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dcraw/fuji_green.c

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/*
fuji_green -- read Fuji green pixels
$Revision: 1.2 $
$Date: 2006/03/01 01:46:47 $
*/
#include <ctype.h>
#include <math.h>
#include <setjmp.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define ushort UshORt
typedef unsigned char uchar;
typedef unsigned short ushort;
FILE *ifp;
short order;
char *ifname, make[64], model[64];
int data_offset, raw_height, raw_width, height, width;
int fuji_layout, fuji_secondary, use_secondary=0, verbose=0;
ushort *image;
void (*load_raw)();
float bright=1.0;
void write_ppm(FILE *);
void (*write_fun)(FILE *) = write_ppm;
jmp_buf failure;
#define CLASS
void CLASS merror (void *ptr, char *where)
{
if (ptr) return;
fprintf (stderr, "%s: Out of memory in %s\n", ifname, where);
longjmp (failure, 1);
}
ushort CLASS get2()
{
uchar a, b;
a = fgetc(ifp);
b = fgetc(ifp);
if (order == 0x4949) /* "II" means little-endian */
return a + (b << 8);
else /* "MM" means big-endian */
return (a << 8) + b;
}
int CLASS get4()
{
uchar a, b, c, d;
a = fgetc(ifp);
b = fgetc(ifp);
c = fgetc(ifp);
d = fgetc(ifp);
if (order == 0x4949)
return a + (b << 8) + (c << 16) + (d << 24);
else
return (a << 24) + (b << 16) + (c << 8) + d;
}
/*
Faster than calling get2() multiple times.
*/
void CLASS read_shorts (ushort *pixel, int count)
{
fread (pixel, 2, count, ifp);
if ((order == 0x4949) == (ntohs(0x1234) == 0x1234))
swab (pixel, pixel, count*2);
}
void CLASS fuji_load_raw()
{
ushort *pixel, *img;
int row, col;
pixel = calloc (raw_width, 2);
merror (pixel, "fuji_load_raw()");
for (row=0; row < height; row++)
if (fuji_layout) {
read_shorts (image+row*width, width);
fseek (ifp, (raw_width*2 - width)*2, SEEK_CUR);
} else {
read_shorts (pixel, raw_width);
for (img=image+row*width, col=0; col < width; col++)
img[col] = pixel[col*2+1];
}
free (pixel);
}
void CLASS parse_fuji (int offset)
{
unsigned entries, tag, len, save;
fseek (ifp, offset, SEEK_SET);
entries = get4();
if (entries > 255) return;
while (entries--) {
tag = get2();
len = get2();
save = ftell(ifp);
if (tag == 0x100) {
raw_height = get2();
raw_width = get2();
} else if (tag == 0x121) {
height = get2();
width = get2();
} else if (tag == 0x130)
fuji_layout = fgetc(ifp) >> 7;
fseek (ifp, save+len, SEEK_SET);
}
if (fuji_layout) {
height *= 2;
width /= 2;
}
}
void CLASS parse_tiff (int base)
{
int doff, entries, tag, type, len, save;
fseek (ifp, base, SEEK_SET);
order = get2();
get2(); /* Should be 42 for standard TIFF */
while ((doff = get4())) {
fseek (ifp, doff+base, SEEK_SET);
entries = get2();
while (entries--) {
tag = get2();
type = get2();
len = get4();
save = ftell(ifp)+4;
fseek (ifp, base+get4(), SEEK_SET);
switch (tag) {
case 0x10f: /* Make tag */
fgets (make, 64, ifp);
break;
case 0x110: /* Model tag */
fgets (model, 64, ifp);
}
fseek (ifp, save, SEEK_SET);
}
}
}
int CLASS identify()
{
char head[32], *c;
int thumb_offset;
make[0] = model[0] = 0;
data_offset = raw_height = raw_width = height = width = 0;
fuji_secondary = 0;
order = 0x4d4d;
fread (head, 1, 32, ifp);
if (memcmp (head, "FUJIFILM", 8)) return 1;
fseek (ifp, 84, SEEK_SET);
thumb_offset = get4();
fseek (ifp, 92, SEEK_SET);
parse_fuji (get4());
if (thumb_offset > 120) {
fseek (ifp, 120, SEEK_SET);
fuji_secondary = get4() && 1;
}
fseek (ifp, 100, SEEK_SET);
data_offset = get4();
parse_tiff (thumb_offset+12);
c = model + strlen(model); /* Remove trailing spaces */
while (*--c == ' ') *c = 0;
if (!strcmp(model,"FinePix S5100") ||
!strcmp(model,"FinePix S5500")) return 1;
load_raw = fuji_load_raw;
if (!strcmp(model+7,"S2Pro")) {
strcpy (model+7," S2Pro");
height = 2144;
width = 2880;
}
data_offset += (raw_height - height + 1)*raw_width - width;
if (fuji_secondary)
data_offset += use_secondary * ( strcmp(model+7," S3Pro")
? (raw_width *= 2) : raw_height*raw_width*2 );
data_offset += fuji_layout*raw_width*2;
width >>= !fuji_layout;
height >>= fuji_layout;
fseek (ifp, data_offset, SEEK_SET);
return 0;
}
void CLASS write_ppm (FILE *ofp)
{
int i, size, val, total, histogram[0x2000];
float white, r;
uchar lut[0x10000];
