-- -- Haddock - A Haskell Documentation Tool -- -- (c) Simon Marlow 2003 -- -- Ported to use the GHC API by David Waern during "Summer of Code" 2006 -- module Main (main) where import Haddock.Html import Haddock.Hoogle import Haddock.Rename import Haddock.Types hiding ( NoLink ) import Haddock.Utils import Haddock.Version import Haddock.InterfaceFile import Haddock.Exception import Haddock.Utils.GHC import Paths_haddock ( getDataDir ) import Prelude hiding ( catch ) import Control.Exception import Control.Monad import Control.Monad.Writer ( Writer, runWriter, tell ) import Data.Char ( isSpace ) import Data.IORef ( writeIORef ) import Data.Ord import Data.List ( nub, nubBy, (\\), foldl', sortBy, foldl1, init, mapAccumL, find, isPrefixOf ) import Data.Maybe ( Maybe(..), isJust, isNothing, maybeToList, listToMaybe, fromJust, catMaybes ) import Data.Typeable import Data.Graph hiding ( flattenSCC ) import Data.Dynamic import Data.Foldable ( foldlM ) import System.Console.GetOpt ( getOpt, usageInfo, ArgOrder(..), OptDescr(..), ArgDescr(..) ) import System.Environment ( getArgs ) import System.Directory ( doesDirectoryExist ) import System.FilePath import System.Cmd ( system ) import System.Exit import System.IO import qualified Data.Map as Map import Data.Map (Map) import Distribution.InstalledPackageInfo ( InstalledPackageInfo(..) ) import Distribution.Simple.Utils import GHC import Outputable import SrcLoc import Digraph ( flattenSCC ) import Name import Module ( mkModule ) import InstEnv import Class import TypeRep import Var hiding ( varName ) import TyCon import PrelNames import Bag import HscTypes import Util ( handleDyn ) import ErrUtils ( printBagOfErrors ) import BasicTypes import FastString #define FSLIT(x) (mkFastString# (x#)) import DynFlags hiding ( Option ) import Packages hiding ( package ) import StaticFlags ( parseStaticFlags ) -------------------------------------------------------------------------------- -- Exception handling -------------------------------------------------------------------------------- handleTopExceptions = handleNormalExceptions . handleHaddockExceptions . handleGhcExceptions handleNormalExceptions inner = handle (\exception -> do hFlush stdout case exception of AsyncException StackOverflow -> do putStrLn "stack overflow: use -g +RTS -K to increase it" exitFailure ExitException code -> exitWith code _other -> do putStrLn ("haddock: internal Haddock or GHC error: " ++ show exception) exitFailure ) inner handleHaddockExceptions inner = handleDyn (\(e::HaddockException) -> do putStrLn $ "haddock: " ++ (show e) exitFailure ) inner handleGhcExceptions inner = -- compilation errors: messages with locations attached handleDyn (\dyn -> do putStrLn "haddock: Compilation error(s):" printBagOfErrors defaultDynFlags (unitBag dyn) exitFailure ) $ -- error messages propagated as exceptions handleDyn (\dyn -> do hFlush stdout case dyn of PhaseFailed _ code -> exitWith code Interrupted -> exitFailure _ -> do print (dyn :: GhcException) exitFailure ) inner -------------------------------------------------------------------------------- -- Top-level -------------------------------------------------------------------------------- main :: IO () main = handleTopExceptions $ do args <- getArgs prog <- getProgramName -- parse flags and handle some of them initially (flags, fileArgs) <- parseHaddockOpts args libDir <- handleFlags flags fileArgs -- initialize GHC restGhcFlags <- tryParseStaticFlags flags (session, dynflags) <- startGHC libDir dynflags' <- parseGhcFlags dynflags restGhcFlags setSessionDynFlags session dynflags' -- load package data (from .haddock-files), typecheck input files and create -- the module -> html mapping packages <- getPackages session dynflags' flags modules <- sortAndCheckModules session fileArgs updateHTMLXRefs packages -- combine the doc envs of the external packages into one let env = packagesDocEnv packages -- TODO: continue to break up the run function into parts run flags modules env handleFlags flags fileArgs = do prog <- getProgramName let byeUsage = bye (usageInfo (usageHeader prog) (options False)) when (Flag_Help `elem` flags) byeUsage when (Flag_Version `elem` flags) byeVersion when (null fileArgs) byeUsage let ghcLibDir = case [ dir | Flag_GhcLibDir dir <- flags ] of [] -> throwE "no GHC lib dir specified" xs -> last xs when ((Flag_GenIndex `elem` flags || Flag_GenContents `elem` flags) && Flag_Html `elem` flags) $ throwE ("-h cannot be used with --gen-index or --gen-contents") return ghcLibDir -------------------------------------------------------------------------------- -- Flags -------------------------------------------------------------------------------- -- | Filter out the GHC specific flags and try to parse and set them as static -- flags. Return a list of flags that couldn't be parsed. tryParseStaticFlags flags = do let ghcFlags = [ str | Flag_GhcFlag str <- flags ] parseStaticFlags ghcFlags -- | Try to parse and set dynamic GHC flags parseGhcFlags dflags ghcFlags = foldlM parseFlag dflags (map words ghcFlags) where -- try to parse a flag as either a dynamic or static GHC flag parseFlag dynflags ghcFlag = do (dynflags', rest) <- parseDynamicFlags dynflags ghcFlag when (rest == ghcFlag) $ throwE ("Couldn't parse GHC flag: " ++ (unwords ghcFlag)) return dynflags' parseHaddockOpts :: [String] -> IO ([Flag], [String]) parseHaddockOpts words = case getOpt Permute (options True) words of (flags, args, []) -> return (flags, args) (_, _, errors) -> do prog <- getProgramName throwE (concat errors ++ usageInfo (usageHeader prog) (options False)) usageHeader :: String -> String usageHeader prog = "Usage: " ++ prog ++ " [OPTION...] file...