1 // Copyright (C) 1997-2018 Free Software Foundation, Inc.
3 // This file is part of the GNU ISO C++ Library. This library is free
4 // software; you can redistribute it and/or modify it under the
5 // terms of the GNU General Public License as published by the
6 // Free Software Foundation; either version 3, or (at your option)
9 // This library is distributed in the hope that it will be useful,
10 // but WITHOUT ANY WARRANTY; without even the implied warranty of
11 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 // GNU General Public License for more details.
14 // Under Section 7 of GPL version 3, you are granted additional
15 // permissions described in the GCC Runtime Library Exception, version
16 // 3.1, as published by the Free Software Foundation.
18 // You should have received a copy of the GNU General Public License and
19 // a copy of the GCC Runtime Library Exception along with this program;
20 // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
21 // <http://www.gnu.org/licenses/>.
23 #define _GLIBCXX_USE_CXX11_ABI 1
29 namespace std
_GLIBCXX_VISIBILITY(default)
31 _GLIBCXX_BEGIN_NAMESPACE_VERSION
33 using namespace __gnu_cxx
;
35 locale::locale(const char* __s
) : _M_impl(0)
40 if (std::strcmp(__s
, "C") == 0 || std::strcmp(__s
, "POSIX") == 0)
41 (_M_impl
= _S_classic
)->_M_add_reference();
42 else if (std::strcmp(__s
, "") != 0)
43 _M_impl
= new _Impl(__s
, 1);
46 // Get it from the environment.
47 char* __env
= std::getenv("LC_ALL");
48 // If LC_ALL is set we are done.
49 if (__env
&& std::strcmp(__env
, "") != 0)
51 if (std::strcmp(__env
, "C") == 0
52 || std::strcmp(__env
, "POSIX") == 0)
53 (_M_impl
= _S_classic
)->_M_add_reference();
55 _M_impl
= new _Impl(__env
, 1);
59 // LANG may set a default different from "C".
61 __env
= std::getenv("LANG");
62 if (!__env
|| std::strcmp(__env
, "") == 0
63 || std::strcmp(__env
, "C") == 0
64 || std::strcmp(__env
, "POSIX") == 0)
69 // Scan the categories looking for the first one
70 // different from LANG.
73 for (; __i
< _S_categories_size
; ++__i
)
75 __env
= std::getenv(_S_categories
[__i
]);
76 if (__env
&& std::strcmp(__env
, "") != 0
77 && std::strcmp(__env
, "C") != 0
78 && std::strcmp(__env
, "POSIX") != 0)
82 for (; __i
< _S_categories_size
; ++__i
)
84 __env
= std::getenv(_S_categories
[__i
]);
85 if (__env
&& std::strcmp(__env
, "") != 0
90 // If one is found, build the complete string of
91 // the form LC_CTYPE=xxx;LC_NUMERIC=yyy; and so on...
92 if (__i
< _S_categories_size
)
96 for (size_t __j
= 0; __j
< __i
; ++__j
)
98 __str
+= _S_categories
[__j
];
103 __str
+= _S_categories
[__i
];
108 for (; __i
< _S_categories_size
; ++__i
)
110 __env
= std::getenv(_S_categories
[__i
]);
111 __str
+= _S_categories
[__i
];
112 if (!__env
|| std::strcmp(__env
, "") == 0)
118 else if (std::strcmp(__env
, "C") == 0
119 || std::strcmp(__env
, "POSIX") == 0)
128 __str
.erase(__str
.end() - 1);
129 _M_impl
= new _Impl(__str
.c_str(), 1);
131 // ... otherwise either an additional instance of
132 // the "C" locale or LANG.
133 else if (__lang
== "C")
134 (_M_impl
= _S_classic
)->_M_add_reference();
136 _M_impl
= new _Impl(__lang
.c_str(), 1);
141 __throw_runtime_error(__N("locale::locale null not valid"));
144 locale::locale(const locale
& __base
, const char* __s
, category __cat
)
147 // NB: There are complicated, yet more efficient ways to do
148 // this. Building up locales on a per-category way is tedious, so
149 // let's do it this way until people complain.
