module Diagrams.Backend.Rasterific
( Rasterific(..)
, B
, Options(..)
, renderRasterific
, size
, writeJpeg
, texterific
, texterific'
) where
import Diagrams.Core.Compile
import Diagrams.Core.Transform (matrixHomRep)
import Diagrams.Core.Types
import Diagrams.Prelude hiding (local, opacity)
import Diagrams.TwoD.Adjust (adjustDia2D)
import Diagrams.TwoD.Text hiding (Font)
import Codec.Picture
import Codec.Picture.Types (convertImage,
convertPixel,
dropTransparency,
promoteImage)
import qualified Graphics.Rasterific as R
import Graphics.Rasterific.Texture (Gradient,
linearGradientTexture, radialGradientWithFocusTexture,
transformTexture,
uniformTexture,
withSampler)
import qualified Graphics.Rasterific.Transformations as R
import Control.Monad.Reader
import Diagrams.Backend.Rasterific.Text
import qualified Data.ByteString.Lazy as L (writeFile)
import qualified Data.Foldable as F
import Data.Hashable (Hashable (..))
import Data.Maybe (fromMaybe)
import Data.Tree
import Data.Typeable
import Data.Word (Word8)
import System.FilePath (takeExtension)
data Rasterific = Rasterific
deriving (Eq,Ord,Read,Show,Typeable)
type B = Rasterific
type instance V Rasterific = V2
type instance N Rasterific = Double
type RenderM n = ReaderT (Style V2 n) RenderR
type RenderR = R.Drawing PixelRGBA8
liftR :: RenderR a -> RenderM n a
liftR = lift
runRenderM :: TypeableFloat n => RenderM n a -> RenderR a
runRenderM = flip runReaderT (mempty # recommendFillColor transparent)
instance TypeableFloat n => Backend Rasterific V2 n where
newtype Render Rasterific V2 n = R (RenderM n ())
type Result Rasterific V2 n = Image PixelRGBA8
data Options Rasterific V2 n = RasterificOptions
{ _sizeSpec :: SizeSpec V2 n
}
deriving Show
renderRTree _ opts t =
R.renderDrawing (round w) (round h) bgColor r
where
r = runRenderM . runR . fromRTree $ t
V2 w h = specToSize 100 (opts^.sizeSpec)
bgColor = PixelRGBA8 0 0 0 0
adjustDia c opts d = adjustDia2D sizeSpec c opts (d # reflectY)
fromRTree :: TypeableFloat n => RTree Rasterific V2 n Annotation -> Render Rasterific V2 n
fromRTree (Node n rs) = case n of
RPrim p -> render Rasterific p
RStyle sty -> R $ clip sty (local (<> sty) r)
RAnnot (OpacityGroup x) -> R $ mapReaderT (R.withGroupOpacity (round $ 255 * x)) r
_ -> R r
where R r = F.foldMap fromRTree rs
clip :: TypeableFloat n => Style V2 n -> RenderM n () -> RenderM n ()
clip sty r = go (sty ^. _clip)
where
go [] = r
go (p:ps) = mapReaderT (R.withClipping $ R.fill (renderPath p)) (go ps)
runR :: Render Rasterific V2 n -> RenderM n ()
runR (R r) = r
instance Monoid (Render Rasterific V2 n) where
mempty = R $ return ()
R rd1 `mappend` R rd2 = R (rd1 >> rd2)
instance Hashable n => Hashable (Options Rasterific V2 n) where
hashWithSalt s (RasterificOptions sz) = s `hashWithSalt` sz
sizeSpec :: Lens' (Options Rasterific V2 n) (SizeSpec V2 n)
sizeSpec = lens _sizeSpec (\o s -> o {_sizeSpec = s})
rasterificStrokeStyle :: TypeableFloat n => Style v n
-> (n, R.Join, (R.Cap, R.Cap), Maybe (R.DashPattern, n))
rasterificStrokeStyle s = (strokeWidth, strokeJoin, (strokeCap, strokeCap), strokeDash)
where
strokeWidth = views _lineWidthU (fromMaybe 1) s
strokeJoin = views _lineJoin fromLineJoin s
strokeCap = views _lineCap fromLineCap s
