%
% (c) The University of Glasgow 2006
% (c) The AQUA Project, Glasgow University, 1994-1998
%
UniqFM: Specialised finite maps, for things with @Uniques@.
Basically, the things need to be in class @Uniquable@, and we use the
@getUnique@ method to grab their @Uniques@.
(A similar thing to @UniqSet@, as opposed to @Set@.)
The interface is based on @FiniteMap@s, but the implementation uses
@Data.IntMap@, which is both maitained and faster than the past
implementation (see commit log).
The @UniqFM@ interface maps directly to Data.IntMap, only
``Data.IntMap.union'' is left-biased and ``plusUFM'' right-biased
and ``addToUFM\_C'' and ``Data.IntMap.insertWith'' differ in the order
of arguments of combining function.
\begin{code}
module UniqFM (
UniqFM,
emptyUFM,
unitUFM,
unitDirectlyUFM,
listToUFM,
listToUFM_Directly,
listToUFM_C,
addToUFM,addToUFM_C,addToUFM_Acc,
addListToUFM,addListToUFM_C,
addToUFM_Directly,
addListToUFM_Directly,
adjustUFM,
adjustUFM_Directly,
delFromUFM,
delFromUFM_Directly,
delListFromUFM,
plusUFM,
plusUFM_C,
minusUFM,
intersectUFM,
intersectUFM_C,
foldUFM, foldUFM_Directly,
mapUFM, mapUFM_Directly,
elemUFM, elemUFM_Directly,
filterUFM, filterUFM_Directly,
sizeUFM,
isNullUFM,
lookupUFM, lookupUFM_Directly,
lookupWithDefaultUFM, lookupWithDefaultUFM_Directly,
eltsUFM, keysUFM, splitUFM,
ufmToList,
joinUFM
) where
import Unique ( Uniquable(..), Unique, getKey )
import Outputable
import Compiler.Hoopl hiding (Unique)
import Data.Function (on)
import qualified Data.IntMap as M
import qualified Data.Foldable as Foldable
import Data.Typeable
import Data.Data
\end{code}
%************************************************************************
%* *
\subsection{The signature of the module}
%* *
%************************************************************************
\begin{code}
emptyUFM :: UniqFM elt
isNullUFM :: UniqFM elt -> Bool
unitUFM :: Uniquable key => key -> elt -> UniqFM elt
unitDirectlyUFM
:: Unique -> elt -> UniqFM elt
listToUFM :: Uniquable key => [(key,elt)] -> UniqFM elt
listToUFM_Directly
:: [(Unique, elt)] -> UniqFM elt
listToUFM_C :: Uniquable key => (elt -> elt -> elt)
-> [(key, elt)]
-> UniqFM elt
addToUFM :: Uniquable key => UniqFM elt -> key -> elt -> UniqFM elt
addListToUFM :: Uniquable key => UniqFM elt -> [(key,elt)] -> UniqFM elt
addListToUFM_Directly :: UniqFM elt -> [(Unique,elt)] -> UniqFM elt
addToUFM_Directly
:: UniqFM elt -> Unique -> elt -> UniqFM elt
addToUFM_C :: Uniquable key => (elt -> elt -> elt)
-> UniqFM elt
-> key -> elt
-> UniqFM elt
addToUFM_Acc :: Uniquable key =>
(elt -> elts -> elts)
-> (elt -> elts)
-> UniqFM elts
-> key -> elt
-> UniqFM elts
addListToUFM_C :: Uniquable key => (elt -> elt -> elt)
-> UniqFM elt -> [(key,elt)]
-> UniqFM elt
adjustUFM :: Uniquable key => (elt -> elt) -> UniqFM elt -> key -> UniqFM elt
adjustUFM_Directly :: (elt -> elt) -> UniqFM elt -> Unique -> UniqFM elt
delFromUFM :: Uniquable key => UniqFM elt -> key -> UniqFM elt
delListFromUFM :: Uniquable key => UniqFM elt -> [key] -> UniqFM elt
delFromUFM_Directly :: UniqFM elt -> Unique -> UniqFM elt
plusUFM :: UniqFM elt -> UniqFM elt -> UniqFM elt
plusUFM_C :: (elt -> elt -> elt)
-> UniqFM elt -> UniqFM elt -> UniqFM elt
minusUFM :: UniqFM elt1 -> UniqFM elt2 -> UniqFM elt1
intersectUFM :: UniqFM elt -> UniqFM elt -> UniqFM elt
intersectUFM_C :: (elt1 -> elt2 -> elt3)
-> UniqFM elt1 -> UniqFM elt2 -> UniqFM elt3
foldUFM :: (elt -> a -> a) -> a -> UniqFM elt -> a
foldUFM_Directly:: (Unique -> elt -> a -> a) -> a -> UniqFM elt -> a
mapUFM :: (elt1 -> elt2) -> UniqFM elt1 -> UniqFM elt2
mapUFM_Directly :: (Unique -> elt1 -> elt2) -> UniqFM elt1 -> UniqFM elt2
filterUFM :: (elt -> Bool) -> UniqFM elt -> UniqFM elt
filterUFM_Directly :: (Unique -> elt -> Bool) -> UniqFM elt -> UniqFM elt
sizeUFM :: UniqFM elt -> Int
elemUFM :: Uniquable key => key -> UniqFM elt -> Bool
elemUFM_Directly:: Unique -> UniqFM elt -> Bool
splitUFM :: Uniquable key => UniqFM elt -> key -> (UniqFM elt, Maybe elt, UniqFM elt)
