msousa@417: /*
msousa@417: * matiec - a compiler for the programming languages defined in IEC 61131-3
msousa@417: *
msousa@417: * Copyright (C) 2009-2011 Mario de Sousa (msousa@fe.up.pt)
msousa@417: * Copyright (C) 20011-2012 Manuele Conti (manuele.conti@sirius-es.it)
msousa@417: * Copyright (C) 20011-2012 Matteo Facchinetti (matteo.facchinetti@sirius-es.it)
msousa@417: *
msousa@417: * This program is free software: you can redistribute it and/or modify
msousa@417: * it under the terms of the GNU General Public License as published by
msousa@417: * the Free Software Foundation, either version 3 of the License, or
msousa@417: * (at your option) any later version.
msousa@417: *
msousa@417: * This program is distributed in the hope that it will be useful,
msousa@417: * but WITHOUT ANY WARRANTY; without even the implied warranty of
msousa@417: * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
msousa@417: * GNU General Public License for more details.
msousa@417: *
msousa@417: * You should have received a copy of the GNU General Public License
msousa@417: * along with this program. If not, see .
msousa@417: *
msousa@417: *
msousa@417: * This code is made available on the understanding that it will not be
msousa@417: * used in safety-critical situations without a full and competent review.
msousa@417: */
msousa@417:
msousa@417: /*
msousa@417: * An IEC 61131-3 compiler.
msousa@417: *
msousa@417: * Based on the
msousa@417: * FINAL DRAFT - IEC 61131-3, 2nd Ed. (2001-12-10)
msousa@417: *
msousa@417: */
msousa@417:
msousa@417:
msousa@417: /*
msousa@417: * Fill candidate list of data types for all symbols
msousa@417: */
msousa@417:
msousa@417: #include "print_datatypes_error.hh"
msousa@434: #include "datatype_functions.hh"
msousa@434:
msousa@417: #include
msousa@417: #include
msousa@417: #include
msousa@417: #include
msousa@417: #include
msousa@417:
msousa@417:
msousa@427:
msousa@427:
msousa@427:
msousa@427:
msousa@417: #define FIRST_(symbol1, symbol2) (((symbol1)->first_order < (symbol2)->first_order) ? (symbol1) : (symbol2))
msousa@417: #define LAST_(symbol1, symbol2) (((symbol1)->last_order > (symbol2)->last_order) ? (symbol1) : (symbol2))
msousa@417:
msousa@427: #define STAGE3_ERROR(error_level, symbol1, symbol2, ...) { \
msousa@427: if (current_display_error_level >= error_level) { \
msousa@427: fprintf(stderr, "%s:%d-%d..%d-%d: error : ", \
msousa@427: FIRST_(symbol1,symbol2)->first_file, FIRST_(symbol1,symbol2)->first_line, FIRST_(symbol1,symbol2)->first_column,\
msousa@427: LAST_(symbol1,symbol2) ->last_line, LAST_(symbol1,symbol2) ->last_column);\
msousa@427: fprintf(stderr, __VA_ARGS__); \
msousa@427: fprintf(stderr, "\n"); \
msousa@427: il_error = true; \
msousa@427: error_found = true; \
msousa@427: } \
msousa@427: }
msousa@417:
msousa@417:
msousa@417: /* set to 1 to see debug info during execution */
msousa@417: static int debug = 0;
msousa@417:
msousa@417: print_datatypes_error_c::print_datatypes_error_c(symbol_c *ignore) {
msousa@417: error_found = false;
msousa@427: current_display_error_level = error_level_default;
msousa@417: }
msousa@417:
msousa@417: print_datatypes_error_c::~print_datatypes_error_c(void) {
msousa@417: }
msousa@417:
msousa@417: int print_datatypes_error_c::get_error_found() {
msousa@417: return error_found;
msousa@417: }
msousa@417:
msousa@417: /* a helper function... */
msousa@417: symbol_c *print_datatypes_error_c::base_type(symbol_c *symbol) {
msousa@417: /* NOTE: symbol == NULL is valid. It will occur when, for e.g., an undefined/undeclared symbolic_variable is used
msousa@417: * in the code.
