| author | Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com> |
| Mon, 15 Mar 2010 12:43:09 +0200 | |
| branch | RCL_3 |
| changeset 6 | dee5afe5301f |
| parent 4 | 3b1da2848fc7 |
| permissions | -rw-r--r-- |
| 0 | 1 |
/**************************************************************************** |
2 |
** |
|
|
4
3b1da2848fc7
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
3
diff
changeset
|
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** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). |
| 0 | 4 |
** All rights reserved. |
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** Contact: Nokia Corporation (qt-info@nokia.com) |
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** |
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** This file is part of the QtCore module of the Qt Toolkit. |
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** |
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** $QT_BEGIN_LICENSE:LGPL$ |
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** No Commercial Usage |
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** This file contains pre-release code and may not be distributed. |
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** You may use this file in accordance with the terms and conditions |
|
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** contained in the Technology Preview License Agreement accompanying |
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** this package. |
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** |
|
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** GNU Lesser General Public License Usage |
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** Alternatively, this file may be used under the terms of the GNU Lesser |
|
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** General Public License version 2.1 as published by the Free Software |
|
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** Foundation and appearing in the file LICENSE.LGPL included in the |
|
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** packaging of this file. Please review the following information to |
|
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** ensure the GNU Lesser General Public License version 2.1 requirements |
|
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** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. |
|
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** |
|
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** In addition, as a special exception, Nokia gives you certain additional |
|
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** rights. These rights are described in the Nokia Qt LGPL Exception |
|
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** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. |
|
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** |
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** If you have questions regarding the use of this file, please contact |
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** Nokia at qt-info@nokia.com. |
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** |
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** |
|
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** |
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** |
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** |
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** |
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** |
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** |
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** $QT_END_LICENSE$ |
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** |
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****************************************************************************/ |
