--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/absyntax_utils/get_sizeof_datatype.cc Wed Sep 02 14:05:27 2009 +0200
@@ -0,0 +1,363 @@
+/*
+ * (c) 2003 Mario de Sousa
+ *
+ * Offered to the public under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2 of the
+ * License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful, but
+ * WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
+ * Public License for more details.
+ *
+ * This code is made available on the understanding that it will not be
+ * used in safety-critical situations without a full and competent review.
+ */
+
+/*
+ * An IEC 61131-3 IL and ST compiler.
+ *
+ * Based on the
+ * FINAL DRAFT - IEC 61131-3, 2nd Ed. (2001-12-10)
+ *
+ */
+
+/* Determine the size, in bits, of the data type.
+ *
+ * NOTE: Currently, only elementary data types with well defined sizes (in the standard) are supported.
+ * - derived data types are not supported, and these will return 0
+ * - TIME, DATE, TIME_OF_DAY, and DATE_AND_TIME are not supported, and will return 0
+ * - STRING and WSTRING are not supported, and the standard merely defines bit per character,
+ * and not the maximum number of characters, so these will return 0
+ *
+ * We also support the 'Numeric Literals' Data types.
+ * i.e., numeric literals are considerd basic data types
+ * as their data type is undefined (e.g. the datat type of '30'
+ * could be 'INT' or 'SINT' or 'LINT' or 'USINT' or ...
+ * NOTE: for base 10 numeric literals, any number taking up more than 64 bits
+ * will only return a bitsize of 1024!
+ *
+ * For numeric literals, we return the minimum number of bits
+ * required to store the value.
+ *
+ * E.g. TYPE new_int_t : INT; END_TYPE;
+ * TYPE new_int2_t : INT = 2; END_TYPE;
+ * TYPE new_subr_t : INT (4..5); END_TYPE;
+ *
+ * sizeof(SINT) -> 8
+ * sizeof(INT) -> 16
+ * sizeof(DINT) -> 32
+ * sizeof(LINT) -> 64
+ *
+ * sizeof('1') -> 1
+ * sizeof('015') -> 4 # Leading zeros are ignored!
+ * sizeof('0') -> 1 # This is a special case! Even the value 0 needs at least 1 bit to store!
+ * sizeof('16') -> 5
+ * sizeof('2#00101') -> 3
+ * sizeof('8#334') -> 9
+ * sizeof('16#2A') -> 8
+ *
+ * sizeof('7.4') -> 32 # all real literals return 32 bits, the size of a 'REAL'
+ * # TODO: study IEC 60559 for the range of values that may be
+ * # stored in a REAL (basic single width floating point format)
+ * # and in a LREAL (basic double width floating point format)
+ * # and see if some real literals need to return 64 instead!
+ */
+
+#include "get_sizeof_datatype.hh"
+
+#include <stdlib.h>
+#include <string.h>
+#include <limits.h> // get definition of ULLONG_MAX
+/* tell stdint.h we want the definition of UINT64_MAX */
+#define __STDC_LIMIT_MACROS
+#include <stdint.h> // get definition of uint64_t and UINT64_MAX
+
+
+#define ERROR error_exit(__FILE__,__LINE__)
+/* function defined in main.cc */
+extern void error_exit(const char *file_name, int line_no);
+
+
+/* This class is a singleton.
+ * So we need a pointer to the singe instance...
+ */
+get_sizeof_datatype_c *get_sizeof_datatype_c::singleton = NULL;
+
+
+#define _encode_int(value) ((void *)(((char *)NULL) + value))
+#define _decode_int(ptr) (((char *)ptr) - ((char *)NULL))
+
+
+
+
+/* divide a base 10 literal in a string by 2 */
+/* returns remainder of division (0 or 1) */
+static int strdivby2(char **strptr) {
+ char *str = *strptr;
+ int carry = 0;
+
+ while (*str != '\0') {
+ /* Assumes ASCII */
+ int newcarry;
+// newcarry = ((*str-'0') mod 2);
+ newcarry = ((*str-'0') - ((*str-'0')/2)*2);
+ *str = (((*str-'0') + 10*carry)/2) + '0';
+ carry = newcarry;
+ str++;
+ }
+
+ /* ignore leading zeros in result... */
+ while (**strptr == '0')
+ (*strptr)++;
+
+ return carry;
+}
+
+
+/* Constructor for the singleton class */
+int get_sizeof_datatype_c::getsize(symbol_c *data_type_symbol) {
+ if (NULL == singleton) {
+ singleton = new get_sizeof_datatype_c;
+ if (NULL == singleton)
+ ERROR;
+ }
+ return _decode_int(data_type_symbol->accept(*singleton));
+ }
+
+/* Destructor for the singleton class */
+get_sizeof_datatype_c::~get_sizeof_datatype_c(void) {
+ if (NULL != singleton) delete singleton;
+ singleton = NULL;
+ }
+
+
+/*********************/
+/* B 1.2 - Constants */
+/*********************/
+
+/******************************/
+/* B 1.2.1 - Numeric Literals */
+/******************************/
+ /* Numeric literals without any explicit type cast have unknown data type,
+ * so we continue considering them as their own basic data types until
+ * they can be resolved (for example, when using '30+x' where 'x' is a LINT variable, the
+ * numeric literal '30' must then be considered a LINT so the ADD function may be called
+ * with all inputs of the same data type.