151 _M_coalesce(__base
, __add
, __cat
);
154 locale::locale(const locale
& __base
, const locale
& __add
, category __cat
)
156 { _M_coalesce(__base
, __add
, __cat
); }
159 locale::_M_coalesce(const locale
& __base
, const locale
& __add
,
162 __cat
= _S_normalize_category(__cat
);
163 _M_impl
= new _Impl(*__base
._M_impl
, 1);
166 { _M_impl
->_M_replace_categories(__add
._M_impl
, __cat
); }
169 _M_impl
->_M_remove_reference();
170 __throw_exception_again
;
174 const int num_facets
= _GLIBCXX_NUM_FACETS
+ _GLIBCXX_NUM_UNICODE_FACETS
175 + (_GLIBCXX_USE_DUAL_ABI
? _GLIBCXX_NUM_CXX11_FACETS
: 0);
177 // Construct named _Impl.
179 _Impl(const char* __s
, size_t __refs
)
180 : _M_refcount(__refs
), _M_facets(0), _M_facets_size(num_facets
),
181 _M_caches(0), _M_names(0)
183 // Initialize the underlying locale model, which also checks to
184 // see if the given name is valid.
186 locale::facet::_S_create_c_locale(__cloc
, __s
);
187 __c_locale __clocm
= __cloc
;
191 _M_facets
= new const facet
*[_M_facets_size
]();
192 _M_caches
= new const facet
*[_M_facets_size
]();
193 _M_names
= new char*[_S_categories_size
]();
195 // Name the categories.
196 const char* __smon
= __s
;
197 const size_t __len
= std::strlen(__s
);
198 if (!std::memchr(__s
, ';', __len
))
200 _M_names
[0] = new char[__len
+ 1];
201 std::memcpy(_M_names
[0], __s
, __len
+ 1);
205 const char* __end
= __s
;
206 bool __found_ctype
= false;
207 bool __found_monetary
= false;
208 size_t __ci
= 0, __mi
= 0;
209 for (size_t __i
= 0; __i
< _S_categories_size
; ++__i
)
211 const char* __beg
= std::strchr(__end
+ 1, '=') + 1;
212 __end
= std::strchr(__beg
, ';');
215 _M_names
[__i
] = new char[__end
- __beg
+ 1];
216 std::memcpy(_M_names
[__i
], __beg
, __end
- __beg
);
217 _M_names
[__i
][__end
- __beg
] = '\0';
219 && *(__beg
- 2) == 'E' && *(__beg
- 3) == 'P')
221 __found_ctype
= true;
224 else if (!__found_monetary
&& *(__beg
- 2) == 'Y')
226 __found_monetary
= true;
231 if (std::strcmp(_M_names
[__ci
], _M_names
[__mi
]))
233 __smon
= _M_names
[__mi
];
234 __clocm
= locale::facet::_S_lc_ctype_c_locale(__cloc
,
239 // Construct all standard facets and add them to _M_facets.
