/*
* Copyright © 2000 Keith Packard
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of Keith Packard not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. Keith Packard makes no
* representations about the suitability of this software for any purpose. It
* is provided "as is" without express or implied warranty.
*
* KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#include "xftint.h"
_X_HIDDEN void
XftRectCore (XftDraw *draw,
_Xconst XftColor *color,
int x,
int y,
unsigned int width,
unsigned int height)
{
if (color->color.alpha >= 0x8000)
{
XSetForeground (draw->dpy, draw->core.gc, color->pixel);
XFillRectangle (draw->dpy, draw->drawable, draw->core.gc,
x, y, width, height);
}
}
/*
* Use the core protocol to draw the glyphs
*/
static void
_XftSharpGlyphMono (XftDraw *draw,
XftGlyph *glyph,
int x,
int y)
{
unsigned char *srcLine = glyph->bitmap, *src;
unsigned char bits, bitsMask;
int width = glyph->metrics.width;
int stride = ((width + 31) & ~31) >> 3;
int height = glyph->metrics.height;
int w;
int xspan, lenspan;
x -= glyph->metrics.x;
y -= glyph->metrics.y;
while (height--)
{
src = srcLine;
srcLine += stride;
w = width;
bitsMask = 0x80; /* FreeType is always MSB first */
bits = *src++;
xspan = x;
while (w)
{
if (bits & bitsMask)
{
lenspan = 0;
do
{
lenspan++;
if (lenspan == w)
break;
bitsMask = bitsMask >> 1;
if (!bitsMask)
{
bits = *src++;
bitsMask = 0x80;
}
} while (bits & bitsMask);
XFillRectangle (draw->dpy, draw->drawable,
draw->core.gc, xspan, y, lenspan, 1);
xspan += lenspan;
w -= lenspan;
}
else
{
do
{
w--;
xspan++;
if (!w)
break;
bitsMask = bitsMask >> 1;
if (!bitsMask)
{
bits = *src++;
bitsMask = 0x80;
}
} while (!(bits & bitsMask));
}
}
y++;
}
}
/*
* Draw solid color text from an anti-aliased bitmap. This is a
* fallback for cases where a particular drawable has no AA code
*/
static void
_XftSharpGlyphGray (XftDraw *draw,
XftGlyph *glyph,
int x,
int y)
{
unsigned char *srcLine = glyph->bitmap, *src, bits;
int width = glyph->metrics.width;
int stride = ((width + 3) & ~3);
int height = glyph->metrics.height;
int w;
int xspan, lenspan;
x -= glyph->metrics.x;
y -= glyph->metrics.y;
while (height--)
{
src = srcLine;
srcLine += stride;
w = width;
bits = *src++;
xspan = x;
while (w)
{
if (bits >= 0x80)
{
lenspan = 0;
do
{
lenspan++;
if (lenspan == w)
break;
bits = *src++;
} while (bits >= 0x80);
XFillRectangle (draw->dpy, draw->drawable,
draw->core.gc, xspan, y, lenspan, 1);
xspan += lenspan;
w -= lenspan;
}
else
{
do
{
w--;
xspan++;
if (!w)
break;
bits = *src++;
} while (bits < 0x80);
}
}
y++;
}
}
static void
_XftSharpGlyphRgba (XftDraw *draw,
XftGlyph *glyph,
int x,
int y)
{
CARD32 *srcLine = glyph->bitmap, *src, bits;
int width = glyph->metrics.width;
int stride = ((width + 3) & ~3);
int height = glyph->metrics.height;
int w;
int xspan, lenspan;
x -= glyph->metrics.x;
y -= glyph->metrics.y;
while (height--)
{
src = srcLine;
srcLine += stride;
w = width;
bits = *src++;
xspan = x;
while (w)
{
if (bits >= 0x80000000)
{
lenspan = 0;
do
{
lenspan++;
if (lenspan == w)
break;
bits = *src++;
} while (bits >= 0x80000000);
XFillRectangle (draw->dpy, draw->drawable,
draw->core.gc, xspan, y, lenspan, 1);
xspan += lenspan;
w -= lenspan;
}
else
{
do
{
w--;
xspan++;
if (!w)
break;
bits = *src++;
} while (bits < 0x80000000);
}
}
y++;
}
}
typedef void (*XftSharpGlyph) (XftDraw *draw,
XftGlyph *glyph,
int x,
int y);
static XftSharpGlyph
_XftSharpGlyphFind (XftDraw *draw, XftFont *public)
{
XftFontInt *font = (XftFontInt *) public;
if (!font->info.antialias)
return _XftSharpGlyphMono;
else switch (font->info.rgba) {
