{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE UndecidableInstances #-}
module Data.Sixel
( module Data.Sixel,
LatexStr (..),
latex,
math,
)
where
import Codec.Picture
import Data.ByteString (ByteString)
import qualified Data.ByteString.Char8 as BC
import qualified Data.ByteString.Internal as B
import Data.Char (chr)
import Data.Sixel.Internal
import qualified Data.Vector.Storable as V
import Data.Word (Word8)
import Foreign.C.String
import Foreign.C.Types
import Foreign.ForeignPtr
import Foreign.Ptr
import System.IO.Temp (withSystemTempDirectory)
import System.IO.Unsafe (unsafePerformIO)
import System.Process (readProcessWithExitCode)
newtype SixelImage = SixelImage {toSixelString :: String} deriving (Eq)
instance Show SixelImage where
show (SixelImage img) = img
instance Show LatexStr where
show str = show $ toSixel str
type ColorNumber = Word8
type PixelPattern = Word8
type Width = Int
type Height = Int
data SixelCmd
= Start Int Int Int
| End
| Size Int Int Width Height
| ColorMapRGB ColorNumber Word8 Word8 Word8
| ColorMapHLS ColorNumber Int Word8 Word8
| Color ColorNumber
| Sixel PixelPattern
| Repeat Int PixelPattern
| CR
| LF
deriving (Eq)
instance Show SixelCmd where
show = \case
(Start p1 p2 p3) -> "\ESCP" ++ show p1 ++ ";" ++ show p2 ++ ";" ++ show p3 ++ "q"
End -> "\ESC\\"
(Size pan pad width height) -> concat ["\"", show pan, ";", show pad, ";", show width, ";", show height]
(ColorMapRGB number x y z) -> concat ["#", show number, ";2;", show x, ";", show y, ";", show z]
(ColorMapHLS number h l s) -> concat ["#", show number, ";1;", show h, ";", show l, ";", show s]
(Color number) -> concat ["#", show number]
(Sixel pat) -> [chr (fromIntegral pat + 0x3f)]
(Repeat num pat) -> concat ["!", show num, [chr (fromIntegral pat + 0x3f)]]
CR -> "$"
LF -> "-"
instance {-# OVERLAPS #-} Show [SixelCmd] where
show xs = concat $ map show xs
class ToSixel a where
toSixel :: a -> SixelImage
putSixel :: a -> IO ()
instance {-# OVERLAPS #-} (Show a) => ToSixel a where
toSixel xs = SixelImage $ show xs
putSixel xs = putStrLn $ show xs
instance {-# OVERLAPS #-} ToSixel [SixelCmd] where
toSixel xs = SixelImage (concat $ map show xs)
putSixel xs = putStr $ concat $ map show xs
instance {-# OVERLAPS #-} ToSixel DynamicImage where
toSixel dimg = toSixel $ convertRGB8 dimg
putSixel img = putSixel $ convertRGB8 img
instance {-# OVERLAPS #-} ToSixel (Image PixelRGB8) where
toSixel img = SixelImage (BC.unpack $ img2sixel img)
putSixel img = BC.putStr $ img2sixel img
instance {-# OVERLAPS #-} ToSixel SixelImage where
toSixel = id
putSixel img = putStr $ show img
instance ToSixel LatexStr where
toSixel str = unsafePerformIO $ do
latex2img str >>= \case
Left err -> error err
Right img -> return $ toSixel img
putSixel img = putStr $ show $ toSixel img
toSixelCmds :: Image PixelRGB8 -> [SixelCmd]
toSixelCmds img =
let width = imageWidth img -1
height = imageHeight img -1
header =
[ Start 8 1 0,
Size 1 1 width height,
ColorMapRGB 0 100 100 100,
Color 0
]
footer = End
putSixel j = case j `mod` 6 of
0 -> Sixel 1
1 -> Sixel 2
2 -> Sixel 4
3 -> Sixel 8
4 -> Sixel 16
5 -> Sixel 32
pixels =
concat
[ header,
concat
( flip map [0 .. (height -1)] $ \j ->
concat
[ concat
( flip map [0 .. (width -1)] $ \i ->
[ pixel2colorMap img i j,
putSixel j
]
),
if (j `mod` 6) == 5 then [LF] else [CR]
]
),
[footer]
]
in pixels
where
pixel2colorMap :: Image PixelRGB8 -> Int -> Int -> SixelCmd
pixel2colorMap img i j =
let p@(PixelRGB8 r g b) = pixelAt img i j
rr = fromIntegral $ ((fromIntegral r :: Int) * 101) `div` 256
gg = fromIntegral $ ((fromIntegral g :: Int) * 101) `div` 256
bb = fromIntegral $ ((fromIntegral b :: Int) * 101) `div` 256
in ColorMapRGB 0 rr gg bb
img2sixel :: Image PixelRGB8 -> ByteString
img2sixel img = unsafePerformIO $ do
let (Image w h vec) = img
bsize <- c_bufsize (fromIntegral w) (fromIntegral h)
let (sptr, _) = V.unsafeToForeignPtr0 vec
B.createAndTrim (fromIntegral bsize) $ \dst -> do
withForeignPtr sptr $ \src -> do
len <- c_img2sixel (castPtr dst) (castPtr src) (fromIntegral w) (fromIntegral h)
return (fromIntegral len)
putImage :: FilePath -> IO ()
putImage file = do
readImage file >>= \case
Left err -> print err
Right img -> putSixel img