module IRTS.JavaScript.LangTransforms( removeDeadCode
, globlToCon
) where
import Control.DeepSeq
import Control.Monad.Trans.State
import Data.List
import Data.Map.Strict (Map)
import qualified Data.Map.Strict as Map
import Data.Maybe
import Data.Set (Set)
import qualified Data.Set as Set
import Data.Text (Text)
import qualified Data.Text as T
import Idris.Core.CaseTree
import Idris.Core.TT
import IRTS.Lang
import Data.Data
import Data.Generics.Uniplate.Data
import GHC.Generics (Generic)
deriving instance Typeable FDesc
deriving instance Data FDesc
deriving instance Typeable LVar
deriving instance Data LVar
deriving instance Typeable PrimFn
deriving instance Data PrimFn
deriving instance Typeable CaseType
deriving instance Data CaseType
deriving instance Typeable LExp
deriving instance Data LExp
deriving instance Typeable LDecl
deriving instance Data LDecl
deriving instance Typeable LOpt
deriving instance Data LOpt
restrictKeys :: Ord k => Map k a -> Set k -> Map k a
restrictKeys m s = Map.filterWithKey (\k _ -> k `Set.member` s) m
mapMapListKeys :: Ord k => (a->a) -> [k] -> Map k a -> Map k a
mapMapListKeys _ [] x = x
mapMapListKeys f (t:r) x = mapMapListKeys f r $ Map.adjust f t x
extractGlobs :: Map Name LDecl -> LDecl -> [Name]
extractGlobs defs (LConstructor _ _ _) = []
extractGlobs defs (LFun _ _ _ e) =
let f (LV (Glob x)) = Just x
f (LLazyApp x _) = Just x
f _ = Nothing
in [x | Just x <- map f $ universe e, Map.member x defs]
usedFunctions :: Map Name LDecl -> Set Name -> [Name] -> [Name]
usedFunctions _ _ [] = []
usedFunctions alldefs done names =
let decls = catMaybes $ map (\x -> Map.lookup x alldefs) names
used_names = (nub $ concat $ map (extractGlobs alldefs) decls) \\ names
new_names = filter (\x -> not $ Set.member x done) used_names
in used_names ++ usedFunctions alldefs (Set.union done $ Set.fromList new_names) new_names
usedDecls :: Map Name LDecl -> [Name] -> Map Name LDecl
usedDecls dcls start =
let used = reverse $ start ++ usedFunctions dcls (Set.fromList start) start
in restrictKeys dcls (Set.fromList used)
getUsedConstructors :: Map Name LDecl -> Set Name
getUsedConstructors x = Set.fromList [ n | LCon _ _ n _ <- universeBi x]
removeUnusedBranches :: Set Name -> Map Name LDecl -> Map Name LDecl
removeUnusedBranches used x =
transformBi f x
where
f :: [LAlt] -> [LAlt]
f ((LConCase x n y z):r) =
if Set.member n used then ((LConCase x n y z):r)
else r
f x = x
removeDeadCode :: Map Name LDecl -> [Name] -> Map Name LDecl
removeDeadCode dcls start =
let used = usedDecls dcls start
remCons = removeUnusedBranches (getUsedConstructors used) used
in if Map.keys remCons == Map.keys dcls then remCons
else removeDeadCode remCons start
globlToCon :: Map Name LDecl -> Map Name LDecl
globlToCon x =
transformBi (f x) x
where
f :: Map Name LDecl -> LExp -> LExp
f y x@(LV (Glob n)) =
case Map.lookup n y of
Just (LConstructor _ conId arity) -> LCon Nothing conId n []
_ -> x
f y x = x