+ * If 'x' were a SINT, then the '30' would have to be a SINT too!
+ */
+
+/* NOTE: all integer and real literal tokens will always be positive (i.e. no leading '-')
+ * due to the way the source code is parsed by iec.flex.
+ */
+void *get_sizeof_datatype_c::visit(real_c *symbol) {
+ return _encode_int(32);
+}
+
+/* NOTE: all integer and real literal tokens will always be positive (i.e. no leading '-')
+ * due to the way the source code is parsed by iec.flex.
+ */
+void *get_sizeof_datatype_c::visit(integer_c *symbol) {
+ int bitsize = 0;
+
+ if (NULL == symbol->value ) ERROR;
+ if ('\0' == *(symbol->value)) ERROR;
+
+#if 0
+ char *endptr;
+ /* Convert the string to an unsigned 64 bit integer */
+ /* We can use strtoull(), but we are not guaranteed that an unsigned long long int
+ * is 64 bits wide. First make sure that it is...
+ *
+ * We could also use the strtouq() instead, which converts
+ * to a quad word (64 bits). However, this requires either GCC or BSD extensions.
+ */
+ #ifdef strtoull // this ifdef does not work!!
+ /* we have long long int, use it... */
+ #define ival_MAX ULLONG_MAX
+ unsigned long long int ival = 0;
+ ival = strtoull (symbol->value, &endptr, 10 /* base */);
+ #else
+ /* use long int ... */
+ #define ival_MAX ULONG_MAX
+ unsigned long int ival = 0;
+ ival = strtoul (symbol->value, &endptr, 10 /* base */);
+ #endif
+
+ #if (ival_MAX < UINT64_MAX)
+ #error Largest strtoint() conversion function converts to an int less than 64 bits wide!
+ #endif
+
+ if (NULL == endptr) ERROR;
+ if ('\0' != *endptr) ERROR;
+ // TODO: return _encode_int(1024) if value takes up more than 64 bits!
+
+ /* determine the number of bits used... */
+ for (bitsize = 0; ival > 0; ival /= 2, bitsize++);
+
+ /* special case... if (value == 0) <=> (bitsize == 0), return bit size of 1 ! */
+ if (0 == bitsize) bitsize = 1;
+
+ return _encode_int(bitsize);
+#endif
+ /* We could first convert from string to some kind of integer, and then
+ * determine the the bitsize using integer aritmetic.
+ * However, we are then limited to the bit size of the widest available integer
+ * (usually 64 bits), which is not good at all!
+ */
+ /* Let's try to determine bitsize by converting directly from the string!! */
+ char *sval = strdup(symbol->value);
+ char *oval = sval;
+ if (NULL == sval) ERROR;
+ if ('\0' == *sval) ERROR;
+
+ for (bitsize = 0; *sval != '\0'; strdivby2(&sval), bitsize ++);
+
+ /* Even for (value == 0), the above loop will return bitsize == 1!,
+ * so we don't need to handle the special case...
+ */
+ /* special case... if (value == 0) <=> (bitsize == 0), return bit size of 1 ! */
+ // if (0 == bitsize) bitsize = 1;
+
+ free(oval);
+ return _encode_int(bitsize);
+}
+
+
+/* NOTE: all integer and real literal tokens will always be positive (i.e. no leading '-')
+ * due to the way the source code is parsed by iec.flex.
+ */
+void *get_sizeof_datatype_c::visit(binary_integer_c *symbol) {
+ const char *sval = symbol->value;
+ int bitsize = 0;
+
+ /* first 2 characters had better be "2#" ! */
+ if (NULL == sval) ERROR;
+ if ('\0' == *sval) ERROR;
+ if ( '2' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+ if ( '#' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+
+ /* determine the number of bits used... */
+ for (bitsize = 0; '\0' != *sval; sval++, bitsize++) {
+ /* consistency check: make sure we only have binary digits! */
+ if (('0' != *sval) && ('1' != *sval))
+ ERROR;
+ }
+
+ /* special case... if (value == 0) <=> (bitsize == 0), return bit size of 1 ! */
+ if (0 == bitsize) bitsize = 1;
+
+ return _encode_int(bitsize);
+}
+
+
+/* NOTE: all integer and real literal tokens will always be positive (i.e. no leading '-')
+ * due to the way the source code is parsed by iec.flex.
