source: Daodan/MSYS2/mingw32/include/c++/11.2.0/bits/locale_facets.tcc@ 1180

Last change on this file since 1180 was 1166, checked in by rossy, 3 years ago

Daodan: Replace MinGW build env with an up-to-date MSYS2 env

File size: 39.5 KB
RevLine 
[1166]1// Locale support -*- C++ -*-
2
3// Copyright (C) 1997-2021 Free Software Foundation, Inc.
4//
5// This file is part of the GNU ISO C++ Library. This library is free
6// software; you can redistribute it and/or modify it under the
7// terms of the GNU General Public License as published by the
8// Free Software Foundation; either version 3, or (at your option)
9// any later version.
10
11// This library is distributed in the hope that it will be useful,
12// but WITHOUT ANY WARRANTY; without even the implied warranty of
13// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14// GNU General Public License for more details.
15
16// Under Section 7 of GPL version 3, you are granted additional
17// permissions described in the GCC Runtime Library Exception, version
18// 3.1, as published by the Free Software Foundation.
19
20// You should have received a copy of the GNU General Public License and
21// a copy of the GCC Runtime Library Exception along with this program;
22// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
23// <http://www.gnu.org/licenses/>.
24
25/** @file bits/locale_facets.tcc
26 * This is an internal header file, included by other library headers.
27 * Do not attempt to use it directly. @headername{locale}
28 */
29
30#ifndef _LOCALE_FACETS_TCC
31#define _LOCALE_FACETS_TCC 1
32
33#pragma GCC system_header
34
35namespace std _GLIBCXX_VISIBILITY(default)
36{
37_GLIBCXX_BEGIN_NAMESPACE_VERSION
38
39 // Routine to access a cache for the facet. If the cache didn't
40 // exist before, it gets constructed on the fly.
41 template<typename _Facet>
42 struct __use_cache
43 {
44 const _Facet*
45 operator() (const locale& __loc) const;
46 };
47
48 // Specializations.
49 template<typename _CharT>
50 struct __use_cache<__numpunct_cache<_CharT> >
51 {
52 const __numpunct_cache<_CharT>*
53 operator() (const locale& __loc) const
54 {
55 const size_t __i = numpunct<_CharT>::id._M_id();
56 const locale::facet** __caches = __loc._M_impl->_M_caches;
57 if (!__caches[__i])
58 {
59 __numpunct_cache<_CharT>* __tmp = 0;
60 __try
61 {
62 __tmp = new __numpunct_cache<_CharT>;
63 __tmp->_M_cache(__loc);
64 }
65 __catch(...)
66 {
67 delete __tmp;
68 __throw_exception_again;
69 }
70 __loc._M_impl->_M_install_cache(__tmp, __i);
71 }
72 return static_cast<const __numpunct_cache<_CharT>*>(__caches[__i]);
73 }
74 };
75
76 template<typename _CharT>
77 void
78 __numpunct_cache<_CharT>::_M_cache(const locale& __loc)
79 {
80 const numpunct<_CharT>& __np = use_facet<numpunct<_CharT> >(__loc);
81
82 char* __grouping = 0;
83 _CharT* __truename = 0;
84 _CharT* __falsename = 0;
85 __try
86 {
87 const string& __g = __np.grouping();
88 _M_grouping_size = __g.size();
89 __grouping = new char[_M_grouping_size];
90 __g.copy(__grouping, _M_grouping_size);
91 _M_use_grouping = (_M_grouping_size
92 && static_cast<signed char>(__grouping[0]) > 0
93 && (__grouping[0]
94 != __gnu_cxx::__numeric_traits<char>::__max));
95
96 const basic_string<_CharT>& __tn = __np.truename();
97 _M_truename_size = __tn.size();
98 __truename = new _CharT[_M_truename_size];
99 __tn.copy(__truename, _M_truename_size);
100
101 const basic_string<_CharT>& __fn = __np.falsename();
102 _M_falsename_size = __fn.size();
103 __falsename = new _CharT[_M_falsename_size];
104 __fn.copy(__falsename, _M_falsename_size);
105
106 _M_decimal_point = __np.decimal_point();
107 _M_thousands_sep = __np.thousands_sep();
108
109 const ctype<_CharT>& __ct = use_facet<ctype<_CharT> >(__loc);
110 __ct.widen(__num_base::_S_atoms_out,
111 __num_base::_S_atoms_out
112 + __num_base::_S_oend, _M_atoms_out);
113 __ct.widen(__num_base::_S_atoms_in,
114 __num_base::_S_atoms_in
115 + __num_base::_S_iend, _M_atoms_in);
116
117 _M_grouping = __grouping;
118 _M_truename = __truename;
119 _M_falsename = __falsename;
120 _M_allocated = true;
121 }
122 __catch(...)
123 {
124 delete [] __grouping;
125 delete [] __truename;
126 delete [] __falsename;
127 __throw_exception_again;
128 }
129 }
130
131 // Used by both numeric and monetary facets.
132 // Check to make sure that the __grouping_tmp string constructed in
133 // money_get or num_get matches the canonical grouping for a given
134 // locale.
135 // __grouping_tmp is parsed L to R
136 // 1,222,444 == __grouping_tmp of "\1\3\3"
137 // __grouping is parsed R to L
138 // 1,222,444 == __grouping of "\3" == "\3\3\3"
139 _GLIBCXX_PURE bool
140 __verify_grouping(const char* __grouping, size_t __grouping_size,
141 const string& __grouping_tmp) throw ();
142
143_GLIBCXX_BEGIN_NAMESPACE_LDBL
144
145 template<typename _CharT, typename _InIter>
146 _GLIBCXX_DEFAULT_ABI_TAG
147 _InIter
148 num_get<_CharT, _InIter>::
149 _M_extract_float(_InIter __beg, _InIter __end, ios_base& __io,
150 ios_base::iostate& __err, string& __xtrc) const
151 {
152 typedef char_traits<_CharT> __traits_type;
153 typedef __numpunct_cache<_CharT> __cache_type;
154 __use_cache<__cache_type> __uc;
155 const locale& __loc = __io._M_getloc();
156 const __cache_type* __lc = __uc(__loc);
157 const _CharT* __lit = __lc->_M_atoms_in;
158 char_type __c = char_type();
159
160 // True if __beg becomes equal to __end.
161 bool __testeof = __beg == __end;
162
163 // First check for sign.
