2018-06-23 22:41:51 +00:00
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module MindMap where
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import Affection as A
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import Algebra.Graph as AG
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import System.Random (randomRIO)
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import Control.Monad (foldM)
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import Linear
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import qualified Data.Matrix as M
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import Data.Maybe (fromJust)
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import Data.List (find)
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-- internal imports
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import Types
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2018-06-24 10:59:24 +00:00
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friction :: Double
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2018-06-25 21:46:17 +00:00
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friction = 0.1
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2018-06-24 10:59:24 +00:00
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l0 :: Double
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l0 = 1
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springKonst :: Double
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2018-06-23 22:41:51 +00:00
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springKonst = 0.8 -- N/m
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buildMindMap :: Int -> Word -> IO (AG.Graph MMNode)
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buildMindMap num difficulty = do
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mainPath <- (return . path . (MMNode (V2 0 0) 0 :)) =<< foldM
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makeVert
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[MMNode (V2 10 10) (-1)]
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[1 .. (1 + fromIntegral difficulty)]
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2018-06-24 10:59:24 +00:00
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aux <- randomRIO (0, floor (fromIntegral num * 5 / 8 :: Double)) :: IO Int
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2018-06-23 22:41:51 +00:00
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auxPaths <- mapM (\_ -> do
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len <- randomRIO (0, num `div` 10)
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(path . (MMNode (V2 0 0) 0 :)) <$> foldM makeVert [] [1 .. len]
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)
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[0 .. aux]
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return $ overlays (mainPath : auxPaths)
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where
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makeVert :: [MMNode] -> Int -> IO [MMNode]
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makeVert acc a = do
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vert <- randomRIO (1, num)
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x <- randomRIO (4.5, 5.5) :: IO Double
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y <- randomRIO (4.5, 5.5) :: IO Double
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2018-07-19 02:51:07 +00:00
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-- A.logIO A.Debug ("pos: " ++ show (x, y))
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2018-06-23 22:41:51 +00:00
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let node = MMNode (V2 x y) vert
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if node `elem` acc
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then makeVert acc a
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else return (node : acc)
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springField :: AG.Graph MMNode -> AG.Graph MMNode
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2018-07-03 14:19:27 +00:00
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springField =
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calcul
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2018-06-23 22:41:51 +00:00
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where
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calcul graph =
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2018-07-19 02:51:07 +00:00
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let deltas = calculDelta2 graph
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2018-07-08 05:55:44 +00:00
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in if any (\(_, v) -> len v > 1)
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2018-07-19 02:51:07 +00:00
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-- (A.log A.Debug ("deltas: " ++ show deltas) deltas)
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deltas
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2018-06-23 22:41:51 +00:00
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then
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let deltaNodes = map
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(\n -> n { mmPos = mmPos n + snd (fromJust (find ((== mmId n) . fst) deltas))})
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(vertexList graph)
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ngraph = fmap (\n -> fromJust (find ((== mmId n) . mmId) deltaNodes)) graph
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in -- A.log A.Debug "\n\nRECURSING\n"
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(calcul ngraph)
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else graph
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2018-07-19 02:51:07 +00:00
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len :: (Floating a, Metric f) => f a -> a
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len v = sqrt (v `dot` v)
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2018-07-08 05:55:44 +00:00
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normv :: (Eq a, Floating a) => V2 a -> V2 a
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normv v@(V2 0 0) = v
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normv v = signorm v
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2018-06-23 22:41:51 +00:00
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2018-06-28 19:07:58 +00:00
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buildFloorMap :: AG.Graph MMNode -> (M.Matrix Int, AG.Graph MMNode)
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2018-06-23 22:41:51 +00:00
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buildFloorMap inGraph =
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2018-06-28 19:07:58 +00:00
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( foldl
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(\amat (MMNode (V2 r c) i) -> M.setElem (if i == 0 then -2 else i)
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(floor r + 2, floor c + 2) amat
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)
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emptyFloor
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2018-07-19 02:51:07 +00:00
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floorGraph
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2018-06-28 19:07:58 +00:00
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, fmap (\n -> n { mmPos = (+ 2) <$> mmPos n} ) floorGraph
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)
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2018-06-23 22:41:51 +00:00
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where
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normGraph =
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let minVert = V2