case FC_RGBA_RGB:
case FC_RGBA_BGR:
case FC_RGBA_VRGB:
case FC_RGBA_VBGR:
return _XftSharpGlyphRgba;
default:
return _XftSharpGlyphGray;
}
}
/*
* Draw glyphs to a target that supports anti-aliasing
*/
/*
* Primitives for converting between RGB values and TrueColor pixels
*/
static void
_XftExamineBitfield (unsigned long mask, int *shift, int *len)
{
int s, l;
s = 0;
while ((mask & 1) == 0)
{
mask >>= 1;
s++;
}
l = 0;
while ((mask & 1) == 1)
{
mask >>= 1;
l++;
}
*shift = s;
*len = l;
}
static CARD32
_XftGetField (unsigned long l_pixel, int shift, int len)
{
CARD32 pixel = (CARD32) l_pixel;
pixel = pixel & (((1 << (len)) - 1) << shift);
pixel = pixel << (32 - (shift + len)) >> 24;
while (len < 8)
{
pixel |= (pixel >> len);
len <<= 1;
}
return pixel;
}
static unsigned long
_XftPutField (CARD32 pixel, int shift, int len)
{
unsigned long l_pixel = (unsigned long) pixel;
shift = shift - (8 - len);
if (len <= 8)
l_pixel &= (((1 << len) - 1) << (8 - len));
if (shift < 0)
l_pixel >>= -shift;
else
l_pixel <<= shift;
return l_pixel;
}
/*
* This is used when doing XftCharFontSpec/XftGlyphFontSpec where
* some of the fonts are bitmaps and some are anti-aliased to handle
* the bitmap portions
*/
static void
_XftSmoothGlyphMono (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color)
{
unsigned char *srcLine = xftg->bitmap, *src;
unsigned char bits, bitsMask;
int width = xftg->metrics.width;
int stride = ((width + 31) & ~31) >> 3;
int height = xftg->metrics.height;
int w;
int xspan;
int r_shift, r_len;
int g_shift, g_len;
int b_shift, b_len;
unsigned long pixel;
_XftExamineBitfield (image->red_mask, &r_shift, &r_len);
_XftExamineBitfield (image->green_mask, &g_shift, &g_len);
_XftExamineBitfield (image->blue_mask, &b_shift, &b_len);
pixel = (_XftPutField (color->color.red >> 8, r_shift, r_len) |
_XftPutField (color->color.green >> 8, g_shift, g_len) |
_XftPutField (color->color.blue >> 8, b_shift, b_len));
x -= xftg->metrics.x;
y -= xftg->metrics.y;
while (height--)
{
src = srcLine;
srcLine += stride;
w = width;
bitsMask = 0x80; /* FreeType is always MSB first */
bits = *src++;
xspan = x;
while (w--)
{
if (bits & bitsMask)
XPutPixel (image, xspan, y, pixel);
bitsMask = bitsMask >> 1;
if (!bitsMask)
{
bits = *src++;
bitsMask = 0x80;
}
xspan++;
}
y++;
}
}
/*
* As simple anti-aliasing is likely to be common, there are three
* optimized versions for the usual true color pixel formats (888, 565, 555).
* Other formats are handled by the general case
*/
#define cvt8888to0565(s) ((((s) >> 3) & 0x001f) | \
(((s) >> 5) & 0x07e0) | \
(((s) >> 8) & 0xf800))
#define cvt0565to8888(s) (((((s) << 3) & 0xf8) | (((s) >> 2) & 0x7)) | \
((((s) << 5) & 0xfc00) | (((s) >> 1) & 0x300)) | \
((((s) << 8) & 0xf80000) | (((s) << 3) & 0x70000)))
#define cvt8888to0555(s) ((((s) >> 3) & 0x001f) | \
(((s) >> 6) & 0x03e0) | \
(((s) >> 7) & 0x7c00))
#define cvt0555to8888(s) (((((s) << 3) & 0xf8) | (((s) >> 2) & 0x7)) | \
((((s) << 6) & 0xf800) | (((s) >> 0) & 0x300)) | \
((((s) << 9) & 0xf80000) | (((s) << 4) & 0x70000)))
#define XftIntMult(a,b,t) ( (t) = (a) * (b) + 0x80, ( ( ( (t)>>8 ) + (t) )>>8 ) )
#define XftIntDiv(a,b) (((CARD16) (a) * 255) / (b))
#define XftGet8(v,i) ((CARD16) (CARD8) ((v) >> i))
/*
* There are two ways of handling alpha -- either as a single unified value or
* a separate value for each component, hence each macro must have two
* versions. The unified alpha version has a 'U' at the end of the name,
* the component version has a 'C'. Similarly, functions which deal with
* this difference will have two versions using the same convention.