msousa@417: */
msousa@417: if (symbol == NULL) return NULL;
msousa@417: return (symbol_c *)symbol->accept(search_base_type);
msousa@417: }
msousa@417:
msousa@438:
msousa@438:
msousa@438:
msousa@438: /*
msousa@438: typedef struct {
msousa@438: symbol_c *function_name,
msousa@438: symbol_c *nonformal_operand_list,
msousa@438: symbol_c * formal_operand_list,
msousa@438:
msousa@438: std::vector &candidate_functions,
msousa@438: symbol_c &*called_function_declaration,
msousa@438: int &extensible_param_count
msousa@438: } generic_function_call_t;
msousa@438: */
msousa@438: void print_datatypes_error_c::handle_function_invocation(symbol_c *fcall, generic_function_call_t fcall_data) {
msousa@438: symbol_c *param_value, *param_name;
msousa@438: function_call_param_iterator_c fcp_iterator(fcall);
msousa@438: bool function_invocation_error = false;
msousa@441: const char *POU_str = NULL;
msousa@441:
msousa@441: if (generic_function_call_t::POU_FB == fcall_data.POU_type) POU_str = "FB";
msousa@441: if (generic_function_call_t::POU_function == fcall_data.POU_type) POU_str = "function";
msousa@441: if (NULL == POU_str) ERROR;
msousa@438:
msousa@438: if ((NULL != fcall_data.formal_operand_list) && (NULL != fcall_data.nonformal_operand_list))
msousa@438: ERROR;
msousa@438:
msousa@438: symbol_c *f_decl = fcall_data.called_function_declaration;
msousa@441: if ((NULL == f_decl) && (generic_function_call_t::POU_FB ==fcall_data.POU_type)) {
msousa@441: /* Due to the way the syntax analysis is buit (i.e. stage 2), this should never occur. */
msousa@441: /* I.e., a FB invocation using an undefined FB variable is not possible in the current implementation of stage 2. */
msousa@441: ERROR;
msousa@441: }
msousa@438: if (NULL == f_decl) {
msousa@438: /* we now try to find any function declaration with the same name, just so we can provide some relevant error messages */
msousa@438: function_symtable_t::iterator lower = function_symtable.lower_bound(fcall_data.function_name);
msousa@438: if (lower == function_symtable.end()) ERROR;
msousa@438: f_decl = function_symtable.get_value(lower);
msousa@438: }
msousa@438:
msousa@438: if (NULL != fcall_data.formal_operand_list) {
msousa@438: fcall_data.formal_operand_list->accept(*this);
msousa@438: if (NULL != f_decl) {
msousa@438: function_param_iterator_c fp_iterator(f_decl);
msousa@438: while ((param_name = fcp_iterator.next_f()) != NULL) {
msousa@438: param_value = fcp_iterator.get_current_value();
msousa@449:
msousa@449: /* Check if there are duplicate parameter values */
msousa@449: if(fcp_iterator.search_f(param_name) != param_value) {
msousa@449: function_invocation_error = true;
msousa@449: STAGE3_ERROR(0, param_name, param_name, "Duplicate parameter '%s' when invoking %s '%s'", ((identifier_c *)param_name)->value, POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@449: continue; /* jump to next parameter */
msousa@449: }
msousa@449:
msousa@438: /* Find the corresponding parameter in function declaration */
msousa@438: if (NULL == fp_iterator.search(param_name)) {
msousa@449: function_invocation_error = true;
msousa@449: STAGE3_ERROR(0, param_name, param_name, "Invalid parameter '%s' when invoking %s '%s'", ((identifier_c *)param_name)->value, POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@449: continue; /* jump to next parameter */
msousa@449: }
msousa@449:
msousa@449: /* check whether direction (IN, OUT, IN_OUT) and assignment types (:= , =>) are compatible !!! */
msousa@449: /* Obtaining the assignment direction: := (assign_in) or => (assign_out) */
msousa@449: function_call_param_iterator_c::assign_direction_t call_param_dir = fcp_iterator.get_assign_direction();
msousa@449: /* Get the parameter direction: IN, OUT, IN_OUT */
msousa@449: function_param_iterator_c::param_direction_t param_dir = fp_iterator.param_direction();
msousa@449: if (function_call_param_iterator_c::assign_in == call_param_dir) {
msousa@449: if ((function_param_iterator_c::direction_in != param_dir) &&
msousa@449: (function_param_iterator_c::direction_inout != param_dir)) {
msousa@449: function_invocation_error = true;
msousa@449: STAGE3_ERROR(0, param_name, param_name, "Invalid assignment syntax ':=' used for parameter '%s', when invoking %s '%s'", ((identifier_c *)param_name)->value, POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@449: continue; /* jump to next parameter */
msousa@449: }
msousa@449: } else if (function_call_param_iterator_c::assign_out == call_param_dir) {
msousa@449: if ((function_param_iterator_c::direction_out != param_dir)) {
msousa@449: function_invocation_error = true;
msousa@449: STAGE3_ERROR(0, param_name, param_name, "Invalid assignment syntax '=>' used for parameter '%s', when invoking %s '%s'", ((identifier_c *)param_name)->value, POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@449: continue; /* jump to next parameter */
msousa@449: }
msousa@449: } else ERROR;
msousa@449:
msousa@449: if (NULL == param_value->datatype) {
msousa@438: function_invocation_error = true;
msousa@443: STAGE3_ERROR(0, param_value, param_value, "Data type incompatibility between parameter '%s' and value being passed, when invoking %s '%s'", ((identifier_c *)param_name)->value, POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@449: continue; /* jump to next parameter */
msousa@438: }
msousa@438: }
msousa@438: }
msousa@438: }
msousa@438: if (NULL != fcall_data.nonformal_operand_list) {
msousa@438: fcall_data.nonformal_operand_list->accept(*this);
msousa@438: if (f_decl)
msousa@438: for (int i = 1; (param_value = fcp_iterator.next_nf()) != NULL; i++) {
msousa@455: /* TODO: verify if it is lvalue when INOUT or OUTPUT parameters! */
msousa@455:
msousa@438: if (NULL == param_value->datatype) {
msousa@438: function_invocation_error = true;
msousa@443: STAGE3_ERROR(0, param_value, param_value, "Data type incompatibility for value passed in position %d when invoking %s '%s'", i, POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@438: }
msousa@438: }
msousa@438: }
msousa@438:
msousa@449: if (NULL == fcall_data.called_function_declaration) {
msousa@449: function_invocation_error = true;
msousa@449: STAGE3_ERROR(0, fcall, fcall, "Unable to resolve which overloaded %s '%s' is being invoked.", POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@449: }
msousa@449:
msousa@438: if (function_invocation_error) {
msousa@438: /* No compatible function exists */
msousa@441: STAGE3_ERROR(2, fcall, fcall, "Invalid parameters when invoking %s '%s'", POU_str, ((identifier_c *)fcall_data.function_name)->value);
msousa@438: }
msousa@438:
msousa@438: return;
msousa@438: }
msousa@438:
msousa@455:
msousa@455:
msousa@448: void print_datatypes_error_c::handle_implicit_il_fb_invocation(symbol_c *il_operator, const char *param_name, symbol_c *called_fb_declaration) {
msousa@448: if (NULL == il_operand) {
msousa@448: STAGE3_ERROR(0, il_operator, il_operator, "Missing operand for FB call operator '%s'.", param_name);
msousa@448: return;
msousa@448: }
msousa@455: il_operand->accept(*this);
msousa@455:
msousa@448: if (NULL == called_fb_declaration) {
msousa@455: STAGE3_ERROR(0, il_operator, il_operand, "Invalid FB call: operand is not a FB instance.");
msousa@448: return;
msousa@448: }
msousa@455:
msousa@448: if (NULL == prev_il_instruction) {
msousa@448: STAGE3_ERROR(0, il_operator, il_operand, "FB invocation operator '%s' must be preceded by a 'LD' (or equivalent) operator.", param_name);
msousa@448: return;
msousa@448: }
msousa@455:
msousa@448: /* Find the corresponding parameter in function declaration */
msousa@448: function_param_iterator_c fp_iterator(called_fb_declaration);
msousa@448: if (NULL == fp_iterator.search(param_name)) {
msousa@455: /* TODO: must also check whther it is an IN parameter!! */
msousa@455: /* NOTE: although all standard FBs have the implicit FB calls defined as input parameters
msousa@455: * (i.e., for all standard FBs, CLK, PT, IN, CU, CD, S1, R1, etc... is always an input parameter)
msousa@455: * if a non-standard (i.e. a FB not defined in the standard library) FB is being called, then
msousa@455: * this (CLK, PT, IN, CU, ...) parameter may just have been defined as OUT or INOUT,
msousa@455: * which will not work for an implicit FB call!
