int
mem_gray8_rgb24_strip_copy_rop(gx_device * dev,
const byte * sdata, int sourcex, uint sraster, gx_bitmap_id id,
const gx_color_index * scolors,
const gx_strip_bitmap * textures, const gx_color_index * tcolors,
int x, int y, int width, int height,
int phase_x, int phase_y, gs_logical_operation_t lop)
{
gx_device_memory *mdev = (gx_device_memory *) dev;
gs_rop3_t rop = lop_rop(lop);
gx_color_index const_source = gx_no_color_index;
gx_color_index const_texture = gx_no_color_index;
uint draster = mdev->raster;
int line_count;
byte *drow, *base;
int depth = dev->color_info.depth;
int bpp = depth >> 3; /* bytes per pixel, 1 or 3 */
gx_color_index all_ones = ((gx_color_index) 1 << depth) - 1;
gx_color_index strans =
(lop & lop_S_transparent ? all_ones : gx_no_color_index);
gx_color_index ttrans =
(lop & lop_T_transparent ? all_ones : gx_no_color_index);
#ifdef USE_RUN_ROP
rop_run_op ropper;
#ifdef COMPARE_AND_CONTRAST
static byte testbuffer[4096];
static byte *start;
static int bytelen;
#endif
#endif
/* Check for constant source. */
if (!rop3_uses_S(rop))
const_source = 0; /* arbitrary */
else if (scolors != 0 && scolors[0] == scolors[1]) {
/* Constant source */
const_source = scolors[0];
if (const_source == gx_device_black(dev))
rop = rop3_know_S_0(rop);
else if (const_source == gx_device_white(dev))
rop = rop3_know_S_1(rop);
}
/* Check for constant texture. */
if (!rop3_uses_T(rop))
const_texture = 0; /* arbitrary */
else if (tcolors != 0 && tcolors[0] == tcolors[1]) {
/* Constant texture */
const_texture = tcolors[0];
if (const_texture == gx_device_black(dev))
rop = rop3_know_T_0(rop);
else if (const_texture == gx_device_white(dev))
rop = rop3_know_T_1(rop);
}
if (bpp == 1 &&
(gx_device_has_color(dev) ||
(gx_device_black(dev) != 0 || gx_device_white(dev) != all_ones))
) {
/*
* This is an 8-bit device but not gray-scale. Except in a few
* simple cases, we have to use the slow algorithm that converts
* values to and from RGB.
*/
gx_color_index bw_pixel;
switch (rop) {
case rop3_0:
bw_pixel = gx_device_black(dev);
goto bw;
case rop3_1:
bw_pixel = gx_device_white(dev);
bw: if (bw_pixel == 0x00)
rop = rop3_0;
else if (bw_pixel == 0xff)
rop = rop3_1;
else
goto df;
break;
case rop3_D:
break;
case rop3_S:
if (lop & lop_S_transparent)
goto df;
break;
case rop3_T:
if (lop & lop_T_transparent)
goto df;
break;
default:
df: return mem_default_strip_copy_rop(dev,
sdata, sourcex, sraster, id,
scolors, textures, tcolors,
x, y, width, height,
phase_x, phase_y, lop);
}
}
/* Adjust coordinates to be in bounds. */
if (const_source == gx_no_color_index) {
fit_copy(dev, sdata, sourcex, sraster, id,
x, y, width, height);
} else {
fit_fill(dev, x, y, width, height);
}
/* Set up transfer parameters. */
line_count = height;
base = scan_line_base(mdev, y);
drow = base + x * bpp;
/*
* There are 18 cases depending on whether each of the source and
* texture is constant, 1-bit, or multi-bit, and on whether the
* depth is 8 or 24 bits. We divide first according to constant
* vs. non-constant, and then according to 1- vs. multi-bit, and
* finally according to pixel depth. This minimizes source code,
* but not necessarily time, since we do some of the divisions
* within 1 or 2 levels of loop.
