Exemplo n.º 1
0
int lex_json(const char *input, struct lexer *lexer, struct lexer_result *result)
{
  int res = LEX_OK;
  static void* dispatch_table[] = {
      &&state_base, &&state_string, &&state_number, &&state_true,
      &&state_false, &&state_null
  };
  #define DISPATCH() { \
     if (!(lexer->position < lexer->length && lexer->result_num < lexer->result_limit && res == 0)) \
        return res; \
     goto *dispatch_table[lexer->current_state];\
     }

  DISPATCH();
  state_base:
    res = handle_base(input, lexer, result);
    DISPATCH();
  state_string:
    res = handle_string(input, lexer, result);
    DISPATCH();
  state_number:
    res = handle_number(input, lexer, result);
    DISPATCH();
  state_true:
    res = handle_ident(input, lexer, "true", RES_TRUE, result);
    DISPATCH();
  state_false:
    res = handle_ident(input, lexer, "false", RES_FALSE, result);
    DISPATCH();
  state_null:
    res = handle_ident(input, lexer, "null", RES_NULL, result);
    DISPATCH();

  return res;
}
Exemplo n.º 2
0
/*
 * Handle a preprocessor line. Extract and return filename if it is a linemarker line.
 */
static int handle_preprocessor_line(FILE *fp, char **filename)
{
    int c, line;

    if (fscanf(fp, "%d", &line) == 1) {
        /* Seems to be a line marker. Try to find a filename. */

        while ((c = fgetc(fp)) != EOF && c != '"' && c != '\n');

        if (c == '"') {
            Buffer buffer = { 0 };

            handle_string(fp, &buffer, '"');
            free(*filename);
            *filename = bufDetach(&buffer);

            bufReset(&buffer);
        }
    }

    /* Consume the rest of the line. */

    while (c != EOF && c != '\n') c = fgetc(fp);

    return 0;
}
Exemplo n.º 3
0
/*
 * Read a declaration up to a semicolon or an open curly brace and add it to <declaration>.
 */
static int handle_declaration(FILE *fp, Buffer *declaration)
{
    int c;

    while ((c = fgetc(fp)) != EOF) {
        if (c == ';') {
            bufAddC(declaration, c);
            break;
        }
        else if (c == '{') {
            Buffer body = { 0 };
            handle_compound(fp, &body);
            bufReset(&body);
            break;
        }
        else if (c == '/') {
            bufAddC(declaration, c);
            handle_comment(fp, declaration);
        }
        else if (c == '"' || c == '\'') {
            handle_string(fp, declaration, c);
        }
        else {
            bufAddC(declaration, c);
        }
    }

    return 0;
}
Exemplo n.º 4
0
int
linux_sysctl(struct thread *td, struct linux_sysctl_args *args)
{
	struct l___sysctl_args la;
	struct sbuf *sb;
	l_int *mib;
	int error, i;

	error = copyin(args->args, &la, sizeof(la));
	if (error)
		return (error);

	if (la.nlen <= 0 || la.nlen > LINUX_CTL_MAXNAME)
		return (ENOTDIR);

	mib = malloc(la.nlen * sizeof(l_int), M_TEMP, M_WAITOK);
	error = copyin(PTRIN(la.name), mib, la.nlen * sizeof(l_int));
	if (error) {
		free(mib, M_TEMP);
		return (error);
	}

	switch (mib[0]) {
	case LINUX_CTL_KERN:
		if (la.nlen < 2)
			break;

		switch (mib[1]) {
		case LINUX_KERN_VERSION:
			error = handle_string(&la, version);
			free(mib, M_TEMP);
			return (error);
		default:
			break;
		}
		break;
	default:
		break;
	}

	sb = sbuf_new(NULL, NULL, 20 + la.nlen * 5, SBUF_AUTOEXTEND);
	if (sb == NULL) {
		linux_msg(td, "sysctl is not implemented");
	} else {
		sbuf_printf(sb, "sysctl ");
		for (i = 0; i < la.nlen; i++)
			sbuf_printf(sb, "%c%d", (i) ? ',' : '{', mib[i]);
		sbuf_printf(sb, "} is not implemented");
		sbuf_finish(sb);
		linux_msg(td, "%s", sbuf_data(sb));
		sbuf_delete(sb);
	}

	free(mib, M_TEMP);
	return (ENOTDIR);
}
Exemplo n.º 5
0
/*
 * MPALMOSTSAFE
 */
int
sys_linux_sysctl(struct linux_sysctl_args *args)
{
	struct l___sysctl_args la;
	l_int *mib;
	int error, i;