164 if (!__testeof)
165 {
166 __c = *__beg;
167 const bool __plus = __c == __lit[__num_base::_S_iplus];
168 if ((__plus || __c == __lit[__num_base::_S_iminus])
169 && !(__lc->_M_use_grouping && __c == __lc->_M_thousands_sep)
170 && !(__c == __lc->_M_decimal_point))
171 {
172 __xtrc += __plus ? '+' : '-';
173 if (++__beg != __end)
174 __c = *__beg;
175 else
176 __testeof = true;
177 }
178 }
179
180 // Next, look for leading zeros.
181 bool __found_mantissa = false;
182 int __sep_pos = 0;
183 while (!__testeof)
184 {
185 if ((__lc->_M_use_grouping && __c == __lc->_M_thousands_sep)
186 || __c == __lc->_M_decimal_point)
187 break;
188 else if (__c == __lit[__num_base::_S_izero])
189 {
190 if (!__found_mantissa)
191 {
192 __xtrc += '0';
193 __found_mantissa = true;
194 }
195 ++__sep_pos;
196
197 if (++__beg != __end)
198 __c = *__beg;
199 else
200 __testeof = true;
201 }
202 else
203 break;
204 }
205
206 // Only need acceptable digits for floating point numbers.
207 bool __found_dec = false;
208 bool __found_sci = false;
209 string __found_grouping;
210 if (__lc->_M_use_grouping)
211 __found_grouping.reserve(32);
212 const char_type* __lit_zero = __lit + __num_base::_S_izero;
213
214 if (!__lc->_M_allocated)
215 // "C" locale
216 while (!__testeof)
217 {
218 const int __digit = _M_find(__lit_zero, 10, __c);
219 if (__digit != -1)
220 {
221 __xtrc += '0' + __digit;
222 __found_mantissa = true;
223 }
224 else if (__c == __lc->_M_decimal_point
225 && !__found_dec && !__found_sci)
226 {
227 __xtrc += '.';
228 __found_dec = true;
229 }
230 else if ((__c == __lit[__num_base::_S_ie]
231 || __c == __lit[__num_base::_S_iE])
232 && !__found_sci && __found_mantissa)
233 {
234 // Scientific notation.
235 __xtrc += 'e';
236 __found_sci = true;
237
238 // Remove optional plus or minus sign, if they exist.
239 if (++__beg != __end)
240 {
241 __c = *__beg;
242 const bool __plus = __c == __lit[__num_base::_S_iplus];
243 if (__plus || __c == __lit[__num_base::_S_iminus])
244 __xtrc += __plus ? '+' : '-';
245 else
246 continue;
247 }
248 else
249 {
250 __testeof = true;
251 break;
252 }
253 }
254 else
255 break;
256
257 if (++__beg != __end)
258 __c = *__beg;
259 else
260 __testeof = true;
261 }
262 else
263 while (!__testeof)
264 {
265 // According to 22.2.2.1.2, p8-9, first look for thousands_sep
266 // and decimal_point.
267 if (__lc->_M_use_grouping && __c == __lc->_M_thousands_sep)
268 {
269 if (!__found_dec && !__found_sci)
270 {
271 // NB: Thousands separator at the beginning of a string
272 // is a no-no, as is two consecutive thousands separators.
273 if (__sep_pos)
274 {
275 __found_grouping += static_cast<char>(__sep_pos);
276 __sep_pos = 0;
277 }
278 else
279 {
280 // NB: __convert_to_v will not assign __v and will
281 // set the failbit.
282 __xtrc.clear();
283 break;
284 }
285 }
286 else
287 break;
288 }
289 else if (__c == __lc->_M_decimal_point)
290 {
291 if (!__found_dec && !__found_sci)
292 {
293 // If no grouping chars are seen, no grouping check
294 // is applied. Therefore __found_grouping is adjusted
295 // only if decimal_point comes after some thousands_sep.
296 if (__found_grouping.size())
297 __found_grouping += static_cast<char>(__sep_pos);
298 __xtrc += '.';
299 __found_dec = true;
300 }
301 else
302 break;
303 }
304 else
305 {
306 const char_type* __q =
307 __traits_type::find(__lit_zero, 10, __c);
308 if (__q)
309 {
310 __xtrc += '0' + (__q - __lit_zero);
311 __found_mantissa = true;
312 ++__sep_pos;
313 }
314 else if ((__c == __lit[__num_base::_S_ie]
315 || __c == __lit[__num_base::_S_iE])
316 && !__found_sci && __found_mantissa)
317 {
318 // Scientific notation.
319 if (__found_grouping.size() && !__found_dec)
320 __found_grouping += static_cast<char>(__sep_pos);
321 __xtrc += 'e';
322 __found_sci = true;
323
324 // Remove optional plus or minus sign, if they exist.
325 if (++__beg != __end)
326 {
327 __c = *__beg;
328 const bool __plus = __c == __lit[__num_base::_S_iplus];
329 if ((__plus || __c == __lit[__num_base::_S_iminus])
330 && !(__lc->_M_use_grouping
331 && __c == __lc->_M_thousands_sep)
332 && !(__c == __lc->_M_decimal_point))
333 __xtrc += __plus ? '+' : '-';
334 else
335 continue;
336 }
337 else
338 {
339 __testeof = true;
340 break;
341 }
342 }
343 else
344 break;
345 }
346
347 if (++__beg != __end)
348 __c = *__beg;
349 else
350 __testeof = true;
351 }
352
353 // Digit grouping is checked. If grouping and found_grouping don't
354 // match, then get very very upset, and set failbit.
355 if (__found_grouping.size())
356 {
357 // Add the ending grouping if a decimal or 'e'/'E' wasn't found.
358 if (!__found_dec && !__found_sci)
359 __found_grouping += static_cast<char>(__sep_pos);
360
361 if (!std::__verify_grouping(__lc->_M_grouping,
362 __lc->_M_grouping_size,
363 __found_grouping))
364 __err = ios_base::failbit;
365 }
366
367 return __beg;
368 }
369
370 template<typename _CharT, typename _InIter>
371 template<typename _ValueT>
372 _GLIBCXX_DEFAULT_ABI_TAG
373 _InIter
374 num_get<_CharT, _InIter>::
375 _M_extract_int(_InIter __beg, _InIter __end, ios_base& __io,
376 ios_base::iostate& __err, _ValueT& __v) const
377 {
378 typedef char_traits<_CharT> __traits_type;
379 using __gnu_cxx::__add_unsigned;
380 typedef typename __add_unsigned<_ValueT>::__type __unsigned_type;
381 typedef __numpunct_cache<_CharT> __cache_type;
382 __use_cache<__cache_type> __uc;
383 const locale& __loc = __io._M_getloc();
384 const __cache_type* __lc = __uc(__loc);
385 const _CharT* __lit = __lc->_M_atoms_in;
386 char_type __c = char_type();
387
388 // NB: Iff __basefield == 0, __base can change based on contents.
