Beispiel #1
0
int main(int argc, char*argv[])
{
      int opt, idx;
      unsigned lp;
      const char*flist_path = 0;
      unsigned flag_errors = 0;
      char*out_path = 0;
      FILE*out;
      char*precomp_out_path = 0;
      FILE*precomp_out = NULL;

	/* Define preprocessor keywords that I plan to just pass. */
	/* From 1364-2005 Chapter 19. */
      define_macro("begin_keywords",          "`begin_keywords", 1, 0);
      define_macro("celldefine",              "`celldefine", 1, 0);
      define_macro("default_nettype",         "`default_nettype", 1, 0);
      define_macro("end_keywords",            "`end_keywords", 1, 0);
      define_macro("endcelldefine",           "`endcelldefine", 1, 0);
      define_macro("line",                    "`line", 1, 0);
      define_macro("nounconnected_drive",     "`nounconnected_drive", 1, 0);
      define_macro("pragma",                  "`pragma", 1, 0);
      define_macro("resetall",                "`resetall", 1, 0);
      define_macro("timescale",               "`timescale", 1, 0);
      define_macro("unconnected_drive",       "`unconnected_drive", 1, 0);

	/* From 1364-2005 Annex D. */
      define_macro("default_decay_time",      "`default_decay_time", 1, 0);
      define_macro("default_trireg_strength", "`default_trireg_strength", 1, 0);
      define_macro("delay_mode_distributed",  "`delay_mode_distributed", 1, 0);
      define_macro("delay_mode_path",         "`delay_mode_path", 1, 0);
      define_macro("delay_mode_unit",         "`delay_mode_unit", 1, 0);
      define_macro("delay_mode_zero",         "`delay_mode_zero", 1, 0);

	/* From other places. */
      define_macro("disable_portfaults",      "`disable_portfaults", 1, 0);
      define_macro("enable_portfaults",       "`enable_portfaults", 1, 0);
      define_macro("endprotect",              "`endprotect", 1, 0);
      define_macro("nosuppress_faults",       "`nosuppress_faults", 1, 0);
      define_macro("protect",                 "`protect", 1, 0);
      define_macro("suppress_faults",         "`suppress_faults", 1, 0);
      define_macro("uselib",                  "`uselib", 1, 0);

      include_cnt = 2;
      include_dir = malloc(include_cnt*sizeof(char*));
      include_dir[0] = 0;  /* 0 is reserved for the current files path. */
      include_dir[1] = strdup(".");

      while ((opt=getopt(argc, argv, "F:f:K:Lo:p:P:vV")) != EOF) switch (opt) {

	  case 'F':
	    flist_read_flags(optarg);
	    break;

	  case 'f':
	    if (flist_path) {
		  fprintf(stderr, "%s: duplicate -f flag\n", argv[0]);
		  flag_errors += 1;
	    }
	    flist_path = optarg;
	    break;

	  case 'K': {
		char*buf = malloc(strlen(optarg) + 2);
		buf[0] = '`';
		strcpy(buf+1, optarg);
		define_macro(optarg, buf, 1, 0);
		free(buf);
		break;
	  }

	  case 'L':
	    line_direct_flag = 1;
	    break;

	  case 'o':
	    if (out_path) {
		  fprintf(stderr, "duplicate -o flag.\n");
	    } else {
		  out_path = optarg;
	    }
	    break;

	  case 'p':
	    if (precomp_out_path) {
		  fprintf(stderr, "duplicate -p flag.\n");
	    } else {
		  precomp_out_path = optarg;
	    }
	    break;

	  case 'P': {
		FILE*src = fopen(optarg, "rb");
		if (src == 0) {
		      perror(optarg);
		      exit(1);
		}
		load_precompiled_defines(src);
		fclose(src);
		break;
	  }

	  case 'v':
	    fprintf(stderr, "Icarus Verilog Preprocessor version "
		    VERSION " (" VERSION_TAG ")\n\n");
	    fprintf(stderr, "%s\n\n", COPYRIGHT);
	    fputs(NOTICE, stderr);
	    verbose_flag = 1;
	    break;

	  case 'V':
	    fprintf(stdout, "Icarus Verilog Preprocessor version "
		    VERSION " (" VERSION_TAG ")\n\n");
	    fprintf(stdout, "%s\n", COPYRIGHT);
	    fputs(NOTICE, stdout);
	    return 0;