*/
#define XftOverU(x,y,i,a,t) ((t) = XftIntMult(XftGet8(y,i),(a),(t)) + XftGet8(x,i),\
(CARD32) ((CARD8) ((t) | (0 - ((t) >> 8)))) << (i))
#define XftOverC(x,y,i,a,t) ((t) = XftIntMult(XftGet8(y,i),XftGet8(a,i),(t)) + XftGet8(x,i),\
(CARD32) ((CARD8) ((t) | (0 - ((t) >> 8)))) << (i))
#define XftInU(x,i,a,t) ((CARD32) XftIntMult(XftGet8(x,i),(a),(t)) << (i))
#define XftInC(x,i,a,t) ((CARD32) XftIntMult(XftGet8(x,i),XftGet8(a,i),(t)) << (i))
#define XftGen(x,y,i,ax,ay,t,u,v) ((t) = (XftIntMult(XftGet8(y,i),ay,(u)) + \
XftIntMult(XftGet8(x,i),ax,(v))),\
(CARD32) ((CARD8) ((t) | \
(0 - ((t) >> 8)))) << (i))
#define XftAdd(x,y,i,t) ((t) = XftGet8(x,i) + XftGet8(y,i), \
(CARD32) ((CARD8) ((t) | (0 - ((t) >> 8)))) << (i))
static CARD32
fbOver24 (CARD32 x, CARD32 y)
{
CARD16 a = ~x >> 24;
CARD16 t;
CARD32 m,n,o;
m = XftOverU(x,y,0,a,t);
n = XftOverU(x,y,8,a,t);
o = XftOverU(x,y,16,a,t);
return m|n|o;
}
static CARD32
fbIn (CARD32 x, CARD8 y)
{
CARD16 a = y;
CARD16 t;
CARD32 m,n,o,p;
m = XftInU(x,0,a,t);
n = XftInU(x,8,a,t);
o = XftInU(x,16,a,t);
p = XftInU(x,24,a,t);
return m|n|o|p;
}
static void
_XftSmoothGlyphGray8888 (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color)
{
CARD32 src, srca;
CARD32 r, g, b;
CARD32 *dstLine, *dst, d;
CARD8 *maskLine, *mask, m;
int dstStride, maskStride;
int width, height;
int w;
srca = color->color.alpha >> 8;
/* This handles only RGB and BGR */
g = (color->color.green & 0xff00);
if (image->red_mask == 0xff0000)
{
r = (color->color.red & 0xff00) << 8;
b = color->color.blue >> 8;
}
else
{
r = color->color.red >> 8;
b = (color->color.blue & 0xff00) << 8;
}
src = (srca << 24) | r | g | b;
width = xftg->metrics.width;
height = xftg->metrics.height;
x -= xftg->metrics.x;
y -= xftg->metrics.y;
dstLine = (CARD32 *) (image->data + image->bytes_per_line * y + (x << 2));
dstStride = image->bytes_per_line >> 2;
maskLine = (unsigned char *) xftg->bitmap;
maskStride = (width + 3) & ~3;
while (height--)
{
dst = dstLine;
dstLine += dstStride;
mask = maskLine;
maskLine += maskStride;
w = width;
while (w--)
{
m = *mask++;
if (m == 0xff)
{
if (srca == 0xff)
*dst = src;
else
*dst = fbOver24 (src, *dst);
}
else if (m)
{
d = fbIn (src, m);
*dst = fbOver24 (d, *dst);
}
dst++;
}
}
}
static void
_XftSmoothGlyphGray565 (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color)
{
CARD32 src, srca;
CARD32 r, g, b;
CARD32 d;
CARD16 *dstLine, *dst;
CARD8 *maskLine, *mask, m;
int dstStride, maskStride;
int width, height;
int w;
srca = color->color.alpha >> 8;
/* This handles only RGB and BGR */
g = (color->color.green & 0xff00);
if (image->red_mask == 0xf800)
{
r = (color->color.red & 0xff00) << 8;
b = color->color.blue >> 8;
}
else
{
r = color->color.red >> 8;
b = (color->color.blue & 0xff00) << 8;
}
src = (srca << 24) | r | g | b;
width = xftg->metrics.width;
height = xftg->metrics.height;
x -= xftg->metrics.x;
y -= xftg->metrics.y;
dstLine = (CARD16 *) (image->data + image->bytes_per_line * y + (x << 1));
dstStride = image->bytes_per_line >> 1;
maskLine = (unsigned char *) xftg->bitmap;
maskStride = (width + 3) & ~3;
while (height--)
{
dst = dstLine;
dstLine += dstStride;
mask = maskLine;
maskLine += maskStride;
w = width;
while (w--)
{
m = *mask++;
if (m == 0xff)
{
if (srca == 0xff)
d = src;
else
{
d = *dst;
d = fbOver24 (src, cvt0565to8888(d));
}
*dst = cvt8888to0565(d);
}
else if (m)
{
d = *dst;
d = fbOver24 (fbIn(src,m), cvt0565to8888(d));