389 const ios_base::fmtflags __basefield = __io.flags()
390 & ios_base::basefield;
391 const bool __oct = __basefield == ios_base::oct;
392 int __base = __oct ? 8 : (__basefield == ios_base::hex ? 16 : 10);
393
394 // True if __beg becomes equal to __end.
395 bool __testeof = __beg == __end;
396
397 // First check for sign.
398 bool __negative = false;
399 if (!__testeof)
400 {
401 __c = *__beg;
402 __negative = __c == __lit[__num_base::_S_iminus];
403 if ((__negative || __c == __lit[__num_base::_S_iplus])
404 && !(__lc->_M_use_grouping && __c == __lc->_M_thousands_sep)
405 && !(__c == __lc->_M_decimal_point))
406 {
407 if (++__beg != __end)
408 __c = *__beg;
409 else
410 __testeof = true;
411 }
412 }
413
414 // Next, look for leading zeros and check required digits
415 // for base formats.
416 bool __found_zero = false;
417 int __sep_pos = 0;
418 while (!__testeof)
419 {
420 if ((__lc->_M_use_grouping && __c == __lc->_M_thousands_sep)
421 || __c == __lc->_M_decimal_point)
422 break;
423 else if (__c == __lit[__num_base::_S_izero]
424 && (!__found_zero || __base == 10))
425 {
426 __found_zero = true;
427 ++__sep_pos;
428 if (__basefield == 0)
429 __base = 8;
430 if (__base == 8)
431 __sep_pos = 0;
432 }
433 else if (__found_zero
434 && (__c == __lit[__num_base::_S_ix]
435 || __c == __lit[__num_base::_S_iX]))
436 {
437 if (__basefield == 0)
438 __base = 16;
439 if (__base == 16)
440 {
441 __found_zero = false;
442 __sep_pos = 0;
443 }
444 else
445 break;
446 }
447 else
448 break;
449
450 if (++__beg != __end)
451 {
452 __c = *__beg;
453 if (!__found_zero)
454 break;
455 }
456 else
457 __testeof = true;
458 }
459
460 // At this point, base is determined. If not hex, only allow
461 // base digits as valid input.
462 const size_t __len = (__base == 16 ? __num_base::_S_iend
463 - __num_base::_S_izero : __base);
464
465 // Extract.
466 typedef __gnu_cxx::__numeric_traits<_ValueT> __num_traits;
467 string __found_grouping;
468 if (__lc->_M_use_grouping)
469 __found_grouping.reserve(32);
470 bool __testfail = false;
471 bool __testoverflow = false;
472 const __unsigned_type __max =
473 (__negative && __num_traits::__is_signed)
474 ? -static_cast<__unsigned_type>(__num_traits::__min)
475 : __num_traits::__max;
476 const __unsigned_type __smax = __max / __base;
477 __unsigned_type __result = 0;
478 int __digit = 0;
479 const char_type* __lit_zero = __lit + __num_base::_S_izero;
480
481 if (!__lc->_M_allocated)
482 // "C" locale
483 while (!__testeof)
484 {
485 __digit = _M_find(__lit_zero, __len, __c);
486 if (__digit == -1)
487 break;
488
489 if (__result > __smax)
490 __testoverflow = true;
491 else
492 {
493 __result *= __base;
494 __testoverflow |= __result > __max - __digit;
495 __result += __digit;
496 ++__sep_pos;
497 }
498
499 if (++__beg != __end)
500 __c = *__beg;
501 else
502 __testeof = true;
503 }
504 else
505 while (!__testeof)
506 {
507 // According to 22.2.2.1.2, p8-9, first look for thousands_sep
508 // and decimal_point.
509 if (__lc->_M_use_grouping && __c == __lc->_M_thousands_sep)
510 {
511 // NB: Thousands separator at the beginning of a string
512 // is a no-no, as is two consecutive thousands separators.
513 if (__sep_pos)
514 {
515 __found_grouping += static_cast<char>(__sep_pos);
516 __sep_pos = 0;
517 }
518 else
519 {
520 __testfail = true;
521 break;
522 }
523 }
524 else if (__c == __lc->_M_decimal_point)
525 break;
526 else
527 {
528 const char_type* __q =
529 __traits_type::find(__lit_zero, __len, __c);
530 if (!__q)
531 break;
532
533 __digit = __q - __lit_zero;
534 if (__digit > 15)
535 __digit -= 6;
536 if (__result > __smax)
537 __testoverflow = true;
538 else
539 {
540 __result *= __base;
541 __testoverflow |= __result > __max - __digit;
542 __result += __digit;
543 ++__sep_pos;
544 }
545 }
546
547 if (++__beg != __end)
548 __c = *__beg;
549 else
550 __testeof = true;
551 }
552
553 // Digit grouping is checked. If grouping and found_grouping don't
554 // match, then get very very upset, and set failbit.
555 if (__found_grouping.size())
556 {
557 // Add the ending grouping.
558 __found_grouping += static_cast<char>(__sep_pos);
559
560 if (!std::__verify_grouping(__lc->_M_grouping,
561 __lc->_M_grouping_size,
562 __found_grouping))
563 __err = ios_base::failbit;
564 }
565
566 // _GLIBCXX_RESOLVE_LIB_DEFECTS
567 // 23. Num_get overflow result.
