarkupH (Wrap (ModuleName, OccName)) id a instance NFData Meta where rnf (Meta v p) = v `deepseq` p `deepseq` () instance NFData id => NFData (MDoc id) where rnf (MetaDoc m d) = m `deepseq` d `deepseq` () instance (NFData a, NFData mod) => NFData (DocH mod a) where rnf doc = case doc of DocEmpty -> () DocAppend a b -> a `deepseq` b `deepseq` () DocString a -> a `deepseq` () DocParagraph a -> a `deepseq` () DocIdentifier a -> a `deepseq` () DocIdentifierUnchecked a -> a `deepseq` () DocModule a -> a `deepseq` () DocWarning a -> a `deepseq` () DocEmphasis a -> a `deepseq` () DocBold a -> a `deepseq` () DocMonospaced a -> a `deepseq` () DocUnorderedList a -> a `deepseq` () DocOrderedList a -> a `deepseq` () DocDefList a -> a `deepseq` () DocCodeBlock a -> a `deepseq` () DocHyperlink a -> a `deepseq` () DocPic a -> a `deepseq` () DocMathInline a -> a `deepseq` () DocMathDisplay a -> a `deepseq` () DocAName a -> a `deepseq` () DocProperty a -> a `deepseq` () DocExamples a -> a `deepseq` () DocHeader a -> a `deepseq` () DocTable a -> a `deepseq` () #if !MIN_VERSION_ghc(8,0,2) -- These were added to GHC itself in 8.0.2 instance NFData Name where rnf x = seq x () instance NFData OccName where rnf x = seq x () instance NFData ModuleName where rnf x = seq x () #endif instance NFData id => NFData (Header id) where rnf (Header a b) = a `deepseq` b `deepseq` () instance NFData id => NFData (Hyperlink id) where rnf (Hyperlink a b) = a `deepseq` b `deepseq` () instance NFData id => NFData (ModLink id) where rnf (ModLink a b) = a `deepseq` b `deepseq` () instance NFData Picture where rnf (Picture a b) = a `deepseq` b `deepseq` () instance NFData Example where rnf (Example a b) = a `deepseq` b `deepseq` () instance NFData id => NFData (Table id) where rnf (Table h b) = h `deepseq` b `deepseq` () instance NFData id => NFData (TableRow id) where rnf (TableRow cs) = cs `deepseq` () instance NFData id => NFData (TableCell id) where rnf (TableCell i j c) = i `deepseq` j `deepseq` c `deepseq` () exampleToString :: Example -> String exampleToString (Example expression result) = ">>> " ++ expression ++ "\n" ++ unlines result instance NFData name => NFData (HaddockModInfo name) where rnf (HaddockModInfo{..}) = hmi_description `deepseq` hmi_copyright `deepseq` hmi_license `deepseq` hmi_maintainer `deepseq` hmi_stability `deepseq` hmi_portability `deepseq` hmi_safety `deepseq` hmi_language `deepseq` hmi_extensions `deepseq` () instance NFData LangExt.Extension data HaddockModInfo name = HaddockModInfo { hmi_description :: Maybe (Doc name) , hmi_copyright :: Maybe String , hmi_license :: Maybe String , hmi_maintainer :: Maybe String , hmi_stability :: Maybe String , hmi_portability :: Maybe String , hmi_safety :: Maybe String , hmi_language :: Maybe Language , hmi_extensions :: [LangExt.Extension] } emptyHaddockModInfo :: HaddockModInfo a emptyHaddockModInfo = HaddockModInfo { hmi_description = Nothing , hmi_copyright = Nothing , hmi_license = Nothing , hmi_maintainer = Nothing , hmi_stability = Nothing , hmi_portability = Nothing , hmi_safety = Nothing , hmi_language = Nothing , hmi_extensions = [] } ----------------------------------------------------------------------------- -- * Options ----------------------------------------------------------------------------- -- | Source-level options for controlling the documentation. data DocOption = OptHide -- ^ This module should not appear in the docs. | OptPrune | OptIgnoreExports -- ^ Pretend everything is exported. | OptNotHome -- ^ Not the best place to get docs for things -- exported by this module. | OptShowExtensions -- ^ Render enabled extensions for this module. deriving (Eq, Show) -- | Option controlling how to qualify names data QualOption = OptNoQual -- ^ Never qualify any names. | OptFullQual -- ^ Qualify