msousa@455: */
msousa@448: STAGE3_ERROR(0, il_operator, il_operand, "FB called by '%s' operator does not have a parameter named '%s'", param_name, param_name);
msousa@448: return;
msousa@448: }
msousa@448: if (NULL == prev_il_instruction->datatype) {
msousa@455: STAGE3_ERROR(0, il_operator, il_operand, "Data type incompatibility between parameter '%s' and value being passed.", param_name);
msousa@448: return;
msousa@448: }
msousa@455:
msousa@455:
msousa@455: /* NOTE: The error_level currently being used for errors in variables/constants etc... is rather high.
msousa@455: * However, in the case of an implicit FB call, if the datatype of the operand == NULL, this may be
msousa@455: * the __only__ indication of an error! So we test it here again, to make sure thtis error will really
msousa@455: * be printed out!
msousa@455: */
msousa@455: if (NULL == il_operand->datatype) {
msousa@455: /* Note: the case of (NULL == fb_declaration) was already caught above! */
msousa@455: // if (NULL != fb_declaration) {
msousa@455: STAGE3_ERROR(0, il_operator, il_operator, "Invalid FB call: Datatype incompatibility between the FB's '%s' parameter and value being passed, or paramater '%s' is not a 'VAR_INPUT' parameter.", param_name, param_name);
msousa@455: return;
msousa@455: // }
msousa@455: }
msousa@455: //
msousa@448: return;
msousa@448: }
msousa@438:
msousa@438:
msousa@417: /*********************/
msousa@417: /* B 1.2 - Constants */
msousa@417: /*********************/
msousa@417: /******************************/
msousa@417: /* B 1.2.1 - Numeric Literals */
msousa@417: /******************************/
msousa@417: void *print_datatypes_error_c::visit(real_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_REAL data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_REAL data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(integer_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_INT data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_INT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(neg_real_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_REAL data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_REAL data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(neg_integer_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_INT data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_INT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(binary_integer_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_INT data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_INT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(octal_integer_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_INT data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_INT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(hex_integer_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for ANY_INT data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_INT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(integer_literal_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for %s data type.", elementary_type_c::to_string(symbol->type));
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_INT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(real_literal_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for %s data type.", elementary_type_c::to_string(symbol->type));
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_REAL data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(bit_string_literal_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for %s data type.", elementary_type_c::to_string(symbol->type));
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_BIT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(boolean_literal_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Value is not valid for %s data type.", elementary_type_c::to_string(symbol->type));
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_BOOL data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(boolean_true_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Value is not valid for ANY_BOOL data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_BOOL data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(boolean_false_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Value is not valid for ANY_BOOL data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "ANY_BOOL data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /*******************************/
msousa@417: /* B.1.2.2 Character Strings */
msousa@417: /*******************************/
msousa@417: void *print_datatypes_error_c::visit(double_byte_character_string_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for WSTRING data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "WSTRING data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(single_byte_character_string_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for STRING data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "STRING data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /***************************/
msousa@417: /* B 1.2.3 - Time Literals */
msousa@417: /***************************/
msousa@417: /************************/
msousa@417: /* B 1.2.3.1 - Duration */
msousa@417: /************************/
msousa@417: void *print_datatypes_error_c::visit(duration_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid syntax for TIME data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "TIME data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /************************************/
msousa@417: /* B 1.2.3.2 - Time of day and Date */
msousa@417: /************************************/
msousa@417: void *print_datatypes_error_c::visit(time_of_day_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid syntax for TOD data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "TOD data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(date_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid syntax for DATE data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "DATE data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(date_and_time_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid syntax for DT data type.");
msousa@427: } else if (NULL == symbol->datatype) {
msousa@427: STAGE3_ERROR(4, symbol, symbol, "DT data type not valid in this location.");
msousa@417: }
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /**********************/
msousa@417: /* B 1.3 - Data types */
msousa@417: /**********************/
msousa@417: /********************************/
msousa@417: /* B 1.3.3 - Derived data types */
msousa@417: /********************************/
msousa@417: void *print_datatypes_error_c::visit(data_type_declaration_c *symbol) {
msousa@417: // TODO !!!
