{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE ForeignFunctionInterface #-}
{-# LANGUAGE JavaScriptFFI #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE TypeFamilies #-}
module CodeWorld.CanvasM where
import Control.Monad
import Control.Monad.Reader
import Control.Monad.Trans (MonadIO)
import Data.Text (Text, pack)
#ifdef ghcjs_HOST_OS
import Data.JSString.Text
import GHCJS.Marshal.Pure
import GHCJS.Types
import qualified JavaScript.Web.Canvas as Canvas
import qualified JavaScript.Web.Canvas.Internal as Canvas
#else
import qualified Graphics.Blank as Canvas
import Graphics.Blank (Canvas)
import Text.Printf
#endif
class Monad m => MonadCanvas m where
type Image m
save :: m ()
restore :: m ()
transform ::
Double -> Double -> Double -> Double -> Double -> Double -> m ()
translate :: Double -> Double -> m ()
scale :: Double -> Double -> m ()
newImage :: Int -> Int -> m a -> m (Image m, a)
drawImage :: Image m -> Int -> Int -> Int -> Int -> m ()
globalCompositeOperation :: Text -> m ()
lineWidth :: Double -> m ()
strokeColor :: Int -> Int -> Int -> Double -> m ()
fillColor :: Int -> Int -> Int -> Double -> m ()
font :: Text -> m ()
textCenter :: m ()
textMiddle :: m ()
beginPath :: m ()
closePath :: m ()
moveTo :: (Double, Double) -> m ()
lineTo :: (Double, Double) -> m ()
quadraticCurveTo :: (Double, Double) -> (Double, Double) -> m ()
bezierCurveTo ::
(Double, Double) -> (Double, Double) -> (Double, Double) -> m ()
arc :: Double -> Double -> Double -> Double -> Double -> Bool -> m ()
rect :: Double -> Double -> Double -> Double -> m ()
fill :: m ()
stroke :: m ()
fillRect :: Double -> Double -> Double -> Double -> m ()
fillText :: Text -> (Double, Double) -> m ()
measureText :: Text -> m Double
isPointInPath :: (Double, Double) -> m Bool
isPointInStroke :: (Double, Double) -> m Bool
saveRestore :: MonadCanvas m => m a -> m a
saveRestore m = do
save
r <- m
restore
return r
#ifdef ghcjs_HOST_OS
data CanvasM a = CanvasM
{ unCanvasM :: Canvas.Context -> IO a
} deriving (Functor)
runCanvasM :: Canvas.Context -> CanvasM a -> IO a
runCanvasM = flip unCanvasM
instance Applicative CanvasM where
pure x = CanvasM (const (return x))
f <*> x = CanvasM (\ctx -> unCanvasM f ctx <*> unCanvasM x ctx)
instance Monad CanvasM where
return = pure
m >>= f = CanvasM (\ctx -> unCanvasM m ctx >>= ($ ctx) . unCanvasM . f)
foreign import javascript "$2.globalCompositeOperation = $1;"
js_globalCompositeOperation :: JSString -> Canvas.Context -> IO ()
foreign import javascript "$r = $3.isPointInPath($1, $2);"
js_isPointInPath :: Double -> Double -> Canvas.Context -> IO Bool
foreign import javascript "$r = $3.isPointInStroke($1, $2);"
js_isPointInStroke :: Double -> Double -> Canvas.Context -> IO Bool
instance MonadIO CanvasM where
liftIO = CanvasM . const
instance MonadCanvas CanvasM where
type Image CanvasM = Canvas.Canvas
save = CanvasM Canvas.save
restore = CanvasM Canvas.restore
transform a b c d e f = CanvasM (Canvas.transform a b c d e f)
translate x y = CanvasM (Canvas.translate x y)
scale x y = CanvasM (Canvas.scale x y)
