module Algorithms.Graph.DFS where
import Control.Monad.ST (ST,runST)
import Data.Maybe
import Data.PlanarGraph
import Data.Tree
import qualified Data.Vector as V
import qualified Data.Vector.Generic as GV
import qualified Data.Vector.Unboxed.Mutable as UMV
dfs :: forall s w v e f.
PlanarGraph s w v e f -> VertexId s w -> Tree (VertexId s w)
dfs g = dfs' (adjacencyLists g)
type AdjacencyLists s w = V.Vector [VertexId s w]
adjacencyLists :: PlanarGraph s w v e f -> AdjacencyLists s w
adjacencyLists g = V.toList . flip neighboursOf g <$> vertices' g
dfs' :: forall s w. AdjacencyLists s w -> VertexId s w -> Tree (VertexId s w)
dfs' g start = runST $ do
bv <- UMV.replicate n False
fromJust <$> dfs'' bv start
where
n = GV.length g
neighs :: VertexId s w -> [VertexId s w]
neighs (VertexId u) = g GV.! u
visit bv (VertexId i) = UMV.write bv i True
visited bv (VertexId i) = UMV.read bv i
dfs'' :: UMV.MVector s' Bool -> VertexId s w
-> ST s' (Maybe (Tree (VertexId s w)))
dfs'' bv u = visited bv u >>= \case
True -> pure Nothing
False -> do
visit bv u
Just . Node u . catMaybes <$> mapM (dfs'' bv) (neighs u)