Modify code generated for avoiding warning while compiling when configuration or resource don't have any global variable
/*
* (c) 2005 Mario de Sousa
*
* Offered to the public under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
* Public License for more details.
*
* This code is made available on the understanding that it will not be
* used in safety-critical situations without a full and competent review.
*/
/*
* An IEC 61131-3 IL and ST compiler.
*
* Based on the
* FINAL DRAFT - IEC 61131-3, 2nd Ed. (2001-12-10)
*
*/
/*
* A generic symbol table that allows duplicate values.
*
* This is used to create a symbol table of previously defined
* functions. Duplicate are allowed since the standard permits function\
* overloading in the standard library.
*/
#include <iostream>
#include "symtable.hh"
/* A macro for printing out internal parser errors... */
#define ERROR error_exit(__FILE__,__LINE__)
/* function defined in main.cc */
extern void error_exit(const char *file_name, int line_no);
/* clear all entries... */
template<typename value_type, value_type null_value>
void dsymtable_c<value_type, null_value>::reset(void) {
_base.clear();
}
template<typename value_type, value_type null_value>
void dsymtable_c<value_type, null_value>::insert(const char *identifier_str, value_t new_value) {
// std::cout << "store_identifier(" << identifier_str << "): \n";
std::pair<const char *, value_t> new_element(identifier_str, new_value);
/* iterator res = */ _base.insert(new_element);
}
template<typename value_type, value_type null_value>
void dsymtable_c<value_type, null_value>::insert(const symbol_c *symbol, value_t new_value) {
const token_c *name = dynamic_cast<const token_c *>(symbol);
if (name == NULL)
ERROR;
insert(name->value, new_value);
}
#if 0
template<typename value_type, value_type null_value>
void dsymtable_c<value_type, null_value>::insert_noduplicate(const char *identifier_str, value_t new_value) {
if (find_value(identifier_str) != null_value)
/* already present in the set! */
ERROR;
// std::cout << "store_identifier(" << identifier_str << "): \n";
std::pair<const char *, value_t> new_element(identifier_str, new_value);
/* iterator res = */ _base.insert(new_element);
}
template<typename value_type, value_type null_value>
void dsymtable_c<value_type, null_value>::insert_noduplicate(const symbol_c *symbol, value_t new_value) {
const token_c *name = dynamic_cast<const token_c *>(symbol);
if (name == NULL)
ERROR;
insert_noduplicate(name->value, new_value);
}
#endif
/* returns null_value if not found! */
template<typename value_type, value_type null_value>
value_type dsymtable_c<value_type, null_value>::find_value(const char *identifier_str) {
iterator i = _base.find(identifier_str);
if (i == _base.end())
return null_value;
else
return i->second;
}
template<typename value_type, value_type null_value>
value_type dsymtable_c<value_type, null_value>::find_value(const symbol_c *symbol) {
const token_c *name = dynamic_cast<const token_c *>(symbol);
if (name == NULL)
ERROR;
return find_value(name->value);
}
/* debuging function... */
template<typename value_type, value_type null_value>
void dsymtable_c<value_type, null_value>::print(void) {
for(iterator i = _base.begin();
i != _base.end();
i++)
std::cout << i->second << ":" << i->first << "\n";
std::cout << "=====================\n";
}