\n" data Flag = Flag_CSS String | Flag_Debug -- | Flag_DocBook | Flag_DumpInterface String | Flag_Heading String | Flag_Html | Flag_Hoogle | Flag_HtmlHelp String | Flag_Lib String | Flag_NoImplicitPrelude | Flag_OutputDir FilePath | Flag_Prologue FilePath | Flag_SourceBaseURL String | Flag_SourceModuleURL String | Flag_SourceEntityURL String | Flag_WikiBaseURL String | Flag_WikiModuleURL String | Flag_WikiEntityURL String | Flag_Help | Flag_Verbose | Flag_Version | Flag_UseContents String | Flag_GenContents | Flag_UseIndex String | Flag_GenIndex | Flag_IgnoreAllExports | Flag_HideModule String | Flag_UsePackage String | Flag_GhcFlag String | Flag_GhcLibDir String deriving (Eq) options :: Bool -> [OptDescr Flag] options backwardsCompat = [ Option ['B'] [] (ReqArg Flag_GhcLibDir "DIR") "path to the GHC lib dir, e.g /usr/lib/ghc", Option ['o'] ["odir"] (ReqArg Flag_OutputDir "DIR") "directory in which to put the output files", Option ['l'] ["lib"] (ReqArg Flag_Lib "DIR") "location of Haddock's auxiliary files", Option ['D'] ["dump-interface"] (ReqArg Flag_DumpInterface "FILE") "interface file name", -- Option ['S'] ["docbook"] (NoArg Flag_DocBook) -- "output in DocBook XML", Option ['h'] ["html"] (NoArg Flag_Html) "output in HTML", Option [] ["hoogle"] (NoArg Flag_Hoogle) "output for Hoogle", Option [] ["html-help"] (ReqArg Flag_HtmlHelp "format") "produce index and table of contents in\nmshelp, mshelp2 or devhelp format (with -h)", Option [] ["source-base"] (ReqArg Flag_SourceBaseURL "URL") "URL for a source code link on the contents\nand index pages", Option ['s'] (if backwardsCompat then ["source", "source-module"] else ["source-module"]) (ReqArg Flag_SourceModuleURL "URL") "URL for a source code link for each module\n(using the %{FILE} or %{MODULE} vars)", Option [] ["source-entity"] (ReqArg Flag_SourceEntityURL "URL") "URL for a source code link for each entity\n(using the %{FILE}, %{MODULE} or %{NAME} vars)", Option [] ["comments-base"] (ReqArg Flag_WikiBaseURL "URL") "URL for a comments link on the contents\nand index pages", Option [] ["comments-module"] (ReqArg Flag_WikiModuleURL "URL") "URL for a comments link for each module\n(using the %{MODULE} var)", Option [] ["comments-entity"] (ReqArg Flag_WikiEntityURL "URL") "URL for a comments link for each entity\n(using the %{FILE}, %{MODULE} or %{NAME} vars)", Option ['c'] ["css"] (ReqArg Flag_CSS "FILE") "the CSS file to use for HTML output", Option ['p'] ["prologue"] (ReqArg Flag_Prologue "FILE") "file containing prologue text", Option ['t'] ["title"] (ReqArg Flag_Heading "TITLE") "page heading", Option ['n'] ["no-implicit-prelude"] (NoArg Flag_NoImplicitPrelude) "do not assume Prelude is imported", Option ['d'] ["debug"] (NoArg Flag_Debug) "extra debugging output", Option ['?'] ["help"] (NoArg Flag_Help) "display this help and exit", Option ['V'] ["version"] (NoArg Flag_Version) "output version information and exit", Option ['v'] ["verbose"] (NoArg Flag_Verbose) "increase verbosity", Option [] ["use-contents"] (ReqArg Flag_UseContents "URL") "use a separately-generated HTML contents page", Option [] ["gen-contents"] (NoArg Flag_GenContents) "generate an HTML contents from specified\ninterfaces", Option [] ["use-index"] (ReqArg Flag_UseIndex "URL") "use a separately-generated HTML index", Option [] ["gen-index"] (NoArg Flag_GenIndex) "generate an HTML index from specified\ninterfaces", Option [] ["ignore-all-exports"] (NoArg Flag_IgnoreAllExports) "behave as if all modules have the\nignore-exports atribute", Option [] ["hide"] (ReqArg Flag_HideModule "MODULE") "behave as if MODULE has the hide attribute", Option [] ["use-package"] (ReqArg Flag_UsePackage "PACKAGE") "the modules being processed depend on PACKAGE", Option ['g'] [] (ReqArg Flag_GhcFlag "FLAGS + ARGS") ("send a flag to the Glasgow Haskell Compiler (use quotation to " ++ "pass arguments to the flag)") ] byeVersion = bye ("Haddock version " ++ projectVersion ++ ", (c) Simon Marlow 2003; ported to the GHC-API by David Waern 2006\n") startGHC :: String -> IO (Session, DynFlags) startGHC libDir = do session <- newSession (Just libDir) flags <- getSessionDynFlags session flags' <- liftM fst (initPackages flags) let flags'' = dopt_set flags' Opt_Haddock setSessionDynFlags session flags'' { hscTarget = HscNothing, ghcMode = CompManager, ghcLink = NoLink } flags''' <- getSessionDynFlags session return (session, flags''') -- | Get the sorted graph of all loaded modules and their dependencies getSortedModuleGraph :: Session -> IO [(Module, FilePath)] getSortedModuleGraph session = do mbModGraph <- depanal session [] True moduleGraph <- case mbModGraph of Just mg -> return mg Nothing -> throwE "Failed to load all modules" let getModFile = fromJust . ml_hs_file . ms_location sortedGraph = topSortModuleGraph False moduleGraph Nothing sortedModules = concatMap flattenSCC sortedGraph modsAndFiles = [ (ms_mod modsum, getModFile modsum) | modsum <- sortedModules ] return modsAndFiles -- TODO: make it handle cleanup sortAndCheckModules :: Session -> [FilePath] -> IO [CheckedMod] sortAndCheckModules session files = do -- load all argument files targets <- mapM (\f -> guessTarget f Nothing) files setTargets session targets -- compute the dependencies and load them as well allMods <- getSortedModuleGraph session targets' <- mapM (\(_, f) -> guessTarget f Nothing) allMods setTargets session targets' flag <- load session LoadAllTargets when (failed flag) $ throwE "Failed to load all needed modules" -- typecheck the argument modules let argMods = filter ((`elem` files) . snd) allMods checkedMods <- forM argMods $ \(mod, file) -> do mbMod <- checkModule session (moduleName mod) False case mbMod of Just (CheckedModule a (Just b) (Just c) (Just d) _) -> return (mod, file, (a,b,c,d)) _ -> throwE ("Failed to check module: " ++ moduleString mod) return checkedMods run :: [Flag] -> [CheckedMod] -> Map Name Name -> IO () run flags modules extEnv = do let title = case [str | Flag_Heading str <- flags] of [] -> "" (t:_) -> t maybe_source_urls = (listToMaybe [str | Flag_SourceBaseURL str <- flags] ,listToMaybe [str | Flag_SourceModuleURL str <- flags] ,listToMaybe [str | Flag_SourceEntityURL str <- flags]) maybe_wiki_urls = (listToMaybe [str | Flag_WikiBaseURL str <- flags] ,listToMaybe [str | Flag_WikiModuleURL str <- flags] ,listToMaybe [str | Flag_WikiEntityURL str <- flags]) verbose = Flag_Verbose `elem` flags libdir <- case [str | Flag_Lib str <- flags] of [] -> getDataDir -- provided by Cabal fs -> return (last fs) let css_file = case [str | Flag_CSS str <- flags] of [] -> Nothing fs -> Just (last fs) odir <- case [str | Flag_OutputDir str <- flags] of [] -> return "." fs -> return (last fs) let maybe_contents_url = case [url | Flag_UseContents url <- flags] of [] -> Nothing us -> Just (last us) maybe_index_url = case [url | Flag_UseIndex url <- flags] of [] -> Nothing us -> Just (last us) maybe_html_help_format = case [hhformat | Flag_HtmlHelp hhformat <- flags] of [] -> Nothing formats -> Just (last formats) prologue <- getPrologue flags let -- collect the data from GHC that we need for each home module ghcModuleData = map moduleDataGHC modules -- run pass 1 on this data (modMap, messages) = runWriter (pass1 ghcModuleData flags) haddockMods = catMaybes [ Map.lookup mod modMap | (mod,_,_) <- modules ] homeEnv = buildGlobalDocEnv haddockMods env = homeEnv `Map.union` extEnv haddockMods' = attachInstances haddockMods (haddockMods'', messages') = runWriter $ mapM (renameModule env) haddockMods' mapM_ putStrLn messages mapM_ putStrLn messages' let visibleMods = [ m | m <- haddockMods'', OptHide `notElem` (hmod_options m) ] packageName = (Just . packageIdString . modulePackageId . hmod_mod . head) visibleMods when (Flag_GenIndex `elem` flags) $ do ppHtmlIndex odir title packageName maybe_html_help_format maybe_contents_url maybe_source_urls maybe_wiki_urls visibleMods copyHtmlBits odir libdir css_file when (Flag_GenContents `elem` flags && Flag_GenIndex `elem` flags) $ do ppHtmlHelpFiles title packageName visibleMods odir maybe_html_help_format [] when (Flag_GenContents `elem` flags) $ do ppHtmlContents odir title packageName maybe_html_help_format maybe_index_url maybe_source_urls maybe_wiki_urls visibleMods True prologue copyHtmlBits odir libdir css_file when (Flag_Html `elem` flags) $ do ppHtml title packageName visibleMods odir prologue maybe_html_help_format maybe_source_urls maybe_wiki_urls maybe_contents_url maybe_index_url copyHtmlBits odir libdir css_file let iface = InterfaceFile { ifDocEnv = homeEnv -- ifModules = map hmod2interface visibleMods } case [str | Flag_DumpInterface str <- flags] of [] -> return () fs -> let filename = (last fs) in writeInterfaceFile filename iface type CheckedMod = (Module, FilePath, FullyCheckedMod) type FullyCheckedMod = (ParsedSource, RenamedSource, TypecheckedSource, ModuleInfo) -- | This data structure collects all the information we need about a home -- package module data ModuleDataGHC = ModuleDataGHC { ghcModule :: Module, ghcFilename :: FilePath, ghcMbDocOpts :: Maybe String, ghcHaddockModInfo :: HaddockModInfo Name, ghcMbDoc :: Maybe (HsDoc Name), ghcGroup :: HsGroup Name, ghcMbExports :: Maybe [LIE Name], ghcExportedNames :: [Name], ghcNamesInScope :: [Name], ghcInstances :: [Instance] } -- | Dig out what we want from the GHC API without altering anything moduleDataGHC :: CheckedMod -> ModuleDataGHC moduleDataGHC (mod, file, checkedMod) = ModuleDataGHC { ghcModule = mod, ghcFilename = file, ghcMbDocOpts = mbOpts, ghcHaddockModInfo = info, ghcMbDoc = mbDoc, ghcGroup = group, ghcMbExports = mbExports, ghcExportedNames = modInfoExports modInfo, ghcNamesInScope = fromJust $ modInfoTopLevelScope modInfo, ghcInstances = modInfoInstances modInfo } where HsModule _ _ _ _ _ mbOpts _ _ = unLoc parsed (group, _, mbExports, mbDoc, info) = renamed (parsed, renamed, _, modInfo) = checkedMod -- | Massage the data in ModuleDataGHC to produce something closer to what -- we want to render. To do this, we need access to modules before this one -- in the topological sort, to which we have already done this conversion. -- That's what's in the ModuleMap. pass1data :: ModuleDataGHC -> [Flag] -> ModuleMap -> ErrMsgM HaddockModule pass1data modData flags modMap = do let mod = ghcModule modData opts <- mkDocOpts (ghcMbDocOpts modData) mod let group = ghcGroup modData entities = (nubBy sameName . collectEntities) group exports = fmap (reverse . map unLoc) (ghcMbExports modData) entityNames_ = entityNames entities subNames = allSubNames group localNames = entityNames_ ++ subNames subMap = mkSubMap group expDeclMap = mkDeclMap (ghcExportedNames modData) group localDeclMap = mkDeclMap entityNames_ group docMap = mkDocMap group ignoreExps = Flag_IgnoreAllExports `elem` flags visibleNames <- mkVisibleNames mod modMap