	  default:
	    flag_errors += 1;
	    break;
      }

      if (flag_errors) {
	    fprintf(stderr, "\nUsage: %s [-v][-L][-F<fil>][-f<fil>] <file>...\n"
		    "    -F<fil> - Get defines and includes from file\n"
		    "    -f<fil> - Read the sources listed in the file\n"
		    "    -K<def> - Define a keyword macro that I just pass\n"
		    "    -L      - Emit line number directives\n"
		    "    -o<fil> - Send the output to <fil>\n"
		    "    -p<fil> - Write precompiled defines to <fil>\n"
		    "    -P<fil> - Read precompiled defines from <fil>\n"
		    "    -v      - Verbose\n"
		    "    -V      - Print version information and quit\n",
		    argv[0]);
	    return flag_errors;
      }

	/* Collect the file names on the command line in the source
	   file list, then if there is a file list, read more file
	   names from there. */
      for (idx = optind ;  idx < argc ;  idx += 1)
	    add_source_file(argv[idx]);


      if (flist_path) {
	    int rc = flist_read_names(flist_path);
	    if (rc != 0)
		  return rc;
      }

	/* Figure out what to use for an output file. Write to stdout
	   if no path is specified. */
      if (out_path) {
	    out = fopen(out_path, "w");
	    if (out == 0) {
		  perror(out_path);
		  exit(1);
	    }
      } else {
	    out = stdout;
      }

      if (precomp_out_path) {
	    precomp_out = fopen(precomp_out_path, "wb");
	    if (precomp_out == 0) {
		  if (out_path) fclose(out);
		  perror(precomp_out_path);
		  exit(1);
	    }
      }

      if (dep_path) {
	      depend_file = fopen(dep_path, "a");
	      if (depend_file == 0) {
		  if (out_path) fclose(out);
		  if (precomp_out) fclose(precomp_out);
		  perror(dep_path);
		  exit(1);
	      }
      }

      if (source_cnt == 0) {
	    fprintf(stderr, "%s: No input files given.\n", argv[0]);
	    if (out_path) fclose(out);
	    if (depend_file) fclose(depend_file);
	    if (precomp_out) fclose(precomp_out);
	    return 1;
      }

      if (vhdlpp_work == 0) {
	    vhdlpp_work = strdup("ivl_vhdl_work");
      }

	/* Pass to the lexical analyzer the list of input file, and
	   start scanning. */
      reset_lexor(out, source_list);
      if (yylex()) {
	    if (out_path) fclose(out);
	    if (depend_file) fclose(depend_file);
	    if (precomp_out) fclose(precomp_out);
	    return -1;
      }
      destroy_lexor();

      if (depend_file) fclose(depend_file);

      if (precomp_out) {
	    dump_precompiled_defines(precomp_out);
	    fclose(precomp_out);
      }

      if (out_path) fclose(out);

	/* Free the source and include directory lists. */
      for (lp = 0; lp < source_cnt; lp += 1) {
	    free(source_list[lp]);
      }
      free(source_list);
      for (lp = 0; lp < include_cnt; lp += 1) {
	    free(include_dir[lp]);
      }
      free(include_dir);

	/* Free the VHDL library directories, the path and work directory. */
      for (lp = 0; lp < vhdlpp_libdir_cnt; lp += 1) {
	    free(vhdlpp_libdir[lp]);
      }
      free(vhdlpp_libdir);
      free(vhdlpp_path);
      free(vhdlpp_work);

      free_macros();

      return error_count;
}
Beispiel #2
0
int main(int argc, char*argv[])
{
      int opt, idx;
      const char*flist_path = 0;
      unsigned flag_errors = 0;
      const char*out_path = 0;
      const char*dep_path = NULL;
      FILE*out;

