-- -- Haddock - A Haskell Documentation Tool -- -- (c) Simon Marlow 2003 -- -- Here we build the actual module interfaces. By interface we mean the -- information that is used to render a Haddock page for a module. Parts of -- this information is also stored in the interface files. module Haddock.Interface ( createInterfaces ) where import Haddock.DocName import Haddock.Interface.Create import Haddock.Interface.AttachInstances import Haddock.Interface.Rename import Haddock.Types import Haddock.Options import Haddock.GHC.Utils import Haddock.GHC.Typecheck import Haddock.Exception import Haddock.Utils import Haddock.InterfaceFile import qualified Data.Map as Map import Data.Map (Map) import Data.List import Control.Monad import Control.Exception ( evaluate ) import GHC import Name import HscTypes ( msHsFilePath ) import Digraph import BasicTypes import SrcLoc import HscTypes -- | Turn a topologically sorted list of module names/filenames into interfaces. Also -- return the home link environment created in the process. #if __GLASGOW_HASKELL__ >= 609 createInterfaces :: [String] -> [Flag] -> [InterfaceFile] -> Ghc ([Interface], LinkEnv) createInterfaces modules flags extIfaces = do -- part 1, create interfaces let instIfaceMap = Map.fromList [ (instMod iface, iface) | ext <- extIfaces , iface <- ifInstalledIfaces ext ] interfaces <- createInterfaces' modules flags instIfaceMap #else createInterfaces :: Session -> [String] -> [Flag] -> [InterfaceFile] -> IO ([Interface], LinkEnv) createInterfaces session modules flags extIfaces = do -- part 1, create interfaces let instIfaceMap = Map.fromList [ (instMod iface, iface) | ext <- extIfaces , iface <- ifInstalledIfaces ext ] interfaces <- createInterfaces' session modules flags instIfaceMap #endif -- part 2, build link environment -- combine the link envs of the external packages into one let extLinks = Map.unions (map ifLinkEnv extIfaces) homeLinks = buildHomeLinks interfaces -- build the environment for the home -- package links = homeLinks `Map.union` extLinks allNames = Map.keys links -- part 3, attach instances let interfaces' = attachInstances interfaces allNames -- part 4, rename interfaces let warnings = Flag_NoWarnings `notElem` flags let (interfaces'', msgs) = runWriter $ mapM (renameInterface links warnings) interfaces' liftIO $ mapM_ putStrLn msgs return (interfaces'', homeLinks) #if __GLASGOW_HASKELL__ >= 609 createInterfaces' :: [String] -> [Flag] -> InstIfaceMap -> Ghc [Interface] createInterfaces' modules flags instIfaceMap = do targets <- mapM (\f -> guessTarget f Nothing) modules setTargets targets modgraph <- depanal [] False #if (__GLASGOW_HASKELL__ == 610 && __GHC_PATCHLEVEL__ >= 2) || __GLASGOW_HASKELL__ >= 611 -- If template haskell is used by the package, we can not use -- HscNothing as target since we might need to run code generated from -- one or more of the modules during typechecking. #if __GLASGOW_HASKELL__ < 611 let needsTemplateHaskell = any (dopt Opt_TemplateHaskell . ms_hspp_opts) #endif modgraph' <- if needsTemplateHaskell modgraph then do dflags <- getSessionDynFlags setSessionDynFlags dflags { hscTarget = HscC } -- we need to set HscC on all the ModSummaries as well let addHscC m = m { ms_hspp_opts = (ms_hspp_opts m) { hscTarget = HscC } } return (map addHscC modgraph) else return modgraph #else let modgraph' = modgraph #endif let orderedMods = flattenSCCs $ topSortModuleGraph False modgraph' Nothing (ifaces, _) <- foldM (\(ifaces, modMap) modsum -> do x <- processModule modsum flags modMap instIfaceMap #else createInterfaces' :: Session -> [String] -> [Flag] -> InstIfaceMap -> IO [Interface] createInterfaces' session modules flags instIfaceMap = do targets <- mapM (\f -> guessTarget f Nothing) modules setTargets session targets