	error = copyin((caddr_t)args->args, &la, sizeof(la));
	if (error)
		return (error);

	if (la.nlen <= 0 || la.nlen > LINUX_CTL_MAXNAME)
		return (ENOTDIR);

	mib = kmalloc(la.nlen * sizeof(l_int), M_TEMP, M_WAITOK);
	error = copyin(la.name, mib, la.nlen * sizeof(l_int));
	if (error) {
		kfree(mib, M_TEMP);
		return (error);
	}

	get_mplock();

	switch (mib[0]) {
	case LINUX_CTL_KERN:
		if (la.nlen < 2) {
			error = ENOTDIR;
			break;
		}

		switch (mib[1]) {
		case LINUX_KERN_VERSION:
			error = handle_string(&la, version);
			break;
		default:
			error = ENOTDIR;
			break;
		}
		break;
	default:
		error = ENOTDIR;
		break;
	}
	rel_mplock();

	if (error == ENOTDIR && mib) {
		kprintf("linux: sysctl: unhandled name=");
		for (i = 0; i < la.nlen; i++)
			kprintf("%c%d", (i) ? ',' : '{', mib[i]);
		kprintf("}\n");
	}
	if (mib)
		kfree(mib, M_TEMP);
	return (error);
}
Exemplo n.º 6
0
static void
notify_win(PidginWindow *purplewin, PurpleConversation *conv)
{
	if (count_messages(purplewin) <= 0)
		return;

	if (purple_prefs_get_bool("/plugins/gtk/X11/notify/method_count"))
		handle_count_title(purplewin);
	if (purple_prefs_get_bool("/plugins/gtk/X11/notify/method_count_xprop"))
		handle_count_xprop(purplewin);
	if (purple_prefs_get_bool("/plugins/gtk/X11/notify/method_string"))
		handle_string(purplewin);
	if (purple_prefs_get_bool("/plugins/gtk/X11/notify/method_urgent"))
		handle_urgent(purplewin, TRUE);
	if (purple_prefs_get_bool("/plugins/gtk/X11/notify/method_raise"))
		handle_raise(purplewin);
	if (purple_prefs_get_bool("/plugins/gtk/X11/notify/method_present"))
		handle_present(conv);
}
Exemplo n.º 7
0
/*
 * Read a compound statement and add it to <buffer>.
 */
static int handle_compound(FILE *fp, Buffer *buffer)
{
    int c;

    while ((c = fgetc(fp)) != EOF) {
        bufAddC(buffer, c);

        if (c == '}')
            break;
        else if (c == '"' || c == '\'')
            handle_string(fp, buffer, c);
        else if (c == '{')
            handle_compound(fp, buffer);
        else if (c == '/') {
            bufAddC(buffer, c);
            handle_comment(fp, buffer);
        }
    }

    return 0;
}
Exemplo n.º 8
0
Arquivo: options.c Projeto: mej/libast
/**
 * Parse the command line arguments for options.
 *
 * This function iterates through the command line arguments looking
 * for options which have been defined.  Each option encountered is
 * handled according to its type.
 *
 * @param argc The number of arguments.
 * @param argv The array of argument strings.
 *
 * @see @link DOXGRP_OPT Command Line Option Parser @endlink
 * @ingroup DOXGRP_OPT
 */
void
spifopt_parse(int argc, char *argv[])
{
    spif_int32_t i, j;
    spif_charptr_t opt;

    REQUIRE(argc > 1);
    REQUIRE(argv != NULL);

    /* Process each command line arg one-by-one. */
    for (i = 1, opt = SPIF_CHARPTR(argv[1]); i < argc; ) {
        spif_charptr_t val_ptr = NULL;
        spif_char_t islong = 0, hasequal = 0;

        D_OPTIONS(("argv[%d] == \"%s\", opt == \"%s\"\n", i, argv[i], opt));

        if (SPIF_PTR_ISNULL(opt)) {
            /* NEXT_ARG(); */
            break;
        } else if (opt == SPIF_CHARPTR(argv[i])) {
            /* If it's not an option, skip it. */
            if (*opt != '-') {
                NEXT_ARG();
            } else {
                opt++;
            }
        }

        /* If the second character is also a hyphen, it's a long option. */
        if (*opt == '-') {
            islong = 1;
            /* Skip the leading "--" */
            opt++;
            D_OPTIONS(("Long option detected\n"));
            if ((j = find_long_option(opt)) == -1) {
                NEXT_ARG();
            }
        } else {
            if ((j = find_short_option(*opt)) == -1) {
                NEXT_LETTER();
            }
        }
        if (!SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_PREPARSE) && SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_REMOVE_ARGS)) {
            argv[i] = NULL;
        }