localNames (ghcNamesInScope modData) subMap exports opts localDeclMap exportItems <- mkExportItems modMap mod (ghcExportedNames modData) expDeclMap localDeclMap subMap entities opts exports ignoreExps docMap -- prune the export list to just those declarations that have -- documentation, if the 'prune' option is on. let prunedExportItems | OptPrune `elem` opts = pruneExportItems exportItems | otherwise = exportItems return HM { hmod_mod = mod, hmod_orig_filename = ghcFilename modData, hmod_info = ghcHaddockModInfo modData, hmod_doc = ghcMbDoc modData, hmod_rn_doc = Nothing, hmod_options = opts, hmod_locals = localNames, hmod_doc_map = docMap, hmod_rn_doc_map = Map.empty, hmod_sub_map = subMap, hmod_export_items = prunedExportItems, hmod_rn_export_items = [], hmod_exports = ghcExportedNames modData, hmod_visible_exports = visibleNames, hmod_exported_decl_map = expDeclMap, hmod_instances = ghcInstances modData } where mkDocOpts mbOpts mod = do opts <- case mbOpts of Just opts -> processOptions opts Nothing -> return [] let opts' = if Flag_HideModule (moduleString mod) `elem` flags then OptHide : opts else opts return opts' -- | Produce a map of HaddockModules with information that is close to -- renderable. What is lacking after this pass are the renamed export items. pass1 :: [ModuleDataGHC] -> [Flag] -> ErrMsgM ModuleMap pass1 modules flags = foldM produceAndInsert Map.empty modules where produceAndInsert modMap modData = do resultMod <- pass1data modData flags modMap let key = ghcModule modData return (Map.insert key resultMod modMap) sameName (DocEntity _) _ = False sameName (DeclEntity _) (DocEntity _) = False sameName (DeclEntity a) (DeclEntity b) = a == b -- This map includes everything that can be exported separately, -- that means: top declarations, class methods and record selectors -- TODO: merge this with mkDeclMap and the extractXXX functions mkDocMap :: HsGroup Name -> Map Name (HsDoc Name) mkDocMap group = Map.fromList (topDeclDocs ++ classMethDocs ++ recordFieldDocs) where tyclds = map unLoc (hs_tyclds group) classes = filter isClassDecl tyclds datadecls = filter isDataDecl tyclds constrs = [ con | d <- datadecls, L _ con <- tcdCons d ] fields = concat [ fields | RecCon fields <- map con_details constrs] topDeclDocs = collectDocs (collectEntities group) classMethDocs = concatMap (collectDocs . collectClassEntities) classes recordFieldDocs = [ (unLoc lname, doc) | ConDeclField lname _ (Just (L _ doc)) <- fields ] -------------------------------------------------------------------------------- -- Source code entities -------------------------------------------------------------------------------- data Entity = DocEntity (DocDecl Name) | DeclEntity Name data LEntity = Located Entity sortByLoc = map unLoc . sortBy (comparing getLoc) -- | Collect all the entities in a class that can be documented. -- The entities are sorted by their SrcLoc. collectClassEntities tcd = sortByLoc (docs ++ meths ++ sigs) where docs = [ L l (DocEntity d) | L l d <- tcdDocs tcd ] meths = let bindings = bagToList (tcdMeths tcd) bindingName = unLoc . fun_id in [ L l (DeclEntity (bindingName b)) | L l b <- bindings ] sigs = let sigName = fromJust . sigNameNoLoc in [ L l (DeclEntity (sigName sig)) | L l sig <- tcdSigs tcd ] -- | Collect all the entities in the source file that can be documented. -- The entities are sorted by their SrcLoc. collectEntities :: HsGroup Name -> [Entity] collectEntities group = sortByLoc (docs ++ declarations) where docs = [ L l (DocEntity d) | L l d <- hs_docs group ] declarations = [ L l (DeclEntity n) | (l, n) <- valds ++ tyclds ++ fords ] where valds = let ValBindsOut _ sigs = hs_valds group -- we just use the sigs here for now. -- TODO: collect from the bindings as well -- (needed for docs to work for inferred entities) in [ (l, fromJust (sigNameNoLoc s)) | L l s <- sigs ] tyclds = [ (l, tcdName t) | L l t <- hs_tyclds group ] fords = [ (l, forName f) | L l f <- hs_fords group ] where forName (ForeignImport name _ _) = unLoc name forName (ForeignExport name _ _) = unLoc name -- | Collect the docs and attach them to the right name collectDocs :: [Entity] -> [(Name, HsDoc Name)] collectDocs entities = collect Nothing DocEmpty entities collect :: Maybe Entity -> HsDoc Name -> [Entity] -> [(Name, HsDoc Name)] collect d doc_so_far [] = case d of Nothing -> [] Just d0 -> finishedDoc d0 doc_so_far [] collect d doc_so_far (e:es) = case e of DocEntity (DocCommentNext str) -> case d of Nothing -> collect d (docAppend doc_so_far str) es Just d0 -> finishedDoc d0 doc_so_far (collect Nothing str es) DocEntity (DocCommentPrev str) -> collect d (docAppend doc_so_far str) es _ -> case d of Nothing -> collect (Just e) doc_so_far es Just d0 | sameName d0 e -> collect d doc_so_far es | otherwise -> finishedDoc d0 doc_so_far (collect (Just e) DocEmpty es) finishedDoc :: Entity -> HsDoc Name -> [(Name, HsDoc Name)] -> [(Name, HsDoc Name)] finishedDoc d DocEmpty rest = rest finishedDoc (DeclEntity name) doc rest = (name, doc) : rest finishedDoc _ _ rest = rest -------------------------------------------------------------------------------- -- -------------------------------------------------------------------------------- allSubNames :: HsGroup Name -> [Name] allSubNames group = concat [ tail (map unLoc (tyClDeclNames tycld)) | L _ tycld <- hs_tyclds group ] mkSubMap :: HsGroup Name -> Map Name [Name] mkSubMap group = Map.fromList [ (name, subs) | L _ tycld <- hs_tyclds group, let name:subs = map unLoc (tyClDeclNames