all names fully. | OptLocalQual -- ^ Qualify all imported names fully. | OptRelativeQual -- ^ Like local, but strip module prefix -- from modules in the same hierarchy. | OptAliasedQual -- ^ Uses aliases of module names -- as suggested by module import renamings. -- However, we are unfortunately not able -- to maintain the original qualifications. -- Image a re-export of a whole module, -- how could the re-exported identifiers be qualified? type AliasMap = Map Module ModuleName data Qualification = NoQual | FullQual | LocalQual Module | RelativeQual Module | AliasedQual AliasMap Module -- ^ @Module@ contains the current module. -- This way we can distinguish imported and local identifiers. makeContentsQual :: QualOption -> Qualification makeContentsQual qual = case qual of OptNoQual -> NoQual _ -> FullQual makeModuleQual :: QualOption -> AliasMap -> Module -> Qualification makeModuleQual qual aliases mdl = case qual of OptLocalQual -> LocalQual mdl OptRelativeQual -> RelativeQual mdl OptAliasedQual -> AliasedQual aliases mdl OptFullQual -> FullQual OptNoQual -> NoQual -- | Whether to hide empty contexts -- Since pattern synonyms have two contexts with different semantics, it is -- important to all of them, even if one of them is empty. data HideEmptyContexts = HideEmptyContexts | ShowEmptyToplevelContexts -- | When to qualify @since@ annotations with their package data SinceQual = Always | External -- ^ only qualify when the thing being annotated is from -- an external package ----------------------------------------------------------------------------- -- * Error handling ----------------------------------------------------------------------------- -- | Haddock's own exception type. data HaddockException = HaddockException String | WithContext [String] SomeException deriving Typeable instance Show HaddockException where show (HaddockException str) = str show (WithContext ctxts se) = unlines $ ["While " ++ ctxt ++ ":\n" | ctxt <- reverse ctxts] ++ [show se] throwE :: String -> a instance Exception HaddockException throwE str = throw (HaddockException str) withExceptionContext :: MonadCatch m => String -> m a -> m a withExceptionContext ctxt = handle (\ex -> case ex of HaddockException _ -> throwM $ WithContext [ctxt] (toException ex) WithContext ctxts se -> throwM $ WithContext (ctxt:ctxts) se ) . handle (throwM . WithContext [ctxt]) ----------------------------------------------------------------------------- -- * Pass sensitive types ----------------------------------------------------------------------------- type instance XRec DocNameI a = GenLocated (Anno a) a instance UnXRec DocNameI where unXRec = unLoc instance MapXRec DocNameI where mapXRec = fmap instance WrapXRec DocNameI (HsType DocNameI) where wrapXRec = noLocA type instance Anno DocName = SrcSpanAnnN type instance Anno (HsTyVarBndr flag DocNameI) = SrcSpanAnnA type instance Anno [LocatedA (HsType DocNameI)] = SrcSpanAnnC type instance Anno (HsType DocNameI) = SrcSpanAnnA type instance Anno (DataFamInstDecl DocNameI) = SrcSpanAnnA type instance Anno (DerivStrategy DocNameI) = SrcAnn NoEpAnns type instance Anno (FieldOcc DocNameI) = SrcAnn NoEpAnns type instance Anno (ConDeclField DocNameI) = SrcSpan type instance Anno (Located (ConDeclField DocNameI)) = SrcSpan type instance Anno [Located (ConDeclField DocNameI)] = SrcSpan type instance Anno (ConDecl DocNameI) = SrcSpan type instance Anno (FunDep DocNameI) = SrcSpan type instance Anno (TyFamInstDecl DocNameI) = SrcSpanAnnA type instance Anno [LocatedA (TyFamInstDecl DocNameI)] = SrcSpanAnnL type instance Anno (FamilyDecl DocNameI) = SrcSpan type instance Anno (Sig DocNameI) = SrcSpan type instance Anno (InjectivityAnn DocNameI) = SrcAnn NoEpAnns type instance Anno (HsDecl DocNameI) = SrcSpanAnnA type instance Anno (FamilyResultSig DocNameI) = SrcAnn NoEpAnns type instance Anno (HsOuterTyVarBndrs Specificity DocNameI) = SrcSpanAnnA type instance Anno (HsSigType DocNameI) = SrcSpanAnnA type XRecCond a = ( XParTy a ~ EpAnn AnnParen , NoGhcTc a ~ a , MapXRec a , UnXRec a , WrapXRec a (HsType a) ) type instance XForAllTy DocNameI = EpAnn [AddEpAnn] type instance XQualTy DocNameI = EpAnn [AddEpAnn] type instance XTyVar DocNameI = EpAnn [AddEpAnn] type instance XStarTy DocNameI = EpAnn [AddEpAnn] type instance XAppTy DocNameI = EpAnn [AddEpAnn] type instance XAppKindTy DocNameI = EpAnn [AddEpAnn] type instance XFunTy DocNameI = EpAnn [AddEpAnn] type instance XListTy DocNameI = EpAnn AnnParen type instance XTupleTy DocNameI = EpAnn AnnParen type instance XSumTy DocNameI = EpAnn AnnParen type instance XOpTy DocNameI = EpAnn [AddEpAnn] type instance XParTy DocNameI = EpAnn AnnParen type instance XIParamTy DocNameI = EpAnn [AddEpAnn] type instance XKindSig DocNameI = EpAnn [AddEpAnn] type instance XSpliceTy DocNameI = DataConCantHappen type instance XDocTy DocNameI = EpAnn [AddEpAnn] type instance XBangTy DocNameI = EpAnn [AddEpAnn] type instance XRecTy DocNameI = EpAnn [AddEpAnn] type instance XExplicitListTy DocNameI = EpAnn [AddEpAnn] type instance XExplicitTupleTy DocNameI = EpAnn [AddEpAnn] type instance XTyLit DocNameI = EpAnn [AddEpAnn] type instance XWildCardTy DocNameI = EpAnn [AddEpAnn] type instance XXType DocNameI = HsCoreTy type instance XNumTy DocNameI = NoExtField type instance XStrTy DocNameI = NoExtField type instance XCharTy DocNameI = NoExtField type instance XXTyLit DocNameI = DataConCantHappen type instance XHsForAllVis DocNameI = NoExtField type instance XHsForAllInvis DocNameI = NoExtField type instance XXHsForAllTelescope DocNameI = DataConCantHappen type instance XUserTyVar DocNameI = NoExtField type instance XKindedTyVar DocNameI = NoExtField type instance XXTyVarBndr DocNameI = DataConCantHappen type instance XCFieldOcc DocNameI = DocName type instance XXFieldOcc DocNameI = NoExtField type instance XFixitySig DocNameI = NoExtField type instance XFixSig DocNameI = NoExtField type instance XPatSynSig DocNameI = NoExtField type instance XClassOpSig DocNameI = NoExtField type instance XTypeSig DocNameI = NoExtField type instance XMinimalSig DocNameI = NoExtField type instance XForeignExport DocNameI = NoExtField type instance XForeignImport DocNameI = NoExtField type instance XCImport DocNameI = NoExtField type instance XCExport DocNameI = NoExtField type instance XXForeignImport DocNameI = DataConCantHappen type instance XXForeignExport DocNameI = DataConCantHappen type instance XConDeclGADT DocNameI = NoExtField type instance XConDeclH98 DocNameI = NoExtField type instance XXConDecl DocNameI = DataConCantHappen type instance XDerivD DocNameI = NoExtField type instance XInstD DocNameI = NoExtField type instance XForD DocNameI = NoExtField type instance XSigD DocNameI = NoExtField type instance XTyClD DocNameI = NoExtField type instance XNoSig DocNameI = NoExtField type instance XCKindSig DocNameI = NoExtField type instance XTyVarSig DocNameI = NoExtField type instance XXFamilyResultSig DocNameI = DataConCantHappen type instance XCFamEqn DocNameI _ = NoExtField type instance XXFamEqn DocNameI _ = DataConCantHappen type instance XCClsInstDecl DocNameI = NoExtField type instance XCDerivDecl DocNameI = NoExtField type instance XStockStrategy DocNameI = NoExtField type instance XAnyClassStrategy DocNameI = NoExtField type instance XNewtypeStrategy DocNameI = NoExtField type instance XViaStrategy DocNameI = LHsSigType DocNameI type instance XDataFamInstD DocNameI = NoExtField type instance XTyFamInstD DocNameI = NoExtField type instance XClsInstD DocNameI = NoExtField type instance XCHsDataDefn DocNameI = NoExtField type instance XCFamilyDecl