strokeDash = views _dashingU (fmap fromDashing) s
fromLineCap :: LineCap -> R.Cap
fromLineCap LineCapButt = R.CapStraight 0
fromLineCap LineCapRound = R.CapRound
fromLineCap LineCapSquare = R.CapStraight 1
fromLineJoin :: LineJoin -> R.Join
fromLineJoin LineJoinMiter = R.JoinMiter 0
fromLineJoin LineJoinRound = R.JoinRound
fromLineJoin LineJoinBevel = R.JoinMiter 1
fromDashing :: Real n => Dashing n -> (R.DashPattern, n)
fromDashing (Dashing ds d) = (map realToFrac ds, d)
fromFillRule :: FillRule -> R.FillMethod
fromFillRule EvenOdd = R.FillEvenOdd
fromFillRule _ = R.FillWinding
rasterificColor :: SomeColor -> Double -> PixelRGBA8
rasterificColor c o = PixelRGBA8 r g b a
where
(r, g, b, a) = (int r', int g', int b', int (o * a'))
(r', g', b', a') = colorToSRGBA (toAlphaColour c)
int x = round (255 * x)
rasterificSpreadMethod :: SpreadMethod -> R.SamplerRepeat
rasterificSpreadMethod GradPad = R.SamplerPad
rasterificSpreadMethod GradReflect = R.SamplerReflect
rasterificSpreadMethod GradRepeat = R.SamplerRepeat
rasterificStops :: TypeableFloat n => [GradientStop n] -> Gradient PixelRGBA8
rasterificStops = map fromStop
where
fromStop (GradientStop c v) = (realToFrac v, rasterificColor c 1)
rasterificLinearGradient :: TypeableFloat n => LGradient n -> R.Texture PixelRGBA8
rasterificLinearGradient g = transformTexture tr tx
where
tr = rasterificMatTransf (inv $ g^.lGradTrans)
tx = withSampler spreadMethod (linearGradientTexture gradDef p0 p1)
spreadMethod = rasterificSpreadMethod (g^.lGradSpreadMethod)
gradDef = rasterificStops (g^.lGradStops)
p0 = p2v2 (g^.lGradStart)
p1 = p2v2 (g^.lGradEnd)
rasterificRadialGradient :: TypeableFloat n => RGradient n -> R.Texture PixelRGBA8
rasterificRadialGradient g = transformTexture tr tx
where
tr = rasterificMatTransf (inv $ g^.rGradTrans)
tx = withSampler spreadMethod (radialGradientWithFocusTexture gradDef c (realToFrac r1) f)
spreadMethod = rasterificSpreadMethod (g^.rGradSpreadMethod)
c = p2v2 (g^.rGradCenter1)
f = p2v2 (g^.rGradCenter0)
gradDef = rasterificStops ss
r0 = g^.rGradRadius0
r1 = g^.rGradRadius1
stopFracs = r0 / r1 : map (\s -> (r0 + (s^.stopFraction) * (r1 r0)) / r1)
(g^.rGradStops)
gradStops = case g^.rGradStops of
[] -> []
xs@(x:_) -> x : xs
ss = zipWith (\gs sf -> gs & stopFraction .~ sf ) gradStops stopFracs
rasterificTexture :: TypeableFloat n => Texture n -> Double -> R.Texture PixelRGBA8
rasterificTexture (SC c) o = uniformTexture $ rasterificColor c o
rasterificTexture (LG g) _ = rasterificLinearGradient g
rasterificTexture (RG g) _ = rasterificRadialGradient g
p2v2 :: Real n => P2 n -> R.Point
p2v2 (P v) = r2v2 v
r2v2 :: Real n => V2 n -> R.Point
r2v2 (V2 x y) = R.V2 (realToFrac x) (realToFrac y)
rv2 :: (Real n, Fractional n) => Iso' R.Point (P2 n)
rv2 = iso (\(R.V2 x y) -> V2 (realToFrac x) (realToFrac y)) r2v2 . from _Point
rasterificPtTransf :: TypeableFloat n => T2 n -> R.Point -> R.Point
rasterificPtTransf t = over rv2 (papply t)
rasterificMatTransf :: TypeableFloat n => T2 n -> R.Transformation
rasterificMatTransf tr = R.Transformation a c e b d f
where
[[a, b], [c, d], [e, f]] = map realToFrac <$> matrixHomRep tr
renderSeg :: TypeableFloat n => Located (Segment Closed V2 n) -> R.Primitive
renderSeg l =
case viewLoc l of
(p, Linear (OffsetClosed v)) ->
