Exemple #1
0
struct direct *readdir(DIR *dfd)
{
  static struct direct *dentry;
  static char resultspec[MAXNAMLEN+1];
  int i;

  if ((dentry = (struct direct *)xmalloc(sizeof (struct direct))) == NULL) {
    printf("Error mallocing for direct\n");
    return(NULL);
  }

  dfd->fab$l_nam->nam$l_rsa = resultspec;
  dfd->fab$l_nam->nam$b_rss = MAXNAMLEN;

  if (debug_flag)
    printf(".");

  if (!((i = sys$search(dfd)) & 1)) {
    if (debug_flag)
      printf("sys$search failed with %d\n", i);
    free(dentry);
    return(NULL);
  }

  dentry->d_off = 0;
  if (dfd->fab$l_nam->nam$w_fid == 0)
    dentry->d_fileno = 1;
  else dentry->d_fileno = dfd->fab$l_nam->nam$w_fid[0]
			 +dfd->fab$l_nam->nam$w_fid[1]<<16;
  dentry->d_reclen = sizeof (struct direct);
/*
  if (!strcmp(dfd->fab$l_nam->nam$l_type,".DIR"))
    dentry->d_namlen = dfd->fab$l_nam->nam$b_name;
  else
*/
    dentry->d_namlen = dfd->fab$l_nam->nam$b_name+dfd->fab$l_nam->nam$b_type;
  strncpy(dentry->d_name,dfd->fab$l_nam->nam$l_name,dentry->d_namlen);
  dentry->d_name[dentry->d_namlen] = '\0';
  uppercasify(dentry->d_name);
/*  uvUnFixRCSSeparator(dentry->d_name);*/

  return(dentry);
}
Exemple #2
0
struct direct *
readdir (DIR *dir)
{
  struct FAB *dfab = &dir->fab;
  struct NAM *dnam = (struct NAM *)(dfab->fab$l_nam);
  struct direct *dentry = &dir->dir;
  int i;

  memset (dentry, 0, sizeof *dentry);

  dnam->nam$l_rsa = dir->d_result;
  dnam->nam$b_rss = MAXNAMLEN;

  DB (DB_VERBOSE, ("."));

  if (!((i = sys$search (dfab)) & 1))
    {
      DB (DB_VERBOSE, (_("sys$search() failed with %d\n"), i));
      return (NULL);
    }

  dentry->d_off = 0;
  if (dnam->nam$w_fid == 0)
    dentry->d_fileno = 1;
  else
    dentry->d_fileno = dnam->nam$w_fid[0] + (dnam->nam$w_fid[1] << 16);

  dentry->d_reclen = sizeof (struct direct);
  dentry->d_namlen = dnam->nam$b_name + dnam->nam$b_type;
  strncpy (dentry->d_name, dnam->nam$l_name, dentry->d_namlen);
  dentry->d_name[dentry->d_namlen] = '\0';

#ifdef HAVE_CASE_INSENSITIVE_FS
  uppercasify (dentry->d_name);
#endif

  return (dentry);
}
Exemple #3
0
static void
init_maketex (kpathsea kpse, kpse_file_format_type fmt,
              const_string dflt_prog, ...)
{
  kpse_format_info_type *f = &(kpse->format_info[fmt]);
  const_string prog = f->program ? f->program : dflt_prog; /* mktexpk */
  string PROG = uppercasify (prog);                  /* MKTEXPK */
  string progval = kpathsea_var_value (kpse, PROG);  /* $ENV/cnf{"MKTEXPK"} */
  const_string arg;
  va_list ap;

  /* Doesn't hurt to always set this info.  */
  f->program = prog;