msousa@417: /* for the moment we must return NULL so semantic analysis of remaining code is not interrupted! */
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(enumerated_value_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0)
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Ambiguous enumerate value or Variable not declared in this scope.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: /*********************/
msousa@417: /* B 1.4 - Variables */
msousa@417: /*********************/
msousa@417: void *print_datatypes_error_c::visit(symbolic_variable_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0)
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Variable not declared in this scope.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /********************************************/
msousa@417: /* B 1.4.1 - Directly Represented Variables */
msousa@417: /********************************************/
msousa@417: void *print_datatypes_error_c::visit(direct_variable_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0)
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Numerical value exceeds range for located variable data type.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /*************************************/
msousa@417: /* B 1.4.2 - Multi-element variables */
msousa@417: /*************************************/
msousa@417: /* subscripted_variable '[' subscript_list ']' */
msousa@417: // SYM_REF2(array_variable_c, subscripted_variable, subscript_list)
msousa@417: void *print_datatypes_error_c::visit(array_variable_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0)
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Array variable not declared in this scope.");
msousa@417:
msousa@417: /* recursively call the subscript list to print any errors in the expressions used in the subscript...*/
msousa@417: symbol->subscript_list->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /* subscript_list ',' subscript */
msousa@417: // SYM_LIST(subscript_list_c)
msousa@417: /* NOTE: we inherit from iterator visitor, so we do not need to implement this method... */
msousa@454: // void *print_datatypes_error_c::visit(subscript_list_c *symbol)
msousa@417:
msousa@417:
msousa@417: /* record_variable '.' field_selector */
msousa@417: /* WARNING: input and/or output variables of function blocks
msousa@417: * may be accessed as fields of a structured variable!
msousa@417: * Code handling a structured_variable_c must take
msousa@417: * this into account!
msousa@417: */
msousa@417: // SYM_REF2(structured_variable_c, record_variable, field_selector)
msousa@417: /* NOTE: We do not recursively determine the data types of each field_selector in fill_candidate_datatypes_c,
msousa@417: * so it does not make sense to recursively visit all the field_selectors to print out error messages.
msousa@417: * Maybe in the future, if we find the need to print out more detailed error messages, we might do it that way. For now, we don't!
msousa@417: */
msousa@417: void *print_datatypes_error_c::visit(structured_variable_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() == 0)
msousa@448: STAGE3_ERROR(0, symbol, symbol, "Undeclared structured/FB variable.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /************************************/
msousa@417: /* B 1.5 Program organization units */
msousa@417: /************************************/
msousa@417: /*********************/
msousa@417: /* B 1.5.1 Functions */
msousa@417: /*********************/
msousa@417: void *print_datatypes_error_c::visit(function_declaration_c *symbol) {
msousa@417: search_varfb_instance_type = new search_varfb_instance_type_c(symbol);
msousa@417: /* We do not check for data type errors in variable declarations, Skip this for now... */
msousa@417: // symbol->var_declarations_list->accept(*this);
msousa@417: if (debug) printf("Print error data types list in body of function %s\n", ((token_c *)(symbol->derived_function_name))->value);
msousa@417: il_parenthesis_level = 0;
msousa@417: il_error = false;
msousa@417: symbol->function_body->accept(*this);
msousa@417: delete search_varfb_instance_type;
msousa@417: search_varfb_instance_type = NULL;
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /***************************/
msousa@417: /* B 1.5.2 Function blocks */
msousa@417: /***************************/
msousa@417: void *print_datatypes_error_c::visit(function_block_declaration_c *symbol) {
msousa@417: search_varfb_instance_type = new search_varfb_instance_type_c(symbol);
msousa@417: /* We do not check for data type errors in variable declarations, Skip this for now... */
msousa@417: // symbol->var_declarations->accept(*this);
msousa@417: if (debug) printf("Print error data types list in body of FB %s\n", ((token_c *)(symbol->fblock_name))->value);
msousa@417: il_parenthesis_level = 0;
msousa@417: il_error = false;
msousa@417: symbol->fblock_body->accept(*this);
msousa@417: delete search_varfb_instance_type;
msousa@417: search_varfb_instance_type = NULL;
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /**********************/
msousa@417: /* B 1.5.3 - Programs */
msousa@417: /**********************/
msousa@417: void *print_datatypes_error_c::visit(program_declaration_c *symbol) {
msousa@417: search_varfb_instance_type = new search_varfb_instance_type_c(symbol);
msousa@417: /* We do not check for data type errors in variable declarations, Skip this for now... */
msousa@417: // symbol->var_declarations->accept(*this);
msousa@417: if (debug) printf("Print error data types list in body of program %s\n", ((token_c *)(symbol->program_type_name))->value);
msousa@417: il_parenthesis_level = 0;
msousa@417: il_error = false;
msousa@417: symbol->function_block_body->accept(*this);
msousa@417: delete search_varfb_instance_type;
msousa@417: search_varfb_instance_type = NULL;
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417:
msousa@417: /********************************/
msousa@417: /* B 1.7 Configuration elements */
msousa@417: /********************************/
msousa@417: void *print_datatypes_error_c::visit(configuration_declaration_c *symbol) {
msousa@417: // TODO !!!