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||
42 |
#include "qglobal.h" |
|
43 |
||
44 |
#ifndef QT_NO_SYSTEMLOCALE |
|
45 |
QT_BEGIN_NAMESPACE |
|
46 |
class QSystemLocale; |
|
47 |
static QSystemLocale *QSystemLocale_globalSystemLocale(); |
|
48 |
QT_END_NAMESPACE |
|
49 |
#endif |
|
50 |
||
51 |
#include "qplatformdefs.h" |
|
52 |
||
53 |
#include "qdatastream.h" |
|
54 |
#include "qstring.h" |
|
55 |
#include "qlocale.h" |
|
56 |
#include "qlocale_p.h" |
|
57 |
#include "qdatetime_p.h" |
|
58 |
#include "qnamespace.h" |
|
59 |
#include "qdatetime.h" |
|
60 |
#include "qstringlist.h" |
|
61 |
#include "qvariant.h" |
|
62 |
#if defined(Q_WS_WIN) |
|
63 |
# include "qt_windows.h" |
|
64 |
# include <time.h> |
|
65 |
#endif |
|
66 |
#if !defined(QWS) && defined(Q_OS_MAC) |
|
67 |
# include "private/qcore_mac_p.h" |
|
68 |
# include <CoreFoundation/CoreFoundation.h> |
|
69 |
#endif |
|
70 |
#include "private/qnumeric_p.h" |
|
71 |
||
72 |
#include <ctype.h> |
|
73 |
#include <float.h> |
|
74 |
#include <limits.h> |
|
75 |
#include <math.h> |
|
76 |
#include <stdlib.h> |
|
77 |
#include <qdebug.h> |
|
78 |
#include <time.h> |
|
79 |
||
80 |
#if defined(Q_OS_LINUX) && !defined(__UCLIBC__) |
|
81 |
# include <fenv.h> |
|
82 |
#endif |
|
83 |
||
84 |
#if !defined(QT_QLOCALE_NEEDS_VOLATILE) |
|
85 |
# if defined(Q_CC_GNU) |
|
86 |
# if __GNUC__ == 4 |
|
87 |
# define QT_QLOCALE_NEEDS_VOLATILE |
|
88 |
# elif defined(Q_OS_WIN) |
|
89 |
# define QT_QLOCALE_NEEDS_VOLATILE |
|
90 |
# endif |
|
91 |
# endif |
|
92 |
#endif |
|
93 |
||
94 |
#if defined(QT_QLOCALE_NEEDS_VOLATILE) |
|
95 |
# define NEEDS_VOLATILE volatile |
|
96 |
#else |
|
97 |
# define NEEDS_VOLATILE |
|
98 |
#endif |
|
99 |
||
100 |
// Sizes as defined by the ISO C99 standard - fallback |
|
101 |
#ifndef LLONG_MAX |
|
102 |
# define LLONG_MAX Q_INT64_C(0x7fffffffffffffff) |
|
103 |
#endif |
|
104 |
#ifndef LLONG_MIN |
|
105 |
# define LLONG_MIN (-LLONG_MAX - Q_INT64_C(1)) |
|
106 |
#endif |
|
107 |
#ifndef ULLONG_MAX |
|
108 |
# define ULLONG_MAX Q_UINT64_C(0xffffffffffffffff) |
|
109 |
#endif |
|
110 |
||
111 |
#define CONVERSION_BUFF_SIZE 255 |
|
112 |
||
113 |
QT_BEGIN_NAMESPACE |
|
114 |
||
115 |
#ifndef QT_QLOCALE_USES_FCVT |
|
116 |
static char *_qdtoa( NEEDS_VOLATILE double d, int mode, int ndigits, int *decpt, |
|
117 |
int *sign, char **rve, char **digits_str); |
|
118 |
#endif |
|
119 |
Q_CORE_EXPORT char *qdtoa(double d, int mode, int ndigits, int *decpt, |
|
120 |
int *sign, char **rve, char **digits_str); |
|
121 |
Q_CORE_EXPORT double qstrtod(const char *s00, char const **se, bool *ok); |
|
122 |
static qlonglong qstrtoll(const char *nptr, const char **endptr, register int base, bool *ok); |
|
123 |
static qulonglong qstrtoull(const char *nptr, const char **endptr, register int base, bool *ok); |
|
124 |
||
125 |
#if defined(Q_CC_MWERKS) && defined(Q_OS_WIN32) |
|
126 |
inline bool isascii(int c) |
|
127 |
{
|
|
128 |
return (c >= 0 && c <=127); |
|
129 |
} |
|
130 |
#endif |
|
131 |
||
132 |
/****************************************************************************** |
|
133 |
** Helpers for accessing Qt locale database |
|
134 |
*/ |
|
135 |
||
136 |
QT_BEGIN_INCLUDE_NAMESPACE |
|
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#include "qlocale_data_p.h" |
|
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QT_END_INCLUDE_NAMESPACE |
|
139 |
||
140 |
QLocale::MeasurementSystem QLocalePrivate::measurementSystem() const |
|
141 |
{
|
|
142 |
for (int i = 0; i < ImperialMeasurementSystemsCount; ++i) {
|
|
143 |
if (ImperialMeasurementSystems[i].languageId == m_language_id |
|
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&& ImperialMeasurementSystems[i].countryId == m_country_id) {
