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/* Copyright (C) 2001-2019 Artifex Software, Inc.
All Rights Reserved.
This software is provided AS-IS with no warranty, either express or
implied.
This software is distributed under license and may not be copied,
modified or distributed except as expressly authorized under the terms
of the license contained in the file LICENSE in this distribution.
Refer to licensing information at http://www.artifex.com or contact
Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato,
CA 94945, U.S.A., +1(415)492-9861, for further information.
*/
/* 64-bit-per-pixel "memory" (stored bitmap) device */
#include "memory_.h"
#include "gx.h"
#include "gxdevice.h"
#include "gxdevmem.h" /* semi-public definitions */
#include "gdevmem.h" /* private definitions */
/* Define debugging statistics. */
#if defined(DEBUG) && !defined(GS_THREADSAFE)
struct stats_mem64_s {
long
fill, fwide, fgray[101], fsetc, fcolor[101], fnarrow[5],
fprevc[257];
double ftotal;
} stats_mem64;
static int prev_count = 0;
static gx_color_index prev_colors[256];
# define INCR(v) (++(stats_mem64.v))
#else
# define INCR(v) DO_NOTHING
#endif
/* ================ Standard (byte-oriented) device ================ */
#undef chunk
#define chunk byte
#define PIXEL_SIZE 2
/* Procedures */
declare_mem_procs(mem_true64_copy_mono, mem_true64_copy_color, mem_true64_fill_rectangle);
/* The device descriptor. */
const gx_device_memory mem_true64_device =
mem_full_alpha_device("image64", 64, 0, mem_open,
gx_default_rgb_map_rgb_color, gx_default_rgb_map_color_rgb,
mem_true64_copy_mono, mem_true64_copy_color, mem_true64_fill_rectangle,
gx_default_map_cmyk_color, gx_default_copy_alpha,
gx_default_strip_tile_rectangle, mem_default_strip_copy_rop,
mem_get_bits_rectangle);
/* Convert x coordinate to byte offset in scan line. */
#undef x_to_byte
#define x_to_byte(x) ((x) << 3)
/* Put a 64-bit color into the bitmap. */
#define put8(ptr, abcd, efgh)\
(ptr)[0] = abcd, (ptr)[1] = efgh
/* Free variables: [m]dev, abcd, degh. */
#if ARCH_IS_BIG_ENDIAN
/* Unpack a color into 32 bit chunks. */
# define declare_unpack_color(abcd, efgh, color)\
bits32 abcd = (bits32)((color) >> 32);\
bits32 efgh = (bits32)(color)
#else
/* Unpack a color into 32 bit chunks. */
# define declare_unpack_color(abcd, efgh, color)\
bits32 abcd = (bits32)((0x000000ff & (((color) >> 28) >> 28)) |\
(0x0000ff00 & (((color) >> 24) >> 16)) |\
(0x00ff0000 & ((color) >> 24)) |\
(0xff000000 & ((color) >> 8)));\
bits32 efgh = (bits32)((0x000000ff & ((color) >> 24)) |\
(0x0000ff00 & ((color) >> 8)) |\
(0x00ff0000 & ((color) << 8)) |\
(0xff000000 & ((color) << 24)))
#endif
#define dest32 ((bits32 *)dest)
/* Fill a rectangle with a color. */
static int
mem_true64_fill_rectangle(gx_device * dev,
int x, int y, int w, int h, gx_color_index color)
{
gx_device_memory * const mdev = (gx_device_memory *)dev;
declare_scan_ptr(dest);
declare_unpack_color(abcd, efgh, color);
/*
* In order to avoid testing w > 0 and h > 0 twice, we defer
* executing setup_rect, and use fit_fill_xywh instead of
* fit_fill.
