revert commits improved performance of some extensible Standard Functions (ADD, MUL, AND, OR, XOR)
Following commits are reverted:
mjsousa 0b275a2 improve performance of some extensible Standard Functions (ADD, MUL, AND, OR, XOR) -- increase hardcoded limit to 499
mjsousa 2228799 improve performance of some extensible Standard Functions (ADD, MUL, AND, OR, XOR) -- Add comments!!
mjsousa ce81fa6 improve performance of some extensible Standard Functions (ADD, MUL, AND, OR, XOR)"
The reason is that they cause regression in some cases (if function is
used as argument for function block, for example) and this is not
fixed for a long time.
/*
* matiec - a compiler for the programming languages defined in IEC 61131-3
*
* Copyright (C) 2003-2011 Mario de Sousa (msousa@fe.up.pt)
* Copyright (C) 2007-2011 Laurent Bessard and Edouard Tisserant
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
* This code is made available on the understanding that it will not be
* used in safety-critical situations without a full and competent review.
*/
/*
* A generic symbol table.
*
* This is used to create symbol tables such as a list of
* variables currently in scope, etc...
* Note that the list of previously defined funstions uses the
* dsymtable_c instead, as it requires the table to store duplicate values.
*/
#include <iostream>
#include "symtable.hh"
#include "../main.hh" // required for ERROR() and ERROR_MSG() macros.
template<typename value_type>
symtable_c<value_type>::symtable_c(void) {inner_scope = NULL;}
/* clear all entries... */
template<typename value_type>
void symtable_c<value_type>::clear(void) {
_base.clear();
}
/* create new inner scope */
template<typename value_type>
void symtable_c<value_type>::push(void) {
if (inner_scope != NULL) {
inner_scope->push();
} else {
inner_scope = new symtable_c();
}
}
/* clear most inner scope */
/* returns 1 if this is the inner most scope */
/* 0 otherwise */
template<typename value_type>
int symtable_c<value_type>::pop(void) {
if (inner_scope != NULL) {
if (inner_scope->pop() == 1) {
delete inner_scope;
inner_scope = NULL;
}
return 0;
} else {
_base.clear();
return 1;
}
}
template<typename value_type>
void symtable_c<value_type>::set(const symbol_c *symbol, value_t new_value) {
if (inner_scope != NULL) {
inner_scope->set(symbol, new_value);
return;
}
const token_c *name = dynamic_cast<const token_c *>(symbol);
if (name == NULL)
ERROR;
set(name->value, new_value);
}
template<typename value_type>
void symtable_c<value_type>::set(const char *identifier_str, value_t new_value) {
if (inner_scope != NULL) {
inner_scope->set(identifier_str, new_value);
return;
}
// std::cout << "set_identifier(" << identifier_str << "): \n";
iterator i = _base.find(identifier_str);
if (i == _base.end())
/* identifier not already in map! */
ERROR;
_base[identifier_str] = new_value;
}
template<typename value_type>
void symtable_c<value_type>::insert(const char *identifier_str, value_t new_value) {
if (inner_scope != NULL) {
inner_scope->insert(identifier_str, new_value);
return;
}
// std::cout << "store_identifier(" << identifier_str << "): \n";
iterator i = _base.find(identifier_str);
if ((i != _base.end()) && (i->second != new_value)) {ERROR;} /* error inserting new identifier: identifier already in map associated to a different value */
if ((i != _base.end()) && (i->second == new_value)) {return;} /* identifier already in map associated with the same value */
std::pair<const char *, value_t> new_element(identifier_str, new_value);
std::pair<iterator, bool> res = _base.insert(new_element);
if (!res.second) {ERROR;} /* unknown error inserting new identifier */
}
template<typename value_type>
void symtable_c<value_type>::insert(const symbol_c *symbol, value_t new_value) {
/*
// not required...
if (inner_scope != NULL) {
inner_scope->insert(symbol, new_value);
return;
}
*/
const token_c *name = dynamic_cast<const token_c *>(symbol);
if (name == NULL)
ERROR;
insert(name->value, new_value);
}
template<typename value_type>
int symtable_c<value_type>::count(const char *identifier_str) {return _base.count(identifier_str)+((inner_scope == NULL)?0:inner_scope->count(identifier_str));}
template<typename value_type>
int symtable_c<value_type>::count(const std::string identifier_str) {return _base.count(identifier_str)+((inner_scope == NULL)?0:inner_scope->count(identifier_str));}
// in the operator[] we delegate to find(), since that method will also search in the inner scopes!
template<typename value_type>
typename symtable_c<value_type>::value_t& symtable_c<value_type>::operator[] (const char *identifier_str) {iterator i = find(identifier_str); return (i!=end())?i->second:_base[identifier_str];}
template<typename value_type>
typename symtable_c<value_type>::value_t& symtable_c<value_type>::operator[] (const std::string identifier_str) {iterator i = find(identifier_str); return (i!=end())?i->second:_base[identifier_str];}
template<typename value_type>
typename symtable_c<value_type>::iterator symtable_c<value_type>::end (void) {return _base.end ();}
template<typename value_type>
typename symtable_c<value_type>::iterator symtable_c<value_type>::begin(void) {return _base.begin();}
/* returns end() if not found! */
template<typename value_type>
typename symtable_c<value_type>::iterator symtable_c<value_type>::find(const char *identifier_str) {
iterator i;
if ((inner_scope != NULL) && ((i = inner_scope->find(identifier_str)) != inner_scope->end())) // NOTE: must use the end() value of the inner scope!
return i; // found in the lower level
/* if no lower level, or not found in lower level... */
return _base.find(identifier_str);
}
template<typename value_type>
typename symtable_c<value_type>::iterator symtable_c<value_type>::find(const std::string identifier_str) {
iterator i;
if ((inner_scope != NULL) && ((i = inner_scope->find(identifier_str)) != inner_scope->end())) // NOTE: must use the end() value of the inner scope!
return i; // found in the lower level
/* if no lower level, or not found in lower level... */
return _base.find(identifier_str);
}
template<typename value_type>
typename symtable_c<value_type>::iterator symtable_c<value_type>::find(const symbol_c *symbol) {
const token_c *name = dynamic_cast<const token_c *>(symbol);
if (name == NULL)
ERROR;
return find(name->value);
}
/* debuging function... */
template<typename value_type>
void symtable_c<value_type>::print(void) {
for(iterator i = _base.begin();
i != _base.end();
i++)
std::cout << i->second << ":" << i->first << "\n";
std::cout << "=====================\n";
if (inner_scope != NULL) {
inner_scope->print();
}
}