	/* Define preprocessor keywords that I plan to just pass. */
      define_macro("celldefine",          "`celldefine", 1);
      define_macro("default_nettype",     "`default_nettype", 1);
      define_macro("delay_mode_distributed", "`delay_mode_distributed", 1);
      define_macro("delay_mode_unit",     "`delay_mode_unit", 1);
      define_macro("delay_mode_path",     "`delay_mode_path", 1);
      define_macro("disable_portfaults",  "`disable_portfaults", 1);
      define_macro("enable_portfaults",   "`enable_portfaults", 1);
      define_macro("endcelldefine",       "`endcelldefine", 1);
      define_macro("endprotect",          "`endprotect", 1);
      define_macro("nosuppress_faults",   "`nosuppress_faults", 1);
      define_macro("nounconnected_drive", "`nounconnected_drive", 1);
      define_macro("protect",             "`protect", 1);
      define_macro("resetall",            "`resetall", 1);
      define_macro("suppress_faults",     "`suppress_faults", 1);
      define_macro("timescale",           "`timescale", 1);
      define_macro("unconnected_drive",   "`unconnected_drive", 1);
      define_macro("uselib",              "`uselib", 1);

      include_dir = malloc(sizeof(char*));
      include_dir[0] = strdup(".");
      include_cnt = 1;

      while ((opt = getopt(argc, argv, "D:f:I:K:LM:o:v")) != EOF) switch (opt) {

	  case 'D': {
		char*tmp = strdup(optarg);
		char*val = strchr(tmp, '=');
		if (val)
		      *val++ = 0;
		else
		      val = "1";

		define_macro(tmp, val, 0);
		free(tmp);
		break;
	  }

	  case 'f':
	    if (flist_path) {
		  fprintf(stderr, "%s: duplicate -f flag\n", argv[0]);
		  flag_errors += 1;
	    }
	    flist_path = optarg;
	    break;

	  case 'I':
	    include_dir = realloc(include_dir,
					  (include_cnt+1)*sizeof(char*));
	    include_dir[include_cnt] = strdup(optarg);
	    include_cnt += 1;
	    break;

	  case 'K': {
		char*buf = malloc(strlen(optarg) + 2);
		buf[0] = '`';
		strcpy(buf+1, optarg);
		define_macro(optarg, buf, 1);
		free(buf);
		break;
	  }

	  case 'L':
	    line_direct_flag = 1;
	    break;

	  case 'M':
	    if (dep_path) {
		  fprintf(stderr, "duplicate -M flag.\n");
	    } else {
		  dep_path = optarg;
	    }
	    break;

	  case 'o':
	    if (out_path) {
		  fprintf(stderr, "duplicate -o flag.\n");
	    } else {
		  out_path = optarg;
	    }
	    break;

	  case 'v':
	    fprintf(stderr, "Icarus Verilog Preprocessor version %s\n\n",
		    VERSION);
	    fprintf(stderr, "%s\n", COPYRIGHT);
	    fputs(NOTICE, stderr);
	    break;

	  default:
	    flag_errors += 1;
	    break;
      }

      if (flag_errors) {
	    fprintf(stderr, "\nUsage: %s [-v][-L][-I<dir>][-D<def>] <file>...\n"
		    "    -D<def> - Predefine a value.\n"
		    "    -f<fil> - Read the sources listed in the file\n"
		    "    -I<dir> - Add an include file search directory\n"
		    "    -K<def> - Define a keyword macro that I just pass\n"
		    "    -L      - Emit line number directives\n"
		    "    -M<fil> - Write dependencies to <fil>\n"
		    "    -o<fil> - Send the output to <fil>\n"
		    "    -v      - Print version information\n",
		    argv[0]);
	    return flag_errors;
      }

	/* Collect the file names on the command line in the source
	   file list, then if there is a file list, read more file
	   names from there. */
      for (idx = optind ;  idx < argc ;  idx += 1)
	    add_source_file(argv[idx]);


      if (flist_path) {
	    int rc = flist_read_names(flist_path);
	    if (rc != 0)
		  return rc;
      }

	/* Figure out what to use for an output file. Write to stdout
	   if no path is specified. */
      if (out_path) {
	    out = fopen(out_path, "w");
	    if (out == 0) {
		  perror(out_path);
		  exit(1);
	    }
      } else {
	    out = stdout;
      }

      if(dep_path) {
	      depend_file = fopen(dep_path, "w");
	      if (depend_file == 0) {
		  perror(dep_path);
		  exit(1);
	      }
      }

      if (source_cnt == 0) {
	    fprintf(stderr, "%s: No input files given.\n", argv[0]);
	    return 1;
      }

	/* Pass to the lexical analyzer the list of input file, and
	   start the parser. */
      reset_lexor(out, source_list);
      if (yyparse()) return -1;

      if(depend_file) {
	      fclose(depend_file);
      }

      return error_count;
}