568 if ((!__sep_pos && !__found_zero && !__found_grouping.size())
569 || __testfail)
570 {
571 __v = 0;
572 __err = ios_base::failbit;
573 }
574 else if (__testoverflow)
575 {
576 if (__negative && __num_traits::__is_signed)
577 __v = __num_traits::__min;
578 else
579 __v = __num_traits::__max;
580 __err = ios_base::failbit;
581 }
582 else
583 __v = __negative ? -__result : __result;
584
585 if (__testeof)
586 __err |= ios_base::eofbit;
587 return __beg;
588 }
589
590 // _GLIBCXX_RESOLVE_LIB_DEFECTS
591 // 17. Bad bool parsing
592 template<typename _CharT, typename _InIter>
593 _InIter
594 num_get<_CharT, _InIter>::
595 do_get(iter_type __beg, iter_type __end, ios_base& __io,
596 ios_base::iostate& __err, bool& __v) const
597 {
598 if (!(__io.flags() & ios_base::boolalpha))
599 {
600 // Parse bool values as long.
601 // NB: We can't just call do_get(long) here, as it might
602 // refer to a derived class.
603 long __l = -1;
604 __beg = _M_extract_int(__beg, __end, __io, __err, __l);
605 if (__l == 0 || __l == 1)
606 __v = bool(__l);
607 else
608 {
609 // _GLIBCXX_RESOLVE_LIB_DEFECTS
610 // 23. Num_get overflow result.
611 __v = true;
612 __err = ios_base::failbit;
613 if (__beg == __end)
614 __err |= ios_base::eofbit;
615 }
616 }
617 else
618 {
619 // Parse bool values as alphanumeric.
620 typedef __numpunct_cache<_CharT> __cache_type;
621 __use_cache<__cache_type> __uc;
622 const locale& __loc = __io._M_getloc();
623 const __cache_type* __lc = __uc(__loc);
624
625 bool __testf = true;
626 bool __testt = true;
627 bool __donef = __lc->_M_falsename_size == 0;
628 bool __donet = __lc->_M_truename_size == 0;
629 bool __testeof = false;
630 size_t __n = 0;
631 while (!__donef || !__donet)
632 {
633 if (__beg == __end)
634 {
635 __testeof = true;
636 break;
637 }
638
639 const char_type __c = *__beg;
640
641 if (!__donef)
642 __testf = __c == __lc->_M_falsename[__n];
643
644 if (!__testf && __donet)
645 break;
646
647 if (!__donet)
648 __testt = __c == __lc->_M_truename[__n];
649
650 if (!__testt && __donef)
651 break;
652
653 if (!__testt && !__testf)
654 break;
655
656 ++__n;
657 ++__beg;
658
659 __donef = !__testf || __n >= __lc->_M_falsename_size;
660 __donet = !__testt || __n >= __lc->_M_truename_size;
661 }
662 if (__testf && __n == __lc->_M_falsename_size && __n)
663 {
664 __v = false;
665 if (__testt && __n == __lc->_M_truename_size)
666 __err = ios_base::failbit;
667 else
668 __err = __testeof ? ios_base::eofbit : ios_base::goodbit;
669 }
670 else if (__testt && __n == __lc->_M_truename_size && __n)
671 {
672 __v = true;
673 __err = __testeof ? ios_base::eofbit : ios_base::goodbit;
674 }
675 else
676 {
677 // _GLIBCXX_RESOLVE_LIB_DEFECTS
678 // 23. Num_get overflow result.
679 __v = false;
680 __err = ios_base::failbit;
681 if (__testeof)
682 __err |= ios_base::eofbit;
683 }
684 }
685 return __beg;
686 }
687
688 template<typename _CharT, typename _InIter>
689 _InIter
690 num_get<_CharT, _InIter>::
691 do_get(iter_type __beg, iter_type __end, ios_base& __io,
692 ios_base::iostate& __err, float& __v) const
693 {
694 string __xtrc;
695 __xtrc.reserve(32);
696 __beg = _M_extract_float(__beg, __end, __io, __err, __xtrc);
697 std::__convert_to_v(__xtrc.c_str(), __v, __err, _S_get_c_locale());
698 if (__beg == __end)
699 __err |= ios_base::eofbit;
700 return __beg;
701 }
702
703 template<typename _CharT, typename _InIter>
704 _InIter
705 num_get<_CharT, _InIter>::
706 do_get(iter_type __beg, iter_type __end, ios_base& __io,
707 ios_base::iostate& __err, double& __v) const
708 {
709 string __xtrc;
710 __xtrc.reserve(32);
711 __beg = _M_extract_float(__beg, __end, __io, __err, __xtrc);
712 std::__convert_to_v(__xtrc.c_str(), __v, __err, _S_get_c_locale());
713 if (__beg == __end)
714 __err |= ios_base::eofbit;
715 return __beg;
716 }
717
718#if defined _GLIBCXX_LONG_DOUBLE_COMPAT && defined __LONG_DOUBLE_128__
719 template<typename _CharT, typename _InIter>
720 _InIter
721 num_get<_CharT, _InIter>::
722 __do_get(iter_type __beg, iter_type __end, ios_base& __io,
723 ios_base::iostate& __err, double& __v) const
724 {
725 string __xtrc;
726 __xtrc.reserve(32);
727 __beg = _M_extract_float(__beg, __end, __io, __err, __xtrc);
728 std::__convert_to_v(__xtrc.c_str(), __v, __err, _S_get_c_locale());
729 if (__beg == __end)
730 __err |= ios_base::eofbit;
731 return __beg;
732 }
733#endif
734
735 template<typename _CharT, typename _InIter>
736 _InIter
737 num_get<_CharT, _InIter>::
738 do_get(iter_type __beg, iter_type __end, ios_base& __io,
739 ios_base::iostate& __err, long double& __v) const
740 {
741 string __xtrc;
742 __xtrc.reserve(32);
743 __beg = _M_extract_float(__beg, __end, __io, __err, __xtrc);
744 std::__convert_to_v(__xtrc.c_str(), __v, __err, _S_get_c_locale());
745 if (__beg == __end)
746 __err |= ios_base::eofbit;
747 return __beg;
748 }
749
750 template<typename _CharT, typename _InIter>
751 _InIter
752 num_get<_CharT, _InIter>::
753 do_get(iter_type __beg, iter_type __end, ios_base& __io,
754 ios_base::iostate& __err, void*& __v) const
755 {
756 // Prepare for hex formatted input.
757 typedef ios_base::fmtflags fmtflags;
758 const fmtflags __fmt = __io.flags();
759 __io.flags((__fmt & ~ios_base::basefield) | ios_base::hex);
760
761 typedef __gnu_cxx::__conditional_type<(sizeof(void*)
762 <= sizeof(unsigned long)),
763 unsigned long, unsigned long long>::__type _UIntPtrType;
764
765 _UIntPtrType __ul;
766 __beg = _M_extract_int(__beg, __end, __io, __err, __ul);
767
768 // Reset from hex formatted input.
