module Graphics.Rendering.Chart.Types where
import qualified Graphics.Rendering.Cairo as C
import Control.Monad.Reader
data Point = Point {
p_x :: Double,
p_y :: Double
} deriving Show
data Vector = Vector {
v_x :: Double,
v_y :: Double
} deriving Show
data Color = Color {
c_r :: Double,
c_g :: Double,
c_b :: Double
}
vscale :: Double -> Vector -> Vector
vscale c (Vector x y) = (Vector (x*c) (y*c))
pvadd :: Point -> Vector -> Point
pvadd (Point x1 y1) (Vector x2 y2) = (Point (x1+x2) (y1+y2))
pvsub :: Point -> Vector -> Point
pvsub (Point x1 y1) (Vector x2 y2) = (Point (x1x2) (y1y2))
psub :: Point -> Point -> Vector
psub (Point x1 y1) (Point x2 y2) = (Vector (x1x2) (y1y2))
type PointMapFn = Point -> Point
data Rect = Rect Point Point
deriving Show
data RectEdge = E_Top | E_Bottom | E_Left | E_Right
mkrect (Point x1 _) (Point _ y2) (Point x3 _) (Point _ y4) =
Rect (Point x1 y2) (Point x3 y4)
vmap :: Range -> Range -> Double -> Double
vmap (v1,v2) (v3,v4) v = v3 + (vv1) * (v4v3) / (v2v1)
data CEnv = CEnv {
cenv_point_alignfn :: Point -> Point
}
newtype CRender a = DR (ReaderT CEnv C.Render a)
deriving (Functor, Monad, MonadReader CEnv)
runCRender :: CRender a -> CEnv -> C.Render a
runCRender (DR m) e = runReaderT m e
c :: C.Render a -> CRender a
c = DR . lift
newtype CairoPointStyle = CairoPointStyle (Point -> CRender ())
data CairoLineStyle = CairoLineStyle {
line_width :: Double,
line_color :: Color,
line_dashes :: [Double],
line_cap :: C.LineCap,
line_join :: C.LineJoin
}
newtype CairoFillStyle = CairoFillStyle (CRender ())
data CairoFontStyle = CairoFontStyle {
font_name :: String,
font_size :: Double,
font_slant :: C.FontSlant,
font_weight :: C.FontWeight,
font_color :: Color
}
type Range = (Double,Double)
type RectSize = (Double,Double)
black = Color 0 0 0
grey8 = Color 0.8 0.8 0.8
white = Color 1 1 1
red = Color 1 0 0
green = Color 0 1 0
blue = Color 0 0 1
defaultColorSeq = cycle [blue,red,green, Color 1 1 0,Color 0 1 1,Color 1 0 1 ]
moveTo, lineTo :: Point -> CRender ()
moveTo p = do
p' <- alignp p
c $ C.moveTo (p_x p') (p_y p')
alignp :: Point -> CRender Point
alignp p = do
alignfn <- fmap cenv_point_alignfn ask
return (alignfn p)
lineTo p = do
p' <- alignp p
c $ C.lineTo (p_x p') (p_y p')
setClipRegion p2 p3 = do
c $ C.moveTo (p_x p2) (p_y p2)
c $ C.lineTo (p_x p2) (p_y p3)
c $ C.lineTo (p_x p3) (p_y p3)
c $ C.lineTo (p_x p3) (p_y p2)
c $ C.lineTo (p_x p2) (p_y p2)
c $ C.clip
strokeLines :: [Point] -> CRender ()
strokeLines (p1:ps) = do
c $ C.newPath
moveTo p1
mapM_ lineTo ps
c $ C.stroke
strokeLines _ = return ()
rectPath :: Rect -> CRender ()
rectPath (Rect (Point x1 y1) (Point x2 y2)) = c $ do
C.newPath
C.moveTo x1 y1
C.lineTo x2 y1
C.lineTo x2 y2
C.lineTo x1 y2
C.lineTo x1 y1
setFontStyle f = do
c $ C.selectFontFace (font_name f) (font_slant f) (font_weight f)
c $ C.setFontSize (font_size f)
c $ setSourceColor (font_color f)
setLineStyle ls = do
c $ C.setLineWidth (line_width ls)
c $ setSourceColor (line_color ls)
c $ C.setLineCap (line_cap ls)
c $ C.setLineJoin (line_join ls)
case line_dashes ls of
[] -> return ()
ds -> c $ C.setDash ds 0
setFillStyle (CairoFillStyle s) = s
setSourceColor (Color r g b) = C.setSourceRGB r g b
textSize :: String -> CRender RectSize
textSize s = c $ do
te <- C.textExtents s
fe <- C.fontExtents
return (C.textExtentsWidth te, C.fontExtentsHeight fe)
data HTextAnchor = HTA_Left | HTA_Centre | HTA_Right
data VTextAnchor = VTA_Top | VTA_Centre | VTA_Bottom | VTA_BaseLine
drawText :: HTextAnchor -> VTextAnchor -> Point -> String -> CRender ()
drawText hta vta (Point x y) s = c $ do
te <- C.textExtents s
fe <- C.fontExtents
