{-# LANGUAGE TypeSynonymInstances, ViewPatterns #-} module HsDev.Inspect ( analyzeModule, inspectDocs, inspectContents, contentsInspection, inspectFile, fileInspection, projectDirs, projectSources, inspectProject ) where import Control.Arrow import Control.Applicative import Control.DeepSeq import qualified Control.Exception as E import Control.Monad import Control.Monad.Error import Data.Char (isSpace) import Data.Function (on) import Data.List import Data.Map (Map) import Data.Maybe (fromMaybe, mapMaybe, catMaybes, listToMaybe) import Data.Ord (comparing) import Data.String (IsString, fromString) import qualified Data.Text as T (unpack) import Data.Time.Clock.POSIX (utcTimeToPOSIXSeconds) import Data.Traversable (traverse, sequenceA) import qualified Data.Map as M import qualified Language.Haskell.Exts as H import qualified System.Directory as Dir import System.FilePath import Data.Generics.Uniplate.Data import HsDev.Symbols import HsDev.Project import HsDev.Tools.Base import HsDev.Tools.HDocs (hdocs, hdocsProcess) import HsDev.Util -- | Analize source contents analyzeModule :: [String] -> Maybe FilePath -> String -> Either String Module analyzeModule exts file source = case H.parseFileContentsWithMode pmode source' of H.ParseFailed loc reason -> Left $ "Parse failed at " ++ show loc ++ ": " ++ reason H.ParseOk (H.Module _ (H.ModuleName mname) _ _ mexports imports declarations) -> Right Module { moduleName = fromString mname, moduleDocs = Nothing, moduleLocation = ModuleSource Nothing, moduleExports = fmap (concatMap getExports) mexports, moduleImports = map getImport imports, moduleDeclarations = sortDeclarations $ getDecls declarations } where pmode :: H.ParseMode pmode = H.defaultParseMode { H.parseFilename = fromMaybe (H.parseFilename H.defaultParseMode) file, H.baseLanguage = H.Haskell2010, H.extensions = H.glasgowExts ++ map H.parseExtension exts, H.fixities = Just H.baseFixities } -- Replace all tabs to spaces to make SrcLoc valid, otherwise it treats tab as 8 spaces source' = map untab source untab '\t' = ' ' untab ch = ch -- | Analize source contents analyzeModule_ :: [String] -> Maybe FilePath -> String -> Either String Module analyzeModule_ exts file source = do mname <- parseModuleName source' return $ Module { moduleName = fromString mname, moduleDocs = Nothing, moduleLocation = ModuleSource Nothing, moduleExports = Nothing, moduleImports = [], moduleDeclarations = sortDeclarations $ getDecls $ mapMaybe (uncurry parseDecl') parts } where parts :: [(Int, String)] parts = zip offsets (map unlines parts') where parts' :: [[String]] parts' = unfoldr break' $ lines source' offsets = scanl (+) 0 $ map length parts' break' :: [String] -> Maybe ([String], [String]) break' [] = Nothing break' (l:ls) = Just $ first (l:) $ break (not . maybe True isSpace . listToMaybe) ls parseModuleName :: String -> Either String String parseModuleName cts = maybe (Left "match fail") Right $ do g <- matchRx "^module\\s+([\\w\\.]