        /* If a value was passed to this option, set val_ptr to point to it. */
        if (islong) {
            val_ptr = find_value_long(SPIF_CHARPTR(opt), SPIF_CHARPTR(argv[i + 1]), &hasequal);
        } else {
            val_ptr = find_value_short(opt, SPIF_CHARPTR(argv[i + 1]));
        }

        /* Boolean options may or may not have a value... */
        if (val_ptr) {
            if (SPIFOPT_OPT_IS_BOOLEAN(j) && !is_boolean_value(val_ptr)) {
                val_ptr = NULL;
            } else if (SPIFOPT_OPT_IS_ABSTRACT(j) && is_valid_option(val_ptr)) {
                val_ptr = NULL;
            }
        }
        if (val_ptr) {
            if (val_ptr == SPIF_CHARPTR(argv[i + 1])) {
                i++;
                opt += strlen((char *) opt);
            }
        }

        /* If this option is deprecated, print a warning before continuing. */
        if (SPIFOPT_OPT_IS_DEPRECATED(j)) {
            spif_str_t warn;

            warn = spif_str_new_from_buff(SPIF_CHARPTR("The "), 128);
            if (SPIFOPT_OPT_SHORT(j)) {
                spif_str_append_char(warn, '-');
                spif_str_append_char(warn, SPIFOPT_OPT_SHORT(j));
                spif_str_append_from_ptr(warn, SPIF_CHARPTR(" / --"));
            } else {
                spif_str_append_from_ptr(warn, SPIF_CHARPTR("--"));
            }
            spif_str_append_from_ptr(warn, SPIFOPT_OPT_LONG(j));
            spif_str_append_from_ptr(warn, SPIF_CHARPTR(" option is deprecated and should not be used.\n"));
            libast_print_warning((char *) SPIF_STR_STR(warn));
            spif_str_del(warn);
        }

        /* Make sure that options which require a parameter have them. */
        if (SPIFOPT_OPT_NEEDS_VALUE(j)) {
            if (!val_ptr) {
                if (islong) {
                    libast_print_error("long option --%s requires a%s value\n", SPIFOPT_OPT_LONG(j),
                                (SPIFOPT_OPT_IS_INTEGER(j)
                                 ? ("n integer")
                                 : (SPIFOPT_OPT_IS_STRING(j)
                                    ? " string"
                                    : (SPIFOPT_OPT_IS_ARGLIST(j)
                                       ? "n argument list"
                                       : ""))));
                } else {
                    libast_print_error("option -%c requires a%s value\n", SPIFOPT_OPT_SHORT(j),
                                (SPIFOPT_OPT_IS_INTEGER(j)
                                 ? ("n integer")
                                 : (SPIFOPT_OPT_IS_STRING(j)
                                    ? " string"
                                    : (SPIFOPT_OPT_IS_ARGLIST(j)
                                       ? "n argument list"
                                       : ""))));
                }
                CHECK_BAD();
                continue;
            }
            /* Also make sure we know what to do with the value. */
            if (!SPIFOPT_OPT_VALUE(j)) {
                NEXT_LOOP();
            }
        } else if (SPIFOPT_OPT_IS_ABSTRACT(j) && !SPIFOPT_OPT_VALUE(j)) {
            /* Also make sure that abstract options have a function pointer. */
            NEXT_LOOP();
        }

        if (SPIFOPT_OPT_IS_BOOLEAN(j)) {
            if (!handle_boolean(j, val_ptr, islong)) {
                i--;
            }
        } else if (SPIFOPT_OPT_IS_STRING(j)) {
            if (SHOULD_PARSE(j)) {
                handle_string(j, val_ptr);
            }
        } else if (SPIFOPT_OPT_IS_INTEGER(j)) {
            if (SHOULD_PARSE(j)) {
                handle_integer(j, val_ptr);
            }
        } else if (SPIFOPT_OPT_IS_ARGLIST(j)) {
            if (SHOULD_PARSE(j)) {
                handle_arglist(j, val_ptr, hasequal, i, argc, argv);
            }
            if (!hasequal) {
                break;
            }
        } else if (SPIFOPT_OPT_IS_ABSTRACT(j)) {
            if (SHOULD_PARSE(j)) {
                D_OPTIONS(("Abstract option detected\n"));
                ((spifopt_abstract_handler_t) SPIFOPT_OPT_VALUE(j))(val_ptr);
            }
        }
        if (!SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_PREPARSE) && SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_REMOVE_ARGS)) {
            argv[i] = NULL;
        }
        NEXT_LOOP();
    }

