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ModelicaStrings.c
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ModelicaStrings.c
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/* External utility functions for Modelica package
Modelica.Functions.Strings.
The functions are mostly non-portable. The following #define's are used
to define the system calls of the operating system
_MSC_VER : Microsoft Visual C++
MODELICA_EXPORT: Prefix used for function calls. If not defined, blank is used
Useful definitions:
- "static" that is all functions become static
(useful if file is included with other C-sources for an
embedded system)
- "__declspec(dllexport)" if included in a DLL and the
functions shall be visible outside of the DLL
Release Notes:
Mar. 26, 2013: by Martin Otter, DLR.
Introduced three (int) casts to avoid warning messages (ticket #1032).
Jan. 11, 2013: by Jesper Mattsson, Modelon AB.
Made code C89 compatible.
Jan. 5, 2013: by Martin Otter, DLR.
Removed "static" declarations from the Modelica interface functions.
Sep. 24, 2004: by Martin Otter.
Final cleaning up of the code
Sep. 9, 2004: by Dag Bruck, Dynasim AB.
Implementation of scan functions
Aug. 19, 2004: by Martin Otter, DLR.
Changed according to the decisions of the 37th
design meeting in Lund (see minutes)
Jan. 7, 2002: by Martin Otter, DLR.
Implemented a first version
Copyright (C) 2002-2013, Modelica Association and DLR.
The content of this file is free software; it can be redistributed
and/or modified under the terms of the Modelica License 2, see the
license conditions and the accompanying disclaimer in file
Modelica/ModelicaLicense2.html or in Modelica.UsersGuide.ModelicaLicense2.
*/
#if !defined(MODELICA_EXPORT)
# define MODELICA_EXPORT
#endif
#if defined(__gnu_linux__)
#define _GNU_SOURCE 1
#endif
#include "ModelicaUtilities.h"
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <locale.h>
MODELICA_EXPORT const char* ModelicaStrings_substring(const char* string, int startIndex, int endIndex) {
/* Return string1(startIndex:endIndex) if endIndex >= startIndex,
or return string1(startIndex:startIndex), if endIndex = 0.
An assert is triggered, if startIndex/endIndex are not valid.
*/
char* substring;
int len1 = (int) strlen(string);
int len2;
/* Check arguments */
if ( startIndex < 1 ) {
ModelicaFormatError("Wrong call of Utilities.Strings.substring:\n"
" startIndex = %d (has to be > 0).\n"
" string = \"%s\"\n", startIndex, string);
} else if ( endIndex == -999 ) {
endIndex = startIndex;
} else if ( endIndex < startIndex ) {
ModelicaFormatError("Wrong call of Utilities.Strings.substring:\n"
" startIndex = %d\n"
" endIndex = %d (>= startIndex required)\n"
" string = \"%s\"\n", startIndex, endIndex, string);
} else if ( endIndex > len1 ) {
ModelicaFormatError("Wrong call of Utilities.Strings.substring:\n"
" endIndex = %d (<= %d required (=length(string)).\n"
" string = \"%s\"\n", endIndex, len1, string);
};
/* Allocate memory and copy string */
len2 = endIndex - startIndex + 1;
substring = ModelicaAllocateString(len2);
strncpy(substring, &string[startIndex-1], len2);
substring[len2] = '\0';
return substring;
}
MODELICA_EXPORT int ModelicaStrings_length(const char* string)
/* Returns the number of characters "string" */
{
return (int) strlen(string);
}
MODELICA_EXPORT int ModelicaStrings_compare(const char* string1, const char* string2, int caseSensitive)
/* compares two strings, optionally ignoring case */
{
int result;
if (string1 == 0 || string2 == 0) return 2;
if (caseSensitive) {
result = strcmp(string1, string2);
} else {
while (tolower(*string1) == tolower(*string2) && *string1 != '\0') {
string1++;
string2++;
}
result = (int)(tolower(*string1)) - (int)(tolower(*string2));
}
if ( result < 0 ) {
result = 1;
} else if ( result == 0 ) {
result = 2;
} else {
result = 3;
};
return result;
}
#define MAX_TOKEN_SIZE 100
MODELICA_EXPORT int ModelicaStrings_skipWhiteSpace(const char* string, int i)
/* Return index in string after skipping ws, or position of terminating nul. */
{
while (string[i-1] != '\0' && isspace(string[i-1]))
++i;
return i;
}
/* ----------------- utility functions used in scanXXX functions ----------- */
static int InSet(const char* string, int i, const char* separators)
/* Returns true if string[i] is one of the characters in separators. */
{
