compensating for stripe depth

2014-05-16 15:58:07 +02:00 · 2014-05-16 15:58:07 +02:00 · 15d55e1577
commit 15d55e1577
parent 1c1aedda30
2 changed files with 15 additions and 13 deletions
--- a/src/Map/Graphics.hs
+++ b/src/Map/Graphics.hs
@ -30,7 +30,6 @@ import Linear
 import Control.Arrow         ((***))

 import Map.Types
-import Map.Creation

 type Height = Float

--- a/src/Map/Map.hs
+++ b/src/Map/Map.hs
@ -38,7 +38,7 @@ giveNeighbourhood mp n (a,b) = let ns = giveNeighbours mp (a,b) in
                             remdups . concat $ ns : map (giveNeighbourhood mp (n-1)) ns

 -- | Calculates the height of any given point on the map.
-- Does not add camera distance to ground to that.
+ -- Does not add camera distance to ground to that.
 -- 
 -- This ueses barycentric coordinate stuff. Wanna read more?
 -- http://en.wikipedia.org/wiki/Barycentric_coordinate_system_%28mathematics%29
@ -48,14 +48,14 @@ giveMapHeight :: PlayMap
              -> (Float, Float)  -- ^ Coordinates on X/Z-axes 
              -> Float           -- ^ Terrain Height at that position
 giveMapHeight mp (x,z)
-  | outsideMap (x,z)           = 0.0
-  | (isInt z 6) && (isInt x 6) = hlu (round x, round z)
-  | (isInt z 6)                = let dist_down = x - fromIntegral ((floor x) :: Int)
-                                     dist_up   = fromIntegral ((ceiling x) :: Int) - x
-                                 in  (1 - dist_down) * (hlu (floor x, round z)) + (1 - dist_up) * (hlu (ceiling x, round z))
-  |                (isInt x 6) = let dist_down = z - fromIntegral ((floor z) :: Int)
-                                     dist_up   = fromIntegral ((ceiling z) :: Int) - z
-                                 in  (1 - dist_down) * (hlu (round x, floor z)) + (1 - dist_up) * (hlu (round x, ceiling z))
+  | outsideMap (x',z)           = 0.0
+  | (isInt z 6) && (isInt x' 6) = hlu (round x', round z)
+  | (isInt z 6)                 = let dist_down = x' - fromIntegral ((floor x') :: Int)
+                                      dist_up   = fromIntegral ((ceiling x') :: Int) - x'
+                                  in  (1 - dist_down) * (hlu (floor x', round z)) + (1 - dist_up) * (hlu (ceiling x', round z))
+  |                (isInt x' 6) = let dist_down = z - fromIntegral ((floor z) :: Int)
+                                      dist_up   = fromIntegral ((ceiling z) :: Int) - z
+                                  in  (1 - dist_down) * (hlu (round x', floor z)) + (1 - dist_up) * (hlu (round x', ceiling z))
  | otherwise                  = let [a,b,c] = getTrianglePoints [tff,tfc,tcf,tcc]
                                     ar = area (fi a) (fi b) (fi c)
                                     λa = area (fi b) (fi c) (x, z) / ar
@ -64,6 +64,9 @@ giveMapHeight mp (x,z)
                                 in  (λa * hlu a) + (λb * hlu b) + (λc * hlu c)
  where

+    -- compensating
+    x' = x * ((sqrt 3) / 2)
+
    --Returns if q is an int to n decimal places
    isInt :: RealFrac b => b -> Int -> Bool
    isInt q n = (round $ 10^((fromIntegral n) :: Integer) * (q - (fromIntegral ((round q):: Integer)))) == (0 :: Integer)
@ -94,9 +97,9 @@ giveMapHeight mp (x,z)
    getTrianglePoints = ((take 3) . (map fst) . (sortBy (compare `on` snd)))

    dist :: (Float, Float) -> (Int, Int) -> Float
-    dist (x1,z1) (x2,z2) = let x' = x1 - fromIntegral x2
-                               z' = z1 - fromIntegral z2
-                           in  sqrt $ x'*x' + z'*z'
+    dist (x1,z1) (x2,z2) = let xf = x1 - fromIntegral x2
+                               zf = z1 - fromIntegral z2
+                           in  sqrt $ xf*xf + zf*zf

    -- Heron's Formula: http://en.wikipedia.org/wiki/Heron%27s_formula
    area :: (Float, Float) -> (Float, Float) -> (Float, Float) -> Float