Small optimisations

This commit is contained in:
jgk
2021-07-22 13:27:23 +02:00
parent 315cf780bf
commit 5d2dde6f35
5 changed files with 42 additions and 27 deletions
+14 -1
View File
@@ -18,6 +18,7 @@ import Geometry
--import Picture
import qualified IntMapHelp as IM
import Data.Foldable
import Control.Lens
--import Control.Monad.State
--import Data.List
@@ -88,7 +89,19 @@ wallsOnCirc p r = IM.filter f
f wl = uncurry circOnSeg (_wlLine wl) p r
wallsOnScreen :: World -> IM.IntMap Wall
wallsOnScreen w = wallsNearZones (zoneOfScreen w) w
wallsOnScreen w -- = wallsNearZones (zoneOfScreen w) w
= foldl' (flip $ IM.union . \i -> innerFold (f i (_wallsZone w))) IM.empty xs
where
innerFold m = foldl' (flip $ IM.union . \ j -> f j m) IM.empty ys
f i m = case IM.lookup i m of
Just val -> val
_ -> IM.empty
(x,y) = zoneOfPoint $ _cameraCenter w
n = ceiling (wh / (_cameraZoom w * zoneSize))
wh = max (getWindowX w) (getWindowY w)
xs = [x - n .. x + n]
ys = [y - n .. y + n]
allWalls :: World -> IM.IntMap Wall
allWalls w = IM.unions $ concatMap IM.elems $ IM.elems $ _wallsZone w
+2 -1
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@@ -78,7 +78,8 @@ doDrawing pdata w = do
if w ^. config . wall_textured
then renderTextureWalls pdata nWalls
else renderBlankWalls pdata nWalls
_ <- renderFoldable pdata $ (picToAlt (Just 0) (polysToPic $ foregroundPics w) :: [RenderType])
--_ <- renderFoldable pdata $ (picToAlt (Just 0) (polysToPic $ foregroundPics w) :: [RenderType])
_ <- renderFoldable pdata $ picToLTree (Just 0) (polysToPic $ foregroundPics w)
_ <- renderFoldable pdata $ picToLTree (Just 0) pic
_ <- renderShader (_textureArrayShader pdata) (_floorTiles w)
+4 -1
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@@ -251,7 +251,10 @@ anyPolyssIntersect x y = or $ polysIntersect <$> x <*> y
-- split a list into triples, forms triangles from a polygon
polyToTris :: [s] -> [s]
{-# INLINE polyToTris #-}
polyToTris (a:b:c:as) = a : intercalate [a] (zipWith (\x y->[x,y]) (b:c:as) (c:as))
polyToTris (a:as) = f a as
where
f x (y:z:ys) = x : y : z : f x (z:ys)
f _ _ = []
polyToTris _ = []
-- | Return n equidistant points on a circle with a radius of 600.
+3 -2
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@@ -49,13 +49,14 @@ instance Foldable FTree where
{- Tree with values at and only at the leaves. -}
data LTree a
= LBranches [LTree a]
| LLeaf a
| LLeaf !a
instance Foldable LTree where
foldMap g (LBranches ts) = mconcat $ map (foldMap g) ts
foldMap g (LLeaf a) = g a
{-# INLINE foldMap #-}
foldr _ x (LBranches []) = x
foldr g x (LBranches (t:ts)) = foldr g (foldr g x (LBranches ts)) t
foldr g x (LBranches (t:ts)) = foldr g (foldr g x t) (LBranches ts)
--foldr g x (LBranches (t:ts)) = foldr g (foldr g x (LBranches ts)) t
foldr g x (LLeaf y) = g y x
{-# INLINE foldr #-}
foldl' _ x (LBranches []) = x
+19 -22
View File
@@ -21,7 +21,7 @@ picToLTree
:: Maybe Int -- ^ Layer filter. Draw 'Nothing' when value is the same as at the leaf.
-> Picture
-> LTree RenderType
{-# INLINE picToLTree #-}
--{-# INLINE picToLTree #-}
picToLTree _ (Polygon ps)
= LLeaf $ RenderPoly $ zip (map zeroZ $ polyToTris ps) $ repeat black
picToLTree _ (PolygonZ ps z)
@@ -162,7 +162,7 @@ white = (1,1,1,1)
black = (0,0,0,1)
overPos :: (Point3 -> Point3) -> RenderType -> RenderType
{-# INLINE overPos #-}
--{-# INLINE overPos #-}
overPos f (RenderPoly vs) = RenderPoly $ map (first f) vs
overPos f (RenderLine vs) = RenderLine $ map (first f) vs
overPos f (RenderText vs) = RenderText $ map (\(a,b,c) -> (f a,b,c)) vs
@@ -173,7 +173,7 @@ overPos f (RenderPolyZ vs) = RenderPolyZ $ map (\(a,b,c) -> (f a,b,c)) vs
overPos _ _ = undefined
overCol :: (Point4 -> Point4) -> RenderType -> RenderType
{-# INLINE overCol #-}
--{-# INLINE overCol #-}
overCol f (RenderPoly vs) = RenderPoly $ map (second f) vs
overCol f (RenderLine vs) = RenderLine $ map (second f) vs
overCol f (RenderEllipse vs) = RenderEllipse $ map (second f) vs
@@ -183,31 +183,28 @@ overCol f (RenderArc vs) = RenderArc $ map (\(a,b,c) -> (a,f b,c)) vs
overCol f (RenderPolyZ vs) = RenderPolyZ $ map (\(a,b,c) -> (a,f b,c)) vs
overCol _ _ = undefined
-- no premature optimisation, consider changing to use texture arrays
stringToList :: String -> [(Point3,Point4,Point2)]
{-# INLINE stringToList #-}
stringToList s = concat $ zipWith (map . f)
[0,0.9*dimText..]
$ map charToTuple s
--stringToList s = concat $ zipWith charToTuple [0,0.9*dimText ..] s
stringToList s = concatMap (uncurry charToTuple) $ zip [0,0.9*dimText ..] s
where
f y (a,b,c) = (translate3 y 0 a,b,c)
--where dimText = 100
dimText :: Float
dimText = 100
dimText = 100
charToTuple :: Char -> [(Point3,Point4,Point2)]
charToTuple :: Float -> Char -> [(Point3,Point4,Point2)]
{-# INLINE charToTuple #-}
charToTuple c =
[((-50,-100,0), white,(offset,1))
,((-50,100,0), white,(offset,0))
,(( 50,100,0), white,(offset+1,0))
,((-50,-100,0), white,(offset,1))
,(( 50,-100,0), white,(offset+1,1))
,(( 50,100,0), white,(offset+1,0))
charToTuple x c =
[((x-50,-100,0), white,(offset,1))
,((x-50,100,0), white,(offset,0))
,((x+50,100,0), white,(offset+1,0))
,((x-50,-100,0), white,(offset,1))
,((x+50,-100,0), white,(offset+1,1))
,((x+50,100,0), white,(offset+1,0))
]
where
offset = fromIntegral (fromEnum c) - 32
{- Translate a 3D vector in the x and y directions. -}
translate3 :: Float -> Float -> Point3 -> Point3
{-# INLINE translate3 #-}
translate3 a b (x,y,z) = (x+a,y+b,z)
--{- Translate a 3D vector in the x and y directions. -}
--translate3 :: Float -> Float -> Point3 -> Point3
--{-# INLINE translate3 #-}
--translate3 a b (x,y,z) = (x+a,y+b,z)