msousa@417: /* for the moment we must return NULL so semantic analysis of remaining code is not interrupted! */
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /****************************************/
msousa@417: /* B.2 - Language IL (Instruction List) */
msousa@417: /****************************************/
msousa@417: /***********************************/
msousa@417: /* B 2.1 Instructions and Operands */
msousa@417: /***********************************/
msousa@454:
msousa@417: // void *visit(instruction_list_c *symbol);
msousa@454:
msousa@454: /* | label ':' [il_incomplete_instruction] eol_list */
msousa@454: // SYM_REF2(il_instruction_c, label, il_instruction)
msousa@454: void *print_datatypes_error_c::visit(il_instruction_c *symbol) {
msousa@454: if (NULL != symbol->il_instruction) {
msousa@457: if (symbol->prev_il_instruction.size() > 1) ERROR; /* This assertion is only valid for now. Remove it once flow_control_analysis_c is complete */
msousa@457: if (symbol->prev_il_instruction.size() == 0) prev_il_instruction = NULL;
msousa@457: else prev_il_instruction = symbol->prev_il_instruction[0];
msousa@457:
msousa@454: symbol->il_instruction->accept(*this);
msousa@454: prev_il_instruction = NULL;
msousa@454: }
msousa@454:
msousa@454: return NULL;
msousa@454: }
msousa@454:
msousa@454:
msousa@454:
msousa@417: void *print_datatypes_error_c::visit(il_simple_operation_c *symbol) {
msousa@417: il_operand = symbol->il_operand;
msousa@417: if (NULL != symbol->il_operand) {
msousa@417: symbol->il_operand->accept(*this);
msousa@417: }
msousa@417: /* recursive call to see whether data types are compatible */
msousa@417: symbol->il_simple_operator->accept(*this);
msousa@417: il_operand = NULL;
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@438: /* | function_name [il_operand_list] */
msousa@438: /* NOTE: The parameters 'called_function_declaration' and 'extensible_param_count' are used to pass data between the stage 3 and stage 4. */
msousa@438: // SYM_REF2(il_function_call_c, function_name, il_operand_list, symbol_c *called_function_declaration; int extensible_param_count;)
msousa@417: void *print_datatypes_error_c::visit(il_function_call_c *symbol) {
msousa@451: /* The first parameter of a non formal function call in IL will be the 'current value' (i.e. the prev_il_instruction)
msousa@451: * In order to be able to handle this without coding special cases, we will simply prepend that symbol
msousa@451: * to the il_operand_list, and remove it after calling handle_function_call().
msousa@451: *
msousa@451: * However, if no further paramters are given, then il_operand_list will be NULL, and we will
msousa@451: * need to create a new object to hold the pointer to prev_il_instruction.
msousa@451: * This change will also be undone later in print_datatypes_error_c.
msousa@451: */
msousa@451: if (NULL == symbol->il_operand_list) symbol->il_operand_list = new il_operand_list_c;
msousa@451: if (NULL == symbol->il_operand_list) ERROR;
msousa@451:
msousa@451: ((list_c *)symbol->il_operand_list)->insert_element(prev_il_instruction, 0);
msousa@451:
msousa@438: generic_function_call_t fcall_param = {
msousa@441: /* fcall_param.function_name = */ symbol->function_name,
msousa@441: /* fcall_param.nonformal_operand_list = */ symbol->il_operand_list,
msousa@441: /* fcall_param.formal_operand_list = */ NULL,
msousa@441: /* enum {POU_FB, POU_function} POU_type = */ generic_function_call_t::POU_function,
msousa@441: /* fcall_param.candidate_functions = */ symbol->candidate_functions,
msousa@441: /* fcall_param.called_function_declaration = */ symbol->called_function_declaration,
msousa@441: /* fcall_param.extensible_param_count = */ symbol->extensible_param_count
msousa@438: };
msousa@438:
msousa@448: /* TODO: check what error message (if any) the compiler will give out if this function invocation
msousa@448: * is not preceded by a LD operator (or another equivalent operator or list of operators).
msousa@448: * I.e. if it is preceded by an operator or operator list that will set the 'current value'.
msousa@448: * I.e. if the prev_il_operand == NULL;
msousa@448: */
msousa@438: handle_function_invocation(symbol, fcall_param);
msousa@438:
msousa@438: /* The first parameter of a non formal function call in IL will be the 'current value' (i.e. the prev_il_instruction)
msousa@448: * In order to be able to handle this without coding special cases, we simply prepend that symbol
msousa@448: * to the il_operand_list. This was done in fill_candidate_datatypes_c.
msousa@438: * We now undo those changes!
msousa@438: */
msousa@438: ((list_c *)symbol->il_operand_list)->remove_element(0);
msousa@438: if (((list_c *)symbol->il_operand_list)->n == 0) {
msousa@438: /* if the list becomes empty, then that means that it did not exist before we made these changes, so we delete it! */
msousa@438: delete symbol->il_operand_list;
msousa@438: symbol->il_operand_list = NULL;
msousa@438: }
msousa@438:
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@454:
msousa@454: /* | il_expr_operator '(' [il_operand] eol_list [simple_instr_list] ')' */
msousa@454: // SYM_REF3(il_expression_c, il_expr_operator, il_operand, simple_instr_list);
msousa@417: void *print_datatypes_error_c::visit(il_expression_c *symbol) {
msousa@454: /* first give the parenthesised IL list a chance to print errors */
msousa@454: symbol_c *save_prev_il_instruction = prev_il_instruction;
msousa@454: symbol->simple_instr_list->accept(*this);