*dst = cvt8888to0565(d);
}
dst++;
}
}
}
static void
_XftSmoothGlyphGray555 (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color)
{
CARD32 src, srca;
CARD32 r, g, b;
CARD32 d;
CARD16 *dstLine, *dst;
CARD8 *maskLine, *mask, m;
int dstStride, maskStride;
int width, height;
int w;
srca = color->color.alpha >> 8;
/* This handles only RGB and BGR */
g = (color->color.green & 0xff00);
if (image->red_mask == 0xf800)
{
r = (color->color.red & 0xff00) << 8;
b = color->color.blue >> 8;
}
else
{
r = color->color.red >> 8;
b = (color->color.blue & 0xff00) << 8;
}
src = (srca << 24) | r | g | b;
width = xftg->metrics.width;
height = xftg->metrics.height;
x -= xftg->metrics.x;
y -= xftg->metrics.y;
dstLine = (CARD16 *) (image->data + image->bytes_per_line * y + (x << 1));
dstStride = image->bytes_per_line >> 1;
maskLine = (unsigned char *) xftg->bitmap;
maskStride = (width + 3) & ~3;
while (height--)
{
dst = dstLine;
dstLine += dstStride;
mask = maskLine;
maskLine += maskStride;
w = width;
while (w--)
{
m = *mask++;
if (m == 0xff)
{
if (srca == 0xff)
d = src;
else
{
d = *dst;
d = fbOver24 (src, cvt0555to8888(d));
}
*dst = cvt8888to0555(d);
}
else if (m)
{
d = *dst;
d = fbOver24 (fbIn(src,m), cvt0555to8888(d));
*dst = cvt8888to0555(d);
}
dst++;
}
}
}
static void
_XftSmoothGlyphGray (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color)
{
CARD32 src, srca;
int r_shift, r_len;
int g_shift, g_len;
int b_shift, b_len;
CARD8 *maskLine, *mask, m;
int maskStride;
CARD32 d;
unsigned long pixel;
int width, height;
int w, tx;
srca = color->color.alpha >> 8;
src = (srca << 24 |
(color->color.red & 0xff00) << 8 |
(color->color.green & 0xff00) |
(color->color.blue) >> 8);
x -= xftg->metrics.x;
y -= xftg->metrics.y;
width = xftg->metrics.width;
height = xftg->metrics.height;
maskLine = (unsigned char *) xftg->bitmap;
maskStride = (width + 3) & ~3;
_XftExamineBitfield (image->red_mask, &r_shift, &r_len);
_XftExamineBitfield (image->green_mask, &g_shift, &g_len);
_XftExamineBitfield (image->blue_mask, &b_shift, &b_len);
while (height--)
{
mask = maskLine;
maskLine += maskStride;
w = width;
tx = x;
while (w--)
{
m = *mask++;
if (m == 0xff)
{
if (srca == 0xff)
d = src;
else
{
pixel = XGetPixel (image, tx, y);
d = (_XftGetField (pixel, r_shift, r_len) << 16 |
_XftGetField (pixel, g_shift, g_len) << 8 |
_XftGetField (pixel, b_shift, b_len));
d = fbOver24 (src, d);
}
pixel = (_XftPutField ((d >> 16) & 0xff, r_shift, r_len) |
_XftPutField ((d >> 8) & 0xff, g_shift, g_len) |
_XftPutField ((d ) & 0xff, b_shift, b_len));
XPutPixel (image, tx, y, pixel);
}
else if (m)
{
pixel = XGetPixel (image, tx, y);
d = (_XftGetField (pixel, r_shift, r_len) << 16 |
_XftGetField (pixel, g_shift, g_len) << 8 |
_XftGetField (pixel, b_shift, b_len));
d = fbOver24 (fbIn(src,m), d);
pixel = (_XftPutField ((d >> 16) & 0xff, r_shift, r_len) |
_XftPutField ((d >> 8) & 0xff, g_shift, g_len) |
_XftPutField ((d ) & 0xff, b_shift, b_len));
XPutPixel (image, tx, y, pixel);
}
tx++;
}
y++;
}
}
static void
_XftSmoothGlyphRgba (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color)
{
CARD32 src, srca;
int r_shift, r_len;
int g_shift, g_len;
int b_shift, b_len;
CARD32 *mask, ma;
CARD32 d;
unsigned long pixel;
int width, height;
int w, tx;
srca = color->color.alpha >> 8;
src = (srca << 24 |
(color->color.red & 0xff00) << 8 |
(color->color.green & 0xff00) |
(color->color.blue) >> 8);