memset (histogram, 0, sizeof histogram);
size = width * height;
for (i = 0; i < size; i++)
histogram[image[i] >> 4]++;
i = size * 0.01; /* 99th percentile white point */
for (val=0x2000, total=0; --val; )
if ((total += histogram[val]) > i) break;
white = (val << 4) / bright;
for (i=0; i < 0x10000; i++) {
r = i / white;
val = (r <= 0.018 ? r*4.5 : pow(r,0.45)*1.099-0.099) * 256;
if (val > 255) val = 255;
lut[i] = val;
}
fprintf (ofp, "P5\n%d %d\n255\n", width, height);
for (i=0; i < size; i++)
fputc (lut[image[i]], ofp);
}
void CLASS write_raw16 (FILE *ofp)
{
if (ntohs(0x1234) != 0x1234)
swab (image, image, width*height*2);
fwrite (image, width*height, 2, ofp);
}
void CLASS write_ppm16 (FILE *ofp)
{
fprintf (ofp, "P5\n%d %d\n%d\n", width, height, 65535);
write_raw16 (ofp);
}
void CLASS write_psd (FILE *ofp)
{
char head[] = {
'8','B','P','S', /* signature */
0,1,0,0,0,0,0,0, /* version and reserved */
0,1, /* number of channels */
0,0,0,0, /* height, big-endian */
0,0,0,0, /* width, big-endian */
0,16, /* 16-bit color */
0,1, /* mode (1=grey, 3=rgb) */
0,0,0,0, /* color mode data */
0,0,0,0, /* image resources */
0,0,0,0, /* layer/mask info */
0,0 }; /* no compression */
int hw[2];
hw[0] = htonl(height*2); /* write the header */
hw[1] = htonl(width*2);
memcpy (head+14, hw, sizeof hw);
fwrite (head, 40, 1, ofp);
write_raw16 (ofp);
}
int CLASS main (int argc, char **argv)
{
int arg, status=0;
int identify_only=0, write_to_stdout=0;
char opt, *ofname, *cp;
const char *write_ext = ".pgm";
FILE *ofp = stdout;
if (argc == 1) {
fprintf (stderr,
"\nFuji Green channel output"
"\nby Dave Coffin, dcoffin a cybercom o net"
"\n\nUsage: %s [options] file1 file2 ...\n"
"\nValid options:"
"\n-v Print verbose messages"
"\n-c Write image data to standard output"
"\n-i Identify files without decoding them"
"\n-s Use secondary pixels if available"
"\n-b <num> Set brightness (default = 1.0)"
"\n-2 Write 8-bit non-linear PGM (default)"
"\n-4 Write 16-bit linear PGM"
"\n-3 Write 16-bit linear PSD (Adobe Photoshop)"
"\n\n", argv[0]);
return 1;
}
argv[argc] = "";
for (arg=1; argv[arg][0] == '-'; ) {
opt = argv[arg++][1];
if (strchr ("b", opt) && !isdigit(argv[arg][0])) {
fprintf (stderr, "\"-%c\" requires a numeric argument.\n", opt);
return 1;
}
switch (opt) {
case 'v': verbose = 1; break;
case 'i': identify_only = 1; break;
case 'c': write_to_stdout = 1; break;
case 's': use_secondary = 1; break;
case 'b': bright = atof(argv[arg++]); break;
case '2': write_fun = write_ppm; break;
case '4': write_fun = write_ppm16; break;
case '3': write_fun = write_psd; write_ext = ".psd"; break;
default:
fprintf (stderr, "Unknown option \"-%c\".\n", opt);
return 1;
}
}
if (arg == argc) {
fprintf (stderr, "No files to process.\n");
return 1;
}
if (write_to_stdout) {
if (isatty(1)) {
fprintf (stderr, "Will not write an image to the terminal!\n");
return 1;
}
#if defined(WIN32) || defined(DJGPP)
if (setmode(1,O_BINARY) < 0) {
perror("setmode()");
return 1;
}
#endif
}
for ( ; arg < argc; arg++) {
status = 1;
image = NULL;
if (setjmp (failure)) {
if (fileno(ifp) > 2) fclose (ifp);
if (fileno(ofp) > 2) fclose (ofp);
if (image) free (image);
status = 1;
continue;
}
ifname = argv[arg];
if (!(ifp = fopen (ifname, "rb"))) {
perror (ifname);
continue;
}
if ((status = identify())) {
fprintf (stderr, "%s: unsupported file format.\n", ifname);
fclose (ifp);
continue;
}
if (identify_only) {
fprintf (stderr, "%s is a %s %s image.\n", ifname, make, model);
fclose (ifp);
continue;
}
image = calloc (height * width, sizeof *image);
merror (image, "main()");
if (verbose)
fprintf (stderr,
"Loading %s %s image from %s...\n", make, model, ifname);
(*load_raw)();
fclose (ifp);
ofname = malloc (strlen(ifname) + 16);
merror (ofname, "main()");
if (write_to_stdout)
strcpy (ofname, "standard output");
else {
strcpy (ofname, ifname);
if ((cp = strrchr (ofname, '.'))) *cp = 0;
strcat (ofname, write_ext);
ofp = fopen (ofname, "wb");
if (!ofp) {
status = 1;
perror (ofname);
goto cleanup;
}
}
if (verbose)
fprintf (stderr, "Writing data to %s...\n", ofname);
(*write_fun)(ofp);
if (ofp != stdout)
fclose (ofp);
cleanup:
free (ofname);
free (image);
}
return status;
}