msousa@454: prev_il_instruction = save_prev_il_instruction;
msousa@454:
msousa@454: /* Now handle the operation (il_expr_operator) that will use the result coming from the parenthesised IL list (i.e. simple_instr_list) */
msousa@454: il_operand = symbol->simple_instr_list; /* This is not a bug! The parenthesised expression will be used as the operator! */
msousa@454: symbol->il_expr_operator->accept(*this);
msousa@454:
msousa@454: return NULL;
msousa@454: }
msousa@454:
msousa@417:
msousa@441: /* il_call_operator prev_declared_fb_name
msousa@441: * | il_call_operator prev_declared_fb_name '(' ')'
msousa@441: * | il_call_operator prev_declared_fb_name '(' eol_list ')'
msousa@441: * | il_call_operator prev_declared_fb_name '(' il_operand_list ')'
msousa@441: * | il_call_operator prev_declared_fb_name '(' eol_list il_param_list ')'
msousa@441: */
msousa@441: /* NOTE: The parameter 'called_fb_declaration'is used to pass data between stage 3 and stage4 (although currently it is not used in stage 4 */
msousa@441: // SYM_REF4(il_fb_call_c, il_call_operator, fb_name, il_operand_list, il_param_list, symbol_c *called_fb_declaration)
msousa@417: void *print_datatypes_error_c::visit(il_fb_call_c *symbol) {
msousa@441: int extensible_param_count; /* unused vairable! Needed for compilation only! */
msousa@441: std::vector candidate_functions; /* unused vairable! Needed for compilation only! */
msousa@441: generic_function_call_t fcall_param = {
msousa@441: /* fcall_param.function_name = */ symbol->fb_name,
msousa@441: /* fcall_param.nonformal_operand_list = */ symbol->il_operand_list,
msousa@441: /* fcall_param.formal_operand_list = */ symbol->il_param_list,
msousa@441: /* enum {POU_FB, POU_function} POU_type = */ generic_function_call_t::POU_FB,
msousa@441: /* fcall_param.candidate_functions = */ candidate_functions, /* will not be used, but must provide a reference to be able to compile */
msousa@441: /* fcall_param.called_function_declaration = */ symbol->called_fb_declaration,
msousa@441: /* fcall_param.extensible_param_count = */ extensible_param_count /* will not be used, but must provide a reference to be able to compile */
msousa@441: };
msousa@441:
msousa@441: handle_function_invocation(symbol, fcall_param);
msousa@455: /* check the semantics of the CALC, CALCN operators! */
msousa@455: symbol->il_call_operator->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@438: /* | function_name '(' eol_list [il_param_list] ')' */
msousa@438: /* NOTE: The parameter 'called_function_declaration' is used to pass data between the stage 3 and stage 4. */
msousa@438: // SYM_REF2(il_formal_funct_call_c, function_name, il_param_list, symbol_c *called_function_declaration; int extensible_param_count;)
msousa@417: void *print_datatypes_error_c::visit(il_formal_funct_call_c *symbol) {
msousa@438: generic_function_call_t fcall_param = {
msousa@441: /* fcall_param.function_name = */ symbol->function_name,
msousa@441: /* fcall_param.nonformal_operand_list = */ NULL,
msousa@441: /* fcall_param.formal_operand_list = */ symbol->il_param_list,
msousa@441: /* enum {POU_FB, POU_function} POU_type = */ generic_function_call_t::POU_function,
msousa@441: /* fcall_param.candidate_functions = */ symbol->candidate_functions,
msousa@441: /* fcall_param.called_function_declaration = */ symbol->called_function_declaration,
msousa@441: /* fcall_param.extensible_param_count = */ symbol->extensible_param_count
msousa@438: };
msousa@438:
msousa@438: handle_function_invocation(symbol, fcall_param);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@453: // void *visit(il_operand_list_c *symbol);
msousa@454: // void *visit(simple_instr_list_c *symbol);
msousa@453:
msousa@453: // SYM_REF1(il_simple_instruction_c, il_simple_instruction, symbol_c *prev_il_instruction;)
msousa@454: void *print_datatypes_error_c::visit(il_simple_instruction_c *symbol) {
msousa@457: if (symbol->prev_il_instruction.size() > 1) ERROR; /* This assertion is only valid for now. Remove it once flow_control_analysis_c is complete */
msousa@457: if (symbol->prev_il_instruction.size() == 0) prev_il_instruction = NULL;
msousa@457: else prev_il_instruction = symbol->prev_il_instruction[0];
msousa@457:
msousa@454: symbol->il_simple_instruction->accept(*this);
msousa@454: prev_il_instruction = NULL;
msousa@454: return NULL;
msousa@454: }
msousa@454:
msousa@454:
msousa@453: // void *visit(il_param_list_c *symbol);
msousa@453: // void *visit(il_param_assignment_c *symbol);
msousa@453: // void *visit(il_param_out_assignment_c *symbol);
msousa@417:
msousa@417: /*******************/
msousa@417: /* B 2.2 Operators */
msousa@417: /*******************/
msousa@417: void *print_datatypes_error_c::visit(LD_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(LDN_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'LDN' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(ST_operator_c *symbol) {
msousa@417: /* MANU:
msousa@417: * if prev_instruction is NULL we can print a message error or warning error like:
msousa@417: * we can't use a ST like first instruction.
msousa@417: * What do you think?
msousa@417: */
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'ST' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(STN_operator_c *symbol) {
msousa@417: /* MANU:
msousa@417: * if prev_instruction is NULL we can print a message error or warning error like:
msousa@417: * we can't use a ST like first instruction.
msousa@417: * What do you think?