*/
#ifdef USE_RUN_ROP
#define dbit(base, i) ((base)[(i) >> 3] & (0x80 >> ((i) & 7)))
/* 8-bit */
#define cbit8(base, i, colors)\
(dbit(base, i) ? (byte)colors[1] : (byte)colors[0])
#define rop_body_8(s_pixel, t_pixel)\
if ( (s_pixel) == strans || /* So = 0, s_tr = 1 */\
(t_pixel) == ttrans /* Po = 0, p_tr = 1 */\
)\
continue;\
*dptr = (*rop_proc_table[rop])(*dptr, s_pixel, t_pixel)
/* 24-bit */
#define get24(ptr)\
(((gx_color_index)(ptr)[0] << 16) | ((gx_color_index)(ptr)[1] << 8) | (ptr)[2])
#define put24(ptr, pixel)\
(ptr)[0] = (byte)((pixel) >> 16),\
(ptr)[1] = (byte)((uint)(pixel) >> 8),\
(ptr)[2] = (byte)(pixel)
#define cbit24(base, i, colors)\
(dbit(base, i) ? colors[1] : colors[0])
#define rop_body_24(s_pixel, t_pixel)\
if ( (s_pixel) == strans || /* So = 0, s_tr = 1 */\
(t_pixel) == ttrans /* Po = 0, p_tr = 1 */\
)\
continue;\
{ gx_color_index d_pixel = get24(dptr);\
d_pixel = (*rop_proc_table[rop])(d_pixel, s_pixel, t_pixel);\
put24(dptr, d_pixel);\
}
if (const_texture != gx_no_color_index) {
/**** Constant texture ****/
if (const_source != gx_no_color_index) {
/**** Constant source & texture ****/
rop_get_run_op(&ropper, lop, depth, rop_s_constant | rop_t_constant);
rop_set_s_constant(&ropper, const_source);
rop_set_t_constant(&ropper, const_texture);
for (; line_count-- > 0; drow += draster) {
#ifdef COMPARE_AND_CONTRAST
byte *dptr = drow;
int left = width;
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
rop_run(&ropper, testbuffer, left);
if (bpp == 1)
/**** 8-bit destination ****/
for (; left > 0; ++dptr, --left) {
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_8((byte)const_source, (byte)const_texture);
}
else
/**** 24-bit destination ****/
for (; left > 0; dptr += 3, --left) {
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_24(const_source, const_texture);
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
rop_run(&ropper, drow, width);
#endif
}
rop_release_run_op(&ropper);
} else {
/**** Data source, const texture ****/
if (scolors) {
const byte *srow = sdata;
rop_get_run_op(&ropper, lop, depth, rop_t_constant | rop_s_1bit);
rop_set_t_constant(&ropper, const_texture);
rop_set_s_colors(&ropper, scolors);
for (; line_count-- > 0; drow += draster, srow += sraster) {
#ifdef COMPARE_AND_CONTRAST
byte *dptr = drow;
int left = width;
/**** 1-bit source ****/
int sx = sourcex;
rop_set_s_bitmap_subbyte(&ropper, srow, sourcex);
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
rop_run(&ropper, testbuffer, width);
if (bpp == 1)
/**** 8-bit destination ****/
for (; left > 0; ++dptr, ++sx, --left) {
byte s_pixel = cbit8(srow, sx, scolors);
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_8(s_pixel, (byte)const_texture);
}
else
/**** 24-bit destination ****/
for (; left > 0; dptr += 3, ++sx, --left) {
bits32 s_pixel = cbit24(srow, sx, scolors);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_24(s_pixel, const_texture);
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
/**** 1-bit source ****/
/**** 8-bit destination ****/
/**** 24-bit destination ****/
rop_set_s_bitmap_subbyte(&ropper, srow, sourcex);
rop_run(&ropper, drow, width);
#endif
}
rop_release_run_op(&ropper);
} else {
const byte *srow = sdata;
rop_get_run_op(&ropper, lop, depth, rop_t_constant);
rop_set_t_constant(&ropper, const_texture);
for (; line_count-- > 0; drow += draster, srow += sraster) {