lookupUFM :: Uniquable key => UniqFM elt -> key -> Maybe elt
lookupUFM_Directly
:: UniqFM elt -> Unique -> Maybe elt
lookupWithDefaultUFM
:: Uniquable key => UniqFM elt -> elt -> key -> elt
lookupWithDefaultUFM_Directly
:: UniqFM elt -> elt -> Unique -> elt
keysUFM :: UniqFM elt -> [Unique]
eltsUFM :: UniqFM elt -> [elt]
ufmToList :: UniqFM elt -> [(Unique, elt)]
\end{code}
%************************************************************************
%* *
\subsection{Implementation using ``Data.IntMap''}
%* *
%************************************************************************
\begin{code}
newtype UniqFM ele = UFM { unUFM :: M.IntMap ele }
deriving (Typeable,Data)
instance Eq ele => Eq (UniqFM ele) where
(==) = (==) `on` unUFM
instance Foldable.Foldable UniqFM where
foldMap f = Foldable.foldMap f . unUFM
emptyUFM = UFM M.empty
isNullUFM (UFM m) = M.null m
unitUFM k v = UFM (M.singleton (getKey $ getUnique k) v)
unitDirectlyUFM u v = UFM (M.singleton (getKey u) v)
listToUFM = foldl (\m (k, v) -> addToUFM m k v) emptyUFM
listToUFM_Directly = foldl (\m (u, v) -> addToUFM_Directly m u v) emptyUFM
listToUFM_C f = foldl (\m (k, v) -> addToUFM_C f m k v) emptyUFM
addToUFM (UFM m) k v = UFM (M.insert (getKey $ getUnique k) v m)
addListToUFM = foldl (\m (k, v) -> addToUFM m k v)
addListToUFM_Directly = foldl (\m (k, v) -> addToUFM_Directly m k v)
addToUFM_Directly (UFM m) u v = UFM (M.insert (getKey u) v m)
addToUFM_C f (UFM m) k v =
UFM (M.insertWith (flip f) (getKey $ getUnique k) v m)
addToUFM_Acc exi new (UFM m) k v =
UFM (M.insertWith (\_new old -> exi v old) (getKey $ getUnique k) (new v) m)
addListToUFM_C f = foldl (\m (k, v) -> addToUFM_C f m k v)
adjustUFM f (UFM m) k = UFM (M.adjust f (getKey $ getUnique k) m)
adjustUFM_Directly f (UFM m) u = UFM (M.adjust f (getKey u) m)
delFromUFM (UFM m) k = UFM (M.delete (getKey $ getUnique k) m)
delListFromUFM = foldl delFromUFM
delFromUFM_Directly (UFM m) u = UFM (M.delete (getKey u) m)
plusUFM (UFM x) (UFM y) = UFM (M.union y x)
plusUFM_C f (UFM x) (UFM y) = UFM (M.unionWith f x y)
minusUFM (UFM x) (UFM y) = UFM (M.difference x y)
intersectUFM (UFM x) (UFM y) = UFM (M.intersection x y)
intersectUFM_C f (UFM x) (UFM y) = UFM (M.intersectionWith f x y)
foldUFM k z (UFM m) = M.fold k z m
foldUFM_Directly k z (UFM m) = M.foldWithKey (k . getUnique) z m
mapUFM f (UFM m) = UFM (M.map f m)
mapUFM_Directly f (UFM m) = UFM (M.mapWithKey (f . getUnique) m)
filterUFM p (UFM m) = UFM (M.filter p m)
filterUFM_Directly p (UFM m) = UFM (M.filterWithKey (p . getUnique) m)
sizeUFM (UFM m) = M.size m
elemUFM k (UFM m) = M.member (getKey $ getUnique k) m
elemUFM_Directly u (UFM m) = M.member (getKey u) m
splitUFM (UFM m) k = case M.splitLookup (getKey $ getUnique k) m of
(less, equal, greater) -> (UFM less, equal, UFM greater)
lookupUFM (UFM m) k = M.lookup (getKey $ getUnique k) m
lookupUFM_Directly (UFM m) u = M.lookup (getKey u) m
lookupWithDefaultUFM (UFM m) v k = M.findWithDefault v (getKey $ getUnique k) m
lookupWithDefaultUFM_Directly (UFM m) v u = M.findWithDefault v (getKey u) m
keysUFM (UFM m) = map getUnique $ M.keys m
eltsUFM (UFM m) = M.elems m
ufmToList (UFM m) = map (\(k, v) -> (getUnique k, v)) $ M.toList m
joinUFM :: JoinFun v -> JoinFun (UniqFM v)
joinUFM eltJoin l (OldFact old) (NewFact new) = foldUFM_Directly add (NoChange, old) new
where add k new_v (ch, joinmap) =
case lookupUFM_Directly joinmap k of
Nothing -> (SomeChange, addToUFM_Directly joinmap k new_v)
Just old_v -> case eltJoin l (OldFact old_v) (NewFact new_v) of
(SomeChange, v') -> (SomeChange, addToUFM_Directly joinmap k v')
(NoChange, _) -> (ch, joinmap)
\end{code}
%************************************************************************
%* *
\subsection{Output-ery}
%* *
%************************************************************************
\begin{code}
instance Outputable a => Outputable (UniqFM a) where
ppr ufm = ppr (ufmToList ufm)
\end{code}