/* Copyright (c) 1991 Regents of the University of California */ #ifndef lint static char SCCSid[] = "$SunId$ LBL"; #endif /* * ra_pr.c - program to convert between RADIANCE and pixrect picture format. * * 11/10/87 * 3/1/88 Added Paul Heckbert's color map allocation */ #include #include "rasterfile.h" #include "color.h" #include "resolu.h" #include "pic.h" /* descriptor for a picture file or frame buffer */ typedef struct { char *name; /* file name */ FILE *fp; /* file pointer */ int nexty; /* file positioning */ int bytes_line; /* 0 == variable length lines */ union { long b; /* initial scanline */ long *y; /* individual scanline */ } pos; /* position(s) */ } pic; extern pic *openinput(), *openoutput(); extern char *ecalloc(), *emalloc(); extern long ftell(); extern double atof(), pow(); double gamma = 2.2; /* gamma correction */ int bradj = 0; /* brightness adjustment */ pic *inpic, *outpic; char *progname; char errmsg[128]; COLR *inl; int xmax, ymax; main(argc, argv) int argc; char *argv[]; { colormap rasmap; struct rasterfile head; int dither = 1; int reverse = 0; int ncolors = 256; int greyscale = 0; int i; progname = argv[0]; for (i = 1; i < argc; i++) if (argv[i][0] == '-') switch (argv[i][1]) { case 'd': dither = !dither; break; case 'g': gamma = atof(argv[++i]); break; case 'b': greyscale = !greyscale; break; case 'e': if (argv[i+1][0] != '+' && argv[i+1][0] != '-') goto userr; bradj = atoi(argv[++i]); break; case 'r': reverse = !reverse; break; case 'c': ncolors = atoi(argv[++i]); break; default: goto userr; } else break; if (reverse) { if (i < argc-2) goto userr; if (i <= argc-1 && freopen(argv[i], "r", stdin) == NULL) { sprintf(errmsg, "can't open input \"%s\"", argv[i]); quiterr(errmsg); } if (i == argc-2 && freopen(argv[i+1], "w", stdout) == NULL) { sprintf(errmsg, "can't open output \"%s\"", argv[i+1]); quiterr(errmsg); } /* get header */ if (fread((char *)&head, sizeof(head), 1, stdin) != 1) quiterr("missing header"); if (head.ras_magic != RAS_MAGIC) quiterr("bad raster format"); xmax = head.ras_width; ymax = head.ras_height; if (head.ras_type != RT_STANDARD || head.ras_maptype != RMT_EQUAL_RGB || head.ras_depth != 8) quiterr("incompatible format"); /* put header */ printargs(i, argv, stdout); fputformat(COLRFMT, stdout); putchar('\n'); fprtresolu(xmax, ymax, stdout); /* convert file */ pr2ra(&head); } else { if (i < argc-2 || (!greyscale && i > argc-1)) goto userr; if ((inpic = openinput(argv[i], &head)) == NULL) { sprintf(errmsg, "can't open input \"%s\"", argv[i]); quiterr(errmsg); } if ((outpic = openoutput(i==argc-2 ? argv[i+1] : (char *)NULL, &head)) == NULL) { sprintf(errmsg, "can't open output \"%s\"", argv[i+1]); quiterr(errmsg); } /* convert file */ if (greyscale) biq(dither,ncolors,1,rasmap); else ciq(dither,ncolors,1,rasmap); } quiterr(NULL); userr: fprintf(stderr, "Usage: %s [-d][-c ncolors][-b][-g gamma][-e +/-stops] input [output]\n", progname); fprintf(stderr, " Or: %s -r [-g gamma][-e +/-stops] [input [output]]\n", progname); exit(1); } quiterr(err) /* print message and exit */ char *err; { if (err != NULL) { fprintf(stderr, "%s: %s\n", progname, err); exit(1); } exit(0); } eputs(s) char *s; { fputs(s, stderr); } quit(code) int code; { exit(code); } pic * openinput(fname, h) /* open RADIANCE input file */ char *fname; register struct rasterfile *h; { register pic *p; p = (pic *)emalloc(sizeof(pic)); p->name = fname; if (fname == NULL) p->fp = stdin; else if ((p->fp = fopen(fname, "r")) == NULL) return(NULL); /* check header */ if (checkheader(p->fp, COLRFMT, NULL) < 0 || fgetresolu(&xmax, &ymax, p->fp) < 0) quiterr("bad picture format"); p->nexty = 0; p->bytes_line = 0; /* variable length lines */ p->pos.y = (long *)ecalloc(ymax, sizeof(long)); p->pos.y[0] = ftell(p->fp); /* assign header */ h->ras_magic = RAS_MAGIC; h->ras_width = xmax + (xmax&1); /* round to 16 bits */ h->ras_height = ymax; h->ras_depth = 8; h->ras_type = RT_STANDARD; h->ras_length = h->ras_width*h->ras_height; h->ras_maptype = RMT_EQUAL_RGB; h->ras_maplength = 256*3; /* allocate scanline */ inl = (COLR *)emalloc(xmax*sizeof(COLR)); return(p); } pic * openoutput(fname, h) /* open output rasterfile */ char *fname; register struct rasterfile *h; { register pic *p; p = (pic *)emalloc(sizeof(pic)); p->name = fname; if (fname == NULL) p->fp = stdout; else if ((p->fp = fopen(fname, "w")) == NULL) return(NULL); /* write header */ fwrite((char *)h, sizeof(*h), 1, p->fp); p->nexty = -1; /* needs color map */ p->bytes_line = h->ras_width; p->pos.b = 0; return(p); } pr2ra(h) /* pixrect file to RADIANCE file */ struct rasterfile *h; { BYTE cmap[3][256]; COLR ctab[256]; COLR *scanline; register int i, j, c; scanline = (COLR *)emalloc(xmax*sizeof(COLR)); /* get color table */ for (i = 0; i < 3; i ++) if (fread((char *)cmap[i], h->ras_maplength/3, 1, stdin) != 1) quiterr("error reading color table"); /* convert table */ for (i = 0; i < h->ras_maplength/3; i++) setcolr(ctab[i], pow((cmap[0][i]+.5)/256.,gamma), pow((cmap[1][i]+.5)/256.,gamma), pow((cmap[2][i]+.5)/256.,gamma)); if (bradj) shiftcolrs(ctab, 256, bradj); /* convert file */ for (i = 0; i < ymax; i++) { for (j = 0; j < xmax; j++) { if ((c = getc(stdin)) == EOF) quiterr("error reading rasterfile"); copycolr(scanline[j], ctab[c]); } if (xmax & 1) /* extra byte */ getc(stdin); if (fwritecolrs(scanline, xmax, stdout) < 0) quiterr("error writing RADIANCE file"); } free((char *)scanline); } picreadline3(y, l3) /* read in 3-byte scanline */ int y; register rgbpixel *l3; { register int i; if (inpic->nexty != y) { /* find scanline */ if (inpic->bytes_line == 0) { if (inpic->pos.y[y] == 0) { while (inpic->nexty < y) { if (freadcolrs(inl, xmax, inpic->fp) < 0) quiterr("read error in picreadline3"); inpic->pos.y[++inpic->nexty] = ftell(inpic->fp); } } else if (fseek(inpic->fp, inpic->pos.y[y], 0) == EOF) quiterr("seek error in picreadline3"); } else if (fseek(inpic->fp, y*inpic->bytes_line+inpic->pos.b, 0) == EOF) quiterr("seek error in picreadline3"); } else if (inpic->bytes_line == 0 && inpic->pos.y[inpic->nexty] == 0) inpic->pos.y[inpic->nexty] = ftell(inpic->fp); if (freadcolrs(inl, xmax, inpic->fp) < 0) /* read scanline */ quiterr("read error in picreadline3"); inpic->nexty = y+1; /* convert scanline */ normcolrs(inl, xmax, bradj); for (i = 0; i < xmax; i++) { l3[i].r = inl[i][RED]; l3[i].g = inl[i][GRN]; l3[i].b = inl[i][BLU]; } } picwriteline(y, l) /* write out scanline */ int y; register pixel *l; { if (outpic->nexty != y) { /* seek to scanline */ if (outpic->bytes_line == 0) { if (outpic->pos.y[y] == 0) quiterr("cannot seek in picwriteline"); else if (fseek(outpic->fp, outpic->pos.y[y], 0) == EOF) quiterr("seek error in picwriteline"); } else if (fseek(outpic->fp, y*outpic->bytes_line+outpic->pos.b, 0) == EOF) quiterr("seek error in picwriteline"); } /* write scanline */ if (fwrite((char *)l, sizeof(pixel), xmax, outpic->fp) != xmax) quiterr("write error in picwriteline"); if (xmax&1) /* on 16-bit boundary */ putc(l[xmax-1], outpic->fp); outpic->nexty = y+1; if (outpic->bytes_line == 0 && outpic->pos.y[outpic->nexty] == 0) outpic->pos.y[outpic->nexty] = ftell(outpic->fp); } picwritecm(cm) /* write out color map */ colormap cm; { register int i, j; if (outpic->nexty != -1 && fseek(outpic->fp, (long)sizeof(struct rasterfile), 0) == EOF) quiterr("seek error in picwritecm"); for (i = 0; i < 3; i++) for (j = 0; j < 256; j++) putc(cm[i][j], outpic->fp); outpic->nexty = 0; if (outpic->bytes_line == 0) outpic->pos.y[0] = ftell(outpic->fp); else outpic->pos.b = ftell(outpic->fp); } picreadcm(map) /* do gamma correction if requested */ colormap map; { register int i, val; for (i = 0; i < 256; i++) { val = pow((i+0.5)/256.0, 1.0/gamma) * 256.0; map[0][i] = map[1][i] = map[2][i] = val; } }