tycld) ] mkDeclMap :: [Name] -> HsGroup Name -> Map Name (LHsDecl Name) mkDeclMap names group = Map.fromList [ (n,d) | (n,Just d) <- maybeDecls ] where maybeDecls = [ (name, getDeclFromGroup group name) | name <- names ] entityNames :: [Entity] -> [Name] entityNames entities = [ name | DeclEntity name <- entities ] {- getValSig :: Name -> HsValBinds Name -> TypeEnv -> Maybe (LSig Name) getValSig name (ValBindsOut recsAndBinds _) typEnv = case matchingBinds of [bind] -> -- OK we have found a binding that matches. Now look up the -- type, even though it may be present in the ValBindsOut let tything = lookupTypeEnv typeEnv name _ -> Nothing where binds = snd $ unzip recsAndBinds matchingBinds = Bag.filter matchesName binds matchesName (L _ bind) = fun_id bind == name getValSig _ _ _ = error "getValSig" -} getDeclFromGroup :: HsGroup Name -> Name -> Maybe (LHsDecl Name) getDeclFromGroup group name = case catMaybes [ getDeclFromVals (hs_valds group), getDeclFromTyCls (hs_tyclds group), getDeclFromFors (hs_fords group) ] of [decl] -> Just decl _ -> Nothing where getDeclFromVals (ValBindsOut _ lsigs) = case matching of [lsig] -> Just (L (getLoc lsig) (SigD (unLoc lsig))) _ -> Nothing where matching = [ lsig | lsig <- lsigs, let Just n = sigName lsig, n == name, isNormal (unLoc lsig) ] isNormal (TypeSig _ _) = True isNormal _ = False getDeclFromVals _ = error "getDeclFromVals: illegal input" {- getDeclFromVals (ValBindsOut recsAndbinds _) = let binds = snd $ unzip recsAndBinds matchingBinds = Bag.filter matchesName binds matchesName (L _ bind) = fun_id bind == name in case matchingBinds of [bind] -> -- OK we have found a binding that matches. Now look up the -- type, even though it may be present in the ValBindsOut _ -> Nothing where matching = [ lsig | lsig <- lsigs, let Just n = sigName lsig, n == name ] getDeclFromVals _ = error "getDeclFromVals: illegal input" -} getDeclFromTyCls ltycls = case matching of [ltycl] -> Just (L (getLoc ltycl) (TyClD (unLoc ltycl))) _ -> Nothing where matching = [ ltycl | ltycl <- ltycls, name `elem` map unLoc (tyClDeclNames (unLoc ltycl))] getDeclFromFors lfors = case matching of [for] -> Just (L (getLoc for) (ForD (unLoc for))) _ -> Nothing where matching = [ for | for <- lfors, forName (unLoc for) == name ] forName (ForeignExport n _ _) = unLoc n forName (ForeignImport n _ _) = unLoc n parseIfaceOption :: String -> (FilePath,FilePath) parseIfaceOption s = case break (==',') s of (fpath,',':file) -> (fpath,file) (file, _) -> ("", file) updateHTMLXRefs :: [PackageData] -> IO () updateHTMLXRefs packages = writeIORef html_xrefs_ref (Map.fromList mapping) where mapping = [ (mod, html) | (PackageData mods _ html) <- packages, mod <- mods ] getPrologue :: [Flag] -> IO (Maybe (HsDoc RdrName)) getPrologue flags = case [filename | Flag_Prologue filename <- flags ] of [] -> return Nothing [filename] -> do str <- readFile filename case parseHaddockComment str of Left err -> throwE err Right doc -> return (Just doc) _otherwise -> throwE "multiple -p/--prologue options" -- ----------------------------------------------------------------------------- -- Phase 2 renameModule :: Map Name Name -> HaddockModule -> ErrMsgM HaddockModule renameModule renamingEnv mod = -- first create the local env, where every name exported by this module -- is mapped to itself, and everything else comes from the global renaming -- env let localEnv = foldl fn renamingEnv (hmod_visible_exports mod) where fn env name = Map.insert name (nameSetMod name (hmod_mod mod)) env docs = Map.toList (hmod_doc_map mod) renameMapElem (k,d) = do d' <- renameDoc d; return (k, d') -- rename names in the exported declarations to point to things that -- are closer to, or maybe even exported by, the current module. (renamedExportItems, missingNames1) = runRnFM localEnv (renameExportItems (hmod_export_items mod)) (rnDocMap, missingNames2) = runRnFM localEnv (liftM Map.fromList (mapM renameMapElem docs)) (finalModuleDoc, missingNames3) = runRnFM localEnv (renameMaybeDoc (hmod_doc mod)) -- combine the missing names and filter out the built-ins, which would -- otherwise allways be missing. missingNames = nub $ filter isExternalName (missingNames1 ++ missingNames2 ++ missingNames3) -- filter out certain built in type constructors using their string -- representation. TODO: use the Name constants from the GHC API. strings = filter (`notElem` ["()", "[]", "(->)"]) (map (showSDoc . ppr) missingNames) in do -- report things that we couldn't link to. Only do this for non-hidden -- modules. when (OptHide `notElem` hmod_options mod && not (null strings)) $ tell ["Warning: " ++ show (ppr (hmod_mod mod) defaultUserStyle) ++ ": could not find link destinations for:\n"++ " " ++ concat (map (' ':) strings) ] return $ mod { hmod_rn_doc = finalModuleDoc, hmod_rn_doc_map = rnDocMap, hmod_rn_export_items = renamedExportItems } -- ----------------------------------------------------------------------------- -- Build the list of items that will become the documentation, from the -- export list. At this point, the list of ExportItems is in terms of -- original names. mkExportItems :: ModuleMap -> Module -- this module -> [Name] -- exported names (orig) -> Map Name (LHsDecl Name) -- maps exported names to declarations -> Map Name (LHsDecl Name) -- maps local names to declarations -> Map Name [Name] -- sub-map for this module -> [Entity] -- entities in the current module -> [DocOption] -> Maybe [IE Name] -> Bool -- --ignore-all-exports flag -> Map Name (HsDoc Name) -> ErrMsgM [ExportItem Name] mkExportItems mod_map this_mod exported_names exportedDeclMap localDeclMap sub_map entities opts maybe_exps ignore_all_exports docMap | isNothing maybe_exps || ignore_all_exports || OptIgnoreExports `elem` opts = everything_local_exported | Just specs <- maybe_exps = do exps <- mapM lookupExport specs return (concat exps) where everything_local_exported = -- everything exported return (fullContentsOfThisModule this_mod entities localDeclMap docMap) packageId = modulePackageId this_mod lookupExport (IEVar x) = declWith x lookupExport (IEThingAbs t) = declWith t lookupExport (IEThingAll t) = declWith t lookupExport (IEThingWith t cs) = declWith t lookupExport (IEModuleContents m) = fullContentsOf (mkModule packageId m) lookupExport (IEGroup lev doc) = return [ ExportGroup lev "" doc ] lookupExport (IEDoc doc) = return [ ExportDoc doc ] lookupExport (IEDocNamed str) = do r <- findNamedDoc str entities case r of Nothing -> return [] Just found -> return [ ExportDoc found ] declWith :: Name -> ErrMsgM [ ExportItem Name ] declWith t | (Just decl, maybeDoc) <- findDecl t = return [ ExportDecl t (restrictTo subs (extractDecl t mdl decl)) maybeDoc [] ] | otherwise = return [] where mdl = nameModule t subs = filter (`elem` exported_names) all_subs all_subs | mdl == this_mod = Map.findWithDefault [] t sub_map | otherwise = allSubsOfName mod_map t fullContentsOf m | m == this_mod = return (fullContentsOfThisModule this_mod entities localDeclMap docMap) | otherwise = case Map.lookup m mod_map of Just hmod | OptHide `elem` hmod_options hmod -> return (hmod_export_items hmod) | otherwise -> return [ ExportModule m ] Nothing -> return [] -- already emitted a warning in visibleNames findDecl :: Name -> (Maybe (LHsDecl Name), Maybe (HsDoc Name)) findDecl n | not (isExternalName n) = error "This shouldn't happen" findDecl n | m == this_mod = (Map.lookup n exportedDeclMap, Map.lookup n docMap) | otherwise = case Map.lookup m mod_map of Just hmod -> (Map.lookup n (hmod_exported_decl_map hmod), Map.lookup n (hmod_doc_map hmod)) Nothing -> (Nothing, Nothing) where m = nameModule n fullContentsOfThisModule :: Module -> [Entity] -> Map Name (LHsDecl Name) -> Map Name (HsDoc Name) -> [ExportItem Name] fullContentsOfThisModule module_ entities declMap docMap = catMaybes (map mkExportItem entities) where mkExportItem (DocEntity (DocGroup lev doc)) = Just (ExportGroup lev "" doc) mkExportItem (DeclEntity name) = fmap mkExport (Map.lookup name declMap) where mkExport decl = ExportDecl name decl (Map.lookup name docMap) [] mkExportItem _ = Nothing -- Sometimes the declaration we want to export is not the "main" declaration: -- it might be an individual record selector or a class method. In these -- cases we have to extract the required declaration (and somehow cobble -- together a type signature for it...) extractDecl :: Name -> Module -> LHsDecl Name -> LHsDecl Name extractDecl name mdl decl | Just n <- getMainDeclBinder (unLoc decl), n == name = decl | otherwise = case unLoc decl of TyClD d | isClassDecl d -> let matches = [ sig | sig <- tcdSigs d, sigName sig == Just name ] in case matches of [s0] -> let (n, tyvar_names) = name_and_tyvars d L pos sig = extractClassDecl n mdl tyvar_names s0 in L pos (SigD sig) _ -> error "internal: extractDecl" TyClD d | isDataDecl d -> let (n, tyvar_names) = name_and_tyvars d L pos sig = extractRecSel name mdl n tyvar_names (tcdCons d) in L pos (SigD sig) _ -> error "internal: extractDecl" where name_and_tyvars d = (unLoc (tcdLName d), hsLTyVarLocNames (tcdTyVars d)) toTypeNoLoc :: Located Name -> LHsType Name toTypeNoLoc lname = noLoc (HsTyVar (unLoc lname)) rmLoc :: Located a -> Located a rmLoc a = noLoc (unLoc a) extractClassDecl :: Name -> Module -> [Located Name] -> LSig Name -> LSig Name extractClassDecl c mdl tvs0 (L pos (TypeSig lname ltype)) = case ltype of L _ (HsForAllTy exp tvs (L _ preds) ty) -> L pos (TypeSig lname (noLoc (HsForAllTy exp tvs (lctxt preds) ty))) _ -> L pos (TypeSig lname (noLoc (mkImplicitHsForAllTy (lctxt []) ltype))) where lctxt preds = noLoc (ctxt preds) ctxt preds = [noLoc (HsClassP c (map toTypeNoLoc tvs0))] ++ preds extractClassDecl _ _ _ d = error $ "extractClassDecl: unexpected decl" extractRecSel :: Name -> Module -> Name -> [Located Name] -> [LConDecl Name] -> LSig Name extractRecSel _ _ _ _ [] = error "extractRecSel: selector not found" extractRecSel nm mdl t tvs (L _ con : rest) = case con_details con of RecCon fields | (ConDeclField n ty _ : _) <- matching_fields fields -> L (getLoc n) (TypeSig (noLoc nm) (noLoc (HsFunTy data_ty (getBangType ty)))) _ -> extractRecSel nm mdl t tvs rest where matching_fields flds = [ f | f@(ConDeclField n _ _) <- flds, (unLoc n) == nm ] data_ty = foldl (\x y -> noLoc (HsAppTy x y)) (noLoc (HsTyVar t)) (map toTypeNoLoc tvs) -- ----------------------------------------------------------------------------- -- Pruning pruneExportItems :: [ExportItem Name] -> [ExportItem Name] pruneExportItems items = filter hasDoc items where hasDoc (ExportDecl _ _ d _) = isJust d hasDoc _ = True -- ----------------------------------------------------------------------------- -- Gather a list of original names exported from this module mkVisibleNames :: Module -> ModuleMap -> [Name] -> [Name] -> Map Name [Name] -> Maybe [IE Name] -> [DocOption] -> Map Name (LHsDecl Name) -> ErrMsgM [Name] mkVisibleNames mdl modMap localNames scope subMap maybeExps opts declMap -- if no export list, just return all local