Start implementation of datatype checking of initial values for structures and FBs.
/*
* matiec - a compiler for the programming languages defined in IEC 61131-3
*
* Copyright (C) 2015 Mario de Sousa (msousa@fe.up.pt)
*
*
* 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.
*/
/*
* An IEC 61131-3 compiler.
*
* Based on the
* FINAL DRAFT - IEC 61131-3, 2nd Ed. (2001-12-10)
*
*/
/*
* Case Options Checking:
* - Check whether the options in a case statement are repeated, either directly, or in a range.
* For example:
* case var of
* 1: ... <- OK
* 2: ... <- OK
* 1: ... <- OK (not an error), but produce a warning due to repeated '1'!
* 0..8: ...<- OK (not an error), but produce a warning cue to repeated '1' and '2'!
*/
#include "case_elements_check.hh"
#define FIRST_(symbol1, symbol2) (((symbol1)->first_order < (symbol2)->first_order) ? (symbol1) : (symbol2))
#define LAST_(symbol1, symbol2) (((symbol1)->last_order > (symbol2)->last_order) ? (symbol1) : (symbol2))
#define STAGE3_ERROR(error_level, symbol1, symbol2, ...) { \
if (current_display_error_level >= error_level) { \
fprintf(stderr, "%s:%d-%d..%d-%d: error: ", \
FIRST_(symbol1,symbol2)->first_file, FIRST_(symbol1,symbol2)->first_line, FIRST_(symbol1,symbol2)->first_column,\
LAST_(symbol1,symbol2) ->last_line, LAST_(symbol1,symbol2) ->last_column);\
fprintf(stderr, __VA_ARGS__); \
fprintf(stderr, "\n"); \
error_count++; \
} \
}
#define STAGE3_WARNING(symbol1, symbol2, ...) { \
fprintf(stderr, "%s:%d-%d..%d-%d: warning: ", \
FIRST_(symbol1,symbol2)->first_file, FIRST_(symbol1,symbol2)->first_line, FIRST_(symbol1,symbol2)->first_column,\
LAST_(symbol1,symbol2) ->last_line, LAST_(symbol1,symbol2) ->last_column);\
fprintf(stderr, __VA_ARGS__); \
fprintf(stderr, "\n"); \
warning_found = true; \
}
#define GET_CVALUE(dtype, symbol) ((symbol)->const_value._##dtype.get())
#define VALID_CVALUE(dtype, symbol) ((symbol)->const_value._##dtype.is_valid())
case_elements_check_c::case_elements_check_c(symbol_c *ignore) {
warning_found = false;
error_count = 0;
current_display_error_level = 0;
}
case_elements_check_c::~case_elements_check_c(void) {
}
int case_elements_check_c::get_error_count() {
return error_count;
}
/* compare two integer constants, and determins if s1 < s2 */
static bool less_than(symbol_c *s1, symbol_c *s2) {
if ( (VALID_CVALUE( int64, s1))
&& (VALID_CVALUE( int64, s2))
&& ( GET_CVALUE( int64, s1) < GET_CVALUE( int64, s2)))
return true;
if ( (VALID_CVALUE(uint64, s1))
&& (VALID_CVALUE(uint64, s2))
&& ( GET_CVALUE(uint64, s1) < GET_CVALUE(uint64, s2)))
return true;
if ( (VALID_CVALUE( int64, s1))
&& (VALID_CVALUE(uint64, s2))
&& ( GET_CVALUE( int64, s1) < 0))
return true;
return false;
}
void case_elements_check_c::check_subr_subr(symbol_c *s1, symbol_c *s2) {
subrange_c *sub1 = dynamic_cast<subrange_c *>(s1);
subrange_c *sub2 = dynamic_cast<subrange_c *>(s2);
if ((NULL == sub1) || (NULL == sub2)) return;
symbol_c *l1 = sub1->lower_limit;
symbol_c *u1 = sub1->upper_limit;
symbol_c *l2 = sub2->lower_limit;
symbol_c *u2 = sub2->upper_limit;
if (less_than(u1, l2)) return; // no overlap!
if (less_than(u2, l1)) return; // no overlap!