|
|
145 |
return QLocale::ImperialSystem; |
|
146 |
} |
|
147 |
} |
|
148 |
return QLocale::MetricSystem; |
|
149 |
} |
|
150 |
||
151 |
// Assumes that code is a |
|
152 |
// QChar code[3]; |
|
153 |
// If the code is two-digit the third digit must be 0 |
|
154 |
static QLocale::Language codeToLanguage(const QChar *code) |
|
155 |
{
|
|
156 |
ushort uc1 = code[0].unicode(); |
|
157 |
ushort uc2 = code[1].unicode(); |
|
158 |
ushort uc3 = code[2].unicode(); |
|
159 |
||
160 |
if (uc1 == 'n' && uc2 == 'o' && uc3 == 0) |
|
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uc2 = 'b'; |
|
162 |
||
163 |
const unsigned char *c = language_code_list; |
|
164 |
for (; *c != 0; c += 3) {
|
|
165 |
if (uc1 == c[0] && uc2 == c[1] && uc3 == c[2]) |
|
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return QLocale::Language((c - language_code_list)/3); |
|
167 |
} |
|
168 |
||
169 |
return QLocale::C; |
|
170 |
} |
|
171 |
||
172 |
// Assumes that code is a |
|
173 |
// QChar code[2]; |
|
174 |
static QLocale::Country codeToCountry(const QChar *code) |
|
175 |
{
|
|
176 |
ushort uc1 = code[0].unicode(); |
|
177 |
ushort uc2 = code[1].unicode(); |
|
178 |
||
179 |
const unsigned char *c = country_code_list; |
|
180 |
for (; *c != 0; c += 2) {
|
|
181 |
if (uc1 == c[0] && uc2 == c[1]) |
|
182 |
return QLocale::Country((c - country_code_list)/2); |
|
183 |
} |
|
184 |
||
185 |
return QLocale::AnyCountry; |
|
186 |
} |
|
187 |
||
188 |
static QString languageToCode(QLocale::Language language) |
|
189 |
{
|
|
190 |
if (language == QLocale::C) |
|
191 |
return QLatin1String("C");
|
|
192 |
||
193 |
const unsigned char *c = language_code_list + 3*(uint(language)); |
|
194 |
||
195 |
QString code(c[2] == 0 ? 2 : 3, Qt::Uninitialized); |
|
196 |
||
197 |
code[0] = ushort(c[0]); |
|
198 |
code[1] = ushort(c[1]); |
|
199 |
if (c[2] != 0) |
|
200 |
code[2] = ushort(c[2]); |
|
201 |
||
202 |
return code; |
|
203 |
} |
|
204 |
||
205 |
static QString countryToCode(QLocale::Country country) |
|
206 |
{
|
|
207 |
if (country == QLocale::AnyCountry) |
|
208 |
return QString(); |
|
209 |
||
210 |
QString code(2, Qt::Uninitialized); |
|
211 |
const unsigned char *c = country_code_list + 2*(uint(country)); |
|
212 |
code[0] = ushort(c[0]); |
|
213 |
code[1] = ushort(c[1]); |
|
214 |
return code; |
|
215 |
} |
|
216 |
||
217 |
static const QLocalePrivate *findLocale(QLocale::Language language, QLocale::Country country) |
|
218 |
{
|
|
219 |
unsigned language_id = language; |
|
220 |
unsigned country_id = country; |
|
221 |
||
222 |
uint idx = locale_index[language_id]; |
|
223 |
||
224 |
const QLocalePrivate *d = locale_data + idx; |
|
225 |
||
226 |
if (idx == 0) // default language has no associated country |
|
227 |
return d; |
|
228 |
||
229 |
if (country == QLocale::AnyCountry) |
|
230 |
return d; |
|
231 |
||
232 |
Q_ASSERT(d->languageId() == language_id); |
|
233 |
||
234 |
while (d->languageId() == language_id |
|
235 |
&& d->countryId() != country_id) |
|
236 |
++d; |
|
237 |
||
238 |
if (d->countryId() == country_id |
|
239 |
&& d->languageId() == language_id) |
|
240 |
return d; |
|
241 |
||
242 |
return locale_data + idx; |
|
243 |
} |
|
244 |
||
245 |
static bool splitLocaleName(const QString &name, QChar *lang_begin, QChar *cntry_begin) |
|
246 |
{
|
|
247 |
for (int i = 0; i < 3; ++i) |
|
248 |
lang_begin[i] = 0; |
|
249 |
for (int i = 0; i < 2; ++i) |
|
250 |
cntry_begin[i] = 0; |
|
251 |
||
252 |
int l = name.length(); |
|
253 |
||
254 |
QChar *lang = lang_begin; |
|
255 |
QChar *cntry = cntry_begin; |
|
256 |
||
257 |
int state = 0; |
|
258 |
const QChar *uc = name.unicode(); |
|
259 |
for (int i = 0; i < l; ++i) {
|
|
260 |
if (uc->unicode() == '.' || uc->unicode() == '@') |
|
261 |
break; |
|
262 |
||