+)" cts g 1 parseDecl' :: Int -> String -> Maybe H.Decl parseDecl' offset cts = fmap (transformBi addOffset) $ case H.parseDeclWithMode pmode cts of H.ParseFailed _ _ -> Nothing H.ParseOk decl' -> Just decl' where addOffset :: H.SrcLoc -> H.SrcLoc addOffset src = src { H.srcLine = H.srcLine src + offset } pmode :: H.ParseMode pmode = H.defaultParseMode { H.parseFilename = fromMaybe (H.parseFilename H.defaultParseMode) file, H.baseLanguage = H.Haskell2010, H.extensions = H.glasgowExts ++ map H.parseExtension exts, H.fixities = Just H.baseFixities } -- Replace all tabs to spaces to make SrcLoc valid, otherwise it treats tab as 8 spaces source' = map untab source untab '\t' = ' ' untab ch = ch -- | Get exports getExports :: H.ExportSpec -> [Export] getExports (H.EModuleContents (H.ModuleName m)) = [ExportModule $ fromString m] getExports e = map (uncurry ExportName . (fmap fromString *** fromString) . identOfQName) $ childrenBi e -- | Get import getImport :: H.ImportDecl -> Import getImport d = Import (mname (H.importModule d)) (H.importQualified d) (mname <$> H.importAs d) (importLst <$> H.importSpecs d) (Just $ toPosition $ H.importLoc d) where mname (H.ModuleName n) = fromString n importLst (hiding, specs) = ImportList hiding $ map (fromString . identOfName) (concatMap childrenBi specs :: [H.Name]) -- | Decl declarations getDecls :: [H.Decl] -> [Declaration] getDecls decls = map mergeDecls . groupBy ((==) `on` declarationName) . sortBy (comparing declarationName) $ concatMap getDecl decls ++ concatMap getDef decls where mergeDecls :: [Declaration] -> Declaration mergeDecls [] = error "Impossible" mergeDecls ds = Declaration (declarationName $ head ds) Nothing Nothing (msum $ map declarationDocs ds) (minimum <$> mapM declarationPosition ds) (foldr1 mergeInfos $ map declaration ds) mergeInfos :: DeclarationInfo -> DeclarationInfo -> DeclarationInfo mergeInfos (Function ln ld) (Function rn rd) = Function (ln `mplus` rn) (ld ++ rd) mergeInfos l _ = l -- | Get definitions getBinds :: H.Binds -> [Declaration] getBinds (H.BDecls decls) = getDecls decls getBinds _ = [] -- | Get declaration and child declarations getDecl :: H.Decl -> [Declaration] getDecl decl' = case decl' of H.TypeSig loc names typeSignature -> [mkFun loc n (Function (Just $ oneLinePrint typeSignature) []) | n <- names] H.TypeDecl loc n args _ -> [mkType loc n Type args] H.DataDecl loc dataOrNew ctx n args cons _ -> mkType loc n (ctor dataOrNew `withCtx` ctx) args : concatMap (getConDecl n args) cons H.GDataDecl loc dataOrNew ctx n args _ gcons _ -> mkType loc n (ctor dataOrNew `withCtx` ctx) args : concatMap getGConDecl gcons H.ClassDecl loc ctx n args _ _ -> [mkType loc n (Class `withCtx` ctx) args] _ -> [] where mkType :: H.SrcLoc -> H.Name -> (TypeInfo -> DeclarationInfo) -> [H.TyVarBind] -> Declaration mkType loc n ctor' args = setPosition loc $ decl (fromString $ identOfName n) $ ctor' $ TypeInfo Nothing (map oneLinePrint args) Nothing withCtx :: (TypeInfo -> DeclarationInfo) -> H.Context -> TypeInfo -> DeclarationInfo withCtx ctor' ctx tinfo = ctor' (tinfo { typeInfoContext = makeCtx ctx }) ctor :: H.DataOrNew -> TypeInfo -> DeclarationInfo ctor H.DataType = Data ctor H.NewType = NewType makeCtx [] = Nothing makeCtx ctx = Just $ fromString $ intercalate ", " $ map oneLinePrint ctx -- | Get constructor and record fields declarations getConDecl :: H.Name -> [H.TyVarBind] -> H.QualConDecl -> [Declaration] getConDecl t as (H.QualConDecl loc _ _ cdecl) = case cdecl of H.ConDecl n cts -> [mkFun loc n (Function (Just $ oneLinePrint $ cts `tyFun` dataRes) [])] H.InfixConDecl ct n cts -> [mkFun loc n (Function (Just $ oneLinePrint $ (ct : [cts]) `tyFun` dataRes) [])] H.RecDecl n fields -> mkFun loc n (Function (Just $ oneLinePrint $ map snd fields `tyFun` dataRes) []) : concatMap (uncurry (getRec loc dataRes)) fields where dataRes :: H.Type dataRes = foldr H.TyApp (H.TyCon (H.UnQual