newImage w h m =
CanvasM $
const $ do
buf <- Canvas.create w h
ctx <- Canvas.getContext buf
a <- unCanvasM m ctx
return (buf, a)
drawImage (Canvas.Canvas c) x y w h =
CanvasM (Canvas.drawImage (Canvas.Image c) x y w h)
globalCompositeOperation op =
CanvasM (js_globalCompositeOperation (textToJSString op))
lineWidth w = CanvasM (Canvas.lineWidth w)
strokeColor r g b a = CanvasM (Canvas.strokeStyle r g b a)
fillColor r g b a = CanvasM (Canvas.fillStyle r g b a)
font t = CanvasM (Canvas.font (textToJSString t))
textCenter = CanvasM (Canvas.textAlign Canvas.Center)
textMiddle = CanvasM (Canvas.textBaseline Canvas.Middle)
beginPath = CanvasM Canvas.beginPath
closePath = CanvasM Canvas.closePath
moveTo (x, y) = CanvasM (Canvas.moveTo x y)
lineTo (x, y) = CanvasM (Canvas.lineTo x y)
quadraticCurveTo (x1, y1) (x2, y2) =
CanvasM (Canvas.quadraticCurveTo x1 y1 x2 y2)
bezierCurveTo (x1, y1) (x2, y2) (x3, y3) =
CanvasM (Canvas.bezierCurveTo x1 y1 x2 y2 x3 y3)
arc x y r a1 a2 dir = CanvasM (Canvas.arc x y r a1 a2 dir)
rect x y w h = CanvasM (Canvas.rect x y w h)
fill = CanvasM Canvas.fill
stroke = CanvasM Canvas.stroke
fillRect x y w h = CanvasM (Canvas.fillRect x y w h)
fillText t (x, y) = CanvasM (Canvas.fillText (textToJSString t) x y)
measureText t = CanvasM (Canvas.measureText (textToJSString t))
isPointInPath (x, y) = CanvasM (js_isPointInPath x y)
isPointInStroke (x, y) = CanvasM (js_isPointInStroke x y)
#else
instance MonadCanvas Canvas where
type Image Canvas = Canvas.CanvasContext
save = Canvas.save ()
restore = Canvas.restore ()
transform a b c d e f = Canvas.transform (a, b, c, d, e, f)
translate x y = Canvas.translate (x, y)
scale x y = Canvas.scale (x, y)
newImage w h m = do
ctx <- Canvas.newCanvas (w, h)
a <- Canvas.with ctx m
return (ctx, a)
drawImage img x y w h =
Canvas.drawImageSize
( img
, fromIntegral x
, fromIntegral y
, fromIntegral w
, fromIntegral h)
globalCompositeOperation op = Canvas.globalCompositeOperation op
lineWidth w = Canvas.lineWidth w
strokeColor r g b a =
Canvas.strokeStyle
(pack
(printf
"rgba(%.0f,%.0f,%.0f,%f)"
(r * 255)
(g * 255)
(b * 255)
a))
fillColor r g b a =
Canvas.fillStyle
(pack
(printf
"rgba(%.0f,%.0f,%.0f,%f)"
(r * 255)
(g * 255)
(b * 255)
a))
font t = Canvas.font t
textCenter = Canvas.textAlign Canvas.CenterAnchor
textMiddle = Canvas.textBaseline Canvas.MiddleBaseline
beginPath = Canvas.beginPath ()
closePath = Canvas.closePath ()
moveTo (x, y) = Canvas.moveTo (x, y)
lineTo (x, y) = Canvas.lineTo (x, y)
quadraticCurveTo (x1, y1) (x2, y2) =
Canvas.quadraticCurveTo (x1, y1, x2, y2)
bezierCurveTo (x1, y1) (x2, y2) (x3, y3) =
Canvas.bezierCurveTo (x1, y1, x2, y2, x3, y3)
arc x y r a1 a2 dir = Canvas.arc (x, y, r, a1, a2, dir)
rect x y w h = Canvas.rect (x, y, w, h)
fill = Canvas.fill ()
stroke = Canvas.stroke ()
fillRect x y w h = Canvas.fillRect (x, y, w, h)
fillText t (x, y) = Canvas.fillText (t, x, y)
measureText t = do
Canvas.TextMetrics w <- Canvas.measureText t
return w
isPointInPath (x, y) = Canvas.isPointInPath (x, y)
isPointInStroke (x, y) = return False
#endif