+ */
+void *get_sizeof_datatype_c::visit(octal_integer_c *symbol) {
+ const char *sval = symbol->value;
+ int bitsize = 0;
+
+ /* first 2 characters had better be "8#" ! */
+ if (NULL == sval) ERROR;
+ if ('\0' == *sval) ERROR;
+ if ( '8' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+ if ( '#' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+
+ /* determine the number of bits used... */
+ for (bitsize = 0; '\0' != *sval; sval++, bitsize += 3 /* 3 bits per octal digit */) {
+ /* consistency check: make sure we only have octal digits! */
+ /* Assumes ASCII */
+ if (('0' > *sval) || ('7' < *sval))
+ ERROR;
+ }
+
+ /* special case... if (value == 0) <=> (bitsize == 0), return bit size of 1 ! */
+ if (0 == bitsize) bitsize = 1;
+
+ return _encode_int(bitsize);
+}
+
+
+/* NOTE: all integer and real literal tokens will always be positive (i.e. no leading '-')
+ * due to the way the source code is parsed by iec.flex.
+ */
+void *get_sizeof_datatype_c::visit(hex_integer_c *symbol) {
+ const char *sval = symbol->value;
+ int bitsize = 0;
+
+ /* first 3 characters had better be "16#" ! */
+ if (NULL == sval) ERROR;
+ if ('\0' == *sval) ERROR;
+ if ( '1' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+ if ( '6' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+ if ( '#' != *sval) ERROR;
+ sval++;
+ if ('\0' == *sval) ERROR;
+
+ /* determine the number of bits used... */
+ for (bitsize = 0; '\0' != *sval; sval++, bitsize += 4 /* 4 bits per hex digit */) {
+ /* consistency check: make sure we only have hex digits! */
+ /* Assumes ASCII */
+ if (!(('0' <= *sval) && ('9' >= *sval)) &&
+ !(('A' <= *sval) && ('F' >= *sval)) &&
+ !(('a' <= *sval) && ('b' >= *sval)))
+ ERROR;
+ }
+
+ /* special case... if (value == 0) <=> (bitsize == 0), return bit size of 1 ! */
+ if (0 == bitsize) bitsize = 1;
+
+ return _encode_int(bitsize);
+}
+
+
+/***********************************/
+/* B 1.3.1 - Elementary Data Types */
+/***********************************/
+// void *get_sizeof_datatype_c::visit(time_type_name_c *symbol) {return _encode_int(0); }
+void *get_sizeof_datatype_c::visit(bool_type_name_c *symbol) {return _encode_int(1); }
+void *get_sizeof_datatype_c::visit(sint_type_name_c *symbol) {return _encode_int(8); }
+void *get_sizeof_datatype_c::visit(int_type_name_c *symbol) {return _encode_int(16);}
+void *get_sizeof_datatype_c::visit(dint_type_name_c *symbol) {return _encode_int(32);}
+void *get_sizeof_datatype_c::visit(lint_type_name_c *symbol) {return _encode_int(64);}
+void *get_sizeof_datatype_c::visit(usint_type_name_c *symbol) {return _encode_int(8); }
+void *get_sizeof_datatype_c::visit(uint_type_name_c *symbol) {return _encode_int(16);}
+void *get_sizeof_datatype_c::visit(udint_type_name_c *symbol) {return _encode_int(32);}
+void *get_sizeof_datatype_c::visit(ulint_type_name_c *symbol) {return _encode_int(64);}
+void *get_sizeof_datatype_c::visit(real_type_name_c *symbol) {return _encode_int(32);}
+void *get_sizeof_datatype_c::visit(lreal_type_name_c *symbol) {return _encode_int(64);}
+// void *get_sizeof_datatype_c::visit(date_type_name_c *symbol) {return _encode_int(0); }
+// void *get_sizeof_datatype_c::visit(tod_type_name_c *symbol) {return _encode_int(0); }
+// void *get_sizeof_datatype_c::visit(dt_type_name_c *symbol) {return _encode_int(0); }
+void *get_sizeof_datatype_c::visit(byte_type_name_c *symbol) {return _encode_int(8); }
+void *get_sizeof_datatype_c::visit(word_type_name_c *symbol) {return _encode_int(16);}
+void *get_sizeof_datatype_c::visit(dword_type_name_c *symbol) {return _encode_int(32);}
+void *get_sizeof_datatype_c::visit(lword_type_name_c *symbol) {return _encode_int(64);}
+// void *get_sizeof_datatype_c::visit(string_type_name_c *symbol) {return _encode_int(0); }
+// void *get_sizeof_datatype_c::visit(wstring_type_name_c *symbol) {return _encode_int(0); }
+/******************************************************/
+/* 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 */
+/******************************************************/
+void *get_sizeof_datatype_c::visit(safebool_type_name_c *symbol) {return _encode_int(1);}
+
+/********************************/
+/* B 1.3.3 - Derived data types */
+/********************************/
+// Not yet supported...