names | Nothing <- maybeExps = return (filter hasDecl localNames) | OptIgnoreExports `elem` opts = return localNames | Just expspecs <- maybeExps = do visibleNames <- mapM extract expspecs return $ filter isNotPackageName (concat visibleNames) where hasDecl name = isJust (Map.lookup name declMap) isNotPackageName name = nameMod == mdl || isJust (Map.lookup nameMod modMap) where nameMod = nameModule name extract e = case e of IEVar x -> return [x] IEThingAbs t -> return [t] IEThingAll t -> return (t : all_subs) where all_subs | nameModule t == mdl = Map.findWithDefault [] t subMap | otherwise = allSubsOfName modMap t IEThingWith t cs -> return (t : cs) IEModuleContents m | mkModule (modulePackageId mdl) m == mdl -> return localNames | otherwise -> let m' = mkModule (modulePackageId mdl) m in case Map.lookup m' modMap of Just mod | OptHide `elem` hmod_options mod -> return (filter (`elem` scope) (hmod_exports mod)) | otherwise -> return [] Nothing -> tell (exportModuleMissingErr mdl m') >> return [] _ -> return [] exportModuleMissingErr this mdl = ["Warning: in export list of " ++ show (moduleString this) ++ ": module not found: " ++ show (moduleString mdl)] -- for a given entity, find all the names it "owns" (ie. all the -- constructors and field names of a tycon, or all the methods of a -- class). allSubsOfName :: ModuleMap -> Name -> [Name] allSubsOfName mod_map name | isExternalName name = case Map.lookup (nameModule name) mod_map of Just hmod -> Map.findWithDefault [] name (hmod_sub_map hmod) Nothing -> [] | otherwise = error $ "Main.allSubsOfName: unexpected unqual'd name" -- | Build a mapping which for each original name, points to the "best" -- place to link to in the documentation. For the definition of -- "best", we use "the module nearest the bottom of the dependency -- graph which exports this name", not including hidden modules. When -- there are multiple choices, we pick a random one. -- -- The interfaces are passed in in topologically sorted order, but we start -- by reversing the list so we can do a foldl. buildGlobalDocEnv :: [HaddockModule] -> Map Name Name buildGlobalDocEnv modules = foldl upd Map.empty (reverse modules) where upd old_env mod | OptHide `elem` hmod_options mod = old_env | OptNotHome `elem` hmod_options mod = foldl' keep_old old_env exported_names | otherwise = foldl' keep_new old_env exported_names where exported_names = hmod_visible_exports mod modName = hmod_mod mod keep_old env n = Map.insertWith (\new old -> old) n (nameSetMod n modName) env keep_new env n = Map.insert n (nameSetMod n modName) env nameSetMod n newMod = mkExternalName (nameUnique n) newMod (nameOccName n) (nameSrcSpan n) -- ----------------------------------------------------------------------------- -- Named documentation findNamedDoc :: String -> [Entity] -> ErrMsgM (Maybe (HsDoc Name)) findNamedDoc name entities = search entities where search [] = do tell ["Cannot find documentation for: $" ++ name] return Nothing search ((DocEntity (DocCommentNamed name' doc)):rest) | name == name' = return (Just doc) | otherwise = search rest search (_other_decl : rest) = search rest -- ----------------------------------------------------------------------------- -- Haddock options embedded in the source file processOptions_ str = let (opts, msg) = runWriter (processOptions str) in print msg >> return opts processOptions :: String -> ErrMsgM [DocOption] processOptions str = do case break (== ',') str of (this, ',':rest) -> do opt <- parseOption this opts <- processOptions rest return (maybeToList opt ++ opts) (this, _) | all isSpace this -> return [] | otherwise -> do opt <- parseOption this; return (maybeToList opt) parseOption :: String -> ErrMsgM (Maybe DocOption) parseOption "hide" = return (Just OptHide) parseOption "prune" = return (Just OptPrune) parseOption "ignore-exports" = return (Just OptIgnoreExports) parseOption "not-home" = return (Just OptNotHome) parseOption other = do tell ["Unrecognised option: " ++ other]; return Nothing -- simplified type for sorting types, ignoring qualification (not visible -- in Haddock output) and unifying special tycons with normal ones. data SimpleType = SimpleType Name [SimpleType] deriving (Eq,Ord) attachInstances :: [HaddockModule] -> [HaddockModule] attachInstances modules = map attach modules where instMap = fmap (map toHsInstHead . sortImage instHead) $ collectInstances modules attach mod = mod { hmod_export_items = newItems } where newItems = map attachExport (hmod_export_items mod) attachExport (ExportDecl n decl doc _) = ExportDecl n decl doc (case Map.lookup n instMap of Nothing -> [] Just instheads -> instheads) attachExport otherExport = otherExport collectInstances :: [HaddockModule] -> Map Name [([TyVar], [PredType], Class, [Type])] -- maps class/type names to instances collectInstances modules = Map.fromListWith (flip (++)) tyInstPairs `Map.union` Map.fromListWith (flip (++)) classInstPairs where allInstances = concat (map hmod_instances modules) classInstPairs = [ (is_cls inst, [instanceHead inst]) | inst <- allInstances ] tyInstPairs = [ (tycon, [instanceHead inst]) | inst <- allInstances, Just tycon <- nub (is_tcs inst) ] instHead :: ([TyVar], [PredType], Class, [Type]) -> ([Int], Name, [SimpleType]) instHead (_, _, cls, args) = (map argCount args, className cls, map simplify args) where argCount (AppTy t _) = argCount t + 1 argCount (TyConApp _ ts) = length ts argCount (FunTy _ _ ) = 2 argCount (ForAllTy _ t) = argCount t argCount (NoteTy _ t) = argCount