let lx = xadj hta (C.textExtentsWidth te)
let ly = yadj vta te fe
C.moveTo (x+lx) (y+ly)
C.showText s
where
xadj HTA_Left w = 0
xadj HTA_Centre w = (w/2)
xadj HTA_Right w = (w)
yadj VTA_Top te fe = C.fontExtentsAscent fe
yadj VTA_Centre te fe = (C.textExtentsYbearing te) / 2
yadj VTA_BaseLine te fe = 0
yadj VTA_Bottom te fe = (C.fontExtentsDescent fe)
preserveCState :: CRender a -> CRender a
preserveCState a = do
c $ C.save
v <- a
c $ C.restore
return v
filledCircles ::
Double
-> Color
-> CairoPointStyle
filledCircles radius cl = CairoPointStyle rf
where
rf p = do
(Point x y) <- alignp p
c $ setSourceColor cl
c $ C.newPath
c $ C.arc x y radius 0 (2*pi)
c $ C.fill
hollowCircles ::
Double
-> Double
-> Color
-> CairoPointStyle
hollowCircles radius w cl = CairoPointStyle rf
where
rf p = do
(Point x y) <- alignp p
c $ C.setLineWidth w
c $ setSourceColor cl
c $ C.newPath
c $ C.arc x y radius 0 (2*pi)
c $ C.stroke
hollowPolygon ::
Double
-> Double
-> Int
-> Bool
-> Color
-> CairoPointStyle
hollowPolygon radius w sides isrot cl = CairoPointStyle rf
where rf p =
do (Point x y ) <- alignp p
c $ C.setLineWidth w
c $ setSourceColor cl
c $ C.newPath
let intToAngle n = if isrot
then fromIntegral n * 2*pi / fromIntegral sides
else (0.5 + fromIntegral n)*2*pi/fromIntegral sides
angles = map intToAngle [0 .. sides1]
(p:ps) = map (\a -> Point (x + radius * sin a) (y + radius * cos a)) angles
moveTo p
mapM_ lineTo (ps++[p])
c $ C.stroke
filledPolygon ::
Double
-> Int
-> Bool
-> Color
-> CairoPointStyle
filledPolygon radius sides isrot cl = CairoPointStyle rf
where rf p =
do (Point x y ) <- alignp p
c $ setSourceColor cl
c $ C.newPath
let intToAngle n = if isrot
then fromIntegral n * 2*pi / fromIntegral sides
else (0.5 + fromIntegral n)*2*pi/fromIntegral sides
angles = map intToAngle [0 .. sides1]
(p:ps) = map (\a -> Point (x + radius * sin a) (y + radius * cos a)) angles
moveTo p
mapM_ lineTo (ps++[p])
c $ C.fill
plusses ::
Double
-> Double
-> Color
-> CairoPointStyle
plusses radius w cl = CairoPointStyle rf
where rf p = do (Point x y ) <- alignp p
c $ C.setLineWidth w
c $ setSourceColor cl
c $ C.newPath
c $ C.moveTo (x+radius) y
c $ C.lineTo (xradius) y
c $ C.moveTo x (yradius)
c $ C.lineTo x (y+radius)
c $ C.stroke
exes ::
Double
-> Double
-> Color
-> CairoPointStyle
exes radius w cl = CairoPointStyle rf
where rad = radius / sqrt 2
rf p = do (Point x y ) <- alignp p
c $ C.setLineWidth w
c $ setSourceColor cl
c $ C.newPath
c $ C.moveTo (x+rad) (y+rad)
c $ C.lineTo (xrad) (yrad)
c $ C.moveTo (x+rad) (yrad)
c $ C.lineTo (xrad) (y+rad)
c $ C.stroke
stars ::
Double
-> Double
-> Color
-> CairoPointStyle
stars radius w cl = CairoPointStyle rf
where rad = radius / sqrt 2
rf p = do (Point x y ) <- alignp p
c $ C.setLineWidth w
c $ setSourceColor cl
c $ C.newPath
c $ C.moveTo (x+radius) y
c $ C.lineTo (xradius) y
c $ C.moveTo x (yradius)
c $ C.lineTo x (y+radius)
c $ C.moveTo (x+rad) (y+rad)
c $ C.lineTo (xrad) (yrad)
c $ C.moveTo (x+rad) (yrad)
c $ C.lineTo (xrad) (y+rad)
c $ C.stroke
solidLine ::
Double
-> Color
-> CairoLineStyle
solidLine w cl = CairoLineStyle w cl [] C.LineCapButt C.LineJoinMiter
dashedLine ::
Double
-> [Double]
-> Color
-> CairoLineStyle
dashedLine w ds cl = CairoLineStyle w cl ds C.LineCapButt C.LineJoinMiter
solidFillStyle ::
Color
-> CairoFillStyle
solidFillStyle cl = CairoFillStyle fn
where fn = c $ setSourceColor cl
defaultPointStyle = filledCircles 1 white
defaultFontStyle = CairoFontStyle {
font_name = "sans",
font_size = 10,
font_slant = C.FontSlantNormal,
font_weight = C.FontWeightNormal,
font_color = black
}
isValidNumber v = not (isNaN v) && not (isInfinite v)