#ifdef COMPARE_AND_CONTRAST
byte *dptr = drow;
int left = width;
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
rop_set_s_bitmap(&ropper, srow + sourcex * bpp);
rop_run(&ropper, testbuffer, left);
/**** 8-bit source & dest ****/
if (bpp == 1) {
const byte *sptr = srow + sourcex;
for (; left > 0; ++dptr, ++sptr, --left) {
byte s_pixel = *sptr;
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_8(s_pixel, (byte)const_texture);
}
} else {
/**** 24-bit source & dest ****/
const byte *sptr = srow + sourcex * 3;
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
for (; left > 0; dptr += 3, sptr += 3, --left) {
bits32 s_pixel = get24(sptr);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_24(s_pixel, const_texture);
}
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
/**** 8-bit source & dest ****/
/**** 24-bit source & dest ****/
rop_set_s_bitmap(&ropper, srow + sourcex * bpp);
rop_run(&ropper, drow, width);
#endif
}
rop_release_run_op(&ropper);
}
}
} else if (const_source != gx_no_color_index) {
/**** Const source, data texture ****/
if (tcolors) {
uint traster = textures->raster;
int ty = y + phase_y;
rop_get_run_op(&ropper, lop, depth, rop_s_constant | rop_t_1bit);
rop_set_s_constant(&ropper, const_source);
for (; line_count-- > 0; drow += draster, ++ty) { /* Loop over copies of the tile. */
int dx = x, w = width, nw;
byte *dptr = drow;
const byte *trow =
textures->data + (ty % textures->size.y) * traster;
int xoff = x_offset(phase_x, ty, textures);
for (; w > 0; dx += nw, w -= nw) {
int tx = (dx + xoff) % textures->rep_width;
int left = nw = min(w, textures->size.x - tx);
const byte *tptr = trow;
rop_set_t_bitmap_subbyte(&ropper, trow, tx);
#ifdef COMPARE_AND_CONTRAST
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
rop_run(&ropper, testbuffer, left);
/**** 1-bit texture ****/
if (bpp == 1)
/**** 8-bit dest ****/
for (; left > 0; ++dptr, ++tx, --left) {
byte t_pixel = cbit8(tptr, tx, tcolors);
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_8((byte)const_source, t_pixel);
}
else
/**** 24-bit dest ****/
for (; left > 0; dptr += 3, ++tx, --left) {
bits32 t_pixel = cbit24(tptr, tx, tcolors);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_24(const_source, t_pixel);
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
rop_run(&ropper, dptr, left);
dptr += left;
#endif
}
}
} else {
uint traster = textures->raster;
int ty = y + phase_y;
rop_get_run_op(&ropper, lop, depth, rop_s_constant);
rop_set_s_constant(&ropper, const_source);
for (; line_count-- > 0; drow += draster, ++ty) { /* Loop over copies of the tile. */
int dx = x, w = width, nw;
byte *dptr = drow;
const byte *trow =
textures->data + (ty % textures->size.y) * traster;
int xoff = x_offset(phase_x, ty, textures);
for (; w > 0; dx += nw, w -= nw) {
int tx = (dx + xoff) % textures->rep_width;
int left = nw = min(w, textures->size.x - tx);
const byte *tptr = trow + tx*bpp;
rop_set_t_bitmap(&ropper, tptr);
#ifdef COMPARE_AND_CONTRAST
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
rop_run(&ropper, testbuffer, left);
/**** 8-bit T & D ****/
if (bpp == 1) {
for (; left > 0; ++dptr, ++tptr, --left) {
byte t_pixel = *tptr;
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_8((byte)const_source, t_pixel);
}
} else {
/**** 24-bit T & D ****/
for (; left > 0; dptr += 3, tptr += 3, --left) {