x -= xftg->metrics.x;
y -= xftg->metrics.y;
width = xftg->metrics.width;
height = xftg->metrics.height;
mask = (CARD32 *) xftg->bitmap;
_XftExamineBitfield (image->red_mask, &r_shift, &r_len);
_XftExamineBitfield (image->green_mask, &g_shift, &g_len);
_XftExamineBitfield (image->blue_mask, &b_shift, &b_len);
while (height--)
{
w = width;
tx = x;
while (w--)
{
ma = *mask++;
if (ma == 0xffffffff)
{
if (srca == 0xff)
d = src;
else
{
pixel = XGetPixel (image, tx, y);
d = (_XftGetField (pixel, r_shift, r_len) << 16 |
_XftGetField (pixel, g_shift, g_len) << 8 |
_XftGetField (pixel, b_shift, b_len));
d = fbOver24 (src, d);
}
pixel = (_XftPutField ((d >> 16) & 0xff, r_shift, r_len) |
_XftPutField ((d >> 8) & 0xff, g_shift, g_len) |
_XftPutField ((d ) & 0xff, b_shift, b_len));
XPutPixel (image, tx, y, pixel);
}
else if (ma)
{
CARD32 m,n,o;
pixel = XGetPixel (image, tx, y);
d = (_XftGetField (pixel, r_shift, r_len) << 16 |
_XftGetField (pixel, g_shift, g_len) << 8 |
_XftGetField (pixel, b_shift, b_len));
#define XftInOverC(src,srca,msk,dst,i,result) { \
CARD16 __a = XftGet8(msk,i); \
CARD32 __t, __ta; \
CARD32 __i; \
__t = XftIntMult (XftGet8(src,i), __a,__i); \
__ta = (CARD8) ~XftIntMult (srca, __a,__i); \
__t = __t + XftIntMult(XftGet8(dst,i),__ta,__i); \
__t = (CARD32) (CARD8) (__t | (-(__t >> 8))); \
result = __t << (i); \
}
XftInOverC(src,srca,ma,d,0,m);
XftInOverC(src,srca,ma,d,8,n);
XftInOverC(src,srca,ma,d,16,o);
d = m | n | o;
pixel = (_XftPutField ((d >> 16) & 0xff, r_shift, r_len) |
_XftPutField ((d >> 8) & 0xff, g_shift, g_len) |
_XftPutField ((d ) & 0xff, b_shift, b_len));
XPutPixel (image, tx, y, pixel);
}
tx++;
}
y++;
}
}
static FcBool
_XftSmoothGlyphPossible (XftDraw *draw)
{
if (!draw->visual)
return FcFalse;
if (draw->visual->class != TrueColor)
return FcFalse;
return FcTrue;
}
typedef void (*XftSmoothGlyph) (XImage *image,
_Xconst XftGlyph *xftg,
int x,
int y,
_Xconst XftColor *color);
static XftSmoothGlyph
_XftSmoothGlyphFind (XftDraw *draw, XftFont *public)
{
XftFontInt *font = (XftFontInt *) public;
if (!font->info.antialias)
return _XftSmoothGlyphMono;
else switch (font->info.rgba) {
case FC_RGBA_RGB:
case FC_RGBA_BGR:
case FC_RGBA_VRGB:
case FC_RGBA_VBGR:
return _XftSmoothGlyphRgba;
default:
switch (XftDrawBitsPerPixel (draw)) {
case 32:
if ((draw->visual->red_mask == 0xff0000 &&
draw->visual->green_mask == 0x00ff00 &&
draw->visual->blue_mask == 0x0000ff) ||
(draw->visual->red_mask == 0x0000ff &&
draw->visual->green_mask == 0x00ff00 &&
draw->visual->blue_mask == 0xff0000))
{
return _XftSmoothGlyphGray8888;
}
break;
case 16:
if ((draw->visual->red_mask == 0xf800 &&
draw->visual->green_mask == 0x07e0 &&
draw->visual->blue_mask == 0x001f) ||
(draw->visual->red_mask == 0x001f &&
draw->visual->green_mask == 0x07e0 &&
draw->visual->blue_mask == 0xf800))
{
return _XftSmoothGlyphGray565;
}
if ((draw->visual->red_mask == 0x7c00 &&
draw->visual->green_mask == 0x03e0 &&
draw->visual->blue_mask == 0x001f) ||
(draw->visual->red_mask == 0x001f &&
draw->visual->green_mask == 0x03e0 &&
draw->visual->blue_mask == 0x7c00))
{
return _XftSmoothGlyphGray555;
}
break;
default:
break;
}
return _XftSmoothGlyphGray;
}
}
static XftGlyph *
_XftGlyphDefault (Display *dpy, XftFont *public)
{
XftFontInt *font = (XftFontInt *) public;
FT_UInt missing[XFT_NMISSING];
int nmissing;
FcBool glyphs_loaded = FcFalse;
if (XftFontCheckGlyph (dpy, public, FcTrue, 0, missing, &nmissing))