769 __io.flags(__fmt);
770
771 __v = reinterpret_cast<void*>(__ul);
772 return __beg;
773 }
774
775#if defined _GLIBCXX_LONG_DOUBLE_ALT128_COMPAT \
776 && defined __LONG_DOUBLE_IEEE128__
777 template<typename _CharT, typename _InIter>
778 _InIter
779 num_get<_CharT, _InIter>::
780 __do_get(iter_type __beg, iter_type __end, ios_base& __io,
781 ios_base::iostate& __err, __ibm128& __v) const
782 {
783 string __xtrc;
784 __xtrc.reserve(32);
785 __beg = _M_extract_float(__beg, __end, __io, __err, __xtrc);
786 std::__convert_to_v(__xtrc.c_str(), __v, __err, _S_get_c_locale());
787 if (__beg == __end)
788 __err |= ios_base::eofbit;
789 return __beg;
790 }
791#endif
792
793 // For use by integer and floating-point types after they have been
794 // converted into a char_type string.
795 template<typename _CharT, typename _OutIter>
796 void
797 num_put<_CharT, _OutIter>::
798 _M_pad(_CharT __fill, streamsize __w, ios_base& __io,
799 _CharT* __new, const _CharT* __cs, int& __len) const
800 {
801 // [22.2.2.2.2] Stage 3.
802 // If necessary, pad.
803 __pad<_CharT, char_traits<_CharT> >::_S_pad(__io, __fill, __new,
804 __cs, __w, __len);
805 __len = static_cast<int>(__w);
806 }
807
808_GLIBCXX_END_NAMESPACE_LDBL
809
810 template<typename _CharT, typename _ValueT>
811 int
812 __int_to_char(_CharT* __bufend, _ValueT __v, const _CharT* __lit,
813 ios_base::fmtflags __flags, bool __dec)
814 {
815 _CharT* __buf = __bufend;
816 if (__builtin_expect(__dec, true))
817 {
818 // Decimal.
819 do
820 {
821 *--__buf = __lit[(__v % 10) + __num_base::_S_odigits];
822 __v /= 10;
823 }
824 while (__v != 0);
825 }
826 else if ((__flags & ios_base::basefield) == ios_base::oct)
827 {
828 // Octal.
829 do
830 {
831 *--__buf = __lit[(__v & 0x7) + __num_base::_S_odigits];
832 __v >>= 3;
833 }
834 while (__v != 0);
835 }
836 else
837 {
838 // Hex.
839 const bool __uppercase = __flags & ios_base::uppercase;
840 const int __case_offset = __uppercase ? __num_base::_S_oudigits
841 : __num_base::_S_odigits;
842 do
843 {
844 *--__buf = __lit[(__v & 0xf) + __case_offset];
845 __v >>= 4;
846 }
847 while (__v != 0);
848 }
849 return __bufend - __buf;
850 }
851
852_GLIBCXX_BEGIN_NAMESPACE_LDBL
853
854 template<typename _CharT, typename _OutIter>
855 void
856 num_put<_CharT, _OutIter>::
857 _M_group_int(const char* __grouping, size_t __grouping_size, _CharT __sep,
858 ios_base&, _CharT* __new, _CharT* __cs, int& __len) const
859 {
860 _CharT* __p = std::__add_grouping(__new, __sep, __grouping,
861 __grouping_size, __cs, __cs + __len);
862 __len = __p - __new;
863 }
864
865 template<typename _CharT, typename _OutIter>
866 template<typename _ValueT>
867 _OutIter
868 num_put<_CharT, _OutIter>::
869 _M_insert_int(_OutIter __s, ios_base& __io, _CharT __fill,
870 _ValueT __v) const
871 {
872 using __gnu_cxx::__add_unsigned;
873 typedef typename __add_unsigned<_ValueT>::__type __unsigned_type;
874 typedef __numpunct_cache<_CharT> __cache_type;
875 __use_cache<__cache_type> __uc;
876 const locale& __loc = __io._M_getloc();
877 const __cache_type* __lc = __uc(__loc);
878 const _CharT* __lit = __lc->_M_atoms_out;
879 const ios_base::fmtflags __flags = __io.flags();
880
881 // Long enough to hold hex, dec, and octal representations.
882 const int __ilen = 5 * sizeof(_ValueT);
883 _CharT* __cs = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
884 * __ilen));
885
886 // [22.2.2.2.2] Stage 1, numeric conversion to character.
887 // Result is returned right-justified in the buffer.
888 const ios_base::fmtflags __basefield = __flags & ios_base::basefield;
889 const bool __dec = (__basefield != ios_base::oct
890 && __basefield != ios_base::hex);
891 const __unsigned_type __u = ((__v > 0 || !__dec)
892 ? __unsigned_type(__v)
893 : -__unsigned_type(__v));
894 int __len = __int_to_char(__cs + __ilen, __u, __lit, __flags, __dec);
895 __cs += __ilen - __len;
896
897 // Add grouping, if necessary.
898 if (__lc->_M_use_grouping)
899 {
900 // Grouping can add (almost) as many separators as the number
901 // of digits + space is reserved for numeric base or sign.
902 _CharT* __cs2 = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
903 * (__len + 1)
904 * 2));
905 _M_group_int(__lc->_M_grouping, __lc->_M_grouping_size,
906 __lc->_M_thousands_sep, __io, __cs2 + 2, __cs, __len);
907 __cs = __cs2 + 2;
908 }
909
910 // Complete Stage 1, prepend numeric base or sign.
911 if (__builtin_expect(__dec, true))
912 {
913 // Decimal.
914 if (__v >= 0)
915 {
916 if (bool(__flags & ios_base::showpos)
917 && __gnu_cxx::__numeric_traits<_ValueT>::__is_signed)
918 *--__cs = __lit[__num_base::_S_oplus], ++__len;
919 }
920 else
921 *--__cs = __lit[__num_base::_S_ominus], ++__len;
922 }
923 else if (bool(__flags & ios_base::showbase) && __v)
924 {
925 if (__basefield == ios_base::oct)
926 *--__cs = __lit[__num_base::_S_odigits], ++__len;
927 else
928 {
929 // 'x' or 'X'
930 const bool __uppercase = __flags & ios_base::uppercase;
931 *--__cs = __lit[__num_base::_S_ox + __uppercase];
932 // '0'
933 *--__cs = __lit[__num_base::_S_odigits];
934 __len += 2;
935 }
936 }
937
938 // Pad.