bits32 t_pixel = get24(tptr);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_24(const_source, t_pixel);
}
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
/**** 8-bit T & D ****/
/**** 24-bit T & D ****/
rop_run(&ropper, dptr, left);
dptr += left * bpp;
#endif
}
}
rop_release_run_op(&ropper);
}
} else {
/**** Data source & texture ****/
if (scolors != NULL | tcolors != NULL) {
uint traster = textures->raster;
int ty = y + phase_y;
const byte *srow = sdata;
rop_get_run_op(&ropper, lop, depth,
((scolors == NULL ? 0 : rop_s_1bit) |
(tcolors == NULL ? 0 : rop_t_1bit)));
/* Loop over scan lines. */
for (; line_count-- > 0; drow += draster, srow += sraster, ++ty) { /* Loop over copies of the tile. */
int sx = sourcex;
int dx = x;
int w = width;
int nw;
byte *dptr = drow;
const byte *trow =
textures->data + (ty % textures->size.y) * traster;
int xoff = x_offset(phase_x, ty, textures);
for (; w > 0; dx += nw, w -= nw) { /* Loop over individual pixels. */
int tx = (dx + xoff) % textures->rep_width;
int left = nw = min(w, textures->size.x - tx);
const byte *sptr = srow + sx*bpp;
const byte *tptr = trow + tx*bpp;
/*
* For maximum speed, we should split this loop
* into 7 cases depending on source & texture
* depth: (1,1), (1,8), (1,24), (8,1), (8,8),
* (24,1), (24,24). But since we expect these
* cases to be relatively uncommon, we just
* divide on the destination depth.
*/
if (scolors)
rop_set_s_bitmap_subbyte(&ropper, srow, sx);
else
rop_set_s_bitmap(&ropper, sptr);
if (tcolors)
rop_set_t_bitmap_subbyte(&ropper, trow, tx);
else
rop_set_t_bitmap(&ropper, tptr);
#ifdef COMPARE_AND_CONTRAST
bytelen = left*bpp; start = dptr;
memcpy(testbuffer, dptr, bytelen);
rop_run(&ropper, testbuffer, left);
if (bpp == 1) {
/**** 8-bit destination ****/
for (; left > 0; ++dptr, ++sptr, ++tptr, ++sx, ++tx, --left) {
byte s_pixel =
(scolors ? cbit8(srow, sx, scolors) : *sptr);
byte t_pixel =
(tcolors ? cbit8(trow, tx, tcolors) : *tptr);
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_8(s_pixel, t_pixel);
}
} else {
/**** 24-bit destination ****/
for (; left > 0; dptr += 3, sptr += 3, tptr += 3, ++sx, ++tx, --left) {
bits32 s_pixel =
(scolors ? cbit24(srow, sx, scolors) :
get24(sptr));
bits32 t_pixel =
(tcolors ? cbit24(tptr, tx, tcolors) :
get24(tptr));
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_24(s_pixel, t_pixel);
}
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
rop_run(&ropper, dptr, left);
#endif
}
}
} else {
uint traster = textures->raster;
int ty = y + phase_y;
const byte *srow = sdata;
/* Loop over scan lines. */
rop_get_run_op(&ropper, rop, depth, 0);
for (; line_count-- > 0; drow += draster, srow += sraster, ++ty) { /* Loop over copies of the tile. */
int sx = sourcex;
int dx = x;
int w = width;
int nw;
byte *dptr = drow;
const byte *trow =
textures->data + (ty % textures->size.y) * traster;
int xoff = x_offset(phase_x, ty, textures);
for (; w > 0; dx += nw, w -= nw) { /* Loop over individual pixels. */
int tx = (dx + xoff) % textures->rep_width;
int left = nw = min(w, textures->size.x - tx);
const byte *tptr = trow + tx * bpp;
const byte *sptr = srow + sx * bpp;
rop_set_s_bitmap(&ropper, sptr);
rop_set_t_bitmap(&ropper, tptr);
#ifdef COMPARE_AND_CONTRAST
if (bpp == 1) {
rop_run(&ropper, testbuffer, left);
/**** 8-bit destination ****/
for (; left > 0; ++dptr, ++sptr, ++tptr, ++sx, ++tx, --left) {
