ref: d71d5fc296e01ce3c2189087c5ff190676b7564f
dir: /convert.c/
#include <u.h>
#include <libc.h>
#include <draw.h>
#include <memdraw.h>
static struct {
char *name[2];
ulong chan;
}chans[] = {
{{"grey1", "k1"}, GREY1},
{{"grey2", "k2"}, GREY2},
{{"grey4", "k4"}, GREY4},
{{"grey8", "k8"}, GREY8},
{{"cmap8", "m8"}, CMAP8},
{{"rgb15", "x1r5g5b5"}, RGB15},
{{"rgb16", "r5g6b5"}, RGB16},
{{"rgb24", "r8g8b8"}, RGB24},
{{"rgba32", "r8g8b8a8"}, RGBA32},
{{"argb32", "a8r8g8b8"}, ARGB32},
{{"xrgb32", "x8r8g8b8"}, XRGB32},
{{"bgr24", "b8g8r8"}, BGR24},
{{"abgr32", "a8b8g8r8"}, ABGR32},
{{"xbgr32", "x8b8g8r8"}, XBGR32},
};
static void
usage(void)
{
fprint(2, "usage: %s [-c CHAN]\n", argv0);
exits("usage");
}
void
main(int argc, char **argv)
{
Memimage *a, *b;
char *s;
int ci;
ci = -1;
ARGBEGIN{
case 'c':
s = EARGF(usage());
for(ci = 0;
ci < nelem(chans) &&
cistrcmp(chans[ci].name[0], s) != 0 &&
cistrcmp(chans[ci].name[1], s) != 0;
ci++)
;
if(ci >= nelem(chans)){
fprint(2, "invalid chan %s\n", s);
sysfatal("chan");
}
break;
default:
usage();
}ARGEND
memimageinit();
if((a = readmemimage(0)) == nil)
sysfatal("memory");
if(ci >= 0 && a->chan != chans[ci].chan){
if((b = allocmemimage(a->r, chans[ci].chan)) == nil)
sysfatal("memory");
memimagedraw(b, a->r, a, ZP, nil, ZP, S);
freememimage(a);
a = b;
}
writememimage(1, a);
exits(nil);
}