glyphs_loaded = FcTrue;
if (nmissing)
XftFontLoadGlyphs (dpy, public, glyphs_loaded, missing, nmissing);
return font->glyphs[0];
}
static int XftGetImageErrorHandler (Display *dpy, XErrorEvent *error_event)
{
return 0;
}
_X_HIDDEN void
XftGlyphCore (XftDraw *draw,
_Xconst XftColor *color,
XftFont *public,
int x,
int y,
_Xconst FT_UInt *glyphs,
int nglyphs)
{
Display *dpy = draw->dpy;
XftFontInt *font = (XftFontInt *) public;
XftGlyph *xftg;
FT_UInt glyph;
_Xconst FT_UInt *g;
FT_UInt missing[XFT_NMISSING];
FcBool glyphs_loaded;
int nmissing;
int n;
XErrorHandler prev_error;
/*
* Load missing glyphs
*/
g = glyphs;
n = nglyphs;
nmissing = 0;
glyphs_loaded = FcFalse;
while (n--)
if (XftFontCheckGlyph (dpy, public, FcTrue, *g++, missing, &nmissing))
glyphs_loaded = FcTrue;
if (nmissing)
XftFontLoadGlyphs (dpy, public, FcTrue, missing, nmissing);
g = glyphs;
n = nglyphs;
if ((font->info.antialias || color->color.alpha != 0xffff) &&
_XftSmoothGlyphPossible (draw))
{
XGlyphInfo gi;
XImage *image;
unsigned int depth;
int ox, oy;
XftSmoothGlyph smooth = _XftSmoothGlyphFind (draw, public);
XftGlyphExtents (dpy, public, glyphs, nglyphs, &gi);
if (!gi.width || !gi.height)
goto bail1;
ox = x - gi.x;
oy = y - gi.y;
/*
* Try to get bits directly from the drawable; if that fails,
* use a temporary pixmap. When it does fail, assume it
* will probably fail for a while and keep using temporary
* pixmaps for a while to avoid double round trips.
*/
if (draw->core.use_pixmap == 0)
{
prev_error = XSetErrorHandler (XftGetImageErrorHandler);
image = XGetImage (dpy, draw->drawable,
ox, oy,
gi.width, gi.height, AllPlanes,
ZPixmap);
XSetErrorHandler (prev_error);
if (!image)
draw->core.use_pixmap = XFT_ASSUME_PIXMAP;
}
else
{
draw->core.use_pixmap--;
image = NULL;
}
if (!image && (depth = XftDrawDepth (draw)))
{
Pixmap pix;
GC gc;
XGCValues gcv;
pix = XCreatePixmap (dpy, draw->drawable,
gi.width, gi.height, depth);
gcv.graphics_exposures = False;
gc = XCreateGC (dpy, pix, GCGraphicsExposures, &gcv);
XCopyArea (dpy, draw->drawable, pix, gc, ox, oy,
gi.width, gi.height, 0, 0);
XFreeGC (dpy, gc);
image = XGetImage (dpy, pix, 0, 0, gi.width, gi.height, AllPlanes,
ZPixmap);
XFreePixmap (dpy, pix);
}
if (!image)
goto bail1;
image->red_mask = draw->visual->red_mask;
image->green_mask = draw->visual->green_mask;
image->blue_mask = draw->visual->blue_mask;
if (image->byte_order != XftNativeByteOrder ())
XftSwapImage (image);
while (n--)
{
glyph = *g++;
if (glyph >= font->num_glyphs || !(xftg = font->glyphs[glyph]))
xftg = _XftGlyphDefault (dpy, public);
if (xftg)
{
(*smooth) (image, xftg, x - ox, y - oy, color);
x += xftg->metrics.xOff;
y += xftg->metrics.yOff;
}
}
if (image->byte_order != XftNativeByteOrder ())
XftSwapImage (image);
XPutImage (dpy, draw->drawable, draw->core.gc, image, 0, 0, ox, oy,
gi.width, gi.height);
XDestroyImage (image);
}
else
{
XftSharpGlyph sharp = _XftSharpGlyphFind (draw, public);
while (n--)
{
glyph = *g++;
if (glyph >= font->num_glyphs || !(xftg = font->glyphs[glyph]))
xftg = _XftGlyphDefault (dpy, public);
if (xftg)
{
(*sharp) (draw, xftg, x, y);
x += xftg->metrics.xOff;
y += xftg->metrics.yOff;
}
}
}
bail1:
if (glyphs_loaded)
_XftFontManageMemory (dpy, public);
}
#define NUM_LOCAL 1024
_X_HIDDEN void
XftGlyphSpecCore (XftDraw *draw,
_Xconst XftColor *color,
XftFont *public,
_Xconst XftGlyphSpec *glyphs,
int nglyphs)
{