rop_body_8(*sptr, *tptr);
}
} else {
/**** 24-bit destination ****/
for (; left > 0; dptr += 3, sptr += 3, tptr += 3, ++sx, ++tx, --left) {
bits32 s_pixel = get24(sptr);
bits32 t_pixel = get24(tptr);
rop_body_24(s_pixel, t_pixel);
}
}
if (memcmp(testbuffer, start, bytelen) != 0) {
eprintf("Failed!\n");
}
#else
/**** 8-bit destination ****/
/**** 24-bit destination ****/
rop_run(&ropper, dptr, left);
#endif
}
}
rop_release_run_op(&ropper);
}
}
#undef rop_body_8
#undef rop_body_24
#undef dbit
#undef cbit8
#undef cbit24
#else
#define dbit(base, i) ((base)[(i) >> 3] & (0x80 >> ((i) & 7)))
/* 8-bit */
#define cbit8(base, i, colors)\
(dbit(base, i) ? (byte)colors[1] : (byte)colors[0])
#define rop_body_8(s_pixel, t_pixel)\
if ( (s_pixel) == strans || /* So = 0, s_tr = 1 */\
(t_pixel) == ttrans /* Po = 0, p_tr = 1 */\
)\
continue;\
*dptr = (*rop_proc_table[rop])(*dptr, s_pixel, t_pixel)
/* 24-bit */
#define get24(ptr)\
(((gx_color_index)(ptr)[0] << 16) | ((gx_color_index)(ptr)[1] << 8) | (ptr)[2])
#define put24(ptr, pixel)\
(ptr)[0] = (byte)((pixel) >> 16),\
(ptr)[1] = (byte)((uint)(pixel) >> 8),\
(ptr)[2] = (byte)(pixel)
#define cbit24(base, i, colors)\
(dbit(base, i) ? colors[1] : colors[0])
#define rop_body_24(s_pixel, t_pixel)\
if ( (s_pixel) == strans || /* So = 0, s_tr = 1 */\
(t_pixel) == ttrans /* Po = 0, p_tr = 1 */\
)\
continue;\
{ gx_color_index d_pixel = get24(dptr);\
d_pixel = (*rop_proc_table[rop])(d_pixel, s_pixel, t_pixel);\
put24(dptr, d_pixel);\
}
if (const_texture != gx_no_color_index) {
/**** Constant texture ****/
if (const_source != gx_no_color_index) {
/**** Constant source & texture ****/
for (; line_count-- > 0; drow += draster) {
byte *dptr = drow;
int left = width;
if (bpp == 1)
/**** 8-bit destination ****/
for (; left > 0; ++dptr, --left) {
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_8((byte)const_source, (byte)const_texture);
}
else
/**** 24-bit destination ****/
for (; left > 0; dptr += 3, --left) {
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_24(const_source, const_texture);
}
}
} else {
/**** Data source, const texture ****/
const byte *srow = sdata;
for (; line_count-- > 0; drow += draster, srow += sraster) {
byte *dptr = drow;
int left = width;
if (scolors) {
/**** 1-bit source ****/
int sx = sourcex;
if (bpp == 1)
/**** 8-bit destination ****/
for (; left > 0; ++dptr, ++sx, --left) {
byte s_pixel = cbit8(srow, sx, scolors);
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_8(s_pixel, (byte)const_texture);
}
else
/**** 24-bit destination ****/
for (; left > 0; dptr += 3, ++sx, --left) {
bits32 s_pixel = cbit24(srow, sx, scolors);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_24(s_pixel, const_texture);
}
} else if (bpp == 1) {
/**** 8-bit source & dest ****/
const byte *sptr = srow + sourcex;
for (; left > 0; ++dptr, ++sptr, --left) {
byte s_pixel = *sptr;
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_8(s_pixel, (byte)const_texture);
}
} else {
/**** 24-bit source & dest ****/
const byte *sptr = srow + sourcex * 3;
for (; left > 0; dptr += 3, sptr += 3, --left) {
bits32 s_pixel = get24(sptr);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), const_texture);
rop_body_24(s_pixel, const_texture);
}
}
}
}
} else if (const_source != gx_no_color_index) {
/**** Const source, data texture ****/
