module GHC.Cmm.Dataflow.Label
( Label
, LabelMap
, LabelSet
, FactBase
, lookupFact
, mkHooplLabel
) where
import GHC.Prelude
import GHC.Utils.Outputable
import GHC.Cmm.Dataflow.Collections
import GHC.Types.Unique (Uniquable(..))
import GHC.Data.TrieMap
newtype Label = Label { lblToUnique :: Int }
deriving (Eq, Ord)
mkHooplLabel :: Int -> Label
mkHooplLabel = Label
instance Show Label where
show (Label n) = "L" ++ show n
instance Uniquable Label where
getUnique label = getUnique (lblToUnique label)
instance Outputable Label where
ppr label = ppr (getUnique label)
newtype LabelSet = LS UniqueSet deriving (Eq, Ord, Show, Monoid, Semigroup)
instance IsSet LabelSet where
type ElemOf LabelSet = Label
setNull (LS s) = setNull s
setSize (LS s) = setSize s
setMember (Label k) (LS s) = setMember k s
setEmpty = LS setEmpty
setSingleton (Label k) = LS (setSingleton k)
setInsert (Label k) (LS s) = LS (setInsert k s)
setDelete (Label k) (LS s) = LS (setDelete k s)
setUnion (LS x) (LS y) = LS (setUnion x y)
setDifference (LS x) (LS y) = LS (setDifference x y)
setIntersection (LS x) (LS y) = LS (setIntersection x y)
setIsSubsetOf (LS x) (LS y) = setIsSubsetOf x y
setFilter f (LS s) = LS (setFilter (f . mkHooplLabel) s)
setFoldl k z (LS s) = setFoldl (\a v -> k a (mkHooplLabel v)) z s
setFoldr k z (LS s) = setFoldr (\v a -> k (mkHooplLabel v) a) z s
setElems (LS s) = map mkHooplLabel (setElems s)
setFromList ks = LS (setFromList (map lblToUnique ks))
newtype LabelMap v = LM (UniqueMap v)
deriving (Eq, Ord, Show, Functor, Foldable, Traversable)
instance IsMap LabelMap where
type KeyOf LabelMap = Label
mapNull (LM m) = mapNull m
mapSize (LM m) = mapSize m
mapMember (Label k) (LM m) = mapMember k m
mapLookup (Label k) (LM m) = mapLookup k m
mapFindWithDefault def (Label k) (LM m) = mapFindWithDefault def k m
mapEmpty = LM mapEmpty
mapSingleton (Label k) v = LM (mapSingleton k v)
mapInsert (Label k) v (LM m) = LM (mapInsert k v m)
mapInsertWith f (Label k) v (LM m) = LM (mapInsertWith f k v m)
mapDelete (Label k) (LM m) = LM (mapDelete k m)
mapAlter f (Label k) (LM m) = LM (mapAlter f k m)
mapAdjust f (Label k) (LM m) = LM (mapAdjust f k m)
mapUnion (LM x) (LM y) = LM (mapUnion x y)
mapUnionWithKey f (LM x) (LM y) = LM (mapUnionWithKey (f . mkHooplLabel) x y)
mapDifference (LM x) (LM y) = LM (mapDifference x y)
mapIntersection (LM x) (LM y) = LM (mapIntersection x y)
mapIsSubmapOf (LM x) (LM y) = mapIsSubmapOf x y
mapMap f (LM m) = LM (mapMap f m)
mapMapWithKey f (LM m) = LM (mapMapWithKey (f . mkHooplLabel) m)
mapFoldl k z (LM m) = mapFoldl k z m
mapFoldr k z (LM m) = mapFoldr k z m
mapFoldlWithKey k z (LM m) =
mapFoldlWithKey (\a v -> k a (mkHooplLabel v)) z m
mapFoldMapWithKey f (LM m) = mapFoldMapWithKey (\k v -> f (mkHooplLabel k) v) m
mapFilter f (LM m) = LM (mapFilter f m)
mapFilterWithKey f (LM m) = LM (mapFilterWithKey (f . mkHooplLabel) m)
mapElems (LM m) = mapElems m
mapKeys (LM m) = map mkHooplLabel (mapKeys m)
mapToList (LM m) = [(mkHooplLabel k, v) | (k, v) <- mapToList m]
mapFromList assocs = LM (mapFromList [(lblToUnique k, v) | (k, v) <- assocs])
mapFromListWith f assocs = LM (mapFromListWith f [(lblToUnique k, v) | (k, v) <- assocs])
instance Outputable LabelSet where
ppr = ppr . setElems
instance Outputable a => Outputable (LabelMap a) where
ppr = ppr . mapToList
instance TrieMap LabelMap where
type Key LabelMap = Label
emptyTM = mapEmpty
lookupTM k m = mapLookup k m
alterTM k f m = mapAlter f k m
foldTM k m z = mapFoldr k z m
mapTM f m = mapMap f m
type FactBase f = LabelMap f
lookupFact :: Label -> FactBase f -> Maybe f
lookupFact = mapLookup