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apache / stdcxx / 99d3d659589fcefb21d6b276519ab48fc135c801 / . / include / loc / _money_get.cc
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/***************************************************************************
*
* _money_get.cc - definition of std::money_get members
*
* $Id$
*
***************************************************************************
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*
* Copyright 2001-2008 Rogue Wave Software, Inc.
*
**************************************************************************/
#include <streambuf>
#include <loc/_ctype.h>
#include <loc/_moneypunct.h>
#include <rw/_defs.h>
_RWSTD_NAMESPACE (__rw) {
_RWSTD_EXPORT int
__rw_get_num (void*, const char*, int, int,
const char*, _RWSTD_SIZE_T, const char*, _RWSTD_SIZE_T);
_RWSTD_EXPORT int
__rw_check_grouping (const char*, _RWSTD_SIZE_T,
const char*, _RWSTD_SIZE_T);
} // namespace __rw
_RWSTD_NAMESPACE (std) {
template <class _CharT, class _InputIter>
_RW::__rw_facet_id money_get<_CharT, _InputIter>::id;
template <class _CharT, class _InputIter>
typename money_get<_CharT, _InputIter>::iter_type
money_get<_CharT, _InputIter>::
_C_get (iter_type __it, iter_type __end, bool __intl, ios_base &__flags,
_RWSTD_IOSTATE &__err, void *__pval, string_type *__pstr) const
{
typedef moneypunct<_CharT, false> _Punct0;
typedef moneypunct<_CharT, true> _Punct1;
const _Punct0 &__pun = __intl ?
_RWSTD_REINTERPRET_CAST (const _Punct0&,
_RWSTD_USE_FACET (_Punct1,
__flags.getloc ()))
: _RWSTD_USE_FACET (_Punct0, __flags.getloc ());
// retrieve positive and negative sign, currency symbol,
// the grouping string and the pattern format
const string_type __ps = __pun.positive_sign ();
const string_type __ns = __pun.negative_sign ();
const string_type __cs = __pun.curr_symbol ();
const string __gr = __pun.grouping ();
const money_base::pattern __pat = __pun.neg_format ();
_RWSTD_IOSTATE __ebits = _RW::__rw_goodbit;
bool __needws = false; // whitespace required?
bool __seendp = false; // seen decimal point in input
const ctype<_CharT> &__ctp =
_RWSTD_USE_FACET (ctype<_CharT>, __flags.getloc ());
char __buf [304];
char *__pcur = __buf;
typedef typename string_type::traits_type _Traits;
char __grpbuf [sizeof __buf]; // holds sizes of discovered groups
char *__pgrp = __grpbuf; // current group
const char *__grpstart = 0; // the start of the last group
const char *__grpend = 0; // the end of the last group
int __sign = 0; // the sign of the result if detected (-1, 0, or +1)
// buffer must always start with a sign (__rw_get_num requirement)
// use a '+' and overwrite it with a '-' if necessary
*__pcur++ = '+';
const int __fl = __flags.flags ();
typedef _RWSTD_SIZE_T _SizeT;
for (_SizeT __i = 0; !__ebits && __i != sizeof __pat.field; ++__i) {
switch (__pat.field [__i]) {
case /* '\1' */ money_base::space:
__needws = true;
// fall through...
case /* '\0' */ money_base::none: {
// optional or even required whitespace is consumed only if
// other characters may be required to complete the format
if ( sizeof __pat.field == __i + 1
|| 2 == __i && money_base::symbol == __pat.field [3]
&& (!(__fl & _RW::__rw_showbase) || 0 == __cs.size ())
&& !( __sign < 0 && __ns.size () > 1
|| __sign > 0 && __ps.size () > 1)
|| 1 == __i && money_base::value == __pat.field [0]
&& 0 == __ns.size () && 0 == __ps.size ()
&& (0 == __cs.size () || !(__fl & _RW::__rw_showbase)))
break;
_SizeT __nc = 0;
while (__it != __end && __ctp.is (ctype_base::space, *__it)) {
++__it;
++__nc;
}
if (__needws && !__nc)
__ebits |= _RW::__rw_failbit;
break;
}
case /* '\2' */ money_base::symbol: {
// if optional, currency symbol is not extracted unless
// it is consumed only if it is followed by characters
// required to complete the pattern (see example in
// 22.2.6.1.2, p3)
if ( __fl & _RW::__rw_showbase
|| __i < 2
|| 2 == __i && (money_base::none != __pat.field [3])
|| __sign < 0 && __ns.size () > 1
|| __sign > 0 && __ps.size () > 1) {
for (_SizeT __nc = 0; __nc != __cs.size ();
++__nc, ++__it) {
if (__it == __end || !_Traits::eq (*__it, __cs [__nc])) {
// 22.2.6.1.2, p2: unless showbase is set,
// curr_symbol is optional
if (__nc || __fl & _RW::__rw_showbase)
__ebits |= _RW::__rw_failbit;
break;
}
}
}
break;
}
case /* '\3' */ money_base::sign: {
if (__it == __end) {
if (__ps.size () && __ns.size ())
__ebits |= _RW::__rw_failbit;
else
__sign = __ps.empty () - 1;
break;
}
const char_type __c = *__it;
// 22.2.6.1.2, p3: if the first character of positive
// and negative sign is the same, the result is positive
if (__ps.size () && _Traits::eq (__c, __ps [0])) {
__sign = 1;
++__it;
}
else if (__ns.size () && _Traits::eq (__c, __ns [0])) {
__sign = -1;
++__it;
}
break;