uint traster = textures->raster;
int ty = y + phase_y;
for (; line_count-- > 0; drow += draster, ++ty) { /* Loop over copies of the tile. */
int dx = x, w = width, nw;
byte *dptr = drow;
const byte *trow =
textures->data + (ty % textures->size.y) * traster;
int xoff = x_offset(phase_x, ty, textures);
for (; w > 0; dx += nw, w -= nw) {
int tx = (dx + xoff) % textures->rep_width;
int left = nw = min(w, textures->size.x - tx);
const byte *tptr = trow;
if (tcolors) {
/**** 1-bit texture ****/
if (bpp == 1)
/**** 8-bit dest ****/
for (; left > 0; ++dptr, ++tx, --left) {
byte t_pixel = cbit8(tptr, tx, tcolors);
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_8((byte)const_source, t_pixel);
}
else
/**** 24-bit dest ****/
for (; left > 0; dptr += 3, ++tx, --left) {
bits32 t_pixel = cbit24(tptr, tx, tcolors);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_24(const_source, t_pixel);
}
} else if (bpp == 1) {
/**** 8-bit T & D ****/
tptr += tx;
for (; left > 0; ++dptr, ++tptr, --left) {
byte t_pixel = *tptr;
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_8((byte)const_source, t_pixel);
}
} else {
/**** 24-bit T & D ****/
tptr += tx * 3;
for (; left > 0; dptr += 3, tptr += 3, --left) {
bits32 t_pixel = get24(tptr);
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_24(const_source, t_pixel);
}
}
}
}
} else {
/**** Data source & texture ****/
uint traster = textures->raster;
int ty = y + phase_y;
const byte *srow = sdata;
/* Loop over scan lines. */
for (; line_count-- > 0; drow += draster, srow += sraster, ++ty) { /* Loop over copies of the tile. */
int sx = sourcex;
int dx = x;
int w = width;
int nw;
byte *dptr = drow;
const byte *trow =
textures->data + (ty % textures->size.y) * traster;
int xoff = x_offset(phase_x, ty, textures);
for (; w > 0; dx += nw, w -= nw) { /* Loop over individual pixels. */
int tx = (dx + xoff) % textures->rep_width;
int left = nw = min(w, textures->size.x - tx);
const byte *tptr = trow;
/*
* For maximum speed, we should split this loop
* into 7 cases depending on source & texture
* depth: (1,1), (1,8), (1,24), (8,1), (8,8),
* (24,1), (24,24). But since we expect these
* cases to be relatively uncommon, we just
* divide on the destination depth.
*/
if (bpp == 1) {
/**** 8-bit destination ****/
const byte *sptr = srow + sx;
tptr += tx;
for (; left > 0; ++dptr, ++sptr, ++tptr, ++sx, ++tx, --left) {
byte s_pixel =
(scolors ? cbit8(srow, sx, scolors) : *sptr);
byte t_pixel =
(tcolors ? cbit8(tptr, tx, tcolors) : *tptr);
vd_pixel(int2fixed((dptr - base) % draster),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_8(s_pixel, t_pixel);
}
} else {
/**** 24-bit destination ****/
const byte *sptr = srow + sx * 3;
tptr += tx * 3;
for (; left > 0; dptr += 3, sptr += 3, tptr += 3, ++sx, ++tx, --left) {
bits32 s_pixel =
(scolors ? cbit24(srow, sx, scolors) :
get24(sptr));
bits32 t_pixel =
(tcolors ? cbit24(tptr, tx, tcolors) :
get24(tptr));
vd_pixel(int2fixed((dptr - base) % draster / 3),
int2fixed((dptr - base) / draster + y), t_pixel);
rop_body_24(s_pixel, t_pixel);
}
}
}
}
}
#undef rop_body_8
#undef rop_body_24
#undef dbit
#undef cbit8
#undef cbit24
#endif
return 0;
}
/*
* The default implementation for non-memory devices uses get_bits_rectangle
* to read out the pixels, the memory device implementation to do the
* operation, and copy_color to write the pixels back.