    if (SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_PREPARSE)) {
        SPIFOPT_FLAGS_CLEAR(SPIFOPT_SETTING_PREPARSE);
    } else if (SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_REMOVE_ARGS)) {
        for (i = 1, j = 1; i < argc; i++) {
            if (argv[i]) {
                argv[j] = argv[i];
                j++;
            }
        }
        if (j > 1) {
            argv[j] = NULL;
        }
    }
}
Exemplo n.º 9
0
void config_load (const char *cfg_name)

{
  FILE *cfg = fopen (cfg_name, "rt");
  char buffer [4096], var [4096], *val;
  cfg_var *cv;

  if (!cfg)
    {
      perror (cfg_name);
      return;
    }

  while (fgets (buffer, 4096, cfg))
    {
      // Kill comments
      char *split = strrchr (buffer, '#');
      char *cp1 = var, *cp2 = buffer;
      if (split) *split = '\0';

      // remove trailing newline
      split = strrchr (buffer, '\n');
      if (split) *split = '\0';

      // Skip leading white space ...
      cp2 = skip_ws (cp2);

      // Silently ignore empty lines.
      if (!*cp2)
	continue;

      // search for '='
      val = strchr (cp2, '=');
      if (!val)
	{
	  fprintf (stderr, "%s: ignoring bad config line starting \"%s\" (missing '='!)\n", cfg_name, buffer);
	  continue;
	}
      *val++ = '\0';

      // front part basically must be a variable name.
      // To keep it simple we ignore *all* white space here - even if inside the variable name.
      while (*cp2)
	{
	  if (!isspace (*cp2))
	    *cp1++ = toupper (*cp2);
	  *cp2++;
	}
      *cp1 = '\0';

      // remove leading and trailing white space off val
      val = skip_ws (val);
      if (!*val)
	{
	  fprintf (stderr, "%s: ignoring bad config line starting \"%s\" (missing value!)\n", cfg_name, buffer);
	  continue;
	}
      cp2 = strchr (val, '\0') - 1;
      while (cp2 > val && isspace (*cp2))
	cp2--;
      cp2 [1] = '\0';

      // search the variable
      for (cv = config; cv->name; cv++)
	if (strcmp (cv->name, var) == 0)
	  break;
      if (!cv->name)
	fprintf (stderr, "%s: ignoring bad config line starting \"%s\" (variable '%s' unknown!)\n", cfg_name, buffer, var);
      else switch (cv->type)
	{
	  case NUM:
		handle_num (var, cv->v_ptr, val);
		break;
	  case BOOL:
		handle_bool (var, cv->v_ptr, val);
		break;
	  case STRING:
		handle_string (var, cv->v_ptr, val);
		break;
	  case N_ARRAY:
		handle_array (var, cv->v_ptr, cv->n_ptr, val);
		break;
	}
    }

  fclose (cfg);
}
Exemplo n.º 10
0
void handle(node *n) {
	if (n->type == type_id) {
		vlog("[code_gen] handle: identifier\n");
		handle_identifier(n);
	} else if (n->type == type_con) {
		vlog("[code_gen] handle: constant\n");
		handle_constant(n);
	} else if (n->type == type_string) {
		vlog("[code_gen] handle: string constant\n");
		handle_string(n);
	} else {

