module Data.Graph.Inductive.NodeMap(
NodeMap,
new, fromGraph, mkNode, mkNode_, mkNodes, mkNodes_, mkEdge, mkEdges,
insMapNode, insMapNode_, insMapEdge, delMapNode, delMapEdge, insMapNodes,
insMapNodes_, insMapEdges, delMapNodes, delMapEdges, mkMapGraph,
NodeMapM,
run, run_, mkNodeM, mkNodesM, mkEdgeM, mkEdgesM,
insMapNodeM, insMapEdgeM, delMapNodeM, delMapEdgeM, insMapNodesM,
insMapEdgesM, delMapNodesM, delMapEdgesM
) where
import Control.Monad.Trans.State
import Data.Graph.Inductive.Graph
import Prelude hiding (map)
import qualified Prelude as P (map)
import Data.Map (Map)
import qualified Data.Map as M
#if MIN_VERSION_containers (0,4,2)
import Control.DeepSeq (NFData (..))
#endif
data NodeMap a =
NodeMap { map :: Map a Node,
key :: Int }
deriving (Eq, Show, Read)
#if MIN_VERSION_containers (0,4,2)
instance (NFData a) => NFData (NodeMap a) where
rnf (NodeMap mp k) = rnf mp `seq` rnf k
#endif
new :: NodeMap a
new = NodeMap { map = M.empty, key = 0 }
fromGraph :: (Ord a, Graph g) => g a b -> NodeMap a
fromGraph g =
let ns = labNodes g
aux (n, a) (m', k') = (M.insert a n m', max n k')
(m, k) = foldr aux (M.empty, 0) ns
in NodeMap { map = m, key = k+1 }
mkNode :: (Ord a) => NodeMap a -> a -> (LNode a, NodeMap a)
mkNode m@(NodeMap mp k) a =
case M.lookup a mp of
Just i -> ((i, a), m)
Nothing ->
let m' = NodeMap { map = M.insert a k mp, key = k+1 }
in ((k, a), m')
mkNode_ :: (Ord a) => NodeMap a -> a -> LNode a
mkNode_ m a = fst $ mkNode m a
mkEdge :: (Ord a) => NodeMap a -> (a, a, b) -> Maybe (LEdge b)
mkEdge (NodeMap m _) (a1, a2, b) =
do n1 <- M.lookup a1 m
n2 <- M.lookup a2 m
return (n1, n2, b)
mkEdges :: (Ord a) => NodeMap a -> [(a, a, b)] -> Maybe [LEdge b]
mkEdges m = mapM (mkEdge m)
mkNodes :: (Ord a) => NodeMap a -> [a] -> ([LNode a], NodeMap a)
mkNodes = map' mkNode
map' :: (a -> b -> (c, a)) -> a -> [b] -> ([c], a)
map' _ a [] = ([], a)
map' f a (b:bs) =
let (c, a') = f a b
(cs, a'') = map' f a' bs
in (c:cs, a'')
mkNodes_ :: (Ord a) => NodeMap a -> [a] -> [LNode a]
mkNodes_ m as = fst $ mkNodes m as
insMapNode :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> (g a b, NodeMap a, LNode a)
insMapNode m a g =
let (n, m') = mkNode m a
in (insNode n g, m', n)
insMapNode_ :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> g a b
insMapNode_ m a g =
let (g', _, _) = insMapNode m a g
in g'
insMapEdge :: (Ord a, DynGraph g) => NodeMap a -> (a, a, b) -> g a b -> g a b
insMapEdge m e g =
let (Just e') = mkEdge m e
in insEdge e' g
delMapNode :: (Ord a, DynGraph g) => NodeMap a -> a -> g a b -> g a b
delMapNode m a g =
let (n, _) = mkNode_ m a
in delNode n g
delMapEdge :: (Ord a, DynGraph g) => NodeMap a -> (a, a) -> g a b -> g a b
delMapEdge m (n1, n2) g =
let Just (n1', n2', _) = mkEdge m (n1, n2, ())
in delEdge (n1', n2') g
insMapNodes :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> (g a b, NodeMap a, [LNode a])
insMapNodes m as g =