if ( (VALID_CVALUE( int64, l1) || (VALID_CVALUE(uint64, l1)))
&& (VALID_CVALUE( int64, l2) || (VALID_CVALUE(uint64, l2)))
&& (VALID_CVALUE( int64, u1) || (VALID_CVALUE(uint64, u1)))
&& (VALID_CVALUE( int64, u2) || (VALID_CVALUE(uint64, u2))))
STAGE3_WARNING(s1, s2, "Elements in CASE options have overlapping ranges.");
}
void case_elements_check_c::check_subr_symb(symbol_c *s1, symbol_c *s2) {
subrange_c *subr = NULL;
symbol_c *symb = NULL;
if ((subr = dynamic_cast<subrange_c *>(s1)) != NULL) {symb = s2;}
if ((subr = dynamic_cast<subrange_c *>(s2)) != NULL) {symb = s1;}
if ((NULL == subr) || (NULL == symb)) return;
symbol_c *lowl = subr->lower_limit;
symbol_c *uppl = subr->upper_limit;
if ( (VALID_CVALUE(int64, symb))
&& (VALID_CVALUE(int64, lowl))
&& (VALID_CVALUE(int64, uppl))
&& ( GET_CVALUE(int64, symb) >= GET_CVALUE(int64, lowl))
&& ( GET_CVALUE(int64, symb) <= GET_CVALUE(int64, uppl)))
{STAGE3_WARNING(s1, s2, "Element in CASE option falls within range of another element."); return;}
if ( (VALID_CVALUE(uint64, symb))
&& (VALID_CVALUE( int64, lowl))
&& (VALID_CVALUE(uint64, uppl))
&& ( GET_CVALUE( int64, lowl) < 0)
&& ( GET_CVALUE(uint64, symb) <= GET_CVALUE(uint64, uppl)))
{STAGE3_WARNING(s1, s2, "Element in CASE option falls within range of another element."); return;}
if ( (VALID_CVALUE(uint64, symb))
&& (VALID_CVALUE(uint64, lowl))
&& (VALID_CVALUE(uint64, uppl))
&& ( GET_CVALUE(uint64, symb) >= GET_CVALUE(uint64, lowl))
&& ( GET_CVALUE(uint64, symb) <= GET_CVALUE(uint64, uppl)))
{STAGE3_WARNING(s1, s2, "Element in CASE option falls within range of another element."); return;}
}
#include <typeinfo>
void case_elements_check_c::check_symb_symb(symbol_c *s1, symbol_c *s2) {
if ( (dynamic_cast<subrange_c *>(s1) != NULL)
|| (dynamic_cast<subrange_c *>(s2) != NULL))
return; // only run this test if neither s1 nor s2 are subranges!
if ( (s1->const_value.is_const() && s2->const_value.is_const() && (s1->const_value == s2->const_value)) // if const, then compare const values (using overloaded '==' operator!)
|| (compare_identifiers(s1, s2) == 0)) // if token_c, compare tokens! (compare_identifiers() returns 0 when equal tokens!, -1 when either is not token_c)
STAGE3_WARNING(s1, s2, "Duplicate element found in CASE options.");
}
/***************************************/
/* B.3 - Language ST (Structured Text) */
/***************************************/
/********************/
/* B 3.2 Statements */
/********************/
/********************************/
/* B 3.2.3 Selection Statements */
/********************************/
/* CASE expression OF case_element_list ELSE statement_list END_CASE */
// SYM_REF3(case_statement_c, expression, case_element_list, statement_list)
void *case_elements_check_c::visit(case_statement_c *symbol) {
std::vector<symbol_c *> case_elements_list_local = case_elements_list; // Required when source code contains CASE inside another CASE !
case_elements_list.clear();
symbol->case_element_list->accept(*this); // will fill up the case_elements_list with all the elements in the case!
// OK, now check whether we have any overlappings...
std::vector<symbol_c *>::iterator s1 = case_elements_list.begin();
for ( ; s1 != case_elements_list.end(); s1++) {
std::vector<symbol_c *>::iterator s2 = s1;
s2++; // do not compare the value with itself!
for (; s2 != case_elements_list.end(); s2++) {
// Check for overlapping elements
check_subr_subr(*s1, *s2);
check_subr_symb(*s1, *s2);
check_symb_symb(*s2, *s1);
}
}
case_elements_list = case_elements_list_local;
return NULL;
}
/* helper symbol for case_statement */
// SYM_LIST(case_element_list_c)
// void *case_elements_check_c::visit(case_element_list_c *symbol) // not needed! We inherit from iterator_visitor_c
/* case_list ':' statement_list */
// SYM_REF2(case_element_c, case_list, statement_list)
// void *case_elements_check_c::visit(case_element_c *symbol) // not needed! We inherit from iterator_visitor_c
// SYM_LIST(case_list_c)
void *case_elements_check_c::visit(case_list_c *symbol) {
for (int i = 0; i < symbol->n; i++)
case_elements_list.push_back(symbol->elements[i]);
return NULL;
}