*/
int
gx_default_strip_copy_rop(gx_device * dev,
const byte * sdata, int sourcex,
uint sraster, gx_bitmap_id id,
const gx_color_index * scolors,
const gx_strip_bitmap * textures,
const gx_color_index * tcolors,
int x, int y, int width, int height,
int phase_x, int phase_y,
gs_logical_operation_t lop)
{
int depth = dev->color_info.depth;
gs_memory_t *mem = dev->memory;
const gx_device_memory *mdproto = gdev_mem_device_for_bits(depth);
gx_device_memory mdev;
uint draster;
byte *row = 0;
gs_int_rect rect;
int max_height;
int block_height;
int code;
int py;
#ifdef DEBUG
if (gs_debug_c('b'))
trace_copy_rop("gx_default_strip_copy_rop",
dev, sdata, sourcex, sraster,
id, scolors, textures, tcolors,
x, y, width, height, phase_x, phase_y, lop);
#endif
if (mdproto == 0)
return_error(gs_error_rangecheck);
if (sdata == 0) {
fit_fill(dev, x, y, width, height);
} else {
fit_copy(dev, sdata, sourcex, sraster, id, x, y, width, height);
}
draster = bitmap_raster(width * depth);
max_height = max_rop_bitmap / draster;
if (max_height == 0)
max_height = 1;
block_height = min(height, max_height);
gs_make_mem_device(&mdev, mdproto, mem, -1, dev);
gx_device_retain((gx_device *)&mdev, true); /* prevent freeing */
mdev.width = width;
mdev.height = block_height;
mdev.bitmap_memory = mem;
mdev.color_info = dev->color_info;
code = (*dev_proc(&mdev, open_device))((gx_device *)&mdev);
if (code < 0)
return code;
if (rop3_uses_D(gs_transparent_rop(lop))) {
row = gs_alloc_bytes(mem, draster * block_height, "copy_rop row");
if (row == 0) {
code = gs_note_error(gs_error_VMerror);
goto out;
}
}
rect.p.x = x;
rect.q.x = x + width;
for (py = y; py < y + height; py += block_height) {
if (block_height > y + height - py)
block_height = y + height - py;
rect.p.y = py;
rect.q.y = py + block_height;
if (row /*uses_d*/) {
gs_get_bits_params_t bit_params;
bit_params.options =
GB_COLORS_NATIVE | GB_ALPHA_NONE | GB_DEPTH_ALL |
GB_PACKING_CHUNKY | GB_RETURN_ALL | GB_ALIGN_STANDARD |
GB_OFFSET_0 | GB_OFFSET_ANY | GB_RASTER_STANDARD;
bit_params.data[0] = row;
bit_params.x_offset = 0;
code = (*dev_proc(dev, get_bits_rectangle))
(dev, &rect, &bit_params, NULL);
if (code < 0)
break;
code = (*dev_proc(&mdev, copy_color))
((gx_device *)&mdev, bit_params.data[0], bit_params.x_offset,
draster, gx_no_bitmap_id, 0, 0, width,
block_height);
if (code < 0)
return code;
}
code = (*dev_proc(&mdev, strip_copy_rop))
((gx_device *)&mdev,
sdata + (py - y) * sraster, sourcex, sraster,
gx_no_bitmap_id, scolors, textures, tcolors,
0, 0, width, block_height, phase_x + x, phase_y + py, lop);
if (code < 0)
break;
code = (*dev_proc(dev, copy_color))
(dev, scan_line_base(&mdev, 0), 0, draster, gx_no_bitmap_id,
x, py, width, block_height);
if (code < 0)
break;
}
out:
gs_free_object(mem, row, "copy_rop row");
(*dev_proc(&mdev, close_device))((gx_device *)&mdev);
return code;
}