t)) $ map (H.TyVar . nameOf) as where nameOf :: H.TyVarBind -> H.Name nameOf (H.KindedVar n' _) = n' nameOf (H.UnkindedVar n') = n' -- | Get GADT constructor and record fields declarations getGConDecl :: H.GadtDecl -> [Declaration] getGConDecl (H.GadtDecl loc n fields r) = mkFun loc n (Function (Just $ oneLinePrint $ map snd fields `tyFun` r) []) : concatMap (uncurry (getRec loc r)) fields where -- | Get record field declaration getRec :: H.SrcLoc -> H.Type -> [H.Name] -> H.Type -> [Declaration] getRec loc t ns rt = [mkFun loc n (Function (Just $ oneLinePrint $ t `H.TyFun` rt) []) | n <- ns] -- | Get definitions getDef :: H.Decl -> [Declaration] getDef (H.FunBind []) = [] getDef (H.FunBind matches@(H.Match loc n _ _ _ _ : _)) = [setPosition loc $ decl (fromString $ identOfName n) fun] where fun = Function Nothing $ concatMap (getBinds . matchBinds) matches matchBinds (H.Match _ _ _ _ _ binds) = binds getDef (H.PatBind loc pat _ binds) = map (\name -> setPosition loc (decl (fromString $ identOfName name) (Function Nothing $ getBinds binds))) (names pat) where names :: H.Pat -> [H.Name] names (H.PVar n) = [n] names (H.PNPlusK n _) = [n] names (H.PInfixApp l _ r) = names l ++ names r names (H.PApp _ ns) = concatMap names ns names (H.PTuple _ ns) = concatMap names ns names (H.PList ns) = concatMap names ns names (H.PParen n) = names n names (H.PRec _ pf) = concatMap fieldNames pf names (H.PAsPat n ns) = n : names ns names H.PWildCard = [] names (H.PIrrPat n) = names n names (H.PatTypeSig _ n _) = names n names (H.PViewPat _ n) = names n names (H.PBangPat n) = names n names _ = [] fieldNames :: H.PatField -> [H.Name] fieldNames (H.PFieldPat _ n) = names n fieldNames (H.PFieldPun n) = case n of H.Qual _ n' -> [n'] H.UnQual n' -> [n'] _ -> [] fieldNames H.PFieldWildcard = [] getDef _ = [] -- | Make function declaration by location, name and function type mkFun :: H.SrcLoc -> H.Name -> DeclarationInfo -> Declaration mkFun loc n = setPosition loc . decl (fromString $ identOfName n) -- | Make function from arguments and result -- -- @[a, b, c...] `tyFun` r == a `TyFun` b `TyFun` c ... `TyFun` r@ tyFun :: [H.Type] -> H.Type -> H.Type tyFun as' r' = foldr H.TyFun r' as' -- | Get name of qualified name identOfQName :: H.QName -> (Maybe String, String) identOfQName (H.Qual (H.ModuleName mname) name) = (Just mname, identOfName name) identOfQName (H.UnQual name) = (Nothing, identOfName name) identOfQName (H.Special sname) = (Nothing, H.prettyPrint sname) -- | Get name of @H.Name@ identOfName :: H.Name -> String identOfName name = case name of H.Ident s -> s H.Symbol s -> s -- | Print something in one line oneLinePrint :: (H.Pretty a, IsString s) => a -> s oneLinePrint = fromString . H.prettyPrintStyleMode (H.style { H.mode = H.OneLineMode }) H.defaultMode -- | Convert @H.SrcLoc@ to @Position toPosition :: H.SrcLoc -> Position toPosition (H.SrcLoc _ l c) = Position l c -- | Set @Declaration@ position setPosition :: H.SrcLoc -> Declaration -> Declaration setPosition loc d = d { declarationPosition = Just (toPosition loc) } -- | Adds documentation to declaration addDoc :: Map String String -> Declaration -> Declaration addDoc docsMap decl' = decl' { declarationDocs = M.lookup (declarationName decl') docsMap' } where docsMap' = M.mapKeys fromString . M.map fromString $ docsMap -- | Adds documentation to all declarations in module addDocs :: Map String String -> Module -> Module addDocs docsMap m = m { moduleDeclarations = map (addDoc docsMap) (moduleDeclarations m) } -- | Extract file docs and set them to module declarations inspectDocs :: [String] -> Module -> ErrorT String IO Module inspectDocs opts m = do let hdocsWorkaround = True docsMap <- liftE $ if hdocsWorkaround then hdocsProcess (fromMaybe (T.unpack $ moduleName m) $ moduleSource $ moduleLocation m) opts else liftM Just $ hdocs (moduleLocation m) opts return $ maybe id addDocs docsMap $ m -- | Inspect contents inspectContents :: String -> [String] -> String -> ErrorT String IO InspectedModule inspectContents name opts cts = inspect (ModuleSource $ Just name) (contentsInspection cts opts) $ do analyzed <- ErrorT $ return $ analyzeModule exts (Just name) cts <|> analyzeModule_ exts (Just name) cts return $ setLoc analyzed where setLoc m = m { moduleLocation = ModuleSource (Just name) } exts = mapMaybe flagExtension opts contentsInspection :: String -> [String] -> ErrorT String IO Inspection contentsInspection _ _ = return InspectionNone -- crc or smth -- | Inspect file inspectFile :: [String] -> FilePath -> ErrorT String IO InspectedModule inspectFile opts file = do proj <- liftE $ locateProject file absFilename <- liftE $ Dir.canonicalizePath file inspect (FileModule absFilename proj) (fileInspection absFilename opts) $ do -- docsMap <- liftE $ if hdocsWorkaround -- then hdocsProcess absFilename opts -- else liftM Just $ hdocs (FileModule absFilename Nothing) opts forced <- ErrorT $ E.handle onError $ do analyzed <- liftM (\s -> analyzeModule exts (Just absFilename) s <|> analyzeModule_ exts (Just absFilename) s) $ readFileUtf8 absFilename force analyzed `deepseq` return analyzed -- return $ setLoc absFilename proj . maybe id addDocs docsMap $ forced return $ setLoc absFilename proj forced where setLoc f p m = m { moduleLocation = FileModule f p } onError :: E.ErrorCall -> IO (Either String Module) onError = return . Left . show exts = mapMaybe flagExtension opts -- | File inspection data fileInspection :: FilePath -> [String] -> ErrorT String IO Inspection fileInspection f opts = do tm <- liftE $ Dir.getModificationTime f return $ InspectionAt (utcTimeToPOSIXSeconds tm) $ sort $ nub opts -- | Enumerate project dirs projectDirs :: Project -> ErrorT String IO [Extensions FilePath] projectDirs p = do p' <- loadProject p return $ nub $ map (fmap (normalise . (projectPath p' ))) $ maybe [] sourceDirs $ projectDescription p' -- | Enumerate project source files projectSources :: Project -> ErrorT String IO [Extensions FilePath] projectSources p = do dirs <- projectDirs p let enumCabals = liftM (map takeDirectory . filter cabalFile) . traverseDirectory dirs' = map entity dirs -- enum inner projects and dont consider them as part of this project subProjs <- liftM (delete (projectPath p) . nub . concat) $ triesMap (liftE . enumCabals) dirs' let enumHs = liftM (filter thisProjectSource) . traverseDirectory thisProjectSource h = haskellSource h && not (any (`isParent` h) subProjs) liftM (nub . concat) $ triesMap (liftM sequenceA . traverse (liftE . enumHs)) dirs -- | Inspect project inspectProject :: [String] -> Project -> ErrorT String IO (Project, [InspectedModule]) inspectProject opts p = do p' <- loadProject p srcs <- projectSources p' modules <- mapM inspectFile' srcs return (p', catMaybes modules) where inspectFile' exts = liftM return (inspectFile (opts ++ extensionsOpts (extensions exts)) (entity exts)) <|> return Nothing