return strchr(separators, string[i-1]) != NULL;
}
static int SkipNonWhiteSpaceSeparator(const char* string, int i, const char* separators)
/* Return index in string of first character which is ws or character in separators,
or position of terminating nul. */
{
while (string[i-1] != '\0' && (isspace(string[i-1]) || InSet(string, i, separators)))
++i;
return i;
}
static int get_token(const char* string, int startIndex, const char* separators,
int* output_index, int* token_start, int* token_length)
{
int past_token;
int sep_pos;
*token_start = ModelicaStrings_skipWhiteSpace(string, startIndex);
/* Index of first char of token, after ws. */
past_token = SkipNonWhiteSpaceSeparator(string, *token_start, separators);
/* Index of first char after token, ws or separator. */
sep_pos = ModelicaStrings_skipWhiteSpace(string, past_token);
/* Index of first char after ws after token, maybe a separator. */
*output_index = InSet(string, sep_pos, separators) ? sep_pos + 1 : sep_pos;
/* Skip any separator. */
*token_length = past_token-*token_start;
if (*token_length == 0 || *token_length > MAX_TOKEN_SIZE) {
/* Token missing or too long. */
*output_index = startIndex;
return 0; /* error */
}
return 1; /* ok */
}
static int MatchUnsignedInteger(const char* string, int start)
/* Starts matching character which make an unsigned integer. The matching
begins at the start index (first char has index 1). Returns the number
of characters that could be matched, or zero if the first character
was not a digit. */
{
const char* begin = &string[start-1];
const char* p = begin;
while (*p != '\0' && isdigit(*p))
++p;
return (int) (p - begin);
}
/* --------------- end of utility functions used in scanXXX functions ----------- */
MODELICA_EXPORT void ModelicaStrings_scanIdentifier(const char* string, int startIndex, int* nextIndex, const char** identifier)
{
int token_length=0;
int token_start = ModelicaStrings_skipWhiteSpace(string, startIndex);
/* Index of first char of token, after ws. */
if (isalpha(string[token_start-1])) {
/* Identifier has begun. */
token_length = 1;
while (string[token_start+token_length-1] != '\0' &&
(isalpha(string[token_start+token_length-1]) ||
isdigit(string[token_start+token_length-1]) ||
string[token_start+token_length-1] == '_'))
{
++token_length;
}
{
char* s = ModelicaAllocateString(token_length);
strncpy(s, string+token_start-1, token_length);
s[token_length] = '\0';
*nextIndex = token_start + token_length;
*identifier = s;
return;
}
}
/* Token missing or not identifier. */
*nextIndex = startIndex;
*identifier = ModelicaAllocateString(0);
return;
}
MODELICA_EXPORT void ModelicaStrings_scanInteger(const char* string, int startIndex, int unsignedNumber,
int* nextIndex, int* integerNumber)
{
int number_length=0;
int sign = 0;
/* Number of characters used for sign. */
int token_start = ModelicaStrings_skipWhiteSpace(string, startIndex);
/* Index of first char of token, after ws. */
if (string[token_start-1] == '+' || string[token_start-1] == '-')
sign = 1;
if (unsignedNumber==0 || (unsignedNumber==1 && sign==0)) {
number_length = MatchUnsignedInteger(string, token_start + sign);
/* Number of characters in unsigned number. */
if (number_length > 0 && sign + number_length < MAX_TOKEN_SIZE) {
/* check if the scanned string is no Real number */
int next = token_start + sign + number_length - 1;
if ( string[next] == '\0' ||
(string[next] != '\0' && string[next] != '.'
&& string[next] != 'e'
&& string[next] != 'E') ) {
#if defined(_MSC_VER) && _MSC_VER >= 1400
_locale_t loc = _create_locale(LC_NUMERIC, "C");
#elif defined(__GLIBC__) && defined(__GLIBC_MINOR__) && ((__GLIBC__ << 16) + __GLIBC_MINOR__ >= (2 << 16) + 3)
locale_t loc = newlocale(LC_NUMERIC, "C", NULL);
#endif
char buf[MAX_TOKEN_SIZE+1];
/* Buffer for copying the part recognized as the number for passing to strtol(). */
char* endptr;
/* For error checking of strtol(). */
int x;
/* For receiving the result. */
strncpy(buf, string+token_start-1, sign + number_length);
buf[sign + number_length] = '\0';
#if defined(_MSC_VER) && _MSC_VER >= 1400
x = (int)_strtol_l(buf, &endptr, 10, loc);
_free_locale(loc);
#elif defined(__GLIBC__) && defined(__GLIBC_MINOR__) && ((__GLIBC__ << 16) + __GLIBC_MINOR__ >= (2 << 16) + 3)
x = (int)strtol_l(buf, &endptr, 10, loc);
freelocale(loc);
#else
x = (int)strtol(buf, &endptr, 10);