263 |
switch (state) {
|
|
264 |
case 0: |
|
265 |
// parsing language |
|
266 |
if (uc->unicode() == '_') {
|
|
267 |
state = 1; |
|
268 |
break; |
|
269 |
} |
|
270 |
if (lang - lang_begin == 3) |
|
271 |
return false; |
|
272 |
if (uc->unicode() < 'a' || uc->unicode() > 'z') |
|
273 |
return false; |
|
274 |
||
275 |
*lang = *uc; |
|
276 |
++lang; |
|
277 |
break; |
|
278 |
case 1: |
|
279 |
// parsing country |
|
280 |
if (cntry - cntry_begin == 2) {
|
|
281 |
cntry_begin[0] = 0; |
|
282 |
break; |
|
283 |
} |
|
284 |
||
285 |
*cntry = *uc; |
|
286 |
++cntry; |
|
287 |
break; |
|
288 |
} |
|
289 |
||
290 |
++uc; |
|
291 |
} |
|
292 |
||
293 |
int lang_len = lang - lang_begin; |
|
294 |
||
295 |
return lang_len == 2 || lang_len == 3; |
|
296 |
} |
|
297 |
||
298 |
void getLangAndCountry(const QString &name, QLocale::Language &lang, QLocale::Country &cntry) |
|
299 |
{
|
|
300 |
lang = QLocale::C; |
|
301 |
cntry = QLocale::AnyCountry; |
|
302 |
||
303 |
QChar lang_code[3]; |
|
304 |
QChar cntry_code[2]; |
|
305 |
if (!splitLocaleName(name, lang_code, cntry_code)) |
|
306 |
return; |
|
307 |
||
308 |
lang = codeToLanguage(lang_code); |
|
309 |
if (lang == QLocale::C) |
|
310 |
return; |
|
311 |
||
312 |
if (cntry_code[0].unicode() != 0) |
|
313 |
cntry = codeToCountry(cntry_code); |
|
314 |
} |
|
315 |
||
316 |
static const QLocalePrivate *findLocale(const QString &name) |
|
317 |
{
|
|
318 |
QLocale::Language lang; |
|
319 |
QLocale::Country cntry; |
|
320 |
getLangAndCountry(name, lang, cntry); |
|
321 |
||
322 |
return findLocale(lang, cntry); |
|
323 |
} |
|
324 |
static QString readEscapedFormatString(const QString &format, int *idx) |
|
325 |
{
|
|
326 |
int &i = *idx; |
|
327 |
||
328 |
Q_ASSERT(format.at(i) == QLatin1Char('\''));
|
|
329 |
++i; |
|
330 |
if (i == format.size()) |
|
331 |
return QString(); |
|
332 |
if (format.at(i).unicode() == '\'') { // "''" outside of a quoted stirng
|
|
333 |
++i; |
|
334 |
return QLatin1String("'");
|
|
335 |
} |
|
336 |
||
337 |
QString result; |
|
338 |
||
339 |
while (i < format.size()) {
|
|
340 |
if (format.at(i).unicode() == '\'') {
|
|
341 |
if (i + 1 < format.size() && format.at(i + 1).unicode() == '\'') {
|
|
342 |
// "''" inside of a quoted string |
|
343 |
result.append(QLatin1Char('\''));
|
|
344 |
i += 2; |
|
345 |
} else {
|
|
346 |
break; |
|
347 |
} |
|
348 |
} else {
|
|
349 |
result.append(format.at(i++)); |
|
350 |
} |
|
351 |
} |
|
352 |
if (i < format.size()) |
|
353 |
++i; |
|
354 |
||
355 |
return result; |
|
356 |
} |
|
357 |
||
358 |
static int repeatCount(const QString &s, int i) |
|
359 |
{
|
|
360 |
QChar c = s.at(i); |
|
361 |
int j = i + 1; |
|
362 |
while (j < s.size() && s.at(j) == c) |
|
363 |
++j; |
|
364 |
return j - i; |
|
365 |
} |
|
366 |
||
367 |
static const QLocalePrivate *default_lp = 0; |
|
368 |
static uint default_number_options = 0; |
|
369 |
||
370 |
#ifndef QT_NO_SYSTEMLOCALE |
|
371 |
static QByteArray envVarLocale() |
|
372 |
{
|
|
373 |
static QByteArray lang = 0; |
|
374 |
#ifdef Q_OS_UNIX |
|
375 |
lang = qgetenv("LC_ALL");
|
|
376 |
if (lang.isNull()) |
|
377 |
lang = qgetenv("LC_NUMERIC");
|
|
378 |
if (lang.isNull()) |
|
379 |
#endif |
|
380 |
lang = qgetenv("LANG");
|
|
381 |
return lang; |
|
382 |
} |
|
383 |
||
384 |
||
385 |
#if defined(Q_OS_WIN) |
|
386 |
/****************************************************************************** |
|
387 |
** Wrappers for Windows locale system functions |
|
388 |
*/ |
|
389 |
||
390 |
static const char *winLangCodeToIsoName(int code); |
|
391 |
static QString winIso639LangName(LCID id = LOCALE_USER_DEFAULT); |
|
392 |
static QString winIso3116CtryName(LCID id = LOCALE_USER_DEFAULT); |
|
393 |
||
394 |
static QString getWinLocaleInfo(LCTYPE type) |
|
395 |
{
|
|
396 |