939 const streamsize __w = __io.width();
940 if (__w > static_cast<streamsize>(__len))
941 {
942 _CharT* __cs3 = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
943 * __w));
944 _M_pad(__fill, __w, __io, __cs3, __cs, __len);
945 __cs = __cs3;
946 }
947 __io.width(0);
948
949 // [22.2.2.2.2] Stage 4.
950 // Write resulting, fully-formatted string to output iterator.
951 return std::__write(__s, __cs, __len);
952 }
953
954 template<typename _CharT, typename _OutIter>
955 void
956 num_put<_CharT, _OutIter>::
957 _M_group_float(const char* __grouping, size_t __grouping_size,
958 _CharT __sep, const _CharT* __p, _CharT* __new,
959 _CharT* __cs, int& __len) const
960 {
961 // _GLIBCXX_RESOLVE_LIB_DEFECTS
962 // 282. What types does numpunct grouping refer to?
963 // Add grouping, if necessary.
964 const int __declen = __p ? __p - __cs : __len;
965 _CharT* __p2 = std::__add_grouping(__new, __sep, __grouping,
966 __grouping_size,
967 __cs, __cs + __declen);
968
969 // Tack on decimal part.
970 int __newlen = __p2 - __new;
971 if (__p)
972 {
973 char_traits<_CharT>::copy(__p2, __p, __len - __declen);
974 __newlen += __len - __declen;
975 }
976 __len = __newlen;
977 }
978
979 // The following code uses vsnprintf (or vsprintf(), when
980 // _GLIBCXX_USE_C99_STDIO is not defined) to convert floating point
981 // values for insertion into a stream. An optimization would be to
982 // replace them with code that works directly on a wide buffer and
983 // then use __pad to do the padding. It would be good to replace
984 // them anyway to gain back the efficiency that C++ provides by
985 // knowing up front the type of the values to insert. Also, sprintf
986 // is dangerous since may lead to accidental buffer overruns. This
987 // implementation follows the C++ standard fairly directly as
988 // outlined in 22.2.2.2 [lib.locale.num.put]
989 template<typename _CharT, typename _OutIter>
990 template<typename _ValueT>
991 _OutIter
992 num_put<_CharT, _OutIter>::
993 _M_insert_float(_OutIter __s, ios_base& __io, _CharT __fill, char __mod,
994 _ValueT __v) const
995 {
996 typedef __numpunct_cache<_CharT> __cache_type;
997 __use_cache<__cache_type> __uc;
998 const locale& __loc = __io._M_getloc();
999 const __cache_type* __lc = __uc(__loc);
1000
1001 // Use default precision if out of range.
1002 const streamsize __prec = __io.precision() < 0 ? 6 : __io.precision();
1003
1004 const int __max_digits =
1005 __gnu_cxx::__numeric_traits<_ValueT>::__digits10;
1006
1007 // [22.2.2.2.2] Stage 1, numeric conversion to character.
1008 int __len;
1009 // Long enough for the max format spec.
1010 char __fbuf[16];
1011 __num_base::_S_format_float(__io, __fbuf, __mod);
1012
1013#if _GLIBCXX_USE_C99_STDIO && !_GLIBCXX_HAVE_BROKEN_VSNPRINTF
1014 // Precision is always used except for hexfloat format.
1015 const bool __use_prec =
1016 (__io.flags() & ios_base::floatfield) != ios_base::floatfield;
1017
1018 // First try a buffer perhaps big enough (most probably sufficient
1019 // for non-ios_base::fixed outputs)
1020 int __cs_size = __max_digits * 3;
1021 char* __cs = static_cast<char*>(__builtin_alloca(__cs_size));
1022 if (__use_prec)
1023 __len = std::__convert_from_v(_S_get_c_locale(), __cs, __cs_size,
1024 __fbuf, __prec, __v);
1025 else
1026 __len = std::__convert_from_v(_S_get_c_locale(), __cs, __cs_size,
1027 __fbuf, __v);
1028
1029 // If the buffer was not large enough, try again with the correct size.
1030 if (__len >= __cs_size)
1031 {
1032 __cs_size = __len + 1;
1033 __cs = static_cast<char*>(__builtin_alloca(__cs_size));
1034 if (__use_prec)
1035 __len = std::__convert_from_v(_S_get_c_locale(), __cs, __cs_size,
1036 __fbuf, __prec, __v);
1037 else
1038 __len = std::__convert_from_v(_S_get_c_locale(), __cs, __cs_size,
1039 __fbuf, __v);
1040 }
1041#else
1042 // Consider the possibility of long ios_base::fixed outputs
1043 const bool __fixed = __io.flags() & ios_base::fixed;
1044 const int __max_exp =
1045 __gnu_cxx::__numeric_traits<_ValueT>::__max_exponent10;
1046
1047 // The size of the output string is computed as follows.
1048 // ios_base::fixed outputs may need up to __max_exp + 1 chars
1049 // for the integer part + __prec chars for the fractional part
1050 // + 3 chars for sign, decimal point, '\0'. On the other hand,
1051 // for non-fixed outputs __max_digits * 2 + __prec chars are
1052 // largely sufficient.
1053 const int __cs_size = __fixed ? __max_exp + __prec + 4
1054 : __max_digits * 2 + __prec;
1055 char* __cs = static_cast<char*>(__builtin_alloca(__cs_size));
1056 __len = std::__convert_from_v(_S_get_c_locale(), __cs, 0, __fbuf,
1057 __prec, __v);
1058#endif
1059
1060 // [22.2.2.2.2] Stage 2, convert to char_type, using correct
1061 // numpunct.decimal_point() values for '.' and adding grouping.
1062 const ctype<_CharT>& __ctype = use_facet<ctype<_CharT> >(__loc);
1063
1064 _CharT* __ws = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
1065 * __len));
1066 __ctype.widen(__cs, __cs + __len, __ws);
1067
1068 // Replace decimal point.
1069 _CharT* __wp = 0;
1070 const char* __p = char_traits<char>::find(__cs, __len, '.');
1071 if (__p)
1072 {
1073 __wp = __ws + (__p - __cs);
1074 *__wp = __lc->_M_decimal_point;
1075 }
1076
1077 // Add grouping, if necessary.