  /* Set up the argument vector. */
  f->argc = 0;
  f->argv = XTALLOC (2, const_string);
  f->argv[f->argc++] = dflt_prog;
  va_start (ap, dflt_prog);
  while ((arg = va_arg (ap, string)) != NULL) {
    f->argc++;
    f->argv = (const_string *) xrealloc ((void *) f->argv,
                                         (f->argc + 1) * sizeof(const_string));
    f->argv[f->argc - 1] = arg;
  }
  va_end (ap);
  f->argv[f->argc] = NULL;

  if (progval && *progval) {
    /* This might actually be from an environment variable value, but in
       that case, we'll have previously set it from kpse_init_prog.  */
    kpathsea_set_program_enabled (kpse, fmt, *progval == '1',
                                  kpse_src_client_cnf);
  }

  free (PROG);
}
Exemple #4
0
int
main (int argc, string *argv)
{
    int getopt_return_val;
    int option_index = 0;

    name_program = xbasename(argv[0]);
    if (!strcmp(name_program, "ofm2opl") ||
        !strcmp(name_program, "OFM2OPL.EXE")) {
        program = PROG_OFM2OPL;
        name_help = OFM2OPLHELP;
	name_program = "ofm2opl";
        name_msg = "This is ofm2opl, Version 2.0";
        no_files = 2;
        files[0] = &name_ofm;
        files[1] = &name_opl;
        suffixes[0] = "ofm";
        suffixes[1] = "opl";
        full_suffixes[0] = ".ofm";
        full_suffixes[1] = ".opl";
    } else if (!strcmp(name_program, "opl2ofm") ||
               !strcmp(name_program, "OPL2OFM.EXE")) {
        program = PROG_OPL2OFM;
        name_help = OPL2OFMHELP;
	name_program = "opl2ofm";
        name_msg = "This is opl2ofm, Version 2.0";
        no_files = 2;
        files[0] = &name_opl;
        files[1] = &name_ofm;
        suffixes[0] = "opl";
        suffixes[1] = "ofm";
        full_suffixes[0] = ".opl";
        full_suffixes[1] = ".ofm";
    } else if (!strcmp(name_program, "ovp2ovf") ||
               !strcmp(name_program, "OVP2OVF.EXE")) {
        program = PROG_OVP2OVF;
        name_help = OVP2OVFHELP;
	name_program = "ovp2ovf";
        name_msg = "This is ovp2ovf, Version 2.0";
        no_files = 3;
        files[0] = &name_ovp;
        files[1] = &name_ovf;
        files[2] = &name_ofm;
        suffixes[0] = "ovp";
        suffixes[1] = "ovf";
        suffixes[2] = "ofm";
        full_suffixes[0] = ".ovp";
        full_suffixes[1] = ".ovf";
        full_suffixes[2] = ".ofm";
    } else if (!strcmp(name_program, "ovf2ovp") ||
               !strcmp(name_program, "OVF2OVP.EXE")) {
        program = PROG_OVF2OVP;
        name_help = OVF2OVPHELP;
	name_program = "ovf2ovp";
        name_msg = "This is ovf2ovp, Version 2.0";
        no_files = 3;
        files[0] = &name_ovf;
        files[1] = &name_ofm;
        files[2] = &name_ovp;
        suffixes[0] = "ovf";
        suffixes[1] = "ofm";
        suffixes[2] = "ovp";
        full_suffixes[0] = ".ovf";
        full_suffixes[1] = ".ofm";
        full_suffixes[2] = ".ovp";
    } else {
        fprintf(stderr , "Unrecognized program: %s\n", name_program);
        fprintf(stderr ,
        "This binary supports ofm2opl, opl2ofm, ovf2ovp, and ovp2ovf\n");
        exit(1);
    }
    kpse_set_program_name(name_program, NULL);
    kpse_init_prog(uppercasify(name_program), 0, nil, nil);