LCID id = GetUserDefaultLCID(); |
|
397 |
int cnt = GetLocaleInfo(id, type, 0, 0) * 2; |
|
398 |
||
399 |
if (cnt == 0) {
|
|
400 |
qWarning("QLocale: empty windows locale info (%d)", (int)type);
|
|
401 |
return QString(); |
|
402 |
} |
|
403 |
||
404 |
QByteArray buff(cnt, 0); |
|
405 |
||
406 |
cnt = GetLocaleInfo(id, type, reinterpret_cast<wchar_t*>(buff.data()), buff.size() / 2); |
|
407 |
||
408 |
if (cnt == 0) {
|
|
409 |
qWarning("QLocale: empty windows locale info (%d)", (int)type);
|
|
410 |
return QString(); |
|
411 |
} |
|
412 |
||
413 |
return QString::fromWCharArray(reinterpret_cast<const wchar_t *>(buff.data())); |
|
414 |
} |
|
415 |
||
416 |
QByteArray getWinLocaleName(LCID id = LOCALE_USER_DEFAULT) |
|
417 |
{
|
|
418 |
QByteArray result; |
|
419 |
if (id == LOCALE_USER_DEFAULT) {
|
|
420 |
result = envVarLocale(); |
|
421 |
QChar lang[3]; |
|
422 |
QChar cntry[2]; |
|
423 |
if ( result == "C" || (!result.isEmpty() |
|
424 |
&& splitLocaleName(QString::fromLocal8Bit(result), lang, cntry)) ) {
|
|
425 |
long id = 0; |
|
426 |
bool ok = false; |
|
427 |
id = qstrtoll(result.data(), 0, 0, &ok); |
|
428 |
if ( !ok || id == 0 || id < INT_MIN || id > INT_MAX ) |
|
429 |
return result; |
|
430 |
else |
|
431 |
return winLangCodeToIsoName( (int)id ); |
|
432 |
} |
|
433 |
} |
|
434 |
||
435 |
#if defined(Q_OS_WINCE) |
|
436 |
result = winLangCodeToIsoName(id != LOCALE_USER_DEFAULT ? id : GetUserDefaultLCID()); |
|
437 |
#else |
|
438 |
if (id == LOCALE_USER_DEFAULT) |
|
439 |
id = GetUserDefaultLCID(); |
|
440 |
QString resultuage = winIso639LangName(id); |
|
441 |
QString country = winIso3116CtryName(id); |
|
442 |
result = resultuage.toLatin1(); |
|
443 |
if (!country.isEmpty()) {
|
|
444 |
result += '_'; |
|
445 |
result += country.toLatin1(); |
|
446 |
} |
|
447 |
#endif |
|
448 |
||
449 |
return result; |
|
450 |
} |
|
451 |
||
452 |
Q_CORE_EXPORT QLocale qt_localeFromLCID(LCID id) |
|
453 |
{
|
|
454 |
return QLocale(QString::fromLatin1(getWinLocaleName(id))); |
|
455 |
} |
|
456 |
||
457 |
static QString winToQtFormat(const QString &sys_fmt) |
|
458 |
{
|
|
459 |
QString result; |
|
460 |
int i = 0; |
|
461 |
||
462 |
while (i < sys_fmt.size()) {
|
|
463 |
if (sys_fmt.at(i).unicode() == QLatin1Char('\'')) {
|
|
464 |
QString text = readEscapedFormatString(sys_fmt, &i); |
|
465 |
if (text == QLatin1String("'"))
|
|
466 |
result += QLatin1String("''");
|
|
467 |
else |
|
468 |
result += QLatin1Char('\'') + text + QLatin1Char('\'');
|
|
469 |
continue; |
|
470 |
} |
|
471 |
||
472 |
QChar c = sys_fmt.at(i); |
|
473 |
int repeat = repeatCount(sys_fmt, i); |
|
474 |
||
475 |
switch (c.unicode()) {
|
|
476 |
// Date |
|
477 |
case 'y': |
|
478 |
if (repeat > 5) |
|
479 |
repeat = 5; |
|
480 |
else if (repeat == 3) |
|
481 |
repeat = 2; |
|
482 |
switch (repeat) {
|
|
483 |
case 1: |
|
484 |
result += QLatin1String("yy"); // "y" unsupported by Qt, use "yy"
|
|
485 |
break; |
|
486 |
case 5: |
|
487 |
result += QLatin1String("yyyy"); // "yyyyy" same as "yyyy" on Windows
|
|
488 |
break; |
|
489 |
default: |
|
490 |
result += QString(repeat, QLatin1Char('y'));
|
|
491 |
break; |
|
492 |
} |
|
493 |
break; |
|
494 |
case 'g': |
|
495 |
if (repeat > 2) |
|
496 |
repeat = 2; |
|
497 |
switch (repeat) {
|
|
498 |
case 2: |
|
499 |
break; // no equivalent of "gg" in Qt |
|
500 |
default: |
|
501 |
result += QLatin1Char('g');
|
|
502 |
break; |
|
503 |
} |
|
504 |
break; |
|
505 |
case 't': |
|
506 |
if (repeat > 2) |
|
507 |
repeat = 2; |
|
508 |
result += QLatin1String("AP"); // "t" unsupported, use "AP"
|
|
509 |
break; |
|
510 |
default: |
|
511 |
result += QString(repeat, c); |
|
512 |
break; |
|
513 |
} |
|
514 |
||
515 |
i += repeat; |
|
516 |
} |
|
517 |
||
518 |
return result; |
|
519 |
} |
|
520 |
||
521 |
||
