module Hint.Reflection (
ModuleElem(..), Id, name, children,
getModuleExports,
) where
import Data.List
import Data.Maybe
import Hint.Base
import qualified Hint.GHC as GHC
type Id = String
data ModuleElem = Fun Id | Class Id [Id] | Data Id [Id]
deriving (Read, Show, Eq)
name :: ModuleElem -> Id
name (Fun f) = f
name (Class c _) = c
name (Data d _) = d
children :: ModuleElem -> [Id]
children (Fun _) = []
children (Class _ ms) = ms
children (Data _ dcs) = dcs
getModuleExports :: MonadInterpreter m => ModuleName -> m [ModuleElem]
getModuleExports mn =
do module_ <- findModule mn
mod_info <- mayFail $ runGhc1 GHC.getModuleInfo module_
exports <- mapM (runGhc1 GHC.lookupName) (GHC.modInfoExports mod_info)
dflags <- runGhc GHC.getSessionDynFlags
return $ asModElemList dflags (catMaybes exports)
asModElemList :: GHC.DynFlags -> [GHC.TyThing] -> [ModuleElem]
asModElemList df xs = concat [
cs',
ts',
ds \\ concatMap (map Fun . children) ts',
fs \\ concatMap (map Fun . children) cs'
]
where (cs,ts,ds,fs) =
(
[asModElem df c | c@(GHC.ATyCon c') <- xs, GHC.isClassTyCon c'],
[asModElem df t | t@(GHC.ATyCon c') <- xs, (not . GHC.isClassTyCon) c'],
[asModElem df d | d@(GHC.AConLike GHC.RealDataCon{}) <- xs],
[asModElem df f | f@GHC.AnId{} <- xs]
)
cs' = [Class n $ filter (alsoIn fs) ms | Class n ms <- cs]
ts' = [Data t $ filter (alsoIn ds) dcs | Data t dcs <- ts]
alsoIn es = (`elem` map name es)
asModElem :: GHC.DynFlags -> GHC.TyThing -> ModuleElem
asModElem df (GHC.AnId f) = Fun $ getUnqualName df f
asModElem df (GHC.AConLike (GHC.RealDataCon dc)) = Fun $ getUnqualName df dc
asModElem df (GHC.ATyCon tc) =
if GHC.isClassTyCon tc
then Class (getUnqualName df tc) (map (getUnqualName df) $ (GHC.classMethods . fromJust . GHC.tyConClass_maybe) tc)
else Data (getUnqualName df tc) (map (getUnqualName df) $ GHC.tyConDataCons tc)
asModElem _ _ = error "asModElem: can't happen!"
getUnqualName :: GHC.NamedThing a => GHC.DynFlags -> a -> String
getUnqualName dfs = GHC.showSDocUnqual dfs . GHC.pprParenSymName