msousa@417: */
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'STN' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(NOT_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(S_operator_c *symbol) {
msousa@448: /* TODO: what if this is a FB call ?? */
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'S' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(R_operator_c *symbol) {
msousa@448: /* TODO: what if this is a FB call ?? */
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'R' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(S1_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "S1", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(R1_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "R1", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(CLK_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "CLK", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(CU_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "CU", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(CD_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "CD", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(PV_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "PV", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(IN_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "IN", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(PT_operator_c *symbol) {
msousa@448: handle_implicit_il_fb_invocation(symbol, "PT", symbol->called_fb_declaration);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(AND_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'AND' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(OR_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'OR' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(XOR_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'XOR' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(ANDN_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'ANDN' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(ORN_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'ORN' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(XORN_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'ORN' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(ADD_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'ADD' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(SUB_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'SUB' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(MUL_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'MUL' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(DIV_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'DIV' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(MOD_operator_c *symbol) {
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (il_operand->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'MOD' operator.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(GT_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(GE_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(EQ_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(LT_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(LE_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(NE_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(CAL_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@455:
msousa@455: void *print_datatypes_error_c::handle_conditional_flow_control_IL_instruction(symbol_c *symbol, const char *oper) {
msousa@455: if (NULL == symbol->datatype)
msousa@455: STAGE3_ERROR(0, symbol, symbol, "%s operator must be preceded by an IL instruction producing a BOOL value.", oper);
msousa@455: return NULL;
msousa@455: }
msousa@455:
msousa@417: void *print_datatypes_error_c::visit(CALC_operator_c *symbol) {
msousa@455: return handle_conditional_flow_control_IL_instruction(symbol, "CALC");
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(CALCN_operator_c *symbol) {
msousa@455: return handle_conditional_flow_control_IL_instruction(symbol, "CALCN");
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(RET_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(RETC_operator_c *symbol) {
msousa@455: return handle_conditional_flow_control_IL_instruction(symbol, "RETC");
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(RETCN_operator_c *symbol) {
msousa@455: return handle_conditional_flow_control_IL_instruction(symbol, "RETCN");
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(JMP_operator_c *symbol) {
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(JMPC_operator_c *symbol) {
msousa@455: return handle_conditional_flow_control_IL_instruction(symbol, "JMPC");
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(JMPCN_operator_c *symbol) {
msousa@455: return handle_conditional_flow_control_IL_instruction(symbol, "JMPCN");
msousa@417: }
msousa@417:
msousa@417: /* Symbol class handled together with function call checks */
msousa@417: // void *visit(il_assign_operator_c *symbol, variable_name);
msousa@417: /* Symbol class handled together with function call checks */
msousa@417: // void *visit(il_assign_operator_c *symbol, option, variable_name);
msousa@417:
msousa@417: /***************************************/
msousa@417: /* B.3 - Language ST (Structured Text) */
msousa@417: /***************************************/
msousa@417: /***********************/
msousa@417: /* B 3.1 - Expressions */
msousa@417: /***********************/
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(or_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'OR' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(xor_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'XOR' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(and_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'AND' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(equ_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '=' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(notequ_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '<>' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(lt_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '<' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(gt_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '>' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(le_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '<=' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(ge_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '>=' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(add_expression_c *symbol) {
msousa@426: symbol->l_exp->accept(*this);
msousa@426: symbol->r_exp->accept(*this);
msousa@426: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@426: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@426: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '+' expression.");
msousa@417:
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(sub_expression_c *symbol) {
msousa@426: symbol->l_exp->accept(*this);
msousa@426: symbol->r_exp->accept(*this);
msousa@426: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@426: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@426: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '-' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(mul_expression_c *symbol) {
msousa@426: symbol->l_exp->accept(*this);
msousa@426: symbol->r_exp->accept(*this);
msousa@426: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@426: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@426: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '*' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(div_expression_c *symbol) {
msousa@426: symbol->l_exp->accept(*this);
msousa@426: symbol->r_exp->accept(*this);
msousa@426: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@426: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@426: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '/' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(mod_expression_c *symbol) {
msousa@426: symbol->l_exp->accept(*this);
msousa@426: symbol->r_exp->accept(*this);
msousa@426: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@426: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@426: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for 'MOD' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(power_expression_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Data type mismatch for '**' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(neg_expression_c *symbol) {