522 |
||
523 |
static QString winDateToString(const QDate &date, DWORD flags) |
|
524 |
{
|
|
525 |
SYSTEMTIME st; |
|
526 |
memset(&st, 0, sizeof(SYSTEMTIME)); |
|
527 |
st.wYear = date.year(); |
|
528 |
st.wMonth = date.month(); |
|
529 |
st.wDay = date.day(); |
|
530 |
||
531 |
LCID id = GetUserDefaultLCID(); |
|
532 |
||
533 |
wchar_t buf[255]; |
|
534 |
if (GetDateFormat(id, flags, &st, 0, buf, 255)) |
|
535 |
return QString::fromWCharArray(buf); |
|
536 |
||
537 |
return QString(); |
|
538 |
} |
|
539 |
||
540 |
static QString winTimeToString(const QTime &time) |
|
541 |
{
|
|
542 |
SYSTEMTIME st; |
|
543 |
memset(&st, 0, sizeof(SYSTEMTIME)); |
|
544 |
st.wHour = time.hour(); |
|
545 |
st.wMinute = time.minute(); |
|
546 |
st.wSecond = time.second(); |
|
547 |
st.wMilliseconds = 0; |
|
548 |
||
549 |
DWORD flags = 0; |
|
550 |
LCID id = GetUserDefaultLCID(); |
|
551 |
||
552 |
wchar_t buf[255]; |
|
553 |
if (GetTimeFormat(id, flags, &st, 0, buf, 255)) |
|
554 |
return QString::fromWCharArray(buf); |
|
555 |
||
556 |
return QString(); |
|
557 |
} |
|
558 |
||
559 |
static QString winDayName(int day, bool short_format) |
|
560 |
{
|
|
561 |
static const LCTYPE short_day_map[] |
|
562 |
= { LOCALE_SABBREVDAYNAME1, LOCALE_SABBREVDAYNAME2,
|
|
563 |
LOCALE_SABBREVDAYNAME3, LOCALE_SABBREVDAYNAME4, LOCALE_SABBREVDAYNAME5, |
|
564 |
LOCALE_SABBREVDAYNAME6, LOCALE_SABBREVDAYNAME7 }; |
|
565 |
||
566 |
static const LCTYPE long_day_map[] |
|
567 |
= { LOCALE_SDAYNAME1, LOCALE_SDAYNAME2,
|
|
568 |
LOCALE_SDAYNAME3, LOCALE_SDAYNAME4, LOCALE_SDAYNAME5, |
|
569 |
LOCALE_SDAYNAME6, LOCALE_SDAYNAME7 }; |
|
570 |
||
571 |
day -= 1; |
|
572 |
||
573 |
LCTYPE type = short_format |
|
574 |
? short_day_map[day] : long_day_map[day]; |
|
575 |
return getWinLocaleInfo(type); |
|
576 |
} |
|
577 |
||
578 |
static QString winMonthName(int month, bool short_format) |
|
579 |
{
|
|
580 |
static const LCTYPE short_month_map[] |
|
581 |
= { LOCALE_SABBREVMONTHNAME1, LOCALE_SABBREVMONTHNAME2, LOCALE_SABBREVMONTHNAME3,
|
|
582 |
LOCALE_SABBREVMONTHNAME4, LOCALE_SABBREVMONTHNAME5, LOCALE_SABBREVMONTHNAME6, |
|
583 |
LOCALE_SABBREVMONTHNAME7, LOCALE_SABBREVMONTHNAME8, LOCALE_SABBREVMONTHNAME9, |
|
584 |
LOCALE_SABBREVMONTHNAME10, LOCALE_SABBREVMONTHNAME11, LOCALE_SABBREVMONTHNAME12 }; |
|
585 |
||
586 |
static const LCTYPE long_month_map[] |
|
587 |
= { LOCALE_SMONTHNAME1, LOCALE_SMONTHNAME2, LOCALE_SMONTHNAME3,
|
|
588 |
LOCALE_SMONTHNAME4, LOCALE_SMONTHNAME5, LOCALE_SMONTHNAME6, |
|
589 |
LOCALE_SMONTHNAME7, LOCALE_SMONTHNAME8, LOCALE_SMONTHNAME9, |
|
590 |
LOCALE_SMONTHNAME10, LOCALE_SMONTHNAME11, LOCALE_SMONTHNAME12 }; |
|
591 |
||
592 |
month -= 1; |
|
593 |
if (month < 0 || month > 11) |
|
594 |
return QString(); |
|
595 |
||
596 |
LCTYPE type = short_format ? short_month_map[month] : long_month_map[month]; |
|
597 |
return getWinLocaleInfo(type); |
|
598 |
} |
|
599 |
||
600 |
static QLocale::MeasurementSystem winSystemMeasurementSystem() |
|
601 |
{
|
|
602 |
LCID id = GetUserDefaultLCID(); |
|
603 |
wchar_t output[2]; |
|
604 |
||
605 |
if (GetLocaleInfo(id, LOCALE_IMEASURE, output, 2)) {
|
|
606 |
QString iMeasure = QString::fromWCharArray(output); |
|
607 |
if (iMeasure == QLatin1String("1")) {
|
|
608 |
return QLocale::ImperialSystem; |
|
609 |
} |
|
610 |
} |
|
611 |
||
612 |
return QLocale::MetricSystem; |
|
613 |
} |
|
614 |
||
615 |
static QString winSystemAMText() |
|
616 |
{
|
|
617 |
LCID id = GetUserDefaultLCID(); |
|
618 |
wchar_t output[15]; // maximum length including terminating zero character for Win2003+ |
|
619 |
||
620 |
if (GetLocaleInfo(id, LOCALE_S1159, output, 15)) {
|
|
621 |
return QString::fromWCharArray(output); |
|
622 |
} |
|
623 |
||
624 |
return QString(); |
|
625 |
} |
|
626 |
||
627 |
static QString winSystemPMText() |