	if (strcmp(n->id,"postfix_expr") == 0) {
		vlog("[code_gen] handle: postfix_expr \n");
		handle_postfix_expr(n);
	} else if (strcmp(n->id,"argument_expr_list") == 0) {
		vlog("[code_gen] handle: argument_expr_list \n");
		handle_argument_expr_list(n);
	} else if (strcmp(n->id,"unary_expr") == 0) {
		vlog("[code_gen] handle: unary_expr \n");
		handle_unary_expr(n);
	} else if (strcmp(n->id,"sizeof") == 0) {
		vlog("[code_gen] handle: sizeof \n");
		handle_sizeof(n);
	} else if (strcmp(n->id,"cast_expr") == 0) {
		vlog("[code_gen] handle: cast_expr \n");
		handle_cast_expr(n);
	} else if (strcmp(n->id,"multiply") == 0) {
		vlog("[code_gen] handle: multiply \n");
		handle_multiply(n);
	} else if (strcmp(n->id,"divide") == 0) {
		vlog("[code_gen] handle: divide \n");
		handle_divide(n);
	} else if (strcmp(n->id,"mod") == 0) {
		vlog("[code_gen] handle: mod \n");
		handle_mod(n);
	} else if (strcmp(n->id,"add") == 0) {
		vlog("[code_gen] handle: add \n");
		handle_add(n);
	} else if (strcmp(n->id,"sub") == 0) {
		vlog("[code_gen] handle: sub \n");
		handle_sub(n);
	} else if (strcmp(n->id,"shift_left") == 0) {
		vlog("[code_gen] handle: shift_left \n");
		handle_shift_left(n);
	} else if (strcmp(n->id,"shift_right") == 0) {
		vlog("[code_gen] handle: shift_right \n");
		handle_shift_right(n);
	} else if (strcmp(n->id,"less_than") == 0) {
		vlog("[code_gen] handle: less_than \n");
		handle_less_than(n);
	} else if (strcmp(n->id,"greater_than") == 0) {
		vlog("[code_gen] handle: greater_than \n");
		handle_greater_than(n);
	} else if (strcmp(n->id,"less_equal_than") == 0) {
		vlog("[code_gen] handle: less_equal_than \n");
		handle_less_equal_than(n);
	} else if (strcmp(n->id,"greater_equal_than") == 0) {
		vlog("[code_gen] handle: greater_equal_than \n");
		handle_greater_equal_than(n);
	} else if (strcmp(n->id,"equality") == 0) {
		vlog("[code_gen] handle: equality \n");
		handle_equality(n);
	} else if (strcmp(n->id,"equality_not") == 0) {
		vlog("[code_gen] handle: equality_not \n");
		handle_equality_not(n);
	} else if (strcmp(n->id,"bitwise_and") == 0) {
		vlog("[code_gen] handle: bitwise_and \n");
		handle_bitwise_and(n);
	} else if (strcmp(n->id,"bitwise_xor") == 0) {
		vlog("[code_gen] handle: bitwise_xor \n");
		handle_bitwise_xor(n);
	} else if (strcmp(n->id,"bitwise_or") == 0) {
		vlog("[code_gen] handle: bitwise_or \n");
		handle_bitwise_or(n);
	} else if (strcmp(n->id,"logical_and") == 0) {
		vlog("[code_gen] handle: logical_and \n");
		handle_logical_and(n);
	} else if (strcmp(n->id,"logical_or") == 0) {
		vlog("[code_gen] handle: logical_or \n");
		handle_logical_or(n);
	} else if (strcmp(n->id,"conditional") == 0) {
		vlog("[code_gen] handle: conditional \n");
		handle_conditional(n);
	} else if (strcmp(n->id,"assignment") == 0) {
		vlog("[code_gen] handle: assignment \n");
		handle_assignment(n);
	} else if (strcmp(n->id,"expression") == 0) {
		vlog("[code_gen] handle: expression \n");
		handle_expression(n);
	} else if (strcmp(n->id,"declaration") == 0) {
		vlog("[code_gen] handle: declaration \n");
		handle_declaration(n);
	} else if (strcmp(n->id,"declaration_specifier") == 0) {
		vlog("[code_gen] handle: declaration_specifier \n");
		handle_declaration_specifier(n);
	} else if (strcmp(n->id,"init_declarator_list") == 0) {
		vlog("[code_gen] handle: init_declarator_list \n");
		handle_init_declarator_list(n);
	} else if (strcmp(n->id,"init_declarator") == 0) {
		vlog("[code_gen] handle: init_declarator \n");
		handle_init_declarator(n);
	} else if (strcmp(n->id,"struct_union") == 0) {
		vlog("[code_gen] handle: struct_union \n");
		handle_struct_union(n);
	} else if (strcmp(n->id,"struct_declaration_list") == 0) {
		vlog("[code_gen] handle: struct_declaration_list \n");
		handle_struct_declaration_list(n);
	} else if (strcmp(n->id,"struct_declaration") == 0) {
		vlog("[code_gen] handle: struct_declaration \n");
		handle_struct_declaration(n);
	} else if (strcmp(n->id,"specifier_qualifier_list") == 0) {