R.LinePrim $ R.Line p' (p' + r2v2 v)
where
p' = p2v2 p
(p, Cubic u1 u2 (OffsetClosed u3)) ->
R.CubicBezierPrim $ R.CubicBezier q0 q1 q2 q3
where
(q0, q1, q2, q3) = (p2v2 p, q0 + r2v2 u1, q0 + r2v2 u2, q0 + r2v2 u3)
renderPath :: TypeableFloat n => Path V2 n -> [[R.Primitive]]
renderPath p = (map . map) renderSeg (pathLocSegments p)
mkStroke :: TypeableFloat n => n -> R.Join -> (R.Cap, R.Cap) -> Maybe (R.DashPattern, n)
-> [[R.Primitive]] -> RenderR ()
mkStroke (realToFrac -> l) j c d primList =
maybe (mapM_ (R.stroke l j c) primList)
(\(dsh, off) -> mapM_ (R.dashedStrokeWithOffset (realToFrac off) dsh l j c) primList)
d
instance TypeableFloat n => Renderable (Path V2 n) Rasterific where
render _ p = R $ do
sty <- ask
let f = sty ^. _fillTexture
s = sty ^. _lineTexture
o = sty ^. _opacity
r = sty ^. _fillRule
(l, j, c, d) = rasterificStrokeStyle sty
canFill = anyOf (_head . located) isLoop p && (f ^? _AC) /= Just transparent
rule = fromFillRule r
primList = renderPath p
prms = concat primList
when canFill $
liftR (R.withTexture (rasterificTexture f o) $ R.fillWithMethod rule prms)
liftR (R.withTexture (rasterificTexture s o) $ mkStroke l j c d primList)
instance TypeableFloat n => Renderable (Text n) Rasterific where
render _ (Text tr al str) = R $ do
fs <- views _fontSizeU (fromMaybe 12)
slant <- view _fontSlant
fw <- view _fontWeight
f <- view _fillTexture
o <- view _opacity
let fColor = rasterificTexture f o
fs' = R.PointSize (realToFrac fs)
fnt = fromFontStyle slant fw
bb = textBoundingBox fnt fs' str
p = case al of
BaselineText -> R.V2 0 0
BoxAlignedText xt yt -> case getCorners bb of
Just (P (V2 xl yl), P (V2 xu yu)) -> R.V2 (lerp' xt xu xl) (lerp' yt yu yl)
Nothing -> R.V2 0 0
liftR (R.withTransformation (rasterificMatTransf (tr <> reflectionY))
(R.withTexture fColor $ R.printTextAt fnt fs' p str))
where
lerp' t u v = realToFrac $ t * u + (1 t) * v
toImageRGBA8 :: DynamicImage -> Image PixelRGBA8
toImageRGBA8 (ImageRGBA8 i) = i
toImageRGBA8 (ImageRGB8 i) = promoteImage i
toImageRGBA8 (ImageYCbCr8 i) = promoteImage (convertImage i :: Image PixelRGB8)
toImageRGBA8 (ImageY8 i) = promoteImage i
toImageRGBA8 (ImageYA8 i) = promoteImage i
toImageRGBA8 (ImageCMYK8 i) = promoteImage (convertImage i :: Image PixelRGB8)
toImageRGBA8 _ = error "Unsupported Pixel type"
instance TypeableFloat n => Renderable (DImage n Embedded) Rasterific where
render _ (DImage iD w h tr) = R $ liftR
(R.withTransformation
(rasterificMatTransf (tr <> reflectionY))
(R.drawImage img 0 p))
where
ImageRaster dImg = iD
img = toImageRGBA8 dImg
trl = moveOriginBy (r2 (fromIntegral w / 2, fromIntegral h / 2 :: n)) mempty
p = rasterificPtTransf trl (R.V2 0 0)
writeJpeg :: Word8 -> FilePath -> Result Rasterific V2 n -> IO ()
writeJpeg quality outFile img = L.writeFile outFile bs
where
bs = encodeJpegAtQuality quality (pixelMap (convertPixel . dropTransparency) img)
renderRasterific :: TypeableFloat n => FilePath -> SizeSpec V2 n -> QDiagram Rasterific V2 n Any -> IO ()
renderRasterific outFile spec d = writer outFile img
where
writer = case takeExtension outFile of
".png" -> writePng
".tif" -> writeTiff
".bmp" -> writeBitmap
".jpg" -> writeJpeg 80
_ -> writePng
img = renderDia Rasterific (RasterificOptions spec) d