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( minimum $ map ((\(V2 r _) -> r) . mmPos) (vertexList inGraph))
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( minimum $ map ((\(V2 _ c) -> c) . mmPos) (vertexList inGraph))
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maxVert = V2
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( maximum $ map ((\(V2 r _) -> r) . mmPos) (vertexList redGraph))
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( maximum $ map ((\(V2 _ c) -> c) . mmPos) (vertexList redGraph))
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redGraph = fmap (\n -> n { mmPos = mmPos n - minVert }) inGraph
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in fmap (\n -> n { mmPos = mmPos n / maxVert }) redGraph
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2018-07-19 02:51:07 +00:00
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floorGraph = fmap (\n -> n { mmPos = (* 45) <$> mmPos n }) normGraph
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2018-06-23 22:41:51 +00:00
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emptyFloor = M.matrix 50 50 (const 0)
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2018-06-28 19:07:58 +00:00
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manhattan :: AG.Graph MMNode -> M.Matrix Int -> M.Matrix TileState
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manhattan graph input =
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walls intermediate
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where
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2018-07-03 14:19:27 +00:00
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mandistance :: (Int, Int) -> (Int, Int) -> Int
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mandistance (r1, c1) (r2, c2) = abs (r1 - r2) + abs (c1 - c2)
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2018-06-28 19:07:58 +00:00
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dmin = M.nrows input + M.ncols input
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2018-07-03 14:19:27 +00:00
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calculate (r, c) = foldl (\acc@(accdmin, _) (MMNode (V2 vr vc) ind) ->
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let d = mandistance (r, c) (floor vr, floor vc)
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2018-06-28 19:07:58 +00:00
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in if d < accdmin
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then (d, ind)
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else acc
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2018-07-03 14:19:27 +00:00
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) (dmin, 0) verts
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verts = vertexList graph
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2018-06-28 19:07:58 +00:00
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coords = (,) <$> [1 .. M.nrows input] <*> [1 .. M.ncols input]
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intermediate = M.matrix (M.nrows input) (M.ncols input) (snd . calculate)
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walls inter = foldl (\accmat (r, c) ->
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2018-07-03 14:19:27 +00:00
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wallnotwall inter accmat r c
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2018-06-28 19:07:58 +00:00
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) emptyMM coords
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emptyMM = M.matrix (M.nrows input) (M.ncols input) (const Offi)
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wallnotwall inter mat r c
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| M.safeGet (r - 1) (c - 1) mat /= Just Wall &&
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M.safeGet r (c - 1) mat == Just Wall &&
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M.safeGet (r - 1) c mat == Just Wall = M.setElem Wall (r, c) mat
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| (M.safeGet r (c - 1) inter /= M.safeGet r c inter) &&
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(M.safeGet r (c - 1) mat /= Just Wall) = M.setElem Wall (r, c) mat
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| (M.safeGet (r - 1) c inter /= M.safeGet r c inter) &&
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(M.safeGet (r - 1) c mat /= Just Wall) = M.setElem Wall (r, c) mat
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| (M.safeGet r (c + 1) inter /= M.safeGet r c inter) &&
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(M.safeGet r (c + 1) mat /= Just Wall) = M.setElem Wall (r, c) mat
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(M.safeGet (r + 1) c mat /= Just Wall) = M.setElem Wall (r, c) mat
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| otherwise = mat
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2018-07-08 05:55:44 +00:00
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calculDelta2 :: AG.Graph MMNode -> [(Int, V2 Double)]
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calculDelta2 graph =
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let accel2 = sproing2 (zip (vertexList graph) (repeat $ V2 0 0))
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sproing2 [] = []
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sproing2 ((cnode, cacc):nodeaccs) =
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( mmId cnode
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2018-07-19 02:51:07 +00:00
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, if (len (V2 100 100 * normv deltasum)) < len deltasum
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2018-07-08 05:55:44 +00:00
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then V2 100 100 * normv deltasum
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else deltasum
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) : sproing2 dnodeaccs
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where
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deltasum = cacc + sum deltas
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deltas = map ((fmap (* friction)) . doForce) (map fst nodeaccs)
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doForce n
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-- are the nodes identic? (unlikely)
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| mmId cnode == mmId n =
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V2 0 0
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-- Is the cnode pointing to the currently mapped node?
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| n `elem` map snd (filter ((== cnode) . fst) $ edgeList graph) =
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fmap (* (springKonst * (distance (mmPos n) (mmPos cnode) - l0)))
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(normv (mmPos n - mmPos cnode))
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-- Is the cnode being pointed to from the currently mapped node?
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| cnode `elem` map snd (filter ((== n) . fst) $ edgeList graph) =
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- fmap (* (springKonst * (distance (mmPos n) (mmPos cnode) - l0)))
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(normv (mmPos cnode - mmPos n))
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-- Do gravitational push in all other cases
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| otherwise =
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- fmap (* (1000 / ((distance (mmPos cnode) (mmPos n)) ^ (2 :: Int))))
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(normv (mmPos n - mmPos cnode))
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dnodeaccs = zipWith (\(n, a) d -> (n, a - d)) nodeaccs deltas
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in accel2
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