1078 // N.B. Make sure to not group things like 2e20, i.e., no decimal
1079 // point, scientific notation.
1080 if (__lc->_M_use_grouping
1081 && (__wp || __len < 3 || (__cs[1] <= '9' && __cs[2] <= '9'
1082 && __cs[1] >= '0' && __cs[2] >= '0')))
1083 {
1084 // Grouping can add (almost) as many separators as the
1085 // number of digits, but no more.
1086 _CharT* __ws2 = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
1087 * __len * 2));
1088
1089 streamsize __off = 0;
1090 if (__cs[0] == '-' || __cs[0] == '+')
1091 {
1092 __off = 1;
1093 __ws2[0] = __ws[0];
1094 __len -= 1;
1095 }
1096
1097 _M_group_float(__lc->_M_grouping, __lc->_M_grouping_size,
1098 __lc->_M_thousands_sep, __wp, __ws2 + __off,
1099 __ws + __off, __len);
1100 __len += __off;
1101
1102 __ws = __ws2;
1103 }
1104
1105 // Pad.
1106 const streamsize __w = __io.width();
1107 if (__w > static_cast<streamsize>(__len))
1108 {
1109 _CharT* __ws3 = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
1110 * __w));
1111 _M_pad(__fill, __w, __io, __ws3, __ws, __len);
1112 __ws = __ws3;
1113 }
1114 __io.width(0);
1115
1116 // [22.2.2.2.2] Stage 4.
1117 // Write resulting, fully-formatted string to output iterator.
1118 return std::__write(__s, __ws, __len);
1119 }
1120
1121 template<typename _CharT, typename _OutIter>
1122 _OutIter
1123 num_put<_CharT, _OutIter>::
1124 do_put(iter_type __s, ios_base& __io, char_type __fill, bool __v) const
1125 {
1126 const ios_base::fmtflags __flags = __io.flags();
1127 if ((__flags & ios_base::boolalpha) == 0)
1128 {
1129 const long __l = __v;
1130 __s = _M_insert_int(__s, __io, __fill, __l);
1131 }
1132 else
1133 {
1134 typedef __numpunct_cache<_CharT> __cache_type;
1135 __use_cache<__cache_type> __uc;
1136 const locale& __loc = __io._M_getloc();
1137 const __cache_type* __lc = __uc(__loc);
1138
1139 const _CharT* __name = __v ? __lc->_M_truename
1140 : __lc->_M_falsename;
1141 int __len = __v ? __lc->_M_truename_size
1142 : __lc->_M_falsename_size;
1143
1144 const streamsize __w = __io.width();
1145 if (__w > static_cast<streamsize>(__len))
1146 {
1147 const streamsize __plen = __w - __len;
1148 _CharT* __ps
1149 = static_cast<_CharT*>(__builtin_alloca(sizeof(_CharT)
1150 * __plen));
1151
1152 char_traits<_CharT>::assign(__ps, __plen, __fill);
1153 __io.width(0);
1154
1155 if ((__flags & ios_base::adjustfield) == ios_base::left)
1156 {
1157 __s = std::__write(__s, __name, __len);
1158 __s = std::__write(__s, __ps, __plen);
1159 }
1160 else
1161 {
1162 __s = std::__write(__s, __ps, __plen);
1163 __s = std::__write(__s, __name, __len);
1164 }
1165 return __s;
1166 }
1167 __io.width(0);
1168 __s = std::__write(__s, __name, __len);
1169 }
1170 return __s;
1171 }
1172
1173 template<typename _CharT, typename _OutIter>
1174 _OutIter
1175 num_put<_CharT, _OutIter>::
1176 do_put(iter_type __s, ios_base& __io, char_type __fill, double __v) const
1177 { return _M_insert_float(__s, __io, __fill, char(), __v); }
1178
1179#if defined _GLIBCXX_LONG_DOUBLE_COMPAT && defined __LONG_DOUBLE_128__
1180 template<typename _CharT, typename _OutIter>
1181 _OutIter
1182 num_put<_CharT, _OutIter>::
1183 __do_put(iter_type __s, ios_base& __io, char_type __fill, double __v) const
1184 { return _M_insert_float(__s, __io, __fill, char(), __v); }
1185#endif
1186
1187 template<typename _CharT, typename _OutIter>
1188 _OutIter
1189 num_put<_CharT, _OutIter>::
1190 do_put(iter_type __s, ios_base& __io, char_type __fill,
1191 long double __v) const
1192 { return _M_insert_float(__s, __io, __fill, 'L', __v); }
1193
1194 template<typename _CharT, typename _OutIter>
1195 _OutIter
1196 num_put<_CharT, _OutIter>::
1197 do_put(iter_type __s, ios_base& __io, char_type __fill,
1198 const void* __v) const
1199 {
1200 const ios_base::fmtflags __flags = __io.flags();
1201 const ios_base::fmtflags __fmt = ~(ios_base::basefield
1202 | ios_base::uppercase);
1203 __io.flags((__flags & __fmt) | (ios_base::hex | ios_base::showbase));
1204
1205 typedef __gnu_cxx::__conditional_type<(sizeof(const void*)
1206 <= sizeof(unsigned long)),
1207 unsigned long, unsigned long long>::__type _UIntPtrType;
1208
1209 __s = _M_insert_int(__s, __io, __fill,
1210 reinterpret_cast<_UIntPtrType>(__v));
1211 __io.flags(__flags);
1212 return __s;
1213 }
1214
1215#if defined _GLIBCXX_LONG_DOUBLE_ALT128_COMPAT \
1216 && defined __LONG_DOUBLE_IEEE128__
1217 template<typename _CharT, typename _OutIter>
1218 _OutIter
1219 num_put<_CharT, _OutIter>::
1220 __do_put(iter_type __s, ios_base& __io, char_type __fill,
1221 __ibm128 __v) const
1222 { return _M_insert_float(__s, __io, __fill, 'L', __v); }
1223#endif
1224_GLIBCXX_END_NAMESPACE_LDBL
1225
1226 // Construct correctly padded string, as per 22.2.2.2.2
1227 // Assumes
1228 // __newlen > __oldlen
1229 // __news is allocated for __newlen size
1230
1231 // NB: Of the two parameters, _CharT can be deduced from the
1232 // function arguments. The other (_Traits) has to be explicitly specified.