*/
fit_fill_xywh(dev, x, y, w, h);
INCR(fill);
#if defined(DEBUG) && !defined(GS_THREADSAFE)
stats_mem64.ftotal += w;
#endif
if (h <= 0)
return 0;
if (w >= 5) {
INCR(fwide);
setup_rect(dest);
#if defined(DEBUG) && !defined(GS_THREADSAFE)
{
int ci;
for (ci = 0; ci < prev_count; ++ci)
if (prev_colors[ci] == color)
break;
INCR(fprevc[ci]);
if (ci == prev_count) {
if (ci < countof(prev_colors))
++prev_count;
else
--ci;
}
if (ci) {
memmove(&prev_colors[1], &prev_colors[0],
ci * sizeof(prev_colors[0]));
prev_colors[0] = color;
}
}
#endif
INCR(fcolor[min(w, 100)]);
while (h-- > 0) {
register bits32 *pptr = dest32;
int w1 = w;
while (w1 >= 4) {
put8(pptr, abcd, efgh);
put8(pptr + 2, abcd, efgh);
put8(pptr + 4, abcd, efgh);
put8(pptr + 6, abcd, efgh);
pptr += 4 * PIXEL_SIZE;
w1 -= 4;
}
switch (w1) {
case 1:
put8(pptr, abcd, efgh);
break;
case 2:
put8(pptr, abcd, efgh);
put8(pptr + 2, abcd, efgh);
break;
case 3:
put8(pptr, abcd, efgh);
put8(pptr + 2, abcd, efgh);
put8(pptr + 4, abcd, efgh);
break;
case 0:
;
}
inc_ptr(dest, draster);
}
} else { /* w < 5 */
INCR(fnarrow[max(w, 0)]);
setup_rect(dest);
switch (w) {
case 4:
do {
put8(dest32, abcd, efgh);
put8(dest32 + 2, abcd, efgh);
put8(dest32 + 4, abcd, efgh);
put8(dest32 + 6, abcd, efgh);
inc_ptr(dest, draster);
}
while (--h);
break;
case 3:
do {
put8(dest32, abcd, efgh);
put8(dest32 + 2, abcd, efgh);
put8(dest32 + 4, abcd, efgh);
inc_ptr(dest, draster);
}
while (--h);
break;
case 2:
do {
put8(dest32, abcd, efgh);
put8(dest32 + 2, abcd, efgh);
inc_ptr(dest, draster);
}
while (--h);
break;
case 1:
do {
put8(dest32, abcd, efgh);
inc_ptr(dest, draster);
}
while (--h);
break;
case 0:
default:
;
}
}
return 0;
}
/* Copy a monochrome bitmap. */
static int
mem_true64_copy_mono(gx_device * dev,
const byte * base, int sourcex, int sraster, gx_bitmap_id id,
int x, int y, int w, int h, gx_color_index zero, gx_color_index one)
{
gx_device_memory * const mdev = (gx_device_memory *)dev;
const byte *line;
int sbit;
int first_bit;
declare_scan_ptr(dest);
fit_copy(dev, base, sourcex, sraster, id, x, y, w, h);
setup_rect(dest);
line = base + (sourcex >> 3);
sbit = sourcex & 7;
first_bit = 0x80 >> sbit;
if (zero != gx_no_color_index) { /* Loop for halftones or inverted masks */
/* (never used). */
declare_unpack_color(abcd0, efgh0, zero);
declare_unpack_color(abcd1, efgh1, one);
while (h-- > 0) {
register bits32 *pptr = dest32;
const byte *sptr = line;
register int sbyte = *sptr++;
register int bit = first_bit;
int count = w;
do {
if (sbyte & bit) {
if (one != gx_no_color_index)
put8(pptr, abcd1, efgh1);
} else
put8(pptr, abcd0, efgh0);
pptr += PIXEL_SIZE;
if ((bit >>= 1) == 0)
bit = 0x80, sbyte = *sptr++;
}
while (--count > 0);
line += sraster;
inc_ptr(dest, draster);
}
} else if (one != gx_no_color_index) { /* Loop for character and pattern masks. */
/* This is used heavily. */
declare_unpack_color(abcd1, efgh1, one);
int first_mask = first_bit << 1;
int first_count, first_skip;
if (sbit + w > 8)
first_mask -= 1,
first_count = 8 - sbit;
else
first_mask -= first_mask >> w,
first_count = w;
first_skip = first_count * PIXEL_SIZE;
while (h-- > 0) {
register bits32 *pptr = dest32;
const byte *sptr = line;
register int sbyte = *sptr++ & first_mask;
int count = w - first_count;
if (sbyte) {
register int bit = first_bit;
do {
if (sbyte & bit)
put8(pptr, abcd1, efgh1);
pptr += PIXEL_SIZE;
}
while ((bit >>= 1) & first_mask);
} else
pptr += first_skip;
while (count >= 8) {
sbyte = *sptr++;
if (sbyte & 0xf0) {
if (sbyte & 0x80)