240 _M_init_facet(new std::ctype
<char>(__cloc
, 0, false));
241 _M_init_facet(new codecvt
<char, char, mbstate_t>(__cloc
));
242 _M_init_facet(new numpunct
<char>(__cloc
));
243 _M_init_facet(new num_get
<char>);
244 _M_init_facet(new num_put
<char>);
245 _M_init_facet(new std::collate
<char>(__cloc
));
246 _M_init_facet(new moneypunct
<char, false>(__cloc
, 0));
247 _M_init_facet(new moneypunct
<char, true>(__cloc
, 0));
248 _M_init_facet(new money_get
<char>);
249 _M_init_facet(new money_put
<char>);
250 _M_init_facet(new __timepunct
<char>(__cloc
, __s
));
251 _M_init_facet(new time_get
<char>);
252 _M_init_facet(new time_put
<char>);
253 _M_init_facet(new std::messages
<char>(__cloc
, __s
));
255 #ifdef _GLIBCXX_USE_WCHAR_T
256 _M_init_facet(new std::ctype
<wchar_t>(__cloc
));
257 _M_init_facet(new codecvt
<wchar_t, char, mbstate_t>(__cloc
));
258 _M_init_facet(new numpunct
<wchar_t>(__cloc
));
259 _M_init_facet(new num_get
<wchar_t>);
260 _M_init_facet(new num_put
<wchar_t>);
261 _M_init_facet(new std::collate
<wchar_t>(__cloc
));
262 _M_init_facet(new moneypunct
<wchar_t, false>(__clocm
, __smon
));
263 _M_init_facet(new moneypunct
<wchar_t, true>(__clocm
, __smon
));
264 _M_init_facet(new money_get
<wchar_t>);
265 _M_init_facet(new money_put
<wchar_t>);
266 _M_init_facet(new __timepunct
<wchar_t>(__cloc
, __s
));
267 _M_init_facet(new time_get
<wchar_t>);
268 _M_init_facet(new time_put
<wchar_t>);
269 _M_init_facet(new std::messages
<wchar_t>(__cloc
, __s
));
272 #if _GLIBCXX_NUM_UNICODE_FACETS != 0
273 _M_init_facet(new codecvt
<char16_t
, char, mbstate_t>);
274 _M_init_facet(new codecvt
<char32_t
, char, mbstate_t>);
277 #if _GLIBCXX_USE_DUAL_ABI
278 _M_init_extra(&__cloc
, &__clocm
, __s
, __smon
);
281 locale::facet::_S_destroy_c_locale(__cloc
);
282 if (__clocm
!= __cloc
)
283 locale::facet::_S_destroy_c_locale(__clocm
);
287 locale::facet::_S_destroy_c_locale(__cloc
);
288 if (__clocm
!= __cloc
)
289 locale::facet::_S_destroy_c_locale(__clocm
);
291 __throw_exception_again
;
297 _M_replace_categories(const _Impl
* __imp
, category __cat
)
300 if (!_M_names
[0] || !__imp
->_M_names
[0])
304 delete [] _M_names
[0];
305 _M_names
[0] = 0; // Unnamed.
308 for (size_t __ix
= 0; __ix
< _S_categories_size
; ++__ix
, __mask
<<= 1)
311 // Need to replace entry in _M_facets with other locale's info.
312 _M_replace_category(__imp
, _S_facet_categories
[__ix
]);
319 // A full set of _M_names must be prepared, all identical
320 // to _M_names[0] to begin with. Then, below, a few will
321 // be replaced by the corresponding __imp->_M_names. I.e.,
322 // not a "simple" locale anymore (see locale::operator==).
323 const size_t __len
= std::strlen(_M_names
[0]) + 1;
324 for (size_t __i
= 1; __i
< _S_categories_size
; ++__i
)
326 _M_names
[__i
] = new char[__len
];
327 std::memcpy(_M_names
[__i
], _M_names
[0], __len
);
331 for (size_t __ix
= 0; __ix
< _S_categories_size
; ++__ix
, __mask
<<= 1)
335 // Need to replace entry in _M_facets with other locale's info.
336 _M_replace_category(__imp
, _S_facet_categories
[__ix
]);
338 // FIXME: Hack for libstdc++/29217: the numerical encodings
339 // of the time and collate categories are swapped vs the
340 // order of the names in locale::_S_categories. We'd like to
341 // adjust the former (the latter is dictated by compatibility
342 // with glibc) but we can't for binary compatibility.
343 size_t __ix_name
= __ix
;
344 if (__ix
== 2 || __ix
== 3)
345 __ix_name
= 5 - __ix
;
347 char* __src
= __imp
->_M_names
[__ix_name
] ?
348 __imp
->_M_names
[__ix_name
] : __imp
->_M_names
[0];
349 const size_t __len
= std::strlen(__src
) + 1;
350 char* __new
= new char[__len
];
351 std::memcpy(__new
, __src
, __len
);
352 delete [] _M_names
[__ix_name
];
353 _M_names
[__ix_name
] = __new
;
359 _GLIBCXX_END_NAMESPACE_VERSION