|
628 |
{
|
|
629 |
LCID id = GetUserDefaultLCID(); |
|
630 |
wchar_t output[15]; // maximum length including terminating zero character for Win2003+ |
|
631 |
||
632 |
if (GetLocaleInfo(id, LOCALE_S2359, output, 15)) {
|
|
633 |
return QString::fromWCharArray(output); |
|
634 |
} |
|
635 |
||
636 |
return QString(); |
|
637 |
} |
|
638 |
||
639 |
/*! |
|
640 |
\since 4.6 |
|
641 |
Returns the fallback locale obtained from the system. |
|
642 |
*/ |
|
643 |
QLocale QSystemLocale::fallbackLocale() const |
|
644 |
{
|
|
645 |
return QLocale(QString::fromLatin1(getWinLocaleName())); |
|
646 |
} |
|
647 |
||
648 |
QVariant QSystemLocale::query(QueryType type, QVariant in = QVariant()) const |
|
649 |
{
|
|
650 |
LCTYPE locale_info = 0; |
|
651 |
bool format_string = false; |
|
652 |
||
653 |
switch(type) {
|
|
654 |
// case Name: |
|
655 |
// return getWinLocaleName(); |
|
656 |
case DecimalPoint: |
|
657 |
locale_info = LOCALE_SDECIMAL; |
|
658 |
break; |
|
659 |
case GroupSeparator: |
|
660 |
locale_info = LOCALE_STHOUSAND; |
|
661 |
break; |
|
662 |
case NegativeSign: |
|
663 |
locale_info = LOCALE_SNEGATIVESIGN; |
|
664 |
break; |
|
665 |
case PositiveSign: |
|
666 |
locale_info = LOCALE_SPOSITIVESIGN; |
|
667 |
break; |
|
668 |
case DateFormatLong: |
|
669 |
locale_info = LOCALE_SLONGDATE; |
|
670 |
format_string = true; |
|
671 |
break; |
|
672 |
case DateFormatShort: |
|
673 |
locale_info = LOCALE_SSHORTDATE; |
|
674 |
format_string = true; |
|
675 |
break; |
|
676 |
case TimeFormatLong: |
|
677 |
case TimeFormatShort: |
|
678 |
locale_info = LOCALE_STIMEFORMAT; |
|
679 |
format_string = true; |
|
680 |
break; |
|
681 |
||
682 |
case DateTimeFormatLong: |
|
683 |
case DateTimeFormatShort: |
|
684 |
return query(type == DateTimeFormatLong ? DateFormatLong : DateFormatShort).toString() |
|
685 |
+ QLatin1Char(' ') + query(type == DateTimeFormatLong ? TimeFormatLong : TimeFormatShort).toString();
|
|
686 |
case DayNameLong: |
|
687 |
case DayNameShort: |
|
688 |
return winDayName(in.toInt(), (type == DayNameShort)); |
|
689 |
case MonthNameLong: |
|
690 |
case MonthNameShort: |
|
691 |
return winMonthName(in.toInt(), (type == MonthNameShort)); |
|
692 |
case DateToStringShort: |
|
693 |
case DateToStringLong: |
|
694 |
return winDateToString(in.toDate(), type == DateToStringShort ? DATE_SHORTDATE : DATE_LONGDATE); |
|
695 |
case TimeToStringShort: |
|
696 |
case TimeToStringLong: |
|
697 |
return winTimeToString(in.toTime()); |
|
698 |
case DateTimeToStringShort: |
|
699 |
case DateTimeToStringLong: {
|
|
700 |
const QDateTime dt = in.toDateTime(); |
|
701 |
return winDateToString(dt.date(), type == DateTimeToStringShort ? DATE_SHORTDATE : DATE_LONGDATE) |
|
702 |
+ QLatin1Char(' ') + winTimeToString(dt.time()); }
|
|
703 |
||
704 |
case ZeroDigit: |
|
705 |
locale_info = LOCALE_SNATIVEDIGITS; |
|
706 |
break; |
|
707 |
||
708 |
case LanguageId: |
|
709 |
case CountryId: {
|
|
710 |
QString locale = QString::fromLatin1(getWinLocaleName()); |
|
711 |
QLocale::Language lang; |
|
712 |
QLocale::Country cntry; |
|
713 |
getLangAndCountry(locale, lang, cntry); |
|
714 |
if (type == LanguageId) |
|
715 |
return lang; |
|
716 |
if (cntry == QLocale::AnyCountry) |
|
717 |
return fallbackLocale().country(); |
|
718 |
return cntry; |
|
719 |
} |
|
720 |
||
721 |
case MeasurementSystem: |
|
722 |
return QVariant(static_cast<int>(winSystemMeasurementSystem())); |
|
723 |
||
724 |
case AMText: |
|
725 |
return QVariant(winSystemAMText()); |
|
726 |
case PMText: |
|
727 |
return QVariant(winSystemPMText()); |
|
728 |
default: |
|
729 |
break; |
|
730 |
} |
|
731 |
if (locale_info) {
|
|
732 |
QString result = getWinLocaleInfo(locale_info); |
|
733 |
if (format_string) |
|
734 |
result = winToQtFormat(result); |
|
