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Diffstat (limited to 'src/Xmobar/MinXft.hsc')
-rw-r--r-- | src/Xmobar/MinXft.hsc | 333 |
1 files changed, 0 insertions, 333 deletions
diff --git a/src/Xmobar/MinXft.hsc b/src/Xmobar/MinXft.hsc deleted file mode 100644 index 0bf36c7..0000000 --- a/src/Xmobar/MinXft.hsc +++ /dev/null @@ -1,333 +0,0 @@ ------------------------------------------------------------------------------- --- | --- Module: MinXft --- Copyright: (c) 2012, 2014, 2015, 2017 Jose Antonio Ortega Ruiz --- (c) Clemens Fruhwirth <clemens@endorphin.org> 2007 --- License: BSD3-style (see LICENSE) --- --- Maintainer: jao@gnu.org --- Stability: unstable --- Portability: unportable --- Created: Mon Sep 10, 2012 18:12 --- --- --- Pared down Xft library, based on Graphics.X11.Xft and providing --- explicit management of XftColors, so that they can be cached. --- --- Most of the code is lifted from Clemens's. --- ------------------------------------------------------------------------------- - -{-# LANGUAGE ForeignFunctionInterface, EmptyDataDecls #-} - -module Xmobar.MinXft ( AXftColor - , AXftDraw (..) - , AXftFont - , mallocAXftColor - , freeAXftColor - , withAXftDraw - , drawXftString - , drawXftString' - , drawBackground - , drawXftRect - , openAXftFont - , closeAXftFont - , xftTxtExtents - , xftTxtExtents' - , xft_ascent - , xft_ascent' - , xft_descent - , xft_descent' - , xft_height - , xft_height' - ) - -where - -import Graphics.X11 -import Graphics.X11.Xlib.Types -import Graphics.X11.Xrender -import Graphics.X11.Xlib.Extras (xGetWindowProperty, xFree) - -import Foreign -import Foreign.C.Types -import Foreign.C.String -import Codec.Binary.UTF8.String as UTF8 -import Data.Char (ord) - -import Control.Monad (when) - -#include <X11/Xft/Xft.h> - --- Color Handling - -newtype AXftColor = AXftColor (Ptr AXftColor) - -foreign import ccall "XftColorAllocName" - cXftColorAllocName :: Display -> Visual -> Colormap -> CString -> AXftColor -> IO (#type Bool) - --- this is the missing bit in X11.Xft, not implementable from the --- outside because XftColor does not export a constructor. -mallocAXftColor :: Display -> Visual -> Colormap -> String -> IO AXftColor -mallocAXftColor d v cm n = do - color <- mallocBytes (#size XftColor) - withCAString n $ \str -> cXftColorAllocName d v cm str (AXftColor color) - return (AXftColor color) - -foreign import ccall "XftColorFree" - freeAXftColor :: Display -> Visual -> Colormap -> AXftColor -> IO () - --- Font handling - -newtype AXftFont = AXftFont (Ptr AXftFont) - -xft_ascent :: AXftFont -> IO Int -xft_ascent (AXftFont p) = peekCUShort p #{offset XftFont, ascent} - -xft_ascent' :: [AXftFont] -> IO Int -xft_ascent' = (fmap maximum) . (mapM xft_ascent) - -xft_descent :: AXftFont -> IO Int -xft_descent (AXftFont p) = peekCUShort p #{offset XftFont, descent} - -xft_descent' :: [AXftFont] -> IO Int -xft_descent' = (fmap maximum) . (mapM xft_descent) - -xft_height :: AXftFont -> IO Int -xft_height (AXftFont p) = peekCUShort p #{offset XftFont, height} - -xft_height' :: [AXftFont] -> IO Int -xft_height' = (fmap maximum) . (mapM xft_height) - -foreign import ccall "XftTextExtentsUtf8" - cXftTextExtentsUtf8 :: Display -> AXftFont -> CString -> CInt -> Ptr XGlyphInfo -> IO () - -xftTxtExtents :: Display -> AXftFont -> String -> IO XGlyphInfo -xftTxtExtents d f string = - withArrayLen (map fi (UTF8.encode string)) $ - \len str_ptr -> alloca $ - \cglyph -> do - cXftTextExtentsUtf8 d f str_ptr (fi len) cglyph - peek cglyph - -xftTxtExtents' :: Display -> [AXftFont] -> String -> IO XGlyphInfo -xftTxtExtents' d fs string = do - chunks <- getChunks d fs string - let (_, _, gi, _, _) = last chunks - return gi - -foreign import ccall "XftFontOpenName" - c_xftFontOpen :: Display -> CInt -> CString -> IO AXftFont - -openAXftFont :: Display -> Screen -> String -> IO AXftFont -openAXftFont dpy screen name = - withCAString name $ - \cname -> c_xftFontOpen dpy (fi (screenNumberOfScreen screen)) cname - -foreign import ccall "XftFontClose" - closeAXftFont :: Display -> AXftFont -> IO () - -foreign import ccall "XftCharExists" - cXftCharExists :: Display -> AXftFont -> (#type FcChar32) -> IO (#type FcBool) - -xftCharExists :: Display -> AXftFont -> Char -> IO Bool -xftCharExists d f c = bool `fmap` cXftCharExists d f (fi $ ord c) - where - bool 0 = False - bool _ = True --- Drawing - -fi :: (Integral a, Num b) => a -> b -fi = fromIntegral - -newtype AXftDraw = AXftDraw (Ptr AXftDraw) - -foreign import ccall "XftDrawCreate" - c_xftDrawCreate :: Display -> Drawable -> Visual -> Colormap -> IO AXftDraw - -foreign import ccall "XftDrawDisplay" - c_xftDrawDisplay :: AXftDraw -> IO Display - -foreign import ccall "XftDrawDestroy" - c_xftDrawDestroy :: AXftDraw -> IO () - -withAXftDraw :: Display -> Drawable -> Visual -> Colormap -> (AXftDraw -> IO a) -> IO a -withAXftDraw d p v c act = do - draw <- c_xftDrawCreate d p v c - a <- act draw - c_xftDrawDestroy draw - return a - -foreign import ccall "XftDrawStringUtf8" - cXftDrawStringUtf8 :: AXftDraw -> AXftColor -> AXftFont -> CInt -> CInt -> Ptr (#type FcChar8) -> CInt -> IO () - -drawXftString :: (Integral a1, Integral a) => - AXftDraw -> AXftColor -> AXftFont -> a -> a1 -> String -> IO () -drawXftString d c f x y string = - withArrayLen (map fi (UTF8.encode string)) - (\len ptr -> cXftDrawStringUtf8 d c f (fi x) (fi y) ptr (fi len)) - -drawXftString' :: AXftDraw -> - AXftColor -> - [AXftFont] -> - Integer -> - Integer -> - String -> IO () -drawXftString' d c fs x y string = do - display <- c_xftDrawDisplay d - chunks <- getChunks display fs string - mapM_ (\(f, s, _, xo, yo) -> drawXftString d c f (x+xo) (y+yo) s) chunks - --- Split string and determine fonts/offsets for individual parts -getChunks :: Display -> [AXftFont] -> String -> - IO [(AXftFont, String, XGlyphInfo, Integer, Integer)] -getChunks disp fts str = do - chunks <- getFonts disp fts str - getOffsets (XGlyphInfo 0 0 0 0 0 0) chunks - where - -- Split string and determine fonts for individual parts - getFonts _ [] _ = return [] - getFonts _ _ [] = return [] - getFonts _ [ft] s = return [(ft, s)] - getFonts d fonts@(ft:_) s = do - -- Determine which glyph can be rendered by current font - glyphs <- mapM (xftCharExists d ft) s - -- Split string into parts that can/cannot be rendered - let splits = split (runs glyphs) s - -- Determine which font to render each chunk with - concat `fmap` mapM (getFont d fonts) splits - - -- Determine fonts for substrings - getFont _ [] _ = return [] - getFont _ [ft] (_, s) = return [(ft, s)] -- Last font, use it - getFont _ (ft:_) (True, s) = return [(ft, s)] -- Current font can render this substring - getFont d (_:fs) (False, s) = getFonts d fs s -- Fallback to next font - - -- Helpers - runs [] = [] - runs (x:xs) = let (h, t) = span (==x) xs in (x, length h + 1) : runs t - split [] _ = [] - split ((x, c):xs) s = let (h, t) = splitAt c s in (x, h) : split xs t - - -- Determine coordinates for chunks using extents - getOffsets _ [] = return [] - getOffsets (XGlyphInfo _ _ x y xo yo) ((f, s):chunks) = do - (XGlyphInfo w' h' _ _ xo' yo') <- xftTxtExtents disp f s - let gi = XGlyphInfo (xo+w') (yo+h') x y (xo+xo') (yo+yo') - rest <- getOffsets gi chunks - return $ (f, s, gi, fromIntegral xo, fromIntegral yo) : rest - -foreign import ccall "XftDrawRect" - cXftDrawRect :: AXftDraw -> AXftColor -> CInt -> CInt -> CUInt -> CUInt -> IO () - -drawXftRect :: (Integral a3, Integral a2, Integral a1, Integral a) => - AXftDraw -> AXftColor -> a -> a1 -> a2 -> a3 -> IO () -drawXftRect draw color x y width height = - cXftDrawRect draw color (fi x) (fi y) (fi width) (fi height) - -#include <X11/extensions/Xrender.h> - -type Picture = XID -type PictOp = CInt - -data XRenderPictFormat -data XRenderPictureAttributes = XRenderPictureAttributes - --- foreign import