Fix bugs introduced in previous commit (once again do constant folding of all literals in type declarations)
/*
* matiec - a compiler for the programming languages defined in IEC 61131-3
*
* Copyright (C) 2003-2012 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)
*
*/
/* Determine the characteristics of a specific data type
* e.g., is it an enumeration, is it an array, is it ANY_INT, etc...
*
* The methods of this class may be passed either:
* - a data type declaration symbol_c,
* OR
* - the name of a data type (identifier_c)
* In this case, we shall first serach for the basetype declaration using search_base_type_c, and then
* run the normal process.
*/
#include "absyntax_utils.hh"
#include "../main.hh" // required for ERROR() and ERROR_MSG() macros.
class get_datatype_info_c {
private: // this is a purely static class. No need for constructors!
get_datatype_info_c(void) {};
~get_datatype_info_c(void) {};
// A helper method to get_datatype_info_c::is_type_equal()
// Assuming the relaxed datatype model, return whether the two array datatypes are equal/equivalent
static bool is_arraytype_equal_relaxed(symbol_c *first_type, symbol_c *second_type);
public:
static symbol_c *get_id (symbol_c *datatype); /* get the identifier (name) of the datatype); returns NULL if anonymous datatype! Does not work for elementary datatypes!*/
static const char *get_id_str(symbol_c *datatype); /* get the identifier (name) of the datatype); returns NULL if anonymous datatype! */
static symbol_c *get_struct_field_type_id (symbol_c *struct_datatype, symbol_c *struct_fieldname); // returns datatype of a field in a structure
static symbol_c *get_array_storedtype_id (symbol_c *type_symbol); // returns the datatype of the variables stored in the array
static symbol_c *get_ref_to (symbol_c *type_symbol); // Defined in IEC 61131-3 v3 (returns the type that is being referenced/pointed to)
/* Returns true if both datatypes are equivalent (not necessarily equal!).
* Two datatype models are supported: relaxed and strict (chosen from a command line option).
* WARNING: May return true even though the datatypes are not the same/identical!!!
* In both of the models, this may occur when at least one of the datatypes is of a generic
* datatype (Generic dataypes: ANY, ANY_INT, ANY_NUM, ...),
* or when two REF_TO datatypes both reference an equivalent datatype.
* In only the relaxed datatype, it may also return true if two array datatypes
* have the same subrange limits, and contain the same data.
*
* NOTE: Currently only the ANY generic datatype is implemented!
* NOTE: Currently stage1_2 only allows the use of the ANY keyword when in conjuntion with
* the REF_TO keyword (i.e. REF_TO ANY).
*/
static bool is_type_equal(symbol_c *first_type, symbol_c *second_type);
static bool is_type_valid(symbol_c *type);
static bool is_ref_to (symbol_c *type_symbol); // Defined in IEC 61131-3 v3
static bool is_sfc_initstep (symbol_c *type_symbol);
static bool is_sfc_step (symbol_c *type_symbol);
static bool is_function_block (symbol_c *type_symbol);
static bool is_subrange (symbol_c *type_symbol);
static bool is_enumerated (symbol_c *type_symbol);
static bool is_array (symbol_c *type_symbol);
static bool is_structure (symbol_c *type_symbol);
static bool is_ANY_REAL_literal(symbol_c *type_symbol); /* Can't we do away with this?? */
static bool is_ANY_INT_literal (symbol_c *type_symbol); /* Can't we do away with this?? */
static bool is_ANY_generic_type (symbol_c *type_symbol);
//static bool is_ANY_ELEMENTARY_generic_type (symbol_c *type_symbol);
static bool is_ANY_ELEMENTARY (symbol_c *type_symbol);
static bool is_ANY_SAFEELEMENTARY (symbol_c *type_symbol);
static bool is_ANY_ELEMENTARY_compatible (symbol_c *type_symbol);
//static bool is_ANY_MAGNITUDE_generic_type (symbol_c *type_symbol);
static bool is_ANY_MAGNITUDE (symbol_c *type_symbol);
static bool is_ANY_SAFEMAGNITUDE (symbol_c *type_symbol);
static bool is_ANY_MAGNITUDE_compatible (symbol_c *type_symbol);
static bool is_ANY_signed_MAGNITUDE (symbol_c *type_symbol);
static bool is_ANY_signed_SAFEMAGNITUDE (symbol_c *type_symbol);
static bool is_ANY_signed_MAGNITUDE_compatible (symbol_c *type_symbol);
//static bool is_ANY_NUM_generic_type (symbol_c *type_symbol);
static bool is_ANY_NUM (symbol_c *type_symbol);
static bool is_ANY_SAFENUM (symbol_c *type_symbol);
static bool is_ANY_NUM_compatible (symbol_c *type_symbol);
static bool is_ANY_signed_NUM (symbol_c *type_symbol);
static bool is_ANY_signed_SAFENUM (symbol_c *type_symbol);
static bool is_ANY_signed_NUM_compatible (symbol_c *type_symbol);