}
case /* '\4' */ money_base::value: {
const char_type __ts =
__gr.size () && __gr [0] && __gr [0] != _RWSTD_CHAR_MAX ?
__pun.thousands_sep () : __ctp.widen ('0');
int __fd = __pun.frac_digits ();
for (; __it != __end; ++__it) {
// read and narrow a character (note that narrow() may
// yield the same narrow char for more than one wide
// character; e.g., there may be two sets of digits)
const char_type __c = *__it;
const char __ch = __ctp.narrow (__c, '\0');
if (__ch >= '0' && __ch <= '9') {
if (!__seendp || __fd-- > 0)
*__pcur++ = __ch;
}
else if ( !__seendp && __fd > 0
&& _Traits::eq (__c, __pun.decimal_point ())) {
__grpend = __pcur;
__seendp = true;
}
else if (!__seendp && _Traits::eq (__c, __ts)) {
// add the length of the current group to the array groups
// store UCHAR_MAX if group length exceeds the size of char
_RWSTD_PTRDIFF_T __len;
if (__grpstart)
__len = __pcur - __grpstart;
else {
__grpstart = __pcur;
__len = __pcur - __buf - 1;
}
typedef unsigned char _UChar;
*__pgrp++ = char (__len < _UChar (-1) ? __len : -1);
__grpstart = __pcur;
}
else
break;
}
if (__pcur - __buf > 1) {
// append zeros to a non-empty string of digits
// up to the number of frac_digits
while (__fd-- > 0)
*__pcur++ = '0';
}
*__pcur = '\0';
break;
}
default:
__ebits = _RW::__rw_failbit;
break;
}
}
if (!(__ebits & _RW::__rw_failbit)) {
if (__buf [1]) {
// process the remainder of a multicharacter sign
const _SizeT __sizes [] = {
__ps.size () ? __ps.size () -1 : 0,
__ns.size () ? __ns.size () -1 : 0
};
const char_type* const __names [] = {
__ps.data () + !!__sizes [0],
__ns.data () + !!__sizes [1]
};
if (__sign && (__sizes [0] || __sizes [1])) {
// if the first character of a multi-character sign
// has been seen, try to extract the rest of the sign
_SizeT __inx = 0;
int __errtmp = 1; // no duplicates allowed
__it = _RW::__rw_match_name (__it, __end, __names, __sizes,
sizeof __names / sizeof *__names,
__inx, __errtmp, 0);
if (1 < __inx && __sizes [__sign < 0]) {
// failed to match the remainder of the sign to
// the input and the first character of the sign
// does not form the complete (positive or negative)
// sign
__ebits = _RW::__rw_failbit;
__buf [1] = '\0';
}
else if (!_Traits::eq (*__ps.data (), *__ns.data ())) {
// if the first extracted character of the sign string
// forms the complete sign whose first character doesn't
// form an initial substring of the other sign string
// the resulting sign is determined by the one-character
// sign string
if (1 < __inx)
__inx = 0 < __sizes [__sign < 0];
// if both signs begin with the same character,
// the result is positive (22.2.6.1.2, p3)
*__buf = __inx ? '-' : '+';
__sign = -int (__inx);
}
}
else if (__sign < 0) {
*__buf = '-';
}
if (__pstr && !(__ebits & _RW::__rw_failbit)) {
// skip over the leading sign and any redundant zeros after it
const char *__start = __buf + 1;
for (; '0' == *__start && '0' == __start [1]; ++__start);
// invert the sign if negative
__sign = __sign < 0;
// widen narrow digits optionally preceded by the minus sign
// into the basic_string object as required by 22.2.6.1.2, p1
__pstr->resize ((__pcur - __start) + _SizeT (__sign));
if (__sign)
_Traits::assign ((*__pstr)[0], __ctp.widen ('-'));
__ctp.widen (__start, __pcur, &(*__pstr)[_SizeT (__sign)]);
}
const char *__grs = "";
_SizeT __grn = 0;
// 22.2.6.1.2, p1: thousands separators are optional
// add the length of the last group to the array of groups
// store UCHAR_MAX if group length exceeds the size of char
if (__grpstart) {
const _RWSTD_PTRDIFF_T __len =
(__grpend ? __grpend : __pcur) - __grpstart;
typedef unsigned char _UChar;
*__pgrp++ = char (__len < _UChar (-1) ? __len : -1);
*__pgrp = '\0';
__grs = __gr.data ();
__grn = __gr.size ();
}
if (__pval) {
// produce a number from the extracted string of digits
// and (optionally) check grouping
const int __errtmp =
_RW::__rw_get_num (__pval, __buf, _C_ldouble, 0,
__grpbuf, __pgrp - __grpbuf,
__grs, __grn);
__ebits |= _RWSTD_IOSTATE (__errtmp);
}
else if (0 > _RW::__rw_check_grouping (__grpbuf, __pgrp - __grpbuf,
__grs, __grn))
__ebits |= _RW::__rw_failbit;
}
else
__ebits |= _RW::__rw_failbit;
}
if (__it == __end)
__ebits |= _RW::__rw_eofbit;
__err |= __ebits;
return __it;
}
} // namespace std