1233 template<typename _CharT, typename _Traits>
1234 void
1235 __pad<_CharT, _Traits>::_S_pad(ios_base& __io, _CharT __fill,
1236 _CharT* __news, const _CharT* __olds,
1237 streamsize __newlen, streamsize __oldlen)
1238 {
1239 const size_t __plen = static_cast<size_t>(__newlen - __oldlen);
1240 const ios_base::fmtflags __adjust = __io.flags() & ios_base::adjustfield;
1241
1242 // Padding last.
1243 if (__adjust == ios_base::left)
1244 {
1245 _Traits::copy(__news, __olds, __oldlen);
1246 _Traits::assign(__news + __oldlen, __plen, __fill);
1247 return;
1248 }
1249
1250 size_t __mod = 0;
1251 if (__adjust == ios_base::internal)
1252 {
1253 // Pad after the sign, if there is one.
1254 // Pad after 0[xX], if there is one.
1255 // Who came up with these rules, anyway? Jeeze.
1256 const locale& __loc = __io._M_getloc();
1257 const ctype<_CharT>& __ctype = use_facet<ctype<_CharT> >(__loc);
1258
1259 if (__ctype.widen('-') == __olds[0]
1260 || __ctype.widen('+') == __olds[0])
1261 {
1262 __news[0] = __olds[0];
1263 __mod = 1;
1264 ++__news;
1265 }
1266 else if (__ctype.widen('0') == __olds[0]
1267 && __oldlen > 1
1268 && (__ctype.widen('x') == __olds[1]
1269 || __ctype.widen('X') == __olds[1]))
1270 {
1271 __news[0] = __olds[0];
1272 __news[1] = __olds[1];
1273 __mod = 2;
1274 __news += 2;
1275 }
1276 // else Padding first.
1277 }
1278 _Traits::assign(__news, __plen, __fill);
1279 _Traits::copy(__news + __plen, __olds + __mod, __oldlen - __mod);
1280 }
1281
1282 template<typename _CharT>
1283 _CharT*
1284 __add_grouping(_CharT* __s, _CharT __sep,
1285 const char* __gbeg, size_t __gsize,
1286 const _CharT* __first, const _CharT* __last)
1287 {
1288 size_t __idx = 0;
1289 size_t __ctr = 0;
1290
1291 while (__last - __first > __gbeg[__idx]
1292 && static_cast<signed char>(__gbeg[__idx]) > 0
1293 && __gbeg[__idx] != __gnu_cxx::__numeric_traits<char>::__max)
1294 {
1295 __last -= __gbeg[__idx];
1296 __idx < __gsize - 1 ? ++__idx : ++__ctr;
1297 }
1298
1299 while (__first != __last)
1300 *__s++ = *__first++;
1301
1302 while (__ctr--)
1303 {
1304 *__s++ = __sep;
1305 for (char __i = __gbeg[__idx]; __i > 0; --__i)
1306 *__s++ = *__first++;
1307 }
1308
1309 while (__idx--)
1310 {
1311 *__s++ = __sep;
1312 for (char __i = __gbeg[__idx]; __i > 0; --__i)
1313 *__s++ = *__first++;
1314 }
1315
1316 return __s;
1317 }
1318
1319 // Inhibit implicit instantiations for required instantiations,
1320 // which are defined via explicit instantiations elsewhere.
1321#if _GLIBCXX_EXTERN_TEMPLATE
1322 extern template class _GLIBCXX_NAMESPACE_CXX11 numpunct<char>;
1323 extern template class _GLIBCXX_NAMESPACE_CXX11 numpunct_byname<char>;
1324 extern template class _GLIBCXX_NAMESPACE_LDBL num_get<char>;
1325 extern template class _GLIBCXX_NAMESPACE_LDBL num_put<char>;
1326 extern template class ctype_byname<char>;
1327
1328 extern template
1329 const ctype<char>&
1330 use_facet<ctype<char> >(const locale&);
1331
1332 extern template
1333 const numpunct<char>&
1334 use_facet<numpunct<char> >(const locale&);
1335
1336 extern template
1337 const num_put<char>&
1338 use_facet<num_put<char> >(const locale&);
1339
1340 extern template
1341 const num_get<char>&
1342 use_facet<num_get<char> >(const locale&);
1343
1344 extern template
1345 bool
1346 has_facet<ctype<char> >(const locale&);
1347
1348 extern template
1349 bool
1350 has_facet<numpunct<char> >(const locale&);
1351
1352 extern template
1353 bool
1354 has_facet<num_put<char> >(const locale&);
1355
1356 extern template
1357 bool
1358 has_facet<num_get<char> >(const locale&);
1359
1360#ifdef _GLIBCXX_USE_WCHAR_T
1361 extern template class _GLIBCXX_NAMESPACE_CXX11 numpunct<wchar_t>;
1362 extern template class _GLIBCXX_NAMESPACE_CXX11 numpunct_byname<wchar_t>;
1363 extern template class _GLIBCXX_NAMESPACE_LDBL num_get<wchar_t>;
1364 extern template class _GLIBCXX_NAMESPACE_LDBL num_put<wchar_t>;
1365 extern template class ctype_byname<wchar_t>;
1366
1367 extern template
1368 const ctype<wchar_t>&
1369 use_facet<ctype<wchar_t> >(const locale&);
1370
1371 extern template
1372 const numpunct<wchar_t>&
1373 use_facet<numpunct<wchar_t> >(const locale&);
1374
1375 extern template
1376 const num_put<wchar_t>&
1377 use_facet<num_put<wchar_t> >(const locale&);
1378
1379 extern template
1380 const num_get<wchar_t>&
1381 use_facet<num_get<wchar_t> >(const locale&);
1382
1383 extern template
1384 bool
1385 has_facet<ctype<wchar_t> >(const locale&);
1386
1387 extern template
1388 bool
1389 has_facet<numpunct<wchar_t> >(const locale&);
1390
1391 extern template
1392 bool
1393 has_facet<num_put<wchar_t> >(const locale&);
1394
1395 extern template
1396 bool
1397 has_facet<num_get<wchar_t> >(const locale&);
1398#endif
1399#endif
1400
1401_GLIBCXX_END_NAMESPACE_VERSION
1402} // namespace
1403
1404#endif
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