//static bool is_ANY_INT_generic_type (symbol_c *type_symbol);
static bool is_ANY_INT (symbol_c *type_symbol);
static bool is_ANY_SAFEINT (symbol_c *type_symbol);
static bool is_ANY_INT_compatible (symbol_c *type_symbol);
static bool is_ANY_signed_INT (symbol_c *type_symbol);
static bool is_ANY_signed_SAFEINT (symbol_c *type_symbol);
static bool is_ANY_signed_INT_compatible (symbol_c *type_symbol);
static bool is_ANY_unsigned_INT (symbol_c *type_symbol);
static bool is_ANY_unsigned_SAFEINT (symbol_c *type_symbol);
static bool is_ANY_unsigned_INT_compatible (symbol_c *type_symbol);
//static bool is_ANY_REAL_generic_type (symbol_c *type_symbol);
static bool is_ANY_REAL (symbol_c *type_symbol);
static bool is_ANY_SAFEREAL (symbol_c *type_symbol);
static bool is_ANY_REAL_compatible (symbol_c *type_symbol);
static bool is_ANY_nBIT (symbol_c *type_symbol);
static bool is_ANY_SAFEnBIT (symbol_c *type_symbol);
static bool is_ANY_nBIT_compatible (symbol_c *type_symbol);
static bool is_BOOL (symbol_c *type_symbol);
static bool is_SAFEBOOL (symbol_c *type_symbol);
static bool is_BOOL_compatible (symbol_c *type_symbol);
//static bool is_ANY_BIT_generic_type (symbol_c *type_symbol);
static bool is_ANY_BIT (symbol_c *type_symbol);
static bool is_ANY_SAFEBIT (symbol_c *type_symbol);
static bool is_ANY_BIT_compatible (symbol_c *type_symbol);
//static bool is_ANY_DATE_generic_type (symbol_c *type_symbol);
static bool is_ANY_DATE (symbol_c *type_symbol);
static bool is_ANY_SAFEDATE (symbol_c *type_symbol);
static bool is_ANY_DATE_compatible (symbol_c *type_symbol);
static bool is_TIME (symbol_c *type_symbol);
static bool is_SAFETIME (symbol_c *type_symbol);
static bool is_TIME_compatible (symbol_c *type_symbol);
//static bool is_ANY_STRING_generic_type (symbol_c *type_symbol);
static bool is_ANY_STRING (symbol_c *type_symbol);
static bool is_ANY_SAFESTRING (symbol_c *type_symbol);
static bool is_ANY_STRING_compatible (symbol_c *type_symbol);
public:
/* object used to identify an entry in the abstract syntax tree with an invalid data type */
/* This is only used from stage3 onwards. Stages 1 and 2 will never create any instances of invalid_type_name_c */
static invalid_type_name_c invalid_type_name;
/**********************/
/* B.1.3 - Data types */
/**********************/
/***********************************/
/* B 1.3.1 - Elementary Data Types */
/***********************************/
static lreal_type_name_c lreal_type_name;
static real_type_name_c real_type_name;
static lint_type_name_c lint_type_name;
static dint_type_name_c dint_type_name;
static int_type_name_c int_type_name;
static sint_type_name_c sint_type_name;
static ulint_type_name_c ulint_type_name;
static udint_type_name_c udint_type_name;
static uint_type_name_c uint_type_name;
static usint_type_name_c usint_type_name;
static lword_type_name_c lword_type_name;
static dword_type_name_c dword_type_name;
static word_type_name_c word_type_name;
static byte_type_name_c byte_type_name;
static bool_type_name_c bool_type_name;
static wstring_type_name_c wstring_type_name;
static string_type_name_c string_type_name;
static dt_type_name_c dt_type_name;
static date_type_name_c date_type_name;
static tod_type_name_c tod_type_name;
static time_type_name_c time_type_name;
/******************************************************/
/* Extensions to the base standard as defined in */
/* "Safety Software Technical Specification, */
/* Part 1: Concepts and Function Blocks, */
/* Version 1.0 – Official Release" */
/* by PLCopen - Technical Committee 5 - 2006-01-31 */
/******************************************************/
static safelreal_type_name_c safelreal_type_name;
static safereal_type_name_c safereal_type_name;
static safelint_type_name_c safelint_type_name;
static safedint_type_name_c safedint_type_name;
static safeint_type_name_c safeint_type_name;
static safesint_type_name_c safesint_type_name;
static safeulint_type_name_c safeulint_type_name;
static safeudint_type_name_c safeudint_type_name;
static safeuint_type_name_c safeuint_type_name;
static safeusint_type_name_c safeusint_type_name;
static safelword_type_name_c safelword_type_name;
static safedword_type_name_c safedword_type_name;
static safeword_type_name_c safeword_type_name;
static safebyte_type_name_c safebyte_type_name;
static safebool_type_name_c safebool_type_name;
static safewstring_type_name_c safewstring_type_name;
static safestring_type_name_c safestring_type_name;
static safedt_type_name_c safedt_type_name;
static safedate_type_name_c safedate_type_name;
static safetod_type_name_c safetod_type_name;
static safetime_type_name_c safetime_type_name;
};