int main(int argc, char **argv) { char *fnm1, *fnm2; const char *survey = NULL; msg_init(argv); cmdline_set_syntax_message(/*FILE1 FILE2 [THRESHOLD]*/218, /*FILE1 and FILE2 can be .pos or .3d files\nTHRESHOLD is the max. ignorable change along any axis in metres (default %s)*/255, STRING(DFLT_MAX_THRESHOLD)); cmdline_init(argc, argv, short_opts, long_opts, NULL, help, 2, 3); while (1) { int opt = cmdline_getopt(); if (opt == EOF) break; if (opt == 's') survey = optarg; } fnm1 = argv[optind++]; fnm2 = argv[optind++]; if (argv[optind]) { optarg = argv[optind]; threshold = cmdline_double_arg(); } tree_init(); old_separator = parse_file(fnm1, survey, tree_insert); new_separator = parse_file(fnm2, survey, tree_remove); return tree_check() ? EXIT_FAILURE : EXIT_SUCCESS; }
int main(int argc, char **argv) { const char *fnm_in, *fnm_out; char *desc; img_point pt; int result; point *fr = NULL, *to; double zMax = -DBL_MAX; point *p; const char *survey = NULL; const char *specfile = NULL; img *pimg; int have_xsect = 0; msg_init(argv); /* TRANSLATORS: Part of extend --help */ cmdline_set_syntax_message(/*INPUT_3D_FILE [OUTPUT_3D_FILE]*/267, 0, NULL); cmdline_init(argc, argv, short_opts, long_opts, NULL, help, 1, 2); while (1) { int opt = cmdline_getopt(); if (opt == EOF) break; if (opt == 's') survey = optarg; if (opt == 'p') specfile = optarg; } fnm_in = argv[optind++]; if (argv[optind]) { fnm_out = argv[optind]; } else { char * base_in = base_from_fnm(fnm_in); char * base_out = osmalloc(strlen(base_in) + 8); strcpy(base_out, base_in); strcat(base_out, "_extend"); fnm_out = add_ext(base_out, EXT_SVX_3D); osfree(base_in); osfree(base_out); } /* try to open image file, and check it has correct header */ pimg = img_open_survey(fnm_in, survey); if (pimg == NULL) fatalerror(img_error2msg(img_error()), fnm_in); putnl(); puts(msg(/*Reading in data - please wait…*/105)); htab = osmalloc(ossizeof(pfx*) * HTAB_SIZE); { int i; for (i = 0; i < HTAB_SIZE; ++i) htab[i] = NULL; } do { result = img_read_item(pimg, &pt); switch (result) { case img_MOVE: fr = find_point(&pt); break; case img_LINE: if (!fr) { result = img_BAD; break; } to = find_point(&pt); if (!(pimg->flags & (img_FLAG_SURFACE|img_FLAG_SPLAY))) add_leg(fr, to, pimg->label, pimg->flags); fr = to; break; case img_LABEL: to = find_point(&pt); add_label(to, pimg->label, pimg->flags); break; case img_BAD: (void)img_close(pimg); fatalerror(img_error2msg(img_error()), fnm_in); break; case img_XSECT: have_xsect = 1; break; } } while (result != img_STOP); desc = osstrdup(pimg->title); if (specfile) { FILE *fs = NULL; char *fnm_used; /* TRANSLATORS: for extend: */ printf(msg(/*Applying specfile: “%s”*/521), specfile); putnl(); fs = fopenWithPthAndExt("", specfile, NULL, "r", &fnm_used); if (fs == NULL) fatalerror(/*Couldn’t open file “%s”*/93, specfile); while (!feof(fs)) { char *lbuf = getline_alloc(fs, 32); lineno++; if (!lbuf) fatalerror_in_file(fnm_used, lineno, /*Error reading file*/18); parseconfigline(fnm_used, lbuf); osfree(lbuf); } osfree(fnm_used); } if (start == NULL) { /* i.e. start wasn't specified in specfile */ /* start at the highest entrance with some legs attached */ for (p = headpoint.next; p != NULL; p = p->next) { if (p->order > 0 && p->p.z > zMax) { const stn *s; for (s = p->stns; s; s = s->next) { if (s->flags & img_SFLAG_ENTRANCE) { start = p; zMax = p->p.z; break; } } } } if (start == NULL) { /* if no entrances with legs, start at the highest 1-node */ for (p = headpoint.next; p != NULL; p = p->next) { if (p->order == 1 && p->p.z > zMax) { start = p; zMax = p->p.z; } } /* of course we may have no 1-nodes... */ if (start == NULL) { for (p = headpoint.next; p != NULL; p = p->next) { if (p->order != 0 && p->p.z > zMax) { start = p; zMax = p->p.z; } } if (start == NULL) { /* There are no legs - just pick the highest station... */ for (p = headpoint.next; p != NULL; p = p->next) { if (p->p.z > zMax) { start = p; zMax = p->p.z; } } if (!start) fatalerror(/*No survey data*/43); } } } } /* TRANSLATORS: for extend: * Used to tell the user that a file is being written - %s is the filename */ printf(msg(/*Writing %s…*/522), fnm_out); putnl(); pimg_out = img_open_write(fnm_out, desc, img_FFLAG_EXTENDED); /* Only does single connected component currently. */ do_stn(start, 0.0, NULL, ERIGHT, 0); if (have_xsect) { img_rewind(pimg); /* Read ahead on pimg before writing pimg_out so we find out if an * img_XSECT_END comes next. */ char * label = NULL; int flags = 0; do { result = img_read_item(pimg, &pt); if (result == img_XSECT || result == img_XSECT_END) { if (label) { if (result == img_XSECT_END) flags |= img_XFLAG_END; img_write_item(pimg_out, img_XSECT, flags, label, 0, 0, 0); osfree(label); label = NULL; } } if (result == img_XSECT) { label = osstrdup(pimg->label); flags = pimg->flags; pimg_out->l = pimg->l; pimg_out->r = pimg->r; pimg_out->u = pimg->u; pimg_out->d = pimg->d; } } while (result != img_STOP); } (void)img_close(pimg); if (!img_close(pimg_out)) { (void)remove(fnm_out); fatalerror(img_error2msg(img_error()), fnm_out); } return EXIT_SUCCESS; }