DocNameI = NoExtField type instance XClassDecl DocNameI = NoExtField type instance XDataDecl DocNameI = NoExtField type instance XSynDecl DocNameI = NoExtField type instance XFamDecl DocNameI = NoExtField type instance XXFamilyDecl DocNameI = DataConCantHappen type instance XXTyClDecl DocNameI = DataConCantHappen type instance XHsWC DocNameI _ = NoExtField type instance XHsOuterExplicit DocNameI _ = NoExtField type instance XHsOuterImplicit DocNameI = NoExtField type instance XXHsOuterTyVarBndrs DocNameI = DataConCantHappen type instance XHsSig DocNameI = NoExtField type instance XXHsSigType DocNameI = DataConCantHappen type instance XHsQTvs DocNameI = NoExtField type instance XConDeclField DocNameI = NoExtField type instance XXConDeclField DocNameI = DataConCantHappen type instance XXPat DocNameI = DataConCantHappen type instance XXHsBindsLR DocNameI a = DataConCantHappen type instance XSplicePat DocNameI = DataConCantHappen type instance XCInjectivityAnn DocNameI = NoExtField type instance XCFunDep DocNameI = NoExtField type instance XCTyFamInstDecl DocNameI = NoExtField ----------------------------------------------------------------------------- -- * NFData instances for GHC types ----------------------------------------------------------------------------- instance NFData RdrName where rnf (Unqual on) = rnf on rnf (Qual mn on) = mn `deepseq` on `deepseq` () rnf (Orig m on) = m `deepseq` on `deepseq` () rnf (Exact n) = rnf n instance NFData SourceText where rnf NoSourceText = () rnf (SourceText s) = rnf s instance NFData FixityDirection where rnf InfixL = () rnf InfixR = () rnf InfixN = () instance NFData Fixity where rnf (Fixity sourceText n dir) = sourceText `deepseq` n `deepseq` dir `deepseq` () instance NFData ann => NFData (SrcSpanAnn' ann) where rnf (SrcSpanAnn a ss) = a `deepseq` ss `deepseq` () instance NFData (EpAnn NameAnn) where rnf EpAnnNotUsed = () rnf (EpAnn en ann cs) = en `deepseq` ann `deepseq` cs `deepseq` () instance NFData NameAnn where rnf (NameAnn a b c d e) = a `deepseq` b `deepseq` c `deepseq` d `deepseq` e `deepseq` () rnf (NameAnnCommas a b c d e) = a `deepseq` b `deepseq` c `deepseq` d `deepseq` e `deepseq` () rnf (NameAnnBars a b c d e) = a `deepseq` b `deepseq` c `deepseq` d `deepseq` e `deepseq` () rnf (NameAnnOnly a b c d) = a `deepseq` b `deepseq` c `deepseq` d `deepseq` () rnf (NameAnnRArrow a b) = a `deepseq` b `deepseq` () rnf (NameAnnQuote a b c) = a `deepseq` b `deepseq` c `deepseq` () rnf (NameAnnTrailing a) = rnf a instance NFData TrailingAnn where rnf (AddSemiAnn epaL) = rnf epaL rnf (AddCommaAnn epaL) = rnf epaL rnf (AddVbarAnn epaL) = rnf epaL instance NFData NameAdornment where rnf NameParens = () rnf NameParensHash = () rnf NameBackquotes = () rnf NameSquare = () instance NFData EpaLocation where rnf (EpaSpan ss bs) = ss `seq` bs `deepseq` () rnf (EpaDelta dp lc) = dp `seq` lc `deepseq` () instance NFData EpAnnComments where rnf (EpaComments cs) = rnf cs rnf (EpaCommentsBalanced cs1 cs2) = cs1 `deepseq` cs2 `deepseq` () instance NFData EpaComment where rnf (EpaComment t rss) = t `deepseq` rss `seq` () instance NFData EpaCommentTok where rnf (EpaDocComment ds) = rnf ds rnf (EpaDocOptions s) = rnf s rnf (EpaLineComment s) = rnf s rnf (EpaBlockComment s) = rnf s rnf EpaEofComment = () instance NFData a => NFData (Strict.Maybe a) where rnf Strict.Nothing = () rnf (Strict.Just x) = rnf x instance NFData BufSpan where rnf (BufSpan p1 p2) = p1 `deepseq` p2 `deepseq` () instance NFData BufPos where rnf (BufPos n) = rnf n instance NFData Anchor where rnf (Anchor ss op) = ss `seq` op `deepseq` () instance NFData AnchorOperation where rnf UnchangedAnchor = () rnf (MovedAnchor dp) = rnf dp instance NFData DeltaPos where rnf (SameLine n) = rnf n rnf (DifferentLine n m) = n `deepseq` m `deepseq` ()