ccall unsafe "X11/extensions/Xrender.h XRenderFillRectangle" - -- xRenderFillRectangle :: Display -> PictOp -> Picture -> Ptr XRenderColor -> CInt -> CInt -> CUInt -> CUInt -> IO () -foreign import ccall unsafe "X11/extensions/Xrender.h XRenderComposite" - xRenderComposite :: Display -> PictOp -> Picture -> Picture -> Picture -> CInt -> CInt -> CInt -> CInt -> CInt -> CInt -> CUInt -> CUInt -> IO () -foreign import ccall unsafe "X11/extensions/Xrender.h XRenderCreateSolidFill" - xRenderCreateSolidFill :: Display -> Ptr XRenderColor -> IO Picture -foreign import ccall unsafe "X11/extensions/Xrender.h XRenderFreePicture" - xRenderFreePicture :: Display -> Picture -> IO () -foreign import ccall unsafe "string.h" memset :: Ptr a -> CInt -> CSize -> IO () -foreign import ccall unsafe "X11/extensions/Xrender.h XRenderFindStandardFormat" - xRenderFindStandardFormat :: Display -> CInt -> IO (Ptr XRenderPictFormat) -foreign import ccall unsafe "X11/extensions/Xrender.h XRenderCreatePicture" - xRenderCreatePicture :: Display -> Drawable -> Ptr XRenderPictFormat -> CULong -> Ptr XRenderPictureAttributes -> IO Picture - - --- Attributes not supported -instance Storable XRenderPictureAttributes where - sizeOf _ = #{size XRenderPictureAttributes} - alignment _ = alignment (undefined :: CInt) - peek _ = return XRenderPictureAttributes - poke p XRenderPictureAttributes = - memset p 0 #{size XRenderPictureAttributes} - --- | Convenience function, gives us an XRender handle to a traditional --- Pixmap. Don't let it escape. -withRenderPicture :: Display -> Drawable -> (Picture -> IO a) -> IO () -withRenderPicture d p f = do - format <- xRenderFindStandardFormat d 1 -- PictStandardRGB24 - alloca $ \attr -> do - pic <- xRenderCreatePicture d p format 0 attr - f pic - xRenderFreePicture d pic - --- | Convenience function, gives us an XRender picture that is a solid --- fill of color 'c'. Don't let it escape. -withRenderFill :: Display -> XRenderColor -> (Picture -> IO a) -> IO () -withRenderFill d c f = do - pic <- with c (xRenderCreateSolidFill d) - f pic - xRenderFreePicture d pic - --- | Drawing the background to a pixmap and taking into account --- transparency -drawBackground :: Display -> Drawable -> String -> Int -> Rectangle -> IO () -drawBackground d p bgc alpha (Rectangle x y wid ht) = do - let render opt bg pic m = - xRenderComposite d opt bg m pic - (fromIntegral x) (fromIntegral y) 0 0 - 0 0 (fromIntegral wid) (fromIntegral ht) - withRenderPicture d p $ \pic -> do - -- Handle background color - bgcolor <- parseRenderColor d bgc - withRenderFill d bgcolor $ \bgfill -> - withRenderFill d - (XRenderColor 0 0 0 (257 * alpha)) - (render pictOpSrc bgfill pic) - -- Handle transparency - internAtom d "_XROOTPMAP_ID" False >>= \xid -> - let xroot = defaultRootWindow d in - alloca $ \x1 -> - alloca $ \x2 -> - alloca $ \x3 -> - alloca $ \x4 -> - alloca $ \pprop -> do - xGetWindowProperty d xroot xid 0 1 False 20 x1 x2 x3 x4 pprop - prop <- peek pprop - when (prop /= nullPtr) $ do - rootbg <- peek (castPtr prop) :: IO Pixmap - xFree prop - withRenderPicture d rootbg $ \bgpic -> - withRenderFill d (XRenderColor 0 0 0 (0xFFFF - 257 * alpha)) - (render pictOpAdd bgpic pic) - --- | Parses color into XRender color (allocation not necessary!) -parseRenderColor :: Display -> String -> IO XRenderColor -parseRenderColor d c = do - let colormap = defaultColormap d (defaultScreen d) - Color _ red green blue _ <- parseColor d colormap c - return $ XRenderColor (fromIntegral red) (fromIntegral green) (fromIntegral blue) 0xFFFF - -pictOpSrc, pictOpAdd :: PictOp -pictOpSrc = 1 -pictOpAdd = 12 - --- pictOpMinimum = 0 --- pictOpClear = 0 --- pictOpDst = 2 --- pictOpOver = 3 --- pictOpOverReverse = 4 --- pictOpIn = 5 --- pictOpInReverse = 6 --- pictOpOut = 7 --- pictOpOutReverse = 8 --- pictOpAtop = 9 --- pictOpAtopReverse = 10 --- pictOpXor = 11 --- pictOpSaturate = 13 --- pictOpMaximum = 13 |