msousa@417: symbol->exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'NEG' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(not_expression_c *symbol) {
msousa@417: symbol->exp->accept(*this);
msousa@417: if ((symbol->candidate_datatypes.size() == 0) &&
msousa@417: (symbol->exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'NOT' expression.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@441: /* NOTE: The parameter 'called_function_declaration', 'extensible_param_count' and 'candidate_functions' are used to pass data between the stage 3 and stage 4. */
msousa@441: /* formal_param_list -> may be NULL ! */
msousa@441: /* nonformal_param_list -> may be NULL ! */
msousa@441: // SYM_REF3(function_invocation_c, function_name, formal_param_list, nonformal_param_list, symbol_c *called_function_declaration; int extensible_param_count; std::vector candidate_functions;)
msousa@417: void *print_datatypes_error_c::visit(function_invocation_c *symbol) {
msousa@441: generic_function_call_t fcall_param = {
msousa@441: /* fcall_param.function_name = */ symbol->function_name,
msousa@441: /* fcall_param.nonformal_operand_list = */ symbol->nonformal_param_list,
msousa@441: /* fcall_param.formal_operand_list = */ symbol->formal_param_list,
msousa@441: /* enum {POU_FB, POU_function} POU_type = */ generic_function_call_t::POU_function,
msousa@441: /* fcall_param.candidate_functions = */ symbol->candidate_functions,
msousa@441: /* fcall_param.called_function_declaration = */ symbol->called_function_declaration,
msousa@441: /* fcall_param.extensible_param_count = */ symbol->extensible_param_count
msousa@441: };
msousa@441:
msousa@441: handle_function_invocation(symbol, fcall_param);
msousa@441: return NULL;
msousa@441: }
msousa@441:
msousa@441:
msousa@417:
msousa@417: /********************/
msousa@417: /* B 3.2 Statements */
msousa@417: /********************/
msousa@417:
msousa@417: /*********************************/
msousa@417: /* B 3.2.1 Assignment Statements */
msousa@417: /*********************************/
msousa@417: void *print_datatypes_error_c::visit(assignment_statement_c *symbol) {
msousa@417: symbol->l_exp->accept(*this);
msousa@417: symbol->r_exp->accept(*this);
msousa@417: if ((NULL == symbol->l_exp->datatype) &&
msousa@417: (NULL == symbol->r_exp->datatype) &&
msousa@417: (symbol->l_exp->candidate_datatypes.size() > 0) &&
msousa@417: (symbol->r_exp->candidate_datatypes.size() > 0))
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data types for ':=' operation.");
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@425:
msousa@425: /*****************************************/
msousa@425: /* B 3.2.2 Subprogram Control Statements */
msousa@425: /*****************************************/
msousa@425: /* fb_name '(' [param_assignment_list] ')' */
msousa@425: /* formal_param_list -> may be NULL ! */
msousa@425: /* nonformal_param_list -> may be NULL ! */
msousa@439: /* NOTE: The parameter 'called_fb_declaration'is used to pass data between stage 3 and stage4 (although currently it is not used in stage 4 */
msousa@425: // SYM_REF3(fb_invocation_c, fb_name, formal_param_list, nonformal_param_list, symbol_c *called_fb_declaration;)
msousa@425: void *print_datatypes_error_c::visit(fb_invocation_c *symbol) {
msousa@441: int extensible_param_count; /* unused vairable! Needed for compilation only! */
msousa@441: std::vector candidate_functions; /* unused vairable! Needed for compilation only! */
msousa@441: generic_function_call_t fcall_param = {
msousa@441: /* fcall_param.function_name = */ symbol->fb_name,
msousa@441: /* fcall_param.nonformal_operand_list = */ symbol->nonformal_param_list,
msousa@441: /* fcall_param.formal_operand_list = */ symbol->formal_param_list,
msousa@441: /* enum {POU_FB, POU_function} POU_type = */ generic_function_call_t::POU_FB,
msousa@441: /* fcall_param.candidate_functions = */ candidate_functions, /* will not be used, but must provide a reference to be able to compile */
msousa@441: /* fcall_param.called_function_declaration = */ symbol->called_fb_declaration,
msousa@441: /* fcall_param.extensible_param_count = */ extensible_param_count /* will not be used, but must provide a reference to be able to compile */
msousa@441: };
msousa@441:
msousa@441: handle_function_invocation(symbol, fcall_param);
msousa@425: return NULL;
msousa@425: }
msousa@425:
msousa@425:
msousa@417: /********************************/
msousa@417: /* B 3.2.3 Selection Statements */
msousa@417: /********************************/
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(if_statement_c *symbol) {
msousa@417: symbol->expression->accept(*this);
msousa@417: if ((NULL == symbol->expression->datatype) &&
msousa@417: (symbol->expression->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'IF' condition.");
msousa@417: }
msousa@417: if (NULL != symbol->statement_list)
msousa@417: symbol->statement_list->accept(*this);
msousa@417: if (NULL != symbol->elseif_statement_list)
msousa@417: symbol->elseif_statement_list->accept(*this);
msousa@417: if (NULL != symbol->else_statement_list)
msousa@417: symbol->else_statement_list->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(elseif_statement_c *symbol) {
msousa@417: symbol->expression->accept(*this);
msousa@417: if ((NULL == symbol->expression->datatype) &&
msousa@417: (symbol->expression->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'ELSIF' condition.");
msousa@417: }
msousa@417: if (NULL != symbol->statement_list)
msousa@417: symbol->statement_list->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(case_statement_c *symbol) {
msousa@417: symbol->expression->accept(*this);
msousa@417: if ((NULL == symbol->expression->datatype) &&
msousa@417: (symbol->expression->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "'CASE' quantity not an integer or enumerated.");
msousa@417: }
msousa@417: symbol->case_element_list->accept(*this);
msousa@417: if (NULL != symbol->statement_list)
msousa@417: symbol->statement_list->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: /********************************/
msousa@417: /* B 3.2.4 Iteration Statements */
msousa@417: /********************************/
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(for_statement_c *symbol) {
msousa@417: symbol->control_variable->accept(*this);
msousa@417: symbol->beg_expression->accept(*this);
msousa@417: symbol->end_expression->accept(*this);
msousa@417: /* Control variable */
msousa@417: if ((NULL == symbol->control_variable->datatype) &&
msousa@417: (symbol->control_variable->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'FOR' control variable.");
msousa@417: }
msousa@417: /* BEG expression */
msousa@417: if ((NULL == symbol->beg_expression->datatype) &&
msousa@417: (symbol->beg_expression->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'FOR' begin expression.");
msousa@417: }
msousa@417: /* END expression */
msousa@417: if ((NULL == symbol->end_expression->datatype) &&
msousa@417: (symbol->end_expression->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'FOR' end expression.");
msousa@417: }
msousa@417: /* BY expression */
msousa@417: if ((NULL != symbol->by_expression) &&
msousa@417: (NULL == symbol->by_expression->datatype) &&
msousa@417: (symbol->end_expression->candidate_datatypes.size() > 0)) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'FOR' by expression.");
msousa@417: }
msousa@417: /* DO statement */
msousa@417: if (NULL != symbol->statement_list)
msousa@417: symbol->statement_list->accept(*this);
msousa@417:
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(while_statement_c *symbol) {
msousa@417: symbol->expression->accept(*this);
msousa@417: if (symbol->candidate_datatypes.size() != 1) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'WHILE' condition.");
msousa@417: return NULL;
msousa@417: }
msousa@417: if (NULL != symbol->statement_list)
msousa@417: symbol->statement_list->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417: void *print_datatypes_error_c::visit(repeat_statement_c *symbol) {
msousa@417: if (symbol->candidate_datatypes.size() != 1) {
msousa@427: STAGE3_ERROR(0, symbol, symbol, "Invalid data type for 'REPEAT' condition.");
msousa@417: return NULL;
msousa@417: }
msousa@417: if (NULL != symbol->statement_list)
msousa@417: symbol->statement_list->accept(*this);
msousa@417: symbol->expression->accept(*this);
msousa@417: return NULL;
msousa@417: }
msousa@417:
msousa@417:
msousa@417:
msousa@417:
msousa@417: