1.1 --- /dev/null Thu Jan 01 00:00:00 1970 +0000
1.2 +++ b/epoc32/include/stdapis/stlport/stl/_monetary.c Wed Mar 31 12:33:34 2010 +0100
1.3 @@ -0,0 +1,827 @@
1.4 +/*
1.5 + * © Portions copyright (c) 2006-2007 Nokia Corporation. All rights reserved.
1.6 + *
1.7 + * Copyright (c) 1999
1.8 + * Silicon Graphics Computer Systems, Inc.
1.9 + *
1.10 + * Copyright (c) 1999
1.11 + * Boris Fomitchev
1.12 + *
1.13 + * This material is provided "as is", with absolutely no warranty expressed
1.14 + * or implied. Any use is at your own risk.
1.15 + *
1.16 + * Permission to use or copy this software for any purpose is hereby granted
1.17 + * without fee, provided the above notices are retained on all copies.
1.18 + * Permission to modify the code and to distribute modified code is granted,
1.19 + * provided the above notices are retained, and a notice that the code was
1.20 + * modified is included with the above copyright notice.
1.21 + *
1.22 + */
1.23 +#ifndef _STLP_MONETARY_C
1.24 +#define _STLP_MONETARY_C
1.25 +
1.26 +# ifndef _STLP_INTERNAL_MONETARY_H
1.27 +# include <stl/_monetary.h>
1.28 +# endif
1.29 +
1.30 +# if defined (_STLP_EXPOSE_STREAM_IMPLEMENTATION)
1.31 +
1.32 +#ifndef _STLP_INTERNAL_IOS_H
1.33 +# include <stl/_ios.h>
1.34 +#endif
1.35 +
1.36 +#ifndef _STLP_INTERNAL_NUM_PUT_H
1.37 +# include <stl/_num_put.h>
1.38 +#endif
1.39 +
1.40 +#ifndef _STLP_INTERNAL_NUM_GET_H
1.41 +# include <stl/_num_get.h>
1.42 +#endif
1.43 +
1.44 +_STLP_BEGIN_NAMESPACE
1.45 +
1.46 +# if ( _STLP_STATIC_TEMPLATE_DATA > 0 )
1.47 +# if !defined(__LIBSTD_CPP_SYMBIAN32_WSD__) && !defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
1.48 +template <class _CharT, class _InputIterator>
1.49 +locale::id money_get<_CharT, _InputIterator>::id;
1.50 +
1.51 +template <class _CharT, class _OutputIterator>
1.52 +locale::id money_put<_CharT, _OutputIterator>::id;
1.53 +#endif
1.54 +# else /* ( _STLP_STATIC_TEMPLATE_DATA > 0 ) */
1.55 +
1.56 +typedef money_get<char, const char*> money_get_char;
1.57 +typedef money_put<char, char*> money_put_char;
1.58 +typedef money_get<char, istreambuf_iterator<char, char_traits<char> > > money_get_char_2;
1.59 +typedef money_put<char, ostreambuf_iterator<char, char_traits<char> > > money_put_char_2;
1.60 +
1.61 +#ifndef __SYMBIAN32__
1.62 +__DECLARE_INSTANCE(locale::id, money_get_char::id, );
1.63 +__DECLARE_INSTANCE(locale::id, money_put_char::id, );
1.64 +__DECLARE_INSTANCE(locale::id, money_get_char_2::id, );
1.65 +__DECLARE_INSTANCE(locale::id, money_put_char_2::id, );
1.66 +#endif
1.67 +
1.68 +# ifndef _STLP_NO_WCHAR_T
1.69 +
1.70 +typedef money_get<wchar_t, const wchar_t*> money_get_wchar_t;
1.71 +typedef money_get<wchar_t, istreambuf_iterator<wchar_t, char_traits<wchar_t> > > money_get_wchar_t_2;
1.72 +typedef money_put<wchar_t, wchar_t*> money_put_wchar_t;
1.73 +typedef money_put<wchar_t, ostreambuf_iterator<wchar_t, char_traits<wchar_t> > > money_put_wchar_t_2;
1.74 +
1.75 +#ifndef __SYMBIAN32__
1.76 +__DECLARE_INSTANCE(locale::id, money_get_wchar_t::id, );
1.77 +__DECLARE_INSTANCE(locale::id, money_put_wchar_t::id, );
1.78 +__DECLARE_INSTANCE(locale::id, money_get_wchar_t_2::id, );
1.79 +__DECLARE_INSTANCE(locale::id, money_put_wchar_t_2::id, );
1.80 +#endif
1.81 +
1.82 +# endif
1.83 +# endif /* ( _STLP_STATIC_TEMPLATE_DATA > 0 ) */
1.84 +
1.85 +// money_get facets
1.86 +
1.87 +
1.88 +// helper functions for do_get
1.89 +template <class _InIt1, class _InIt2>
1.90 +pair<_InIt1, bool> __get_string(_InIt1 __first, _InIt1 __last,
1.91 + _InIt2 __str_first, _InIt2 __str_last) {
1.92 + pair<_InIt1, _InIt2> __pr = mismatch(__first, __last, __str_first);
1.93 + return make_pair(__pr.first, __pr.second == __str_last);
1.94 +}
1.95 +
1.96 +template <class _InIt, class _OuIt, class _CharT>
1.97 +bool
1.98 +__get_monetary_value(_InIt& __first, _InIt __last, _OuIt __stl_out,
1.99 + const ctype<_CharT>& _c_type,
1.100 + _CharT __point,
1.101 + int __frac_digits,
1.102 + _CharT __sep,
1.103 + const string& __grouping,
1.104 + bool& __syntax_ok)
1.105 +{
1.106 +
1.107 + size_t __digits = 0;
1.108 +
1.109 + if (__first == __last || !_c_type.is(ctype_base::digit, *__first))
1.110 + return false;
1.111 +
1.112 + char __group_sizes[128];
1.113 + char* __group_sizes_end = __grouping.size() == 0 ? 0 : __group_sizes;
1.114 + char __current_group_size = 0;
1.115 +
1.116 + while (__first != __last) {
1.117 + if (_c_type.is(ctype_base::digit, *__first)) {
1.118 + ++__current_group_size;
1.119 + *__stl_out++ = *__first++;
1.120 + __digits++;
1.121 + }
1.122 +#ifdef __SYMBIAN32__
1.123 +else if ( (__current_group_size)&&(__group_sizes_end) ){
1.124 +#else
1.125 + else if (__group_sizes_end) {
1.126 +#endif
1.127 + if (*__first == __sep) {
1.128 + *__group_sizes_end++ = __current_group_size;
1.129 + __current_group_size = 0;
1.130 + ++__first;
1.131 + }
1.132 + else break;
1.133 + }
1.134 + else
1.135 + break;
1.136 + }
1.137 +
1.138 + if (__grouping.size() == 0)
1.139 + __syntax_ok = true;
1.140 + else {
1.141 + if (__group_sizes_end != __group_sizes)
1.142 + *__group_sizes_end++ = __current_group_size;
1.143 +
1.144 + __syntax_ok = __valid_grouping(__group_sizes, __group_sizes_end,
1.145 + __grouping.data(), __grouping.data()+ __grouping.size());
1.146 +
1.147 + if (__first == __last || *__first != __point) {
1.148 + for (int __digits = 0; __digits != __frac_digits; ++__digits)
1.149 + *__stl_out++ = _CharT('0');
1.150 + return true; // OK not to have decimal point
1.151 + }
1.152 + }
1.153 +//bug fix testcase_22427 - commented
1.154 +// ++__first;
1.155 +
1.156 +
1.157 + //bug fix testcase_22427 - added if
1.158 +
1.159 + if (__first != __last && *__first == __point && __frac_digits)
1.160 + {
1.161 + //bug fix testcase_22427 - commented
1.162 + ++__first;
1.163 + while (__first != __last && _c_type.is(ctype_base::digit, *__first)) {
1.164 + *__stl_out++ = *__first++;
1.165 + ++__digits;
1.166 + }
1.167 + }
1.168 +
1.169 + //bug fix testcase_22427 - condition changed
1.170 +// __syntax_ok = __syntax_ok && (__digits == __frac_digits);
1.171 +
1.172 + if(__digits == 0)
1.173 + __syntax_ok = false;
1.174 +
1.175 + return true;
1.176 +}
1.177 +
1.178 +# ifndef _STLP_NO_LONG_DOUBLE
1.179 +
1.180 +//===== methods ======
1.181 +template <class _CharT, class _InputIter>
1.182 +_InputIter
1.183 +money_get<_CharT, _InputIter>::do_get(_InputIter __s, _InputIter __end, bool __intl,
1.184 + ios_base& __str, ios_base::iostate& __err,
1.185 + long double& __units) const {
1.186 + string_type __buf;
1.187 + __s = do_get(__s, __end, __intl, __str, __err, __buf);
1.188 +
1.189 + if (__err == ios_base::goodbit || __err == ios_base::eofbit) {
1.190 + __buf.push_back(0);
1.191 + typename string_type::iterator __b = __buf.begin(), __e = __buf.end();
1.192 + // Can't use atold, since it might be wchar_t. Don't get confused by name below :
1.193 + // it's perfectly capable of reading long double.
1.194 + __get_decimal_integer(__b, __e, __units);
1.195 + }
1.196 + if (__s == __end)
1.197 + __err |= ios_base::eofbit;
1.198 + return __s;
1.199 +}
1.200 +# endif
1.201 +
1.202 +template <class _CharT, class _InputIter>
1.203 +_InputIter
1.204 +money_get<_CharT, _InputIter>::do_get(iter_type __s,
1.205 + iter_type __end, bool __intl,
1.206 + ios_base& __str, ios_base::iostate& __err,
1.207 + string_type& __digits) const {
1.208 + __err = 0;
1.209 + if (__s == __end) {
1.210 + __err |= ios_base::eofbit;
1.211 + return __s;
1.212 + }
1.213 +
1.214 + typedef moneypunct<_CharT, false> _Punct;
1.215 + typedef moneypunct<_CharT, true> _Punct_intl;
1.216 + typedef ctype<_CharT> _Ctype;
1.217 +#ifdef __SYMBIAN32__
1.218 + bool __isSignSympresent = false;
1.219 +#endif
1.220 +
1.221 + bool __testvalid = true;
1.222 + locale __loc = __str.getloc();
1.223 + const _Punct& __punct = use_facet<_Punct>(__loc) ;
1.224 + const _Punct_intl& __punct_intl = use_facet<_Punct_intl>(__loc) ;
1.225 + const _Ctype& __c_type = use_facet<_Ctype>(__loc) ;
1.226 +
1.227 + money_base::pattern __format = __intl ? __punct_intl.neg_format()
1.228 + : __punct.neg_format();
1.229 + string_type __ns = __intl ? __punct_intl.negative_sign()
1.230 + : __punct.negative_sign();
1.231 + string_type __ps = __intl ? __punct_intl.positive_sign()
1.232 + : __punct.positive_sign();
1.233 + string_type __sign = __ps;
1.234 + int __i;
1.235 + bool __is_positive = true;
1.236 + bool __symbol_required = (__str.flags() & ios_base::showbase) !=0;
1.237 + string_type __buf;
1.238 + back_insert_iterator<string_type> __stl_out(__buf);
1.239 +// pair<iter_type, bool> __result;
1.240 +
1.241 + for (__i = 0; __i < 4; ++__i) {
1.242 + switch (__format.field[__i]) {
1.243 + case (char) money_base::none:
1.244 +#ifndef __SYMBIAN32__
1.245 + case (char) money_base::space:
1.246 +#endif
1.247 +
1.248 + if (__i == 3) {
1.249 + //if (__c_type.is(ctype_base::space, *__s)) { //gnu buf fix, 22/12/06
1.250 + if((__s != __end) && (!__c_type.is(ctype_base::space, *__s)) && (__ps.size()<=1) && (__ns.size()<=1) ){
1.251 + __err = ios_base::failbit;
1.252 + return __s;
1.253 + }
1.254 + // break; //gnu bug fix 2/1/07
1.255 + }
1.256 + while (__s != __end && __c_type.is(ctype_base::space, *__s))
1.257 + ++__s;
1.258 + break;
1.259 +#ifdef __SYMBIAN32__
1.260 + case (char) money_base::space:
1.261 + if (!__c_type.is(ctype_base::space, *__s)) {
1.262 +#ifdef __SYMBIAN32__
1.263 + if(!__isSignSympresent) //if no sign symbol present, space is not mandatory.
1.264 + break;
1.265 +#endif
1.266 + __err = ios_base::failbit;
1.267 + return __s;
1.268 + }
1.269 + ++__s;
1.270 + while (__s != __end && __c_type.is(ctype_base::space, *__s))
1.271 + ++__s;
1.272 + break;
1.273 +#endif
1.274 + case money_base::symbol: {
1.275 + string_type __curs = __intl ? __punct_intl.curr_symbol()
1.276 + : __punct.curr_symbol();
1.277 + pair<iter_type, bool>
1.278 + __result = __get_string(__s, __end, __curs.begin(), __curs.end());
1.279 + if (!__result.second && __symbol_required)
1.280 + __err = ios_base::failbit;
1.281 + __s = __result.first;
1.282 + break;
1.283 + }
1.284 + case money_base::sign: {
1.285 + if (__s == __end) {
1.286 + if (__ps.size() == 0)
1.287 + break;
1.288 + if (__ns.size() == 0) {
1.289 + __is_positive = false;
1.290 + __sign = __ns;
1.291 + break;
1.292 + }
1.293 + __err = ios_base::failbit;
1.294 + return __s;
1.295 + }
1.296 + else {
1.297 + if (__ps.size() == 0) {
1.298 + if (__ns.size() == 0)
1.299 + break;
1.300 + if (*__s == __ns[0]) {
1.301 + ++__s;
1.302 + __is_positive = false;
1.303 + __sign = __ns;
1.304 +#ifdef __SYMBIAN32__
1.305 + __isSignSympresent = true;
1.306 +#endif
1.307 +
1.308 + break;
1.309 + }
1.310 + // __err = ios_base::failbit; //if ps !=0 and ns!=0, and no negative sign mean it is positive, not fail.
1.311 + // return __s;
1.312 + break;
1.313 + }
1.314 + else {
1.315 + if (*__s == __ps[0]) {
1.316 + ++__s;
1.317 +#ifdef __SYMBIAN32__
1.318 + __isSignSympresent = true;
1.319 +#endif
1.320 +
1.321 + break;
1.322 + }
1.323 +#ifdef __SYMBIAN32__
1.324 + if (__ns.size() == 0) //here positive have symbol,negative have no symbol
1.325 + {
1.326 + __is_positive = false; // in this case if symbol not present means it is negative
1.327 + __sign = __ns;
1.328 + break;
1.329 + }
1.330 +
1.331 +#else
1.332 + if (__ns.size() == 0)
1.333 + break;
1.334 +#endif
1.335 + if (*__s == __ns[0]) {
1.336 + ++__s;
1.337 + __is_positive = false;
1.338 + __sign = __ns;
1.339 +#ifdef __SYMBIAN32__
1.340 + __isSignSympresent = true;
1.341 +#endif
1.342 + break;
1.343 + }
1.344 + __err = ios_base::failbit;
1.345 + // return __s;
1.346 + }
1.347 + }
1.348 + return __s;
1.349 + // break;
1.350 + }
1.351 + case money_base::value: {
1.352 + _CharT __point = __intl ? __punct_intl.decimal_point()
1.353 + : __punct.decimal_point();
1.354 + int __frac_digits = __intl ? __punct_intl.frac_digits()
1.355 + : __punct.frac_digits();
1.356 + string __grouping = __intl ? __punct_intl.grouping()
1.357 + : __punct.grouping();
1.358 + bool __syntax_ok = true;
1.359 +
1.360 + bool __result;
1.361 +
1.362 + _CharT __sep = __grouping.size() == 0 ? _CharT() :
1.363 + __intl ? __punct_intl.thousands_sep() : __punct.thousands_sep();
1.364 +
1.365 + __result = __get_monetary_value(__s, __end, __stl_out, __c_type,
1.366 + __point, __frac_digits,
1.367 + __sep,
1.368 + __grouping, __syntax_ok);
1.369 +
1.370 + if (!__syntax_ok)
1.371 + __err |= ios_base::failbit;
1.372 + if (!__result) {
1.373 + __err = ios_base::failbit;
1.374 + return __s;
1.375 + }
1.376 + break;
1.377 +
1.378 + } // Close money_base::value case
1.379 +
1.380 +
1.381 + } // Close switch statement
1.382 + } // Close for loop
1.383 +
1.384 +#ifndef __SYMBIAN32__ //find the given number pos or neg, required for cases where sign is present at string starting and ending
1.385 + do{
1.386 + bool type = true;
1.387 +
1.388 + int si = __ps.size();
1.389 + for (int i = 1;i<__ps.size();i++)
1.390 + {
1.391 + if(__s[i-1]!=__ps[i])
1.392 + {
1.393 + type = false;
1.394 + break;
1.395 + }
1.396 + }
1.397 +
1.398 + if ((si!=0) && (type ==true))
1.399 + {
1.400 + __sign = __ps;
1.401 + break;
1.402 + }
1.403 + if (__ns.size() == 0)
1.404 + break;
1.405 + type = true;
1.406 + for (int i =1;i<__ns.size();i++)
1.407 + {
1.408 + if(__s[i-1]!=__ns[i])
1.409 + {
1.410 + type = false;
1.411 + break;
1.412 + }
1.413 + }
1.414 + if (type ==true) {
1.415 + __is_positive = false;
1.416 + __sign = __ns;
1.417 + break;
1.418 + }
1.419 + }while(0);
1.420 +
1.421 +#endif
1.422 +
1.423 +
1.424 +#ifdef __SYMBIAN32__
1.425 +// Need to get the rest of the sign characters, if they exist.
1.426 + if (__sign.size() > 1)
1.427 + {
1.428 + int __len = __sign.size();
1.429 + int __i = 1;
1.430 + char_type __c = *__s;
1.431 + char_type __eol = '\0';
1.432 + for (; __c != __eol && __i < __len; __i++)
1.433 + {
1.434 + if (__s != __end)
1.435 + __c = *(++__s);
1.436 +
1.437 + }
1.438 + //checking sign completely extracted successfully
1.439 +
1.440 + if (__i != __len)
1.441 + __testvalid = false;
1.442 + }
1.443 +
1.444 +#endif
1.445 +
1.446 + if (__is_positive) {
1.447 + if (__ps.size() > 1) {
1.448 +#ifndef __SYMBIAN32__
1.449 + pair<_InputIter, bool>
1.450 + __result = __get_string(__s, __end, __ps.begin() + 1, __ps.end());
1.451 + __s = __result.first;
1.452 + if (!__result.second)
1.453 + __err |= ios::failbit;
1.454 +#endif
1.455 + if(!__testvalid)
1.456 + __err |= ios::failbit;
1.457 + }
1.458 + if (!(__err & ios_base::failbit))
1.459 + __digits = __buf;
1.460 + }
1.461 + else {
1.462 + if (__ns.size() > 1) {
1.463 +#ifndef __SYMBIAN32__
1.464 + pair<_InputIter, bool>
1.465 + __result = __get_string(__s, __end, __ns.begin() + 1, __ns.end());
1.466 + __s = __result.first;
1.467 + if (!__result.second)
1.468 + __err |= ios::failbit;
1.469 +#endif
1.470 + if(!__testvalid)
1.471 + __err |= ios::failbit;
1.472 + }
1.473 + if (!(__err & ios::failbit) && (__ns == __sign)) {
1.474 + __buf.insert(__buf.begin(),__c_type.widen('-'));
1.475 + }
1.476 +#ifdef __SYMBIAN32__
1.477 + if (!(__err & ios_base::failbit))
1.478 + __digits = __buf;
1.479 +#else
1.480 + __digits = __buf;
1.481 +#endif
1.482 + }
1.483 + if (__s == __end)
1.484 + __err |= ios::eofbit;
1.485 +
1.486 + return __s;
1.487 +}
1.488 +
1.489 +// money_put facets
1.490 +
1.491 +template <class _CharT, class _OutputIter>
1.492 +_OutputIter
1.493 +money_put<_CharT, _OutputIter>
1.494 + ::do_put(_OutputIter __s, bool __intl, ios_base& __str,
1.495 + char_type __fill,
1.496 + const string_type& __digits) const {
1.497 + typedef ctype<_CharT> _Ctype;
1.498 + typedef moneypunct<_CharT, false> _Punct;
1.499 + typedef moneypunct<_CharT, true> _Punct_intl;
1.500 +
1.501 + locale __loc = __str.getloc();
1.502 + const _Ctype& __c_type = use_facet<_Ctype>(__loc) ;
1.503 + const _Punct& __punct = use_facet<_Punct>(__loc) ;
1.504 + const _Punct_intl& __punct_intl = use_facet<_Punct_intl>(__loc) ;
1.505 +
1.506 + // some special characters
1.507 +
1.508 + char_type __minus = __c_type.widen('-');
1.509 + char_type __plus = __c_type.widen('+');
1.510 + char_type __space = __c_type.widen(' ');
1.511 + char_type __zero = __c_type.widen('0');
1.512 + char_type __point = __intl ? __c_type.widen(__punct_intl.decimal_point())
1.513 + : __c_type.widen(__punct.decimal_point());
1.514 +
1.515 + char_type __sep = __intl ? __punct_intl.thousands_sep()
1.516 + : __punct .thousands_sep();
1.517 +
1.518 + string __grouping = __intl ? __punct_intl.grouping()
1.519 + : __punct .grouping();
1.520 +
1.521 + int __frac_digits = __intl ? __punct_intl.frac_digits()
1.522 + : __punct.frac_digits();
1.523 +
1.524 + string_type __curr_sym = __intl ? __punct_intl.curr_symbol()
1.525 + : __punct.curr_symbol();
1.526 +
1.527 + // if there are no digits we are going to return __s. If there
1.528 + // are digits, but not enough to fill the frac_digits, we are
1.529 + // going to add zeros. I don't know whether this is right or
1.530 + // not.
1.531 +
1.532 + if (__digits.size() == 0)
1.533 + return __s;
1.534 +
1.535 + typename string_type::const_iterator __digits_first = __digits.begin();
1.536 + typename string_type::const_iterator __digits_last = __digits.end();
1.537 +
1.538 + bool __is_negative = *__digits_first == __minus;
1.539 + if (__is_negative)
1.540 + ++__digits_first;
1.541 +
1.542 + string_type __sign = __intl ?
1.543 + __is_negative ? __punct_intl.negative_sign()
1.544 + : __punct_intl.positive_sign()
1.545 + :
1.546 + __is_negative ? __punct.negative_sign()
1.547 + : __punct.positive_sign();
1.548 + typename string_type::const_iterator __cp = __digits_first;
1.549 + while (__cp != __digits_last && __c_type.is(ctype_base::digit, *__cp))
1.550 + ++__cp;
1.551 + if (__cp == __digits_first)
1.552 + return __s;
1.553 + __digits_last = __cp;
1.554 +
1.555 + // If grouping is required, we make a copy of __digits and
1.556 + // insert the grouping.
1.557 +
1.558 + // To handle the fractional digits, we augment the first group
1.559 + // by frac_digits. If there is only one group, we need first
1.560 + // to duplicate it.
1.561 +
1.562 + string_type __new_digits(__digits_first, __digits_last);
1.563 +#ifdef __SYMBIAN32__
1.564 + int __numberofseperators = 0;
1.565 + if (__grouping.size()>0)
1.566 + __numberofseperators = (__new_digits.size()/__grouping[0])+1;
1.567 + else
1.568 + __numberofseperators = 0;
1.569 + __new_digits.resize(__new_digits.size()+__numberofseperators);
1.570 +#endif
1.571 + if (__grouping.size() != 0) {
1.572 + if (__grouping.size() == 1)
1.573 + __grouping.push_back(__grouping[0]);
1.574 + __grouping[0] += __frac_digits;
1.575 + _CharT* __data_ptr = __CONST_CAST(_CharT*,__new_digits.data());
1.576 + _CharT* __data_end = __data_ptr + __new_digits.size();
1.577 +
1.578 +
1.579 + ptrdiff_t __value_length = __insert_grouping(__data_ptr,
1.580 +#ifdef __SYMBIAN32__
1.581 + __data_end-__numberofseperators,
1.582 +#else
1.583 + __data_end,
1.584 +#endif
1.585 + __grouping,
1.586 + __sep,
1.587 + __plus, __minus, 0);
1.588 + __digits_first = __new_digits.begin();
1.589 + __digits_last = __digits_first + __value_length;
1.590 + }
1.591 +
1.592 + // Determine the amount of padding required, if any.
1.593 +#ifdef __SYMBIAN32__
1.594 + int __width = __str.width(); //width returns signed value.
1.595 +#else
1.596 + size_t __width = __str.width();
1.597 +#endif
1.598 +
1.599 +#if defined(_STLP_DEBUG) && (defined(__HP_aCC) || (__HP_aCC <= 1))
1.600 + size_t __value_length = operator -(__digits_last, __digits_first);
1.601 +#else
1.602 + size_t __value_length = __digits_last - __digits_first;
1.603 +#endif
1.604 +
1.605 + size_t __length = __value_length;
1.606 +
1.607 + __length += __sign.size();
1.608 + if (__frac_digits != 0)
1.609 + ++__length;
1.610 +
1.611 + bool __generate_curr = (__str.flags() & ios_base::showbase) !=0;
1.612 + if (__generate_curr)
1.613 + __length += __curr_sym.size();
1.614 + money_base::pattern __format =
1.615 + __intl ? (__is_negative ? __punct_intl.neg_format()
1.616 + : __punct_intl.pos_format())
1.617 + : (__is_negative ? __punct.neg_format()
1.618 + : __punct.pos_format());
1.619 + {
1.620 + for (int __i = 0; __i < 4; ++__i)
1.621 + if (__format.field[__i] == (char) money_base::space)
1.622 + ++__length;
1.623 + }
1.624 +
1.625 + size_t __fill_amt = (int)__length < __width ? __width - __length : 0;
1.626 +
1.627 + ios_base::fmtflags __fill_pos = __str.flags() & ios_base::adjustfield;
1.628 +
1.629 + if (__fill_amt != 0 &&
1.630 + !(__fill_pos & (ios_base::left | ios_base::internal)))
1.631 + __s = fill_n(__s, __fill_amt, __fill);
1.632 +
1.633 + for (int __i = 0; __i < 4; ++__i) {
1.634 + char __ffield = __format.field[__i];
1.635 + if (__ffield == money_base::none) {
1.636 + if (__fill_amt != 0 && __fill_pos == ios_base::internal)
1.637 + __s = fill_n(__s, __fill_amt, __fill);
1.638 + }
1.639 + else if (__ffield == money_base::space) {
1.640 +#ifdef __SYMBIAN32__
1.641 + if(__fill != __space)
1.642 + *__s++ = __fill;
1.643 + else
1.644 +#endif
1.645 + *__s++ = __space;
1.646 + if (__fill_amt != 0 && __fill_pos == ios_base::internal)
1.647 + __s = fill_n(__s, __fill_amt, __fill);
1.648 + }
1.649 + else if (__ffield == money_base::symbol) {
1.650 + if (__generate_curr)
1.651 + __s = copy(__curr_sym.begin(), __curr_sym.end(), __s);
1.652 + }
1.653 + else if (__ffield == money_base::sign) {
1.654 + if (__sign.size() != 0)
1.655 + *__s++ = __sign[0];
1.656 + }
1.657 + else if (__ffield == money_base::value) {
1.658 + if (__frac_digits == 0)
1.659 + __s = copy(__digits_first, __digits_last, __s);
1.660 + else {
1.661 + if ((int)__value_length <= __frac_digits) {
1.662 + *__s++ = __point;
1.663 + __s = copy(__digits_first, __digits_last, __s);
1.664 + __s = fill_n(__s, __frac_digits - __value_length, __zero);
1.665 + }
1.666 + else {
1.667 +#ifdef __SYMBIAN32__
1.668 + if (__frac_digits>0)
1.669 + {
1.670 +#endif
1.671 + __s = copy(__digits_first, __digits_last - __frac_digits, __s);
1.672 + if (__frac_digits != 0) {
1.673 + *__s++ = __point;
1.674 + __s = copy(__digits_last - __frac_digits, __digits_last, __s);
1.675 +#ifdef __SYMBIAN32__
1.676 + }
1.677 +#endif
1.678 + }
1.679 + }
1.680 + }
1.681 + }
1.682 + } // Close for loop
1.683 +
1.684 + // Ouput rest of sign if necessary.
1.685 +
1.686 + if (__sign.size() > 1)
1.687 + __s = copy(__sign.begin() + 1, __sign.end(), __s);
1.688 + if (!(__fill_pos & (ios_base::right | ios_base::internal)))
1.689 + __s = fill_n(__s, __fill_amt, __fill);
1.690 +
1.691 +#ifdef __SYMBIAN32__
1.692 + __str.width(0);
1.693 +#endif
1.694 + return __s;
1.695 +}
1.696 +
1.697 +#ifdef __SYMBIAN32__
1.698 +/*
1.699 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.700 +moneypunct<_CharT, _International>::moneypunct(size_t __refs = 0):_BaseFacet(__refs)
1.701 +{
1.702 +
1.703 +
1.704 +}*/
1.705 +
1.706 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.707 +_CharT moneypunct<_CharT,_International>::do_decimal_point() const
1.708 +{
1.709 + return _CharT('.');
1.710 +}
1.711 +
1.712 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.713 +_CharT moneypunct<_CharT,_International>::do_thousands_sep() const
1.714 +{
1.715 + return _CharT(',');
1.716 +}
1.717 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.718 +basic_string<_CharT> moneypunct<_CharT,_International>::do_curr_symbol() const
1.719 +{
1.720 + return _M_currSym;
1.721 +}
1.722 +
1.723 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.724 +basic_string<_CharT> moneypunct<_CharT,_International>::do_positive_sign() const
1.725 +{
1.726 + return _M_psign;
1.727 +}
1.728 +
1.729 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.730 +basic_string<_CharT> moneypunct<_CharT,_International>::do_negative_sign() const
1.731 +{
1.732 + return _M_nsign;
1.733 +}
1.734 +
1.735 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.736 +string moneypunct<_CharT,_International>::do_grouping() const
1.737 +{
1.738 + return _M_group;
1.739 +}
1.740 +
1.741 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.742 +money_base::pattern moneypunct<_CharT,_International>::do_pos_format() const
1.743 +{
1.744 + return _M_pos_format;
1.745 +}
1.746 +
1.747 +template<class _CharT, bool _International>//__DFL_NON_TYPE_PARAM(bool, _International, false)>
1.748 +money_base::pattern moneypunct<_CharT,_International>::do_neg_format() const
1.749 +{
1.750 + return _M_neg_format;
1.751 +}
1.752 +
1.753 +template<class _CharT, bool _International>
1.754 +int moneypunct<_CharT,_International>::do_frac_digits() const
1.755 +{
1.756 + return 0;
1.757 +}
1.758 +
1.759 +
1.760 +//monetary_byname<any>
1.761 +
1.762 +template<class _CharT, bool _International>
1.763 +_CharT moneypunct_byname<_CharT, _International>::do_decimal_point() const
1.764 + {return _Locale_mon_decimal_pointE(_M_monetary);}
1.765 +
1.766 +template<class _CharT, bool _International>
1.767 +_CharT moneypunct_byname<_CharT, _International>::do_thousands_sep() const
1.768 + {return _Locale_mon_thousands_sepE(_M_monetary);}
1.769 +
1.770 +template<class _CharT, bool _International>
1.771 +string moneypunct_byname<_CharT, _International>::do_grouping() const
1.772 + {return moneypunct<_CharT,_International>::_M_group;}
1.773 +
1.774 +template<class _CharT, bool _International>
1.775 +basic_string<_CharT> moneypunct_byname<_CharT, _International>::do_curr_symbol() const
1.776 + {return moneypunct<_CharT,_International>::_M_currSym;}
1.777 +
1.778 +template<class _CharT, bool _International>
1.779 +basic_string<_CharT> moneypunct_byname<_CharT, _International>::do_positive_sign() const
1.780 + {return moneypunct<_CharT,_International>::_M_psign;}
1.781 +
1.782 +template<class _CharT, bool _International>
1.783 +basic_string<_CharT> moneypunct_byname<_CharT, _International>::do_negative_sign() const
1.784 + {return moneypunct<_CharT,_International>::_M_nsign;}
1.785 +
1.786 +template<class _CharT, bool _International>
1.787 +int moneypunct_byname<_CharT, _International>::do_frac_digits() const
1.788 + {return _Locale_int_frac_digitsE(_M_monetary);}
1.789 +
1.790 +template<class _CharT, bool _International>
1.791 +void moneypunct_byname<_CharT, _International>::Convert_string2_string_chart(basic_string<_CharT> &dst, string src)
1.792 + {
1.793 + int length = src.length();
1.794 + const char* str = src.c_str();
1.795 + for(int i = 0; i<length;i++)
1.796 + {
1.797 + dst.append(1, (_CharT)*str++);
1.798 +
1.799 + }
1.800 +
1.801 + }
1.802 +
1.803 +template<class _CharT, bool _International>
1.804 +moneypunct_byname<_CharT, _International>::moneypunct_byname(const char * name,
1.805 + size_t refs):
1.806 + moneypunct<_CharT, _International>(refs),
1.807 + _M_monetary(__acquire_monetaryE(name))
1.808 +{
1.809 + if (!_M_monetary)
1.810 + locale::_M_throw_runtime_error();
1.811 +
1.812 + moneypunct<_CharT,_International>::_M_group = _Locale_mon_groupingE(_M_monetary);
1.813 + Convert_string2_string_chart(moneypunct<_CharT,_International>::_M_psign, _Locale_positive_signE(_M_monetary));
1.814 + Convert_string2_string_chart(moneypunct<_CharT,_International>::_M_nsign, _Locale_negative_signE(_M_monetary));
1.815 + Convert_string2_string_chart(moneypunct<_CharT,_International>::_M_currSym, _Locale_int_curr_symbolE(_M_monetary));
1.816 +}
1.817 +
1.818 +template<class _CharT, bool _International>
1.819 +moneypunct_byname<_CharT, _International>::~moneypunct_byname()
1.820 +{
1.821 + __release_monetaryE(_M_monetary);
1.822 +}
1.823 +
1.824 +
1.825 +#endif
1.826 +_STLP_END_NAMESPACE
1.827 +
1.828 +# endif /* EXPOSE */
1.829 +
1.830 +#endif /* _STLP_MONETARY_C */