put8(pptr, abcd1, efgh1);
if (sbyte & 0x40)
put8(pptr + 2, abcd1, efgh1);
if (sbyte & 0x20)
put8(pptr + 4, abcd1, efgh1);
if (sbyte & 0x10)
put8(pptr + 6, abcd1, efgh1);
}
if (sbyte & 0xf) {
if (sbyte & 8)
put8(pptr + 8, abcd1, efgh1);
if (sbyte & 4)
put8(pptr + 10, abcd1, efgh1);
if (sbyte & 2)
put8(pptr + 12, abcd1, efgh1);
if (sbyte & 1)
put8(pptr + 14, abcd1, efgh1);
}
pptr += 8 * PIXEL_SIZE;
count -= 8;
}
if (count > 0) {
register int bit = 0x80;
sbyte = *sptr++;
do {
if (sbyte & bit)
put8(pptr, abcd1, efgh1);
pptr += PIXEL_SIZE;
bit >>= 1;
}
while (--count > 0);
}
line += sraster;
inc_ptr(dest, draster);
}
}
return 0;
}
/* Copy a color bitmap. */
static int
mem_true64_copy_color(gx_device * dev,
const byte * base, int sourcex, int sraster, gx_bitmap_id id,
int x, int y, int w, int h)
{
gx_device_memory * const mdev = (gx_device_memory *)dev;
fit_copy(dev, base, sourcex, sraster, id, x, y, w, h);
mem_copy_byte_rect(mdev, base, sourcex, sraster, x, y, w, h);
return 0;
}
/* ================ "Word"-oriented device ================ */
/* Note that on a big-endian machine, this is the same as the */
/* standard byte-oriented-device. */
#if !ARCH_IS_BIG_ENDIAN
/* Procedures */
declare_mem_procs(mem64_word_copy_mono, mem64_word_copy_color, mem64_word_fill_rectangle);
/* Here is the device descriptor. */
const gx_device_memory mem_true64_word_device =
mem_full_device("image64w", 64, 0, mem_open,
gx_default_rgb_map_rgb_color, gx_default_rgb_map_color_rgb,
mem64_word_copy_mono, mem64_word_copy_color, mem64_word_fill_rectangle,
gx_default_map_cmyk_color, gx_default_strip_tile_rectangle,
gx_no_strip_copy_rop, mem_word_get_bits_rectangle);
/* Fill a rectangle with a color. */
static int
mem64_word_fill_rectangle(gx_device * dev, int x, int y, int w, int h,
gx_color_index color)
{
gx_device_memory * const mdev = (gx_device_memory *)dev;
byte *base;
uint raster;
fit_fill(dev, x, y, w, h);
base = scan_line_base(mdev, y);
raster = mdev->raster;
mem_swap_byte_rect(base, raster, x * 64, w * 64, h, true);
mem_true64_fill_rectangle(dev, x, y, w, h, color);
mem_swap_byte_rect(base, raster, x * 64, w * 64, h, false);
return 0;
}
/* Copy a bitmap. */
static int
mem64_word_copy_mono(gx_device * dev,
const byte * base, int sourcex, int sraster, gx_bitmap_id id,
int x, int y, int w, int h, gx_color_index zero, gx_color_index one)
{
gx_device_memory * const mdev = (gx_device_memory *)dev;
byte *row;
uint raster;
bool store;
fit_copy(dev, base, sourcex, sraster, id, x, y, w, h);
row = scan_line_base(mdev, y);
raster = mdev->raster;
store = (zero != gx_no_color_index && one != gx_no_color_index);
mem_swap_byte_rect(row, raster, x * 64, w * 64, h, store);
mem_true64_copy_mono(dev, base, sourcex, sraster, id,
x, y, w, h, zero, one);
mem_swap_byte_rect(row, raster, x * 64, w * 64, h, false);
return 0;
}
/* Copy a color bitmap. */
static int
mem64_word_copy_color(gx_device * dev,
const byte * base, int sourcex, int sraster, gx_bitmap_id id,
int x, int y, int w, int h)
{
gx_device_memory * const mdev = (gx_device_memory *)dev;
byte *row;
uint raster;
fit_copy(dev, base, sourcex, sraster, id, x, y, w, h);
row = scan_line_base(mdev, y);
raster = mdev->raster;
mem_swap_byte_rect(row, raster, x * 64, w * 64, h, true);
bytes_copy_rectangle(row + x * PIXEL_SIZE, raster, base + sourcex * PIXEL_SIZE,
sraster, w * PIXEL_SIZE, h);
mem_swap_byte_rect(row, raster, x * 64, w * 64, h, false);
return 0;
}
#endif /* !ARCH_IS_BIG_ENDIAN */
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