t argCount _ = 0 simplify (ForAllTy _ t) = simplify t simplify (FunTy t1 t2) = SimpleType funTyConName [simplify t1, simplify t2] simplify (AppTy t1 t2) = SimpleType s (args ++ [simplify t2]) where (SimpleType s args) = simplify t1 simplify (TyVarTy v) = SimpleType (tyVarName v) [] simplify (TyConApp tc ts) = SimpleType (tyConName tc) (map simplify ts) simplify (NoteTy _ t) = simplify t simplify _ = error "simplify" -- sortImage f = sortBy (\x y -> compare (f x) (f y)) sortImage :: Ord b => (a -> b) -> [a] -> [a] sortImage f xs = map snd $ sortBy cmp_fst [(f x, x) | x <- xs] where cmp_fst (x,_) (y,_) = compare x y funTyConName = mkWiredInName gHC_PRIM (mkOccNameFS tcName FSLIT("(->)")) funTyConKey (ATyCon funTyCon) -- Relevant TyCon BuiltInSyntax toHsInstHead :: ([TyVar], [PredType], Class, [Type]) -> InstHead Name toHsInstHead (_, preds, cls, ts) = (map toHsPred preds, className cls, map toHsType ts) -------------------------------------------------------------------------------- -- Type -> HsType conversion -------------------------------------------------------------------------------- toHsPred :: PredType -> HsPred Name toHsPred (ClassP cls ts) = HsClassP (className cls) (map toLHsType ts) toHsPred (IParam n t) = HsIParam n (toLHsType t) toLHsType = noLoc . toHsType toHsType :: Type -> HsType Name toHsType t = case t of TyVarTy v -> HsTyVar (tyVarName v) AppTy a b -> HsAppTy (toLHsType a) (toLHsType b) TyConApp tc ts -> case ts of [] -> HsTyVar (tyConName tc) _ -> app (tycon tc) ts FunTy a b -> HsFunTy (toLHsType a) (toLHsType b) ForAllTy v t -> cvForAll [v] t PredTy p -> HsPredTy (toHsPred p) NoteTy _ t -> toHsType t where tycon tc = HsTyVar (tyConName tc) app tc ts = foldl (\a b -> HsAppTy (noLoc a) (noLoc b)) tc (map toHsType ts) cvForAll vs (ForAllTy v t) = cvForAll (v:vs) t cvForAll vs t = mkExplicitHsForAllTy (tyvarbinders vs) (noLoc []) (toLHsType t) tyvarbinders vs = map (noLoc . UserTyVar . tyVarName) vs -- ----------------------------------------------------------------------------- -- A monad which collects error messages type ErrMsg = String type ErrMsgM a = Writer [ErrMsg] a -------------------------------------------------------------------------------- -- Packages -------------------------------------------------------------------------------- data PackageData = PackageData { pdModules :: [Module], pdDocEnv :: DocEnv, pdHtmlPath :: FilePath } -- | Recreate exposed modules from an InstalledPackageInfo packageModules :: InstalledPackageInfo -> [Module] packageModules pkgInfo = map (mkModule (pkgId pkgInfo)) moduleNames where moduleNames = map mkModuleName (exposedModules pkgInfo) pkgId :: InstalledPackageInfo -> PackageId pkgId = mkPackageId . package -- | For each module in the list, try to retrieve a ModuleInfo structure moduleInfo :: Session -> [Module] -> IO (Maybe [ModuleInfo]) moduleInfo session modules = do mbModInfo <- mapM (getModuleInfo session) modules return (sequence mbModInfo) -- | Get the Haddock HTML directory path for a package getHtml :: InstalledPackageInfo -> IO FilePath getHtml pkgInfo = case haddockHTMLs pkgInfo of (path:_) | not (null path) -> do dirExists <- doesDirectoryExist path if dirExists then return path else throwE $ "HTML directory " ++ path ++ " does not exist." _ -> throwE "No Haddock documentation installed." -- | Get the Haddock interface path for a package getIface :: InstalledPackageInfo -> IO FilePath getIface pkgInfo = case haddockInterfaces pkgInfo of (path:_) | not (null path) -> do dirExists <- doesDirectoryExist path if dirExists then return path else throwE $ "Interface directory " ++ path ++ " does not exist." _ -> throwE "No Haddock interface installed." -- | Try to create a PackageData structure for a package getPackage :: Session -> InstalledPackageInfo -> IO PackageData getPackage session pkgInfo = do html <- getHtml pkgInfo iface <- getIface pkgInfo iface <- readInterfaceFile iface let modules = packageModules pkgInfo -- try to get a ModuleInfo struct for each module mbModInfos <- moduleInfo session modules modInfos <- case mbModInfos of Just x -> return x Nothing -> throwE "Could not get ModuleInfo for all exposed modules." --let modInfos' = sortPackageModules modInfos return $ PackageData { pdModules = modules, pdDocEnv = ifDocEnv iface, pdHtmlPath = html } -- | Try to create a PackageData for each package in the session except for -- rts. Print a warning on stdout if a PackageData could not be created. getPackages :: Session -> DynFlags -> [Flag] -> IO [PackageData] getPackages session dynflags flags = do -- get InstalledPackageInfos for every package in the session pkgInfos <- getPreloadPackagesAnd dynflags [] -- return a list of those packages that we could create PackageDatas for let pkgInfos' = filter notRTS pkgInfos liftM catMaybes $ mapM tryGetPackage pkgInfos' where -- no better way to do this? notRTS p = pkgName (package p) /= packageIdString rtsPackageId -- try to get a PackageData, warn if we can't tryGetPackage pkgInfo = (getPackage session pkgInfo >>= return . Just) `catchDyn` (\(e::HaddockException) -> do let pkgName = showPackageId (package pkgInfo) putStrLn ("Warning: Cannot use package " ++ pkgName ++ ":") putStrLn (" " ++ show e) return Nothing ) -- | Build one big doc env out of a list of packages. If multiple packages -- export the same (original) name, we just pick one of the packages as the -- documentation site. packagesDocEnv :: [PackageData] -> DocEnv packagesDocEnv packages = Map.unions (map pdDocEnv packages)