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Diffstat (limited to 'users/glittershark/xanthous/src/Xanthous/Generators/Dungeon.hs')
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diff --git a/users/glittershark/xanthous/src/Xanthous/Generators/Dungeon.hs b/users/glittershark/xanthous/src/Xanthous/Generators/Dungeon.hs new file mode 100644 index 000000000000..7fde0075e64f --- /dev/null +++ b/users/glittershark/xanthous/src/Xanthous/Generators/Dungeon.hs @@ -0,0 +1,191 @@ +{-# LANGUAGE TemplateHaskell #-} +-------------------------------------------------------------------------------- +module Xanthous.Generators.Dungeon + ( Params(..) + , defaultParams + , parseParams + , generate + ) where +-------------------------------------------------------------------------------- +import Xanthous.Prelude hiding ((:>)) +-------------------------------------------------------------------------------- +import Control.Monad.Random +import Data.Array.ST +import Data.Array.IArray (amap) +import Data.Stream.Infinite (Stream(..)) +import qualified Data.Stream.Infinite as Stream +import qualified Data.Graph.Inductive.Graph as Graph +import Data.Graph.Inductive.PatriciaTree +import qualified Data.List.NonEmpty as NE +import Data.Maybe (fromJust) +import Linear.V2 +import Linear.Metric +import qualified Options.Applicative as Opt +-------------------------------------------------------------------------------- +import Xanthous.Random +import Xanthous.Data hiding (x, y, _x, _y, edges) +import Xanthous.Generators.Util +import Xanthous.Util.Graphics (delaunay, straightLine) +import Xanthous.Util.Graph (mstSubGraph) +-------------------------------------------------------------------------------- + +data Params = Params + { _numRoomsRange :: (Word, Word) + , _roomDimensionRange :: (Word, Word) + , _connectednessRatioRange :: (Double, Double) + } + deriving stock (Show, Eq, Ord, Generic) +makeLenses ''Params + +defaultParams :: Params +defaultParams = Params + { _numRoomsRange = (6, 8) + , _roomDimensionRange = (3, 12) + , _connectednessRatioRange = (0.1, 0.15) + } + +parseParams :: Opt.Parser Params +parseParams = Params + <$> parseRange + "num-rooms" + "number of rooms to generate in the dungeon" + "ROOMS" + (defaultParams ^. numRoomsRange) + <*> parseRange + "room-size" + "size in tiles of one of the sides of a room" + "TILES" + (defaultParams ^. roomDimensionRange) + <*> parseRange + "connectedness-ratio" + ( "ratio of edges from the delaunay triangulation to re-add to the " + <> "minimum-spanning-tree") + "RATIO" + (defaultParams ^. connectednessRatioRange) + <**> Opt.helper + where + parseRange name desc metavar (defMin, defMax) = + (,) + <$> Opt.option Opt.auto + ( Opt.long ("min-" <> name) + <> Opt.value defMin + <> Opt.showDefault + <> Opt.help ("Minimum " <> desc) + <> Opt.metavar metavar + ) + <*> Opt.option Opt.auto + ( Opt.long ("max-" <> name) + <> Opt.value defMax + <> Opt.showDefault + <> Opt.help ("Maximum " <> desc) + <> Opt.metavar metavar + ) + +generate :: RandomGen g => Params -> Dimensions -> g -> Cells +generate params dims gen + = amap not + $ runSTUArray + $ fmap fst + $ flip runRandT gen + $ generate' params dims + +-------------------------------------------------------------------------------- + +generate' :: RandomGen g => Params -> Dimensions -> CellM g s (MCells s) +generate' params dims = do + cells <- initializeEmpty dims + rooms <- genRooms params dims + for_ rooms $ fillRoom cells + + let fullRoomGraph = delaunayRoomGraph rooms + mst = mstSubGraph fullRoomGraph + mstEdges = Graph.edges mst + nonMSTEdges = filter (\(n₁, n₂, _) -> (n₁, n₂) `notElem` mstEdges) + $ Graph.labEdges fullRoomGraph + + reintroEdgeCount <- floor . (* fromIntegral (length nonMSTEdges)) + <$> getRandomR (params ^. connectednessRatioRange) + let reintroEdges = take reintroEdgeCount nonMSTEdges + corridorGraph = Graph.insEdges reintroEdges mst + + corridors <- traverse + ( uncurry corridorBetween + . over both (fromJust . Graph.lab corridorGraph) + ) $ Graph.edges corridorGraph + + for_ (join corridors) $ \pt -> lift $ writeArray cells pt True + + pure cells + +type Room = Box Word + +genRooms :: MonadRandom m => Params -> Dimensions -> m [Room] +genRooms params dims = do + numRooms <- fromIntegral <$> getRandomR (params ^. numRoomsRange) + subRand . fmap (Stream.take numRooms . removeIntersecting []) . infinitely $ do + roomWidth <- getRandomR $ params ^. roomDimensionRange + roomHeight <- getRandomR $ params ^. roomDimensionRange + xPos <- getRandomR (0, dims ^. width - roomWidth) + yPos <- getRandomR (0, dims ^. height - roomHeight) + pure Box + { _topLeftCorner = V2 xPos yPos + , _dimensions = V2 roomWidth roomHeight + } + where + removeIntersecting seen (room :> rooms) + | any (boxIntersects room) seen + = removeIntersecting seen rooms + | otherwise + = room :> removeIntersecting (room : seen) rooms + streamRepeat x = x :> streamRepeat x + infinitely = sequence . streamRepeat + +delaunayRoomGraph :: [Room] -> Gr Room Double +delaunayRoomGraph rooms = + Graph.insEdges edges . Graph.insNodes nodes $ Graph.empty + where + edges = map (\((n₁, room₁), (n₂, room₂)) -> (n₁, n₂, roomDist room₁ room₂)) + . over (mapped . both) snd + . delaunay @Double + . NE.fromList + . map (\p@(_, room) -> (boxCenter $ fromIntegral <$> room, p)) + $ nodes + nodes = zip [0..] rooms + roomDist = distance `on` (boxCenter . fmap fromIntegral) + +fillRoom :: MCells s -> Room -> CellM g s () +fillRoom cells room = + let V2 posx posy = room ^. topLeftCorner + V2 dimx dimy = room ^. dimensions + in for_ [posx .. posx + dimx] $ \x -> + for_ [posy .. posy + dimy] $ \y -> + lift $ writeArray cells (x, y) True + +corridorBetween :: MonadRandom m => Room -> Room -> m [(Word, Word)] +corridorBetween originRoom destinationRoom + = straightLine <$> origin <*> destination + where + origin = choose . NE.fromList . map toTuple =<< originEdge + destination = choose . NE.fromList . map toTuple =<< destinationEdge + originEdge = pickEdge originRoom originCorner + destinationEdge = pickEdge destinationRoom destinationCorner + pickEdge room corner = choose . over both (boxEdge room) $ cornerEdges corner + originCorner = + case ( compare (originRoom ^. topLeftCorner . _x) + (destinationRoom ^. topLeftCorner . _x) + , compare (originRoom ^. topLeftCorner . _y) + (destinationRoom ^. topLeftCorner . _y) + ) of + (LT, LT) -> BottomRight + (LT, GT) -> TopRight + (GT, LT) -> BottomLeft + (GT, GT) -> TopLeft + + (EQ, LT) -> BottomLeft + (EQ, GT) -> TopRight + (GT, EQ) -> TopLeft + (LT, EQ) -> BottomRight + (EQ, EQ) -> TopLeft -- should never happen + + destinationCorner = opposite originCorner + toTuple (V2 x y) = (x, y) |