mbGraph <- depanal session [] False modgraph <- case mbGraph of Just graph -> return graph Nothing -> throwE "Failed to create dependency graph" let orderedMods = flattenSCCs $ topSortModuleGraph False modgraph Nothing (ifaces, _) <- foldM (\(ifaces, modMap) modsum -> do x <- processModule session modsum flags modMap instIfaceMap #endif case x of Just interface -> return $ (interface : ifaces , Map.insert (ifaceMod interface) interface modMap) Nothing -> return (ifaces, modMap) ) ([], Map.empty) orderedMods return (reverse ifaces) {- liftIO $ do putStrLn . ppModInfo $ ifaceInfo interface putStrLn . show $ fmap pretty (ifaceDoc interface) print (ifaceOptions interface) mapM (putStrLn . pretty . fst) (Map.elems . ifaceDeclMap $ interface) mapM (putStrLn . show . fmap pretty . snd) (Map.elems . ifaceDeclMap $ interface) mapM (putStrLn . ppExportItem) (ifaceExportItems interface) mapM (putStrLn . pretty) (ifaceLocals interface) mapM (putStrLn . pretty) (ifaceExports interface) mapM (putStrLn . pretty) (ifaceVisibleExports interface) mapM (putStrLn . pretty) (ifaceInstances interface) mapM (\(a,b) -> putStrLn $ pretty a ++ pretty b) (Map.toList $ ifaceSubMap interface) mapM (putStrLn . pretty) (ifaceInstances interface)-} {- ppInsts = concatMap ppInst ppInst (a,b,c) = concatMap pretty a ++ pretty b ++ concatMap pretty c ppExportItem (ExportDecl decl (Just doc) insts) = pretty decl ++ pretty doc ++ ppInsts insts ppExportItem (ExportDecl decl Nothing insts) = pretty decl ++ ppInsts insts ppExportItem (ExportNoDecl name name2 names) = pretty name ++ pretty name2 ++ pretty names ppExportItem (ExportGroup level id doc) = show level ++ show id ++ pretty doc ppExportItem (ExportDoc doc) = pretty doc ppExportItem (ExportModule mod) = pretty mod ppModInfo (HaddockModInfo a b c d) = show (fmap pretty a) ++ show b ++ show c ++ show d -} #if __GLASGOW_HASKELL__ >= 609 processModule :: ModSummary -> [Flag] -> ModuleMap -> InstIfaceMap -> Ghc (Maybe Interface) processModule modsum flags modMap instIfaceMap = do tc_mod <- loadModule =<< typecheckModule =<< parseModule modsum if not $ isBootSummary modsum then do let filename = msHsFilePath modsum let dynflags = ms_hspp_opts modsum let Just renamed_src = renamedSource tc_mod let ghcMod = mkGhcModule (ms_mod modsum, filename, (parsedSource tc_mod, renamed_src, typecheckedSource tc_mod, moduleInfo tc_mod)) dynflags let (interface, msg) = runWriter $ createInterface ghcMod flags modMap instIfaceMap liftIO $ mapM_ putStrLn msg liftIO $ evaluate interface return (Just interface) else return Nothing #else processModule :: Session -> ModSummary -> [Flag] -> ModuleMap -> InstIfaceMap -> IO (Maybe Interface) processModule session modsum flags modMap instIfaceMap = do let filename = msHsFilePath modsum mbMod <- checkAndLoadModule session modsum False if not $ isBootSummary modsum then do ghcMod <- case mbMod of Just (CheckedModule a (Just b) (Just c) (Just d) _) -> return $ mkGhcModule (ms_mod modsum, filename, (a,b,c,d)) (ms_hspp_opts modsum) _ -> throwE ("Failed to check module: " ++ (moduleString $ ms_mod modsum)) let (interface, msg) = runWriter $ createInterface ghcMod flags modMap instIfaceMap mapM_ putStrLn msg return (Just interface) else return Nothing #endif -- | 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. buildHomeLinks :: [Interface] -> LinkEnv buildHomeLinks ifaces = foldl upd Map.empty (reverse ifaces) where upd old_env iface | OptHide `elem` ifaceOptions iface = old_env | OptNotHome `elem` ifaceOptions iface = foldl' keep_old old_env exported_names | otherwise = foldl' keep_new old_env exported_names where exported_names = ifaceVisibleExports iface mod = ifaceMod iface keep_old env n = Map.insertWith (\new old -> old) n mod env keep_new env n = Map.insert n mod env