ref: 0f0456b7b1ace815588878e613562edb97e73321
dir: /utils/sctile.c/
#include <u.h> #include <libc.h> #include <draw.h> #include <memdraw.h> #include <bio.h> enum{ Subsz = 8, Nmega = 4, Nsub = 4, WPErecord = 4, VR4record = Subsz * Subsz, VX4record = Nsub * Nsub * 2, CV5hdr = 20, CV5record = CV5hdr + Nmega * Nmega * 2, Rgbsz = 3, Tilewidth = Nsub * Subsz, Tileheight = Tilewidth, Tilesz = Tilewidth * Tileheight, Megawidth = Nmega * Tilewidth, Megaheight = Megawidth, Megasz = Megawidth * Megaheight, }; uchar *pal, *data, *ref; int npal, ndata, nref; Biobuf * bopen(char *pref, char *ext, vlong *size) { int fd; char path[64]; Dir *d; Biobuf *bf; snprint(path, sizeof path, "%s.%s", pref, ext); if((fd = open(path, OREAD)) < 0) sysfatal("open: %r"); if((d = dirfstat(fd)) == nil) sysfatal("dirfstat: %r"); *size = d->length; free(d); if((bf = Bfdopen(fd, OREAD)) == nil) sysfatal("Bfdopen: %r"); return bf; } void readall(char *pref, char *ext, uchar **buf, int *nbuf, int elsize) { int n; uchar *p; vlong size; Biobuf *bf; bf = bopen(pref, ext, &size); if(size % elsize != 0) sysfatal("readall %s.%s: invalid size", pref, ext); if((*buf = malloc(size)) == nil) sysfatal("malloc: %r"); p = *buf; while((n = Bread(bf, p, 128 * elsize)) > 0) p += n; if(n < 0) sysfatal("Bread: %r"); if(p - *buf != size) sysfatal("readall %s.%s: phase error (%zd vs %lld)", pref, ext, p-*buf, size); *nbuf = size / elsize; Bterm(bf); } void gettile(int n, uchar *buf, int bufwidth) { int i, x, tx, flip; uchar *rp, *re, *dp, *de, *pp, *p; for(rp=ref+n*VX4record, re=rp+VX4record, p=buf, tx=0; rp<re; rp+=2){ i = (rp[1] << 8 | rp[0]) >> 1; if(i >= ndata) sysfatal("writetile: invalid tile index %ud", i); flip = rp[0] & 1; for(dp=data+i*VR4record, de=dp+VR4record; dp<de;){ for(x=0; x<Subsz; x++, p+=Rgbsz){ pp = pal + (flip ? dp[Subsz-1 - x] : dp[x]) * WPErecord; p[0] = pp[2]; p[1] = pp[1]; p[2] = pp[0]; } dp += Subsz; p += (bufwidth - Subsz) * Rgbsz; } p -= (Subsz * bufwidth - Subsz) * Rgbsz; if(++tx % Nsub == 0) p += ((Subsz - 1) * bufwidth + (bufwidth - Tilewidth)) * Rgbsz; } } void writetile(char *pref, int n, char *id, uchar *buf, int nbuf, Memimage *m) { int fd; char path[128]; if(loadmemimage(m, m->r, buf, nbuf) < 0) sysfatal("loadmemimage: %r"); snprint(path, sizeof path, "%s.%s%05d.bit", pref, id, n); if((fd = create(path, OWRITE, 0644)) < 0) sysfatal("open: %r"); if(writememimage(fd, m) < 0) sysfatal("writememimage: %r"); close(fd); } void parsecv5(char *pref) { int n, nr, x, y; vlong size; uchar u[CV5record], *rp, buf[Megasz * Rgbsz], *p; Biobuf *bf; Memimage *m; bf = bopen(pref, "cv5", &size); if(size % CV5record != 0) sysfatal("parsecv5 %s: invalid size", pref); if((m = allocmemimage(Rect(0,0,Megawidth,Megaheight), RGB24)) == nil) sysfatal("allocmemimage: %r"); nr = 0; while((n = Bread(bf, u, sizeof u)) > 0){ assert(n == sizeof u); for(y=0, rp=u+CV5hdr, p=buf; y<Nmega; y++){ for(x=0; x<Nmega; x++, rp+=2){ gettile(rp[1] << 8 | rp[0], p, Megawidth); p += Tilewidth * Rgbsz; } p += (Tileheight - 1) * Megawidth * Rgbsz; } writetile(pref, nr++, "g", buf, Megasz * Rgbsz, m); } if(n < 0) sysfatal("Bread: %r"); Bterm(bf); } void parsetile(char *pref) { int n; uchar buf[Tilesz * Rgbsz]; Memimage *m; if((m = allocmemimage(Rect(0,0,Tilewidth,Tileheight), RGB24)) == nil) sysfatal("allocmemimage: %r"); for(n=0; n<nref; n++){ gettile(n, buf, Tilewidth); writetile(pref, n, "", buf, Tilesz * Rgbsz, m); } } void usage(void) { fprint(2, "usage: %s [-g] tileset\n", argv0); exits("usage"); } void main(int argc, char **argv) { int group; group = 0; ARGBEGIN{ case 'g': group = 1; break; default: usage(); }ARGEND if(argv[0] == nil) usage(); readall(argv[0], "wpe", &pal, &npal, WPErecord); if(npal != 256) sysfatal("invalid pal size %d", npal); readall(argv[0], "vr4", &data, &ndata, VR4record); readall(argv[0], "vx4", &ref, &nref, VX4record); if(memimageinit() < 0) sysfatal("memimageinit: %r"); if(group) parsecv5(argv[0]); else parsetile(argv[0]); exits(nil); }