let (ns, m') = mkNodes m as
in (insNodes ns g, m', ns)
insMapNodes_ :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> g a b
insMapNodes_ m as g =
let (g', _, _) = insMapNodes m as g
in g'
insMapEdges :: (Ord a, DynGraph g) => NodeMap a -> [(a, a, b)] -> g a b -> g a b
insMapEdges m es g =
let Just es' = mkEdges m es
in insEdges es' g
delMapNodes :: (Ord a, DynGraph g) => NodeMap a -> [a] -> g a b -> g a b
delMapNodes m as g =
let ns = P.map fst $ mkNodes_ m as
in delNodes ns g
delMapEdges :: (Ord a, DynGraph g) => NodeMap a -> [(a, a)] -> g a b -> g a b
delMapEdges m ns g =
let Just ns' = mkEdges m $ P.map (\(a, b) -> (a, b, ())) ns
ns'' = P.map (\(a, b, _) -> (a, b)) ns'
in delEdges ns'' g
mkMapGraph :: (Ord a, DynGraph g) => [a] -> [(a, a, b)] -> (g a b, NodeMap a)
mkMapGraph ns es =
let (ns', m') = mkNodes new ns
Just es' = mkEdges m' es
in (mkGraph ns' es', m')
type NodeMapM a b g r = State (NodeMap a, g a b) r
run :: (DynGraph g, Ord a) => g a b -> NodeMapM a b g r -> (r, (NodeMap a, g a b))
run g m = runState m (fromGraph g, g)
run_ :: (DynGraph g, Ord a) => g a b -> NodeMapM a b g r -> g a b
run_ g m = snd . snd $ run g m
liftN2 :: (NodeMap a -> c -> (d, NodeMap a)) -> c -> NodeMapM a b g d
liftN2 f c =
do (m, g) <- get
let (r, m') = f m c
put (m', g)
return r
liftN2' :: (NodeMap a -> c -> d) -> c -> NodeMapM a b g d
liftN2' f c =
do (m, _) <- get
return $ f m c
liftM1 :: (NodeMap a -> c -> g a b -> g a b) -> c -> NodeMapM a b g ()
liftM1 f c =
do (m, g) <- get
let g' = f m c g
put (m, g')
liftM1' :: (NodeMap a -> c -> g a b -> (g a b, NodeMap a, d)) -> c -> NodeMapM a b g d
liftM1' f c =
do (m, g) <- get
let (g', m', r) = f m c g
put (m', g')
return r
mkNodeM :: (Ord a, DynGraph g) => a -> NodeMapM a b g (LNode a)
mkNodeM = liftN2 mkNode
mkNodesM :: (Ord a, DynGraph g) => [a] -> NodeMapM a b g [LNode a]
mkNodesM = liftN2 mkNodes
mkEdgeM :: (Ord a, DynGraph g) => (a, a, b) -> NodeMapM a b g (Maybe (LEdge b))
mkEdgeM = liftN2' mkEdge
mkEdgesM :: (Ord a, DynGraph g) => [(a, a, b)] -> NodeMapM a b g (Maybe [LEdge b])
mkEdgesM = liftN2' mkEdges
insMapNodeM :: (Ord a, DynGraph g) => a -> NodeMapM a b g (LNode a)
insMapNodeM = liftM1' insMapNode
insMapEdgeM :: (Ord a, DynGraph g) => (a, a, b) -> NodeMapM a b g ()
insMapEdgeM = liftM1 insMapEdge
delMapNodeM :: (Ord a, DynGraph g) => a -> NodeMapM a b g ()
delMapNodeM = liftM1 delMapNode
delMapEdgeM :: (Ord a, DynGraph g) => (a, a) -> NodeMapM a b g ()
delMapEdgeM = liftM1 delMapEdge
insMapNodesM :: (Ord a, DynGraph g) => [a] -> NodeMapM a b g [LNode a]
insMapNodesM = liftM1' insMapNodes
insMapEdgesM :: (Ord a, DynGraph g) => [(a, a, b)] -> NodeMapM a b g ()
insMapEdgesM = liftM1 insMapEdges
delMapNodesM :: (Ord a, DynGraph g) => [a] -> NodeMapM a b g ()
delMapNodesM = liftM1 delMapNodes
delMapEdgesM :: (Ord a, DynGraph g) => [(a, a)] -> NodeMapM a b g ()
delMapEdgesM = liftM1 delMapEdges