    do {
        getopt_return_val =
        getopt_long_only(argc, argv, "", long_options, &option_index) ;
        if (getopt_return_val == -1) { ; }
        else if ( getopt_return_val == 63 ) {
            usage (name_program);
        } else if (!strcmp(long_options[option_index].name, "help")) {
            usagehelp (name_help, NULL);
        } else if (!strcmp(long_options[option_index ].name, "version")) {
            printversionandexit(name_msg, nil,
                "J. Plaice, Y. Haralambous, D.E. Knuth",
                nil);
        } else if (!strcmp(long_options[option_index ].name, "char-format")) {
            if (!strcmp(optarg, "ascii")) char_format = CHAR_CODE_ASCII;
            else if (!strcmp(optarg, "num")) char_format = CHAR_CODE_NUM;
            else warning_s("Bad character code format (%s)", optarg);
        } else if (!strcmp(long_options[option_index ].name, "num-format")) {
            if (!strcmp(optarg, "hex")) num_format = NUM_CODE_HEX;
            else if (!strcmp(optarg, "octal")) num_format = NUM_CODE_OCTAL;
            else warning_s("Bad number code format (%s)", optarg);
        } else if (!strcmp(long_options[option_index ].name, "text-format")) {
            if (!strcmp(optarg, "upper")) text_format = TEXT_CODE_UPPER;
            else if (!strcmp(optarg, "mixed")) text_format = TEXT_CODE_MIXED;
            else warning_s("Bad text code format (%s)", optarg);
        }
    } while (getopt_return_val != -1);
    if (((argc-optind) > no_files) || ((argc-optind) < 1)) {
        fprintf(stderr , "%s: %s\n", name_program,
                no_files == 2 ? "Need one or two file arguments."
                              : "Need one to three file arguments.");
        usage (name_program);
    }
    *(files[0]) = extend_filename(cmdline(optind) , suffixes[0]);
    if (optind+2 <= argc) {
        *(files[1]) = extend_filename(cmdline(optind+1) , suffixes[1]);
        if (no_files == 3) {
            if (optind+3 <= argc) {
                *(files[2]) = extend_filename(cmdline(optind+2) , suffixes[2]);
            } else if (program == PROG_OVP2OVF) {
                *(files[2]) = extend_filename(cmdline(optind+1), suffixes[2]);
            }
        }
    } else if (program != PROG_OFM2OPL) {
        *(files[1]) = basenamechangesuffix(*(files[0]),
                      full_suffixes[0], full_suffixes[1]);
        if ((no_files == 3) && (program == PROG_OVP2OVF)) {
            *(files[2]) = basenamechangesuffix(*(files[0]),
                      full_suffixes[0], full_suffixes[2]);
        }
    }

    switch(program) {
        case PROG_OFM2OPL: {
            file_ofm = kpse_open_file(name_ofm, kpse_ofm_format);
            read_in_whole(&ofm, &length_ofm, file_ofm, name_ofm);
            (void)fclose(file_ofm);
            if (name_opl==NULL) file_opl = stdout;
            else rewrite(file_opl, name_opl);
            file_output = file_opl;
            parse_ofm(FALSE);
            break;
        }
        case PROG_OVF2OVP: {
            file_ovf = kpse_open_file(name_ovf, kpse_ovf_format);
            read_in_whole(&ovf, &length_ovf, file_ovf, name_ovf);
            (void)fclose(file_ovf);
            file_ofm = kpse_open_file(name_ofm, kpse_ofm_format);
            read_in_whole(&ofm, &length_ofm, file_ofm, name_ofm);
            (void)fclose(file_ofm);
            if (name_ovp==NULL) file_ovp = stdout;
            else rewrite(file_ovp, name_ovp);
            file_output = file_ovp;
            parse_ofm(TRUE);
            break;
        }
        case PROG_OPL2OFM: {
            file_opl = kpse_open_file(name_opl, kpse_opl_format);
            rewritebin(file_ofm, name_ofm);
            init_tables();
            yyin = file_opl;
            (void)yyparse();
            output_ofm_file();
            (void)fclose(file_ofm);
            break;
        }
        case PROG_OVP2OVF: {
            file_ovp = kpse_open_file(name_ovp, kpse_ovp_format);
            rewritebin(file_ovf, name_ovf);
            rewritebin(file_ofm, name_ofm);
            init_tables();
            yyin = file_ovp;
            (void)yyparse();
            output_ofm_file();
            /*(void)fclose(file_ofm);*/
            output_ovf_file();
            (void)fclose(file_ovf);
            break;
        }
        default: {exit(1);}
    }
    exit(0);
}