----------------------------------------------------------------------------- -- | -- Module : Haddock.Backends.Hoogle -- Copyright : (c) Neil Mitchell 2006-2008 -- License : BSD-like -- -- Maintainer : haddock@projects.haskell.org -- Stability : experimental -- Portability : portable -- -- Write out Hoogle compatible documentation -- http://www.haskell.org/hoogle/ ----------------------------------------------------------------------------- module Haddock.Backends.Hoogle ( ppHoogle ) where import BasicTypes (OverlapFlag(..), OverlapMode(..)) import InstEnv (ClsInst(..)) import Haddock.GhcUtils import Haddock.Types hiding (Version) import Haddock.Utils hiding (out) import Bag import GHC import Outputable import Data.Char import Data.List import Data.Maybe import Data.Version import System.FilePath import System.IO prefix :: [String] prefix = ["-- Hoogle documentation, generated by Haddock" ,"-- See Hoogle, http://www.haskell.org/hoogle/" ,""] ppHoogle :: DynFlags -> String -> Version -> String -> Maybe (Doc RdrName) -> [Interface] -> FilePath -> IO () ppHoogle dflags package version synopsis prologue ifaces odir = do let filename = package ++ ".txt" contents = prefix ++ docWith dflags (drop 2 $ dropWhile (/= ':') synopsis) prologue ++ ["@package " ++ package] ++ ["@version " ++ showVersion version | not (null (versionBranch version)) ] ++ concat [ppModule dflags i | i <- ifaces, OptHide `notElem` ifaceOptions i] h <- openFile (odir filename) WriteMode hSetEncoding h utf8 hPutStr h (unlines contents) hClose h ppModule :: DynFlags -> Interface -> [String] ppModule dflags iface = "" : ppDocumentation dflags (ifaceDoc iface) ++ ["module " ++ moduleString (ifaceMod iface)] ++ concatMap (ppExport dflags) (ifaceExportItems iface) ++ concatMap (ppInstance dflags) (ifaceInstances iface) --------------------------------------------------------------------- -- Utility functions dropHsDocTy :: HsType a -> HsType a dropHsDocTy = f where g (L src x) = L src (f x) f (HsForAllTy a b c d e) = HsForAllTy a b c d (g e) f (HsBangTy a b) = HsBangTy a (g b) f (HsAppTy a b) = HsAppTy (g a) (g b) f (HsFunTy a b) = HsFunTy (g a) (g b) f (HsListTy a) = HsListTy (g a) f (HsPArrTy a) = HsPArrTy (g a) f (HsTupleTy a b) = HsTupleTy a (map g b) f (HsOpTy a b c) = HsOpTy (g a) b (g c) f (HsParTy a) = HsParTy (g a) f (HsKindSig a b) = HsKindSig (g a) b f (HsDocTy a _) = f $ unL a f x = x outHsType :: OutputableBndr a => DynFlags -> HsType a -> String outHsType dflags = out dflags . dropHsDocTy makeExplicit :: HsType a -> HsType a makeExplicit (HsForAllTy _ a b c d) = HsForAllTy Explicit a b c d makeExplicit x = x makeExplicitL :: LHsType a -> LHsType a makeExplicitL (L src x) = L src (makeExplicit x) dropComment :: String -> String dropComment (' ':'-':'-':' ':_) = [] dropComment (x:xs) = x : dropComment xs dropComment [] = [] outWith :: Outputable a => (SDoc -> String) -> a -> [Char] outWith p = f . unwords . map (dropWhile isSpace) . lines . p . ppr where f xs | " " `isPrefixOf` xs = f $ drop 19 xs f (x:xs) = x : f xs f [] = [] out :: Outputable a => DynFlags -> a -> String out dflags = outWith $ showSDocUnqual dflags operator :: String -> String operator (x:xs) | not (isAlphaNum x) && x `notElem` "_' ([{" = '(' : x:xs ++ ")" operator x = x commaSeparate :: Outputable a => DynFlags -> [a] -> String commaSeparate dflags = showSDocUnqual dflags . interpp'SP --------------------------------------------------------------------- -- How to print each export ppExport :: DynFlags -> ExportItem Name -> [String] ppExport dflags ExportDecl { expItemDecl = L _ decl , expItemMbDoc = (dc, _) , expItemSubDocs = subdocs } = ppDocumentation dflags dc ++ f decl where f (TyClD d@DataDecl{}) = ppData dflags d subdocs f (TyClD d@SynDecl{}) = ppSynonym dflags d f (TyClD d@ClassDecl{}) = ppClass dflags d subdocs f (ForD (ForeignImport name typ _ _)) = ppSig dflags $ TypeSig [name] typ [] f (ForD (ForeignExport name typ _ _)) = ppSig dflags $ TypeSig [name] typ [] f (SigD sig) = ppSig dflags sig f _ = [] ppExport _ _ = [] ppSigWithDoc :: DynFlags -> Sig Name -> [(Name, DocForDecl Name)] -> [String] ppSigWithDoc dflags (TypeSig names sig _) subdocs = concatMap mkDocSig names where mkDocSig n = concatMap (ppDocumentation dflags) (getDoc n) ++ [mkSig n] mkSig n = operator (out dflags n) ++ " :: " ++ outHsType dflags typ getDoc :: Located Name -> [Documentation Name] getDoc n = maybe [] (return . fst) (lookup (unL n) subdocs) typ = case unL sig of HsForAllTy Explicit a b c d -> HsForAllTy Implicit a b c d HsForAllTy Qualified a b c d -> HsForAllTy Implicit a b c d x -> x ppSigWithDoc _ _ _ = [] ppSig :: DynFlags -> Sig Name -> [String] ppSig dflags x = ppSigWithDoc dflags x [] -- note: does not yet output documentation for class methods ppClass :: DynFlags -> TyClDecl Name -> [(Name, DocForDecl Name)] -> [String] ppClass dflags x subdocs = out dflags decl' : concatMap (flip (ppSigWithDoc dflags) subdocs . addContext . unL) (tcdSigs x) where decl' = x { tcdSigs = [], tcdMeths = emptyBag } addContext (TypeSig name (L l sig) nwcs) = TypeSig name (L l $ f sig) nwcs addContext (MinimalSig src sig) = MinimalSig src sig addContext _ = error "expected TypeSig" f (HsForAllTy a b c con d) = HsForAllTy a b c (reL (context : unLoc con)) d f t = HsForAllTy Implicit Nothing emptyHsQTvs (reL [context]) (reL t) context = nlHsTyConApp (tcdName x) (map (reL . HsTyVar . hsTyVarName . unL) (hsQTvBndrs (tyClDeclTyVars x))) ppInstance :: DynFlags -> ClsInst -> [String] ppInstance dflags x = [dropComment $ outWith (showSDocForUser dflags alwaysQualify) cls] where -- As per #168, we don't want safety information about the class -- in Hoogle output. The easiest way to achieve this is to set the -- safety information to a state where the Outputable instance -- produces no output which means no overlap and unsafe (or [safe] -- is generated). cls = x { is_flag = OverlapFlag { overlapMode = NoOverlap mempty , isSafeOverlap = False } } ppSynonym :: DynFlags -> TyClDecl Name -> [String] ppSynonym dflags x = [out dflags x] ppData :: DynFlags -> TyClDecl Name -> [(Name, DocForDecl Name)] -> [String] ppData dflags decl@(DataDecl { tcdDataDefn = defn }) subdocs = showData decl{ tcdDataDefn = defn { dd_cons=[],dd_derivs=Nothing }} : concatMap (ppCtor dflags decl subdocs . unL) (dd_cons defn) where -- GHC gives out "data Bar =", we want to delete the equals -- also writes data : a b, when we want data (:) a b showData d = unwords $ map f $ if last xs == "=" then init xs else xs where xs = words $ out dflags d nam = out dflags $ tyClDeclLName d f w = if w == nam then operator nam else w ppData _ _ _ = panic "ppData" -- | for constructors, and named-fields... lookupCon :: DynFlags -> [(Name, DocForDecl Name)] -> Located Name -> [String] lookupCon dflags subdocs (L _ name) = case lookup name subdocs of Just (d, _) -> ppDocumentation dflags d _ -> [] ppCtor :: DynFlags -> TyClDecl Name -> [(Name, DocForDecl Name)] -> ConDecl Name -> [String] ppCtor dflags dat subdocs con = concatMap (lookupCon dflags subdocs) (con_names con) ++ f (con_details con) where f (PrefixCon args) = [typeSig name $ args ++ [resType]] f (InfixCon a1 a2) = f $ PrefixCon [a1,a2] f (RecCon (L _ recs)) = f (PrefixCon $ map cd_fld_type (map unLoc recs)) ++ concat [(concatMap (lookupCon dflags subdocs) (cd_fld_names r)) ++ [out dflags (map unL $ cd_fld_names r) `typeSig` [resType, cd_fld_type r]] | r <- map unLoc recs] funs = foldr1 (\x y -> reL $ HsFunTy (makeExplicitL x) (makeExplicitL y)) apps = foldl1 (\x y -> reL $ HsAppTy x y) typeSig nm flds = operator nm ++ " :: " ++ outHsType dflags (makeExplicit $ unL $ funs flds) -- We print the constructors as comma-separated list. See GHC -- docs for con_names on why it is a list to begin with. name = commaSeparate dflags . map unL $ con_names con resType = case con_res con of ResTyH98 -> apps $ map (reL . HsTyVar) $ (tcdName dat) : [hsTyVarName v | L _ v@(UserTyVar _) <- hsQTvBndrs $ tyClDeclTyVars dat] ResTyGADT _ x -> x --------------------------------------------------------------------- -- DOCUMENTATION ppDocumentation :: Outputable o => DynFlags -> Documentation o -> [String] ppDocumentation dflags (Documentation d w) = mdoc dflags d ++ doc dflags w doc :: Outputable o => DynFlags -> Maybe (Doc o) -> [String] doc dflags = docWith dflags "" mdoc :: Outputable o => DynFlags -> Maybe (MDoc o) -> [String] mdoc dflags = docWith dflags "" . fmap _doc docWith :: Outputable o => DynFlags -> String -> Maybe (Doc o) -> [String] docWith _ [] Nothing = [] docWith dflags header d = ("":) $ zipWith (++) ("-- | " : repeat "-- ") $ lines header ++ ["" | header /= "" && isJust d] ++ maybe [] (showTags . markup (markupTag dflags)) d data Tag = TagL Char [Tags] | TagP Tags | TagPre Tags | TagInline String Tags | Str String deriving Show type Tags = [Tag] box :: (a -> b) -> a -> [b] box f x = [f x] str :: String -> [Tag] str a = [Str a] -- want things like paragraph, pre etc to be handled by blank lines in the source document -- and things like \n and \t converted away -- much like blogger in HTML mode -- everything else wants to be included as tags, neatly nested for some (ul,li,ol) -- or inlne for others (a,i,tt) -- entities (&,>,<) should always be appropriately escaped markupTag :: Outputable o => DynFlags -> DocMarkup o [Tag] markupTag dflags = Markup { markupParagraph = box TagP, markupEmpty = str "", markupString = str, markupAppend = (++), markupIdentifier = box (TagInline "a") . str . out dflags, markupIdentifierUnchecked = box (TagInline "a") . str . out dflags . snd, markupModule = box (TagInline "a") . str, markupWarning = box (TagInline "i"), markupEmphasis = box (TagInline "i"), markupBold = box (TagInline "b"), markupMonospaced = box (TagInline "tt"), markupPic = const $ str " ", markupUnorderedList = box (TagL 'u'), markupOrderedList = box (TagL 'o'), markupDefList = box (TagL 'u') . map (\(a,b) -> TagInline "i" a : Str " " : b), markupCodeBlock = box TagPre, markupHyperlink = \(Hyperlink url mLabel) -> (box (TagInline "a") . str) (fromMaybe url mLabel), markupAName = const $ str "", markupProperty = box TagPre . str, markupExample = box TagPre . str . unlines . map exampleToString, markupHeader = \(Header l h) -> box (TagInline $ "h" ++ show l) h } showTags :: [Tag] -> [String] showTags = intercalate [""] . map showBlock showBlock :: Tag -> [String] showBlock (TagP xs) = showInline xs showBlock (TagL t xs) = ['<':t:"l>"] ++ mid ++ ['<':'/':t:"l>"] where mid = concatMap (showInline . box (TagInline "li")) xs showBlock (TagPre xs) = ["
"] ++ showPre xs ++ ["
"] showBlock x = showInline [x] asInline :: Tag -> Tags asInline (TagP xs) = xs asInline (TagPre xs) = [TagInline "pre" xs] asInline (TagL t xs) = [TagInline (t:"l") $ map (TagInline "li") xs] asInline x = [x] showInline :: [Tag] -> [String] showInline = unwordsWrap 70 . words . concatMap f where fs = concatMap f f (Str x) = escape x f (TagInline s xs) = "<"++s++">" ++ (if s == "li" then trim else id) (fs xs) ++ "" f x = fs $ asInline x trim = dropWhile isSpace . reverse . dropWhile isSpace . reverse showPre :: [Tag] -> [String] showPre = trimFront . trimLines . lines . concatMap f where trimLines = dropWhile null . reverse . dropWhile null . reverse trimFront xs = map (drop i) xs where ns = [length a | x <- xs, let (a,b) = span isSpace x, b /= ""] i = if null ns then 0 else minimum ns fs = concatMap f f (Str x) = escape x f (TagInline s xs) = "<"++s++">" ++ fs xs ++ "" f x = fs $ asInline x unwordsWrap :: Int -> [String] -> [String] unwordsWrap n = f n [] where f _ s [] = [g s | s /= []] f i s (x:xs) | nx > i = g s : f (n - nx - 1) [x] xs | otherwise = f (i - nx - 1) (x:s) xs where nx = length x g = unwords . reverse escape :: String -> String escape = concatMap f where f '<' = "<" f '>' = ">" f '&' = "&" f x = [x]