		vlog("[code_gen] handle: specifier_qualifier_list \n");
		handle_specifier_qualifier_list(n);
	} else if (strcmp(n->id,"struct_declarator_list") == 0) {
		vlog("[code_gen] handle: struct_declarator_list \n");
		handle_struct_declarator_list(n);
	} else if (strcmp(n->id,"struct_declarator") == 0) {
		vlog("[code_gen] handle: struct_declarator \n");
		handle_struct_declarator(n);
	} else if (strcmp(n->id,"enum_specifier") == 0) {
		vlog("[code_gen] handle: enum_specifier \n");
		handle_enum_specifier(n);
	} else if (strcmp(n->id,"enum_list") == 0) {
		vlog("[code_gen] handle: enum_list \n");
		handle_enum_list(n);
	} else if (strcmp(n->id,"enumerator") == 0) {
		vlog("[code_gen] handle: enumerator \n");
		handle_enumerator(n);
	} else if (strcmp(n->id,"declarator") == 0) {
		vlog("[code_gen] handle: declarator \n");
		handle_declarator(n);
	} else if (strcmp(n->id,"direct_declarator") == 0) {
		vlog("[code_gen] handle: direct_declarator \n");
		handle_direct_declarator(n);
	} else if (strcmp(n->id,"pointer") == 0) {
		vlog("[code_gen] handle: pointer \n");
		handle_pointer(n);
	} else if (strcmp(n->id,"type_qualifier_list") == 0) {
		vlog("[code_gen] handle: type_qualifier_list \n");
		handle_type_qualifier_list(n);
	} else if (strcmp(n->id,"parameter_type_list") == 0) {
		vlog("[code_gen] handle: parameter_type_list \n");
		handle_parameter_type_list(n);
	} else if (strcmp(n->id,"parameter_list") == 0) {
		vlog("[code_gen] handle: parameter_list \n");
		handle_parameter_list(n);
	} else if (strcmp(n->id,"parameter_declaration") == 0) {
		vlog("[code_gen] handle: parameter_declaration \n");
		handle_parameter_declaration(n);
	} else if (strcmp(n->id,"identifier_list") == 0) {
		vlog("[code_gen] handle: identifier_list \n");
		handle_identifier_list(n);
	} else if (strcmp(n->id,"type_name") == 0) {
		vlog("[code_gen] handle: type_name \n");
		handle_type_name(n);
	} else if (strcmp(n->id,"abstract_declarator") == 0) {
		vlog("[code_gen] handle: abstract_declarator \n");
		handle_abstract_declarator(n);
	} else if (strcmp(n->id,"direct_abstract_declarator") == 0) {
		vlog("[code_gen] handle: direct_abstract_declarator \n");
		handle_direct_abstract_declarator(n);
	} else if (strcmp(n->id,"initializer") == 0) {
		vlog("[code_gen] handle: initializer \n");
		handle_initializer(n);
	} else if (strcmp(n->id,"initializer_list") == 0) {
		vlog("[code_gen] handle: initializer_list \n");
		handle_initializer_list(n);
	} else if (strcmp(n->id,"labeled_statement") == 0) {
		vlog("[code_gen] handle: labeled_statement \n");
		handle_labeled_statement(n);
	} else if (strcmp(n->id,"compound_statement") == 0) {
		vlog("[code_gen] handle: compound_statement \n");
		handle_compound_statement(n);
	} else if (strcmp(n->id,"declaration_list") == 0) {
		vlog("[code_gen] handle: declaration_list \n");
		handle_declaration_list(n);
	} else if (strcmp(n->id,"statement_list") == 0) {
		vlog("[code_gen] handle: statement_list \n");
		handle_statement_list(n);
	} else if (strcmp(n->id,"expression_statement") == 0) {
		vlog("[code_gen] handle: expression_statement \n");
		handle_expression_statement(n);
	} else if (strcmp(n->id,"selection_statement") == 0) {
		vlog("[code_gen] handle: selection_statement \n");
		handle_selection_statement(n);
	} else if (strcmp(n->id,"iteration_statement") == 0) {
		vlog("[code_gen] handle: iteration_statement \n");
		handle_iteration_statement(n);
	} else if (strcmp(n->id,"jump_statement") == 0) {
		vlog("[code_gen] handle: jump_statement \n");
		handle_jump_statement(n);
	} else if (strcmp(n->id,"translation_unit") == 0) {
		vlog("[code_gen] handle: translation_unit \n");
		handle_translation_unit(n);
	} else if (strcmp(n->id,"function_definition") == 0) {
		vlog("[code_gen] handle: function_definition \n");
		handle_function_definition(n);
	} else if (strcmp(n->id,"asm") == 0) {
		vlog("[code_gen] handle: inline_assembly \n");
		handle_asm(n);
	}

	}
}