Display *dpy = draw->dpy;
XftFontInt *font = (XftFontInt *) public;
XftGlyph *xftg;
FT_UInt missing[XFT_NMISSING];
FcBool glyphs_loaded;
int nmissing;
int i;
XErrorHandler prev_error;
int x1, y1, x2, y2;
/*
* Load missing glyphs
*/
glyphs_loaded = FcFalse;
x1 = y1 = x2 = y2 = 0;
for (i = 0; i < nglyphs; i++)
{
XGlyphInfo gi;
int g_x1, g_x2, g_y1, g_y2;
nmissing = 0;
if (XftFontCheckGlyph (dpy, public, FcTrue, glyphs[i].glyph, missing, &nmissing))
glyphs_loaded = FcTrue;
if (nmissing)
XftFontLoadGlyphs (dpy, public, FcTrue, missing, nmissing);
XftGlyphExtents (dpy, public, &glyphs[i].glyph, 1, &gi);
g_x1 = glyphs[i].x - gi.x;
g_y1 = glyphs[i].y - gi.y;
g_x2 = g_x1 + gi.width;
g_y2 = g_y1 + gi.height;
if (i)
{
if (g_x1 < x1)
x1 = g_x1;
if (g_y1 < y1)
y1 = g_y1;
if (g_x2 > x2)
x2 = g_x2;
if (g_y2 > y2)
y2 = g_y2;
}
else
{
x1 = g_x1;
y1 = g_y1;
x2 = g_x2;
y2 = g_y2;
}
}
if (x1 == x2 || y1 == y2)
goto bail1;
if ((font->info.antialias || color->color.alpha != 0xffff) &&
_XftSmoothGlyphPossible (draw))
{
XImage *image;
unsigned int depth;
int width = x2 - x1, height = y2 - y1;
XftSmoothGlyph smooth = _XftSmoothGlyphFind (draw, public);
/*
* Try to get bits directly from the drawable; if that fails,
* use a temporary pixmap. When it does fail, assume it
* will probably fail for a while and keep using temporary
* pixmaps for a while to avoid double round trips.
*/
if (draw->core.use_pixmap == 0)
{
prev_error = XSetErrorHandler (XftGetImageErrorHandler);
image = XGetImage (dpy, draw->drawable,
x1, y1,
width, height, AllPlanes,
ZPixmap);
XSetErrorHandler (prev_error);
if (!image)
draw->core.use_pixmap = XFT_ASSUME_PIXMAP;
}
else
{
draw->core.use_pixmap--;
image = NULL;
}
if (!image && (depth = XftDrawDepth (draw)))
{
Pixmap pix;
GC gc;
XGCValues gcv;
pix = XCreatePixmap (dpy, draw->drawable,
width, height, depth);
gcv.graphics_exposures = False;
gc = XCreateGC (dpy, pix, GCGraphicsExposures, &gcv);
XCopyArea (dpy, draw->drawable, pix, gc, x1, y1,
width, height, 0, 0);
XFreeGC (dpy, gc);
image = XGetImage (dpy, pix, 0, 0, width, height, AllPlanes,
ZPixmap);
XFreePixmap (dpy, pix);
}
if (!image)
goto bail1;
image->red_mask = draw->visual->red_mask;
image->green_mask = draw->visual->green_mask;
image->blue_mask = draw->visual->blue_mask;
if (image->byte_order != XftNativeByteOrder ())
XftSwapImage (image);
for (i = 0; i < nglyphs; i++)
{
FT_UInt glyph = glyphs[i].glyph;
if (glyph >= font->num_glyphs || !(xftg = font->glyphs[glyph]))
xftg = _XftGlyphDefault (dpy, public);
if (xftg)
{
(*smooth) (image, xftg, glyphs[i].x - x1,
glyphs[i].y - y1, color);
}
}
if (image->byte_order != XftNativeByteOrder ())
XftSwapImage (image);
XPutImage (dpy, draw->drawable, draw->core.gc, image, 0, 0, x1, y1,
width, height);
XDestroyImage (image);
}
else
{
XftSharpGlyph sharp = _XftSharpGlyphFind (draw, public);
for (i = 0; i < nglyphs; i++)
{
FT_UInt glyph = glyphs[i].glyph;
if (glyph >= font->num_glyphs || !(xftg = font->glyphs[glyph]))
xftg = _XftGlyphDefault (dpy, public);
if (xftg)
(*sharp) (draw, xftg, glyphs[i].x, glyphs[i].y);
}
}
bail1:
if (glyphs_loaded)
_XftFontManageMemory (dpy, public);
}
_X_HIDDEN void
XftGlyphFontSpecCore (XftDraw *draw,
_Xconst XftColor *color,
_Xconst XftGlyphFontSpec *glyphs,
int nglyphs)
{
Display *dpy = draw->dpy;
XftGlyph *xftg;
FT_UInt missing[XFT_NMISSING];
FcBool glyphs_loaded;
int nmissing;
int i;
XErrorHandler prev_error;
int x1, y1, x2, y2;
/*
