{-# LANGUAGE CPP, Rank2Types, TupleSections #-} module Info (infoExpr, typeExpr) where import AA import Cabal import Control.Applicative import CoreUtils import Data.Function import Data.Generics import Data.List import Data.Maybe import Data.Ord as O import Desugar import GHC import GHC.SYB.Utils import GHCApi import qualified Gap import HscTypes import NameSet import Outputable import PprTyThing import Pretty (showDocWith, Mode(OneLineMode)) import System.Time import TcRnTypes import Types ---------------------------------------------------------------- type Expression = String type ModuleString = String ---------------------------------------------------------------- infoExpr :: Options -> ModuleString -> Expression -> FilePath -> IO String infoExpr opt modstr expr file = (++ "\n") <$> info opt file modstr expr info :: Options -> FilePath -> ModuleString -> FilePath -> IO String info opt fileName modstr expr = inModuleContext opt fileName modstr exprToInfo "Cannot show info" where exprToInfo = infoThing expr ---------------------------------------------------------------- typeExpr :: Options -> ModuleString -> Int -> Int -> FilePath -> IO String typeExpr opt modstr lineNo colNo file = Info.typeOf opt file modstr lineNo colNo typeOf :: Options -> FilePath -> ModuleString -> Int -> Int -> IO String typeOf opt fileName modstr lineNo colNo = inModuleContext opt fileName modstr exprToType errmsg where exprToType = do modSum <- getModSummary $ mkModuleName modstr p <- parseModule modSum tcm <- typecheckModule p let es = findExpr tcm lineNo colNo ts <- catMaybes <$> mapM (getType tcm) es let sss = map toTup $ sortBy (cmp `on` fst) ts return $ convert opt sss toTup :: (SrcSpan, Type) -> ((Int,Int,Int,Int),String) toTup (spn, typ) = (fourInts spn, pretty typ) fourInts :: SrcSpan -> (Int,Int,Int,Int) fourInts = fromMaybe (0,0,0,0) . Gap.getSrcSpan cmp a b | a `isSubspanOf` b = O.LT | b `isSubspanOf` a = O.GT | otherwise = O.EQ errmsg = convert opt ([] :: [((Int,Int,Int,Int),String)]) findExpr :: TypecheckedModule -> Int -> Int -> [LHsExpr Id] findExpr tcm line col = let src = tm_typechecked_source tcm in listifyStaged TypeChecker f src where f :: LHsExpr Id -> Bool f (L spn _) = isGoodSrcSpan spn && spn `spans` (line, col) listifyStaged :: Typeable r => Stage -> (r -> Bool) -> GenericQ [r] listifyStaged s p = everythingStaged s (++) [] ([] `mkQ` (\x -> [x | p x])) getType :: GhcMonad m => TypecheckedModule -> LHsExpr Id -> m (Maybe (SrcSpan, Type)) getType tcm e = do hs_env <- getSession (_, mbe) <- Gap.liftIO $ deSugarExpr hs_env modu rn_env ty_env e return $ (getLoc e, ) <$> CoreUtils.exprType <$> mbe where modu = ms_mod $ pm_mod_summary $ tm_parsed_module tcm rn_env = tcg_rdr_env $ fst $ tm_internals_ tcm ty_env = tcg_type_env $ fst $ tm_internals_ tcm pretty :: Type -> String pretty = showDocWith OneLineMode . withPprStyleDoc (mkUserStyle neverQualify AllTheWay) . pprTypeForUser False ---------------------------------------------------------------- -- from ghc/InteractiveUI.hs infoThing :: String -> Ghc String infoThing str = do names <- parseName str mb_stuffs <- mapM getInfo names let filtered = filterOutChildren (\(t,_f,_i) -> t) (catMaybes mb_stuffs) unqual <- getPrintUnqual return $ showSDocForUser unqual $ vcat (intersperse (text "") $ map (pprInfo False) filtered) filterOutChildren :: (a -> TyThing) -> [a] -> [a] filterOutChildren get_thing xs = [x | x <- xs, not (getName (get_thing x) `elemNameSet` implicits)] where implicits = mkNameSet [getName t | x <- xs, t <- implicitTyThings (get_thing x)] pprInfo :: PrintExplicitForalls -> (TyThing, GHC.Fixity, [Instance]) -> SDoc pprInfo pefas (thing, fixity, insts) = pprTyThingInContextLoc pefas thing $$ show_fixity fixity $$ vcat (map pprInstance insts) where show_fixity fx | fx == defaultFixity = Outputable.empty | otherwise = ppr fx <+> ppr (getName thing) ---------------------------------------------------------------- inModuleContext :: Options -> FilePath -> ModuleString -> Ghc String -> String -> IO String inModuleContext opt fileName modstr action errmsg = withGHC (valid <|> invalid <|> return errmsg) where valid = do (file,_) <- initializeGHC opt fileName ["-w"] False setTargetFile file load LoadAllTargets doif setContextFromTarget action invalid = do initializeGHC opt fileName ["-w"] False setTargetBuffer load LoadAllTargets doif setContextFromTarget action setTargetBuffer = do modgraph <- depanal [mkModuleName modstr] True let imports = concatMap (map (showSDoc . ppr . unLoc)) $ map ms_imps modgraph ++ map ms_srcimps modgraph moddef = "module " ++ sanitize modstr ++ " where" header = moddef : imports importsBuf <- Gap.toStringBuffer header clkTime <- Gap.liftIO getClockTime setTargets [Target (TargetModule $ mkModuleName modstr) True (Just (importsBuf, clkTime))] doif m t = m >>= \ok -> if ok then t else goNext sanitize = fromMaybe "SomeModule" . listToMaybe . words setContextFromTarget :: Ghc Bool setContextFromTarget = depanal [] False >>= Gap.setCtx