#endif
if (*endptr == 0) {
*integerNumber = x;
*nextIndex = token_start + sign + number_length;
return;
}
} else {
++number_length;
}
}
}
/* Token missing or cannot be converted to result type. */
*nextIndex = startIndex;
*integerNumber = 0;
return;
}
MODELICA_EXPORT void ModelicaStrings_scanReal(const char* string, int startIndex, int unsignedNumber,
int* nextIndex, double* number)
{
/*
Grammar of real number:
real ::= [sign] unsigned [fraction] [exponent]
sign ::= '+' | '-'
unsigned ::= digit [unsigned]
fraction ::= '.' [unsigned]
exponent ::= ('e' | 'E') [sign] unsigned
digit ::= '0'|'1'|'2'|'3'|'4'|'5'|'6'|'7'|'8'|'9'
*/
int len = 0;
/* Temporary variable for the length of a matched unsigned number. */
int total_length = 0;
/* Total number of characters recognized as part of a decimal number. */
int token_start = ModelicaStrings_skipWhiteSpace(string, startIndex);
/* Index of first char of token, after ws. */
int exp_len = 0;
/* Total number of characters recognized as part of the non-numeric parts
* of exponent (the 'e' and the sign). */
/* Scan sign of decimal number */
if (string[token_start-1] == '+' || string[token_start-1] == '-') {
total_length = 1;
if (unsignedNumber==1) goto Modelica_ERROR;
}
/* Scan integer part of mantissa. */
len = MatchUnsignedInteger(string, token_start + total_length);
total_length += len;
/* Scan decimal part of mantissa. */
if (string[token_start + total_length-1] == '.') {
total_length += 1;
len = MatchUnsignedInteger(string, token_start + total_length);
if (len > 0) {
total_length += len;
}
}
/* Scan exponent part of mantissa. */
if (string[token_start + total_length-1] == 'e' || string[token_start + total_length-1] == 'E') {
/* total_length += 1; */
exp_len = 1;
if (string[token_start + total_length] == '+' || string[token_start + total_length] == '-') {
exp_len += 1;
}
len = MatchUnsignedInteger(string, token_start + total_length + exp_len);
if (len == 0) goto Modelica_ERROR;
total_length += exp_len + len;
}
/* Convert accumulated characters into a number. */
if (total_length > 0 && total_length < MAX_TOKEN_SIZE) {
#if defined(_MSC_VER) && _MSC_VER >= 1400
_locale_t loc = _create_locale(LC_NUMERIC, "C");
#elif defined(__GLIBC__) && defined(__GLIBC_MINOR__) && ((__GLIBC__ << 16) + __GLIBC_MINOR__ >= (2 << 16) + 3)
locale_t loc = newlocale(LC_NUMERIC, "C", NULL);
#else
char* dec = localeconv()->decimal_point;
#endif
char buf[MAX_TOKEN_SIZE+1];
/* Buffer for copying the part recognized as the number for passing to strtod(). */
char* endptr;
/* For error checking of strtod(). */
double x;
/* For receiving the result. */
strncpy(buf, string+token_start-1, total_length);
buf[total_length] = '\0';
#if defined(_MSC_VER) && _MSC_VER >= 1400
x = _strtod_l(buf, &endptr, loc);
_free_locale(loc);
#elif defined(__GLIBC__) && defined(__GLIBC_MINOR__) && ((__GLIBC__ << 16) + __GLIBC_MINOR__ >= (2 << 16) + 3)
x = strtod_l(buf, &endptr, loc);
freelocale(loc);
#else
if (*dec == '.') {
x = strtod(buf, &endptr);
}
else if (NULL == strchr(buf, '.')) {
x = strtod(buf, &endptr);
}
else {
char* p = strchr(buf, '.');
*p = *dec;
x = strtod(buf, &endptr);
}
#endif
if (*endptr == 0) {
*number = x;
*nextIndex = token_start + total_length;
return;
}
}
/* Token missing or cannot be converted to result type. */
Modelica_ERROR:
*nextIndex = startIndex;
*number = 0;
return;
}
MODELICA_EXPORT void ModelicaStrings_scanString(const char* string, int startIndex,
int* nextIndex, const char** result)
{
int i, token_start, past_token, token_length;
token_length = 0;
token_start = ModelicaStrings_skipWhiteSpace(string, startIndex);
i = token_start;
if (string[token_start-1] != '"') goto Modelica_ERROR;
/* Index of first char of token, after ws. */
++i;
while (1) {
if (string[i-1] == '\0') goto Modelica_ERROR;
if (string[i-2] == '\\' && string[i-1] == '"')
; /* escaped quote, consume */
else if (string[i-1] == '"')
break; /* end quote */
++i;
}
past_token = i + 1;
/* Index of first char after token, ws or separator. */
token_length = past_token-token_start-2;
if (token_length > 0) {
char* s = ModelicaAllocateString(token_length);
strncpy(s, string+token_start, token_length);
s[token_length] = '\0';
*result = s;
*nextIndex = past_token;
return;
}
Modelica_ERROR:
*result = ModelicaAllocateString(0);
*nextIndex = startIndex;
return;
}