module Util where import Affection as A import Data.Matrix as M import qualified Data.HashSet as HS import Data.Graph.AStar import qualified SDL import qualified Graphics.Rendering.OpenGL as GL hiding (get) import Linear -- internal imports import Types convertTileToImg :: Matrix TileState -> Matrix (Maybe ImgId) convertTileToImg mat = fromLists conversion where conversion = map (\(i, ls) -> map (uncurry $ convertTile i) (zip [1..] ls)) (zip [1..] (toLists mat)) convertTile irow icol tile = case tile of Wall -> Just (case neighWalls irow icol mat of 4 -> ImgWallCross 3 | M.safeGet (irow + 1) icol mat /= Just Wall && M.safeGet (irow + 1) icol mat /= Just Door -> ImgWallTNW | M.safeGet irow (icol + 1) mat /= Just Wall && M.safeGet irow (icol + 1) mat /= Just Door -> ImgWallTSW | M.safeGet (irow - 1) icol mat /= Just Wall && M.safeGet (irow - 1) icol mat /= Just Door -> ImgWallTSE | otherwise -> ImgWallTNE 2 | (M.safeGet (irow + 1) icol mat == Just Wall || M.safeGet (irow + 1) icol mat == Just Door) && (M.safeGet (irow - 1) icol mat == Just Wall || M.safeGet (irow - 1) icol mat == Just Door) -> ImgWallDesc | (M.safeGet irow (icol + 1) mat == Just Wall || M.safeGet irow (icol + 1) mat == Just Door) && (M.safeGet irow (icol - 1) mat == Just Wall || M.safeGet irow (icol - 1) mat == Just Door) -> ImgWallAsc | (M.safeGet (irow - 1) icol mat == Just Wall || M.safeGet (irow - 1) icol mat == Just Door) && (M.safeGet irow (icol - 1) mat == Just Wall || M.safeGet irow (icol - 1) mat == Just Door) -> ImgWallCornerW | (M.safeGet irow (icol - 1) mat == Just Wall || M.safeGet irow (icol - 1) mat == Just Door) && (M.safeGet (irow + 1) icol mat == Just Wall || M.safeGet (irow + 1) icol mat == Just Door) -> ImgWallCornerS | (M.safeGet (irow + 1) icol mat == Just Wall || M.safeGet (irow + 1) icol mat == Just Door) && (M.safeGet irow (icol + 1) mat == Just Wall || M.safeGet irow (icol + 1) mat == Just Door) -> ImgWallCornerE | otherwise -> ImgWallCornerN 1 | M.safeGet (irow - 1) icol mat == Just Wall || M.safeGet (irow - 1) icol mat == Just Door -> ImgWallDesc | M.safeGet (irow + 1) icol mat == Just Wall || M.safeGet (irow + 1) icol mat == Just Door -> ImgWallDesc | M.safeGet irow (icol + 1) mat == Just Wall || M.safeGet irow (icol + 1) mat == Just Door -> ImgWallAsc | otherwise -> ImgWallAsc 0 -> ImgWallCross _ -> error "unexpected number if neighbouring walls" ) Offi | any (\(rr, cc) -> M.safeGet (irow + rr) (icol + cc) mat == Just Door) [(1, 0), (-1, 0), (0, 1), (0, -1)] -> Just ImgEmpty | otherwise -> Nothing _ -> Nothing neighWalls :: Int -> Int -> Matrix TileState -> Int neighWalls row col mat = Prelude.foldl (\acc (ir, ic) -> if M.safeGet (row + ir) (col + ic) mat == Just Wall || M.safeGet (row + ir) (col + ic) mat == Just Door then acc + 1 else acc ) 0 [ (0, -1) , (-1, 0) , (0, 1) , (1, 0) ] relativizeMouseCoords :: V2 Int32 -> IO (V2 Double) relativizeMouseCoords (V2 ix iy) = do (GL.Position vx vy, GL.Size vw vh) <- SDL.get GL.viewport let rx = ix - vx ry = iy - vy hx = fromIntegral vw / 2 hy = fromIntegral vh / 2 dx = fromIntegral rx - hx dy = fromIntegral ry - hy return $ V2 (dx / hx) (dy / hy) inBounds :: V2 Int -> Boundaries Int -> Bool inBounds (V2 r c) (Boundaries (minr, minc) (maxr, maxc)) = (r >= minr && r <= maxr) && (c >= minc && c <= maxc) astarAppl :: Matrix (Maybe ImgId) -> V2 Int -> V2 Int -> Maybe [V2 Int] astarAppl imgmat target start = aStar (naviGraph imgmat) (\a b -> distance (fmap fromIntegral a) (fmap fromIntegral b)) (\a -> distance (fmap fromIntegral target) (fmap fromIntegral a)) (== target) start naviGraph :: Matrix (Maybe ImgId) -> V2 Int -> HS.HashSet (V2 Int) naviGraph imgmat (V2 r c) = let list = foldl (\acc (or, oc) -> if null (imgObstacle $ imgmat M.! (r + or, c + oc)) then V2 (r + or) (c + oc): acc else acc ) [] [(0, 1), (0, -1), (1, 0), (-1, 0)] ++ foldl (\acc (or, oc) -> if all null (map (\(oor, ooc) -> imgObstacle $ imgmat M.! (r + oor, c + ooc)) [(0, oc), (or, 0), (or, oc)]) then V2 (r + or) (c + oc): acc else acc ) [] [(-1, -1), (-1, 1), (1, -1), (1, 1)] in HS.fromList list