* Load missing glyphs
*/
glyphs_loaded = FcFalse;
x1 = y1 = x2 = y2 = 0;
for (i = 0; i < nglyphs; i++)
{
XftFont *public = glyphs[i].font;
XGlyphInfo gi;
int g_x1, g_x2, g_y1, g_y2;
nmissing = 0;
if (XftFontCheckGlyph (dpy, public, FcTrue, glyphs[i].glyph, missing, &nmissing))
glyphs_loaded = FcTrue;
if (nmissing)
XftFontLoadGlyphs (dpy, public, FcTrue, missing, nmissing);
XftGlyphExtents (dpy, public, &glyphs[i].glyph, 1, &gi);
g_x1 = glyphs[i].x - gi.x;
g_y1 = glyphs[i].y - gi.y;
g_x2 = g_x1 + gi.width;
g_y2 = g_y1 + gi.height;
if (i)
{
if (g_x1 < x1)
{
if (g_x1 < 0)
{
/* do nothing if the given glyphs are out of range */
short t = glyphs[i-1].font->max_advance_width
+ glyphs[i-1].x;
if (t < 0 && glyphs[i-1].x > 0)
goto bail1;
}
x1 = g_x1;
}
if (g_y1 < y1)
y1 = g_y1;
if (g_x2 > x2)
x2 = g_x2;
if (g_y2 > y2)
y2 = g_y2;
}
else
{
x1 = g_x1;
y1 = g_y1;
x2 = g_x2;
y2 = g_y2;
}
}
if (x1 == x2 || y1 == y2)
goto bail1;
for (i = 0; i < nglyphs; i++)
if (((XftFontInt *) glyphs[i].font)->info.antialias)
break;
if ((i != nglyphs || color->color.alpha != 0xffff) &&
_XftSmoothGlyphPossible (draw))
{
XImage *image;
unsigned int depth;
int width = x2 - x1, height = y2 - y1;
/*
* Try to get bits directly from the drawable; if that fails,
* use a temporary pixmap. When it does fail, assume it
* will probably fail for a while and keep using temporary
* pixmaps for a while to avoid double round trips.
*/
if (draw->core.use_pixmap == 0)
{
prev_error = XSetErrorHandler (XftGetImageErrorHandler);
image = XGetImage (dpy, draw->drawable,
x1, y1,
width, height, AllPlanes,
ZPixmap);
XSetErrorHandler (prev_error);
if (!image)
draw->core.use_pixmap = XFT_ASSUME_PIXMAP;
}
else
{
draw->core.use_pixmap--;
image = NULL;
}
if (!image && (depth = XftDrawDepth (draw)))
{
Pixmap pix;
GC gc;
XGCValues gcv;
pix = XCreatePixmap (dpy, draw->drawable,
width, height, depth);
gcv.graphics_exposures = False;
gc = XCreateGC (dpy, pix, GCGraphicsExposures, &gcv);
XCopyArea (dpy, draw->drawable, pix, gc, x1, y1,
width, height, 0, 0);
XFreeGC (dpy, gc);
image = XGetImage (dpy, pix, 0, 0, width, height, AllPlanes,
ZPixmap);
XFreePixmap (dpy, pix);
}
if (!image)
goto bail1;
image->red_mask = draw->visual->red_mask;
image->green_mask = draw->visual->green_mask;
image->blue_mask = draw->visual->blue_mask;
if (image->byte_order != XftNativeByteOrder ())
XftSwapImage (image);
for (i = 0; i < nglyphs; i++)
{
XftFont *public = glyphs[i].font;
XftFontInt *font = (XftFontInt *) public;
XftSmoothGlyph smooth = _XftSmoothGlyphFind (draw, public);
FT_UInt glyph = glyphs[i].glyph;
if (glyph >= font->num_glyphs || !(xftg = font->glyphs[glyph]))
xftg = _XftGlyphDefault (dpy, public);
if (xftg)
{
(*smooth) (image, xftg, glyphs[i].x - x1,
glyphs[i].y - y1, color);
}
}
if (image->byte_order != XftNativeByteOrder ())
XftSwapImage (image);
XPutImage (dpy, draw->drawable, draw->core.gc, image, 0, 0, x1, y1,
width, height);
XDestroyImage (image);
}
else
{
for (i = 0; i < nglyphs; i++)
{
XftFont *public = glyphs[i].font;
XftFontInt *font = (XftFontInt *) public;
XftSharpGlyph sharp = _XftSharpGlyphFind (draw, public);
FT_UInt glyph = glyphs[i].glyph;
if (glyph >= font->num_glyphs || !(xftg = font->glyphs[glyph]))
xftg = _XftGlyphDefault (dpy, public);
if (xftg)
(*sharp) (draw, xftg, glyphs[i].x, glyphs[i].y);
}
}
bail1:
if (glyphs_loaded)
for (i = 0; i < nglyphs; i++)
_XftFontManageMemory (dpy, glyphs[i].font);
}