/* readyuv.c - read an Abekas A66 style image file. Steve Simon, 2003 */
#include <u.h>
#include <libc.h>
#include <bio.h>
#include <draw.h>
#include <ctype.h>
#include "imagefile.h"
enum {
Pixels = 720,
R601pal = 576,
R601ntsc = 486,
Shift = 13
};
static int lsbtab[] = { 6, 4, 2, 0};
static int
looksize(char *file, vlong size, int *pixels, int *lines, int *bits)
{
Biobuf *bp;
uvlong l, p;
char *s, *a[12];
/*
* This may not always work, there could be an alias between file
* sizes of different standards stored in 8bits and 10 bits.
*/
if ((bp = Bopen(file, OREAD)) == nil)
return -1;
while((s = Brdstr(bp, '\n', 1)) != nil){
if (tokenize(s, a, nelem(a)) < 3)
continue;
if (a[0][0] == '#')
continue;
p = atoll(a[3]);
l = atoll(a[5]);
l += atoll(a[7]);
if (l*p*2 == size){
*pixels = p;
*lines = l;
*bits = 8;
break;
}
if ((l*p*20)/8 == size){
*pixels = p;
*lines = l;
*bits = 10;
break;
}
}
Bterm(bp);
if (s == nil)
return -1;
return 0;
}
static int
clip(int x)
{
x >>= (Shift+2); // +2 as we assume all input images are 10 bit
if (x > 255)
return 0xff;
if (x <= 0)
return 0;
return x;
}
Rawimage**
Breadyuv(Biobuf *bp, int colourspace)
{
Dir *d;
uvlong sz;
Rawimage *a, **array;
ushort * mux, *end, *frm;
uchar *buf, *r, *g, *b;
int y1, y2, cb, cr, c, l, w, base;
int bits, lines, pixels;
int F1, F2, F3, F4;
if ((d = dirfstat(Bfildes(bp))) != nil){
sz = d->length;
free(d);
}
else{
fprint(2, "cannot stat input, assuming pixelsx576x10bit\n");
sz = Pixels * R601pal * 2L + (Pixels * R601pal / 2L);
}
if (looksize("/lib/video.specs", sz, &pixels, &lines, &bits) == -1){
werrstr("file size not listed in /lib/video.specs");
return nil;
}
buf = nil;
if (colourspace != CYCbCr) {
werrstr("ReadYUV: unknown colour space %d", colourspace);
return nil;
}
if ((a = calloc(sizeof(Rawimage), 1)) == nil)
sysfatal("no memory");
if ((array = calloc(sizeof(Rawimage * ), 2)) == nil)
sysfatal("no memory");
array[0] = a;
array[1] = nil;
a->nchans = 3;
a->chandesc = CRGB;
a->chanlen = pixels * lines;
a->r = Rect(0, 0, pixels, lines);
if ((frm = malloc(pixels*2*lines*sizeof(ushort))) == nil)
goto Error;
for (c = 0; c < 3; c++)
if ((a->chans[c] = malloc(pixels*lines)) == nil)
goto Error;
if ((buf = malloc(pixels*2)) == nil)
goto Error;
for (l = 0; l < lines; l++) {
if (Bread(bp, buf, pixels *2) == -1)
goto Error;
base = l*pixels*2;
for (w = 0; w < pixels *2; w++)
frm[base + w] = ((ushort)buf[w]) << 2;
}
if (bits == 10)
for (l = 0; l < lines; l++) {
if (Bread(bp, buf, pixels / 2) == -1)
goto Error;
base = l * pixels * 2;
for (w = 0; w < pixels * 2; w++)
frm[base + w] |= (buf[w / 4] >> lsbtab[w % 4]) & 3;
}
mux = frm;
end = frm + pixels * lines * 2;
r = a->chans[0];
g = a->chans[1];
b = a->chans[2];
if(pixels == Pixels && lines != R601pal){ // 625
F1 = floor(1.402 * (1 << Shift));
F2 = floor(0.34414 * (1 << Shift));
F3 = floor(0.71414 * (1 << Shift));
F4 = floor(1.772 * (1 << Shift));
}
else{ // 525
F1 = floor(1.5748 * (1 << Shift));
F2 = floor(0.1874 * (1 << Shift));
F3 = floor(0.4681 * (1 << Shift));
F4 = floor(1.8560 * (1 << Shift));
}
/*
* Fixme: fixed colourspace conversion at present
*/
while (mux < end) {
cb = *mux++ - 512;
y1 = (int)*mux++ << Shift;
cr = *mux++ - 512;
y2 = (int)*mux++ << Shift;
*r++ = clip(y1 + F1*cr);
*g++ = clip(y1 - F2*cb - F3*cr);
*b++ = clip((y1 + F4*cb));
*r++ = clip(y2 + F1*cr);
*g++ = clip(y2 - F2*cb - F3*cr);
*b++ = clip((y2 + F4*cb));
}
free(frm);
free(buf);
return array;
Error:
for (c = 0; c < 3; c++)
free(a->chans[c]);
free(a->cmap);
free(array[0]);
free(array);
free(frm);
free(buf);
return nil;
}
Rawimage**
readyuv(int fd, int colorspace)
{
Rawimage * *a;
Biobuf b;
if (Binit(&b, fd, OREAD) < 0)
return nil;
a = Breadyuv(&b, colorspace);
Bterm(&b);
return a;
}
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