735 |
if (!result.isEmpty()) |
|
736 |
return result; |
|
737 |
} |
|
738 |
return QVariant(); |
|
739 |
} |
|
740 |
||
741 |
struct WindowsToISOListElt {
|
|
742 |
ushort windows_code; |
|
743 |
char iso_name[6]; |
|
744 |
}; |
|
745 |
||
746 |
static const WindowsToISOListElt windows_to_iso_list[] = {
|
|
747 |
{ 0x0401, "ar_SA" },
|
|
748 |
{ 0x0402, "bg\0 " },
|
|
749 |
{ 0x0403, "ca\0 " },
|
|
750 |
{ 0x0404, "zh_TW" },
|
|
751 |
{ 0x0405, "cs\0 " },
|
|
752 |
{ 0x0406, "da\0 " },
|
|
753 |
{ 0x0407, "de\0 " },
|
|
754 |
{ 0x0408, "el\0 " },
|
|
755 |
{ 0x0409, "en_US" },
|
|
756 |
{ 0x040a, "es\0 " },
|
|
757 |
{ 0x040b, "fi\0 " },
|
|
758 |
{ 0x040c, "fr\0 " },
|
|
759 |
{ 0x040d, "he\0 " },
|
|
760 |
{ 0x040e, "hu\0 " },
|
|
761 |
{ 0x040f, "is\0 " },
|
|
762 |
{ 0x0410, "it\0 " },
|
|
763 |
{ 0x0411, "ja\0 " },
|
|
764 |
{ 0x0412, "ko\0 " },
|
|
765 |
{ 0x0413, "nl\0 " },
|
|
766 |
{ 0x0414, "no\0 " },
|
|
767 |
{ 0x0415, "pl\0 " },
|
|
768 |
{ 0x0416, "pt_BR" },
|
|
769 |
{ 0x0418, "ro\0 " },
|
|
770 |
{ 0x0419, "ru\0 " },
|
|
771 |
{ 0x041a, "hr\0 " },
|
|
772 |
{ 0x041c, "sq\0 " },
|
|
773 |
{ 0x041d, "sv\0 " },
|
|
774 |
{ 0x041e, "th\0 " },
|
|
775 |
{ 0x041f, "tr\0 " },
|
|
776 |
{ 0x0420, "ur\0 " },
|
|
777 |
{ 0x0421, "in\0 " },
|
|
778 |
{ 0x0422, "uk\0 " },
|
|
779 |
{ 0x0423, "be\0 " },
|
|
780 |
{ 0x0425, "et\0 " },
|
|
781 |
{ 0x0426, "lv\0 " },
|
|
782 |
{ 0x0427, "lt\0 " },
|
|
783 |
{ 0x0429, "fa\0 " },
|
|
784 |
{ 0x042a, "vi\0 " },
|
|
785 |
{ 0x042d, "eu\0 " },
|
|
786 |
{ 0x042f, "mk\0 " },
|
|
787 |
{ 0x0436, "af\0 " },
|
|
788 |
{ 0x0438, "fo\0 " },
|
|
789 |
{ 0x0439, "hi\0 " },
|
|
790 |
{ 0x043e, "ms\0 " },
|
|
791 |
{ 0x0458, "mt\0 " },
|
|
792 |
{ 0x0801, "ar_IQ" },
|
|
793 |
{ 0x0804, "zh_CN" },
|
|
794 |
{ 0x0807, "de_CH" },
|
|
795 |
{ 0x0809, "en_GB" },
|
|
796 |
{ 0x080a, "es_MX" },
|
|
797 |
{ 0x080c, "fr_BE" },
|
|
798 |
{ 0x0810, "it_CH" },
|
|
799 |
{ 0x0812, "ko\0 " },
|
|
800 |
{ 0x0813, "nl_BE" },
|
|
801 |
{ 0x0814, "no\0 " },
|
|
802 |
{ 0x0816, "pt\0 " },
|
|
803 |
{ 0x081a, "sr\0 " },
|
|
804 |
{ 0x081d, "sv_FI" },
|
|
805 |
{ 0x0c01, "ar_EG" },
|
|
806 |
{ 0x0c04, "zh_HK" },
|
|
807 |
{ 0x0c07, "de_AT" },
|
|
808 |
{ 0x0c09, "en_AU" },
|
|
809 |
{ 0x0c0a, "es\0 " },
|
|
810 |
{ 0x0c0c, "fr_CA" },
|
|
811 |
{ 0x0c1a, "sr\0 " },
|
|
812 |
{ 0x1001, "ar_LY" },
|
|
813 |
{ 0x1004, "zh_SG" },
|
|
814 |
{ 0x1007, "de_LU" },
|
|
815 |
{ 0x1009, "en_CA" },
|
|
816 |
{ 0x100a, "es_GT" },
|
|
817 |
{ 0x100c, "fr_CH" },
|
|
818 |
{ 0x1401, "ar_DZ" },
|
|
819 |
{ 0x1407, "de_LI" },
|
|
820 |
{ 0x1409, "en_NZ" },
|
|
821 |
{ 0x140a, "es_CR" },
|
|
822 |
{ 0x140c, "fr_LU" },
|
|
823 |
{ 0x1801, "ar_MA" },
|
|
824 |
{ 0x1809, "en_IE" },
|
|
825 |
{ 0x180a, "es_PA" },
|
|
826 |
{ 0x1c01, "ar_TN" },
|
|
827 |
{ 0x1c09, "en_ZA" },
|
|
828 |
{ 0x1c0a, "es_DO" },
|
|
829 |
{ 0x2001, "ar_OM" },
|
|
830 |
{ 0x2009, "en_JM" },
|
|
831 |
{ 0x200a, "es_VE" },
|
|
832 |
{ 0x2401, "ar_YE" },
|
|
833 |
{ 0x2409, "en\0 " },
|
|
834 |
{ 0x240a, "es_CO" },
|
|
835 |
{ 0x2801, "ar_SY" },
|
|
836 |
{ 0x2809, "en_BZ" },
|
|
837 |
{ 0x280a, "es_PE" },
|
|
838 |
{ 0x2c01, "ar_JO" },
|
|
839 |
{ 0x2c09, "en_TT" },
|
|
840 |
{ 0x2c0a, "es_AR" },
|
|
841 |
{ 0x3001, "ar_LB" },
|
|
842 |
{ 0x300a, "es_EC" },
|
|
843 |
{ 0x3401, "ar_KW" },
|
|
844 |
{ 0x340a, "es_CL" },
|
|
845 |
{ 0x3801, "ar_AE" },
|
|
846 |
{ 0x380a, "es_UY" },
|
|
847 |
{ 0x3c01, "ar_BH" },
|
|
848 |
{ 0x3c0a, "es_PY" },
|
|
849 |
{ 0x4001, "ar_QA" },
|
|
850 |
{ 0x400a, "es_BO" },
|
|
851 |
{ 0x440a, "es_SV" },
|
|
852 |
{ 0x480a, "es_HN" },
|
|
853 |
{ 0x4c0a, "es_NI" },
|
|
854 |
{ 0x500a, "es_PR" }
|
|
855 |
}; |
|
856 |
||
857 |
static const int windows_to_iso_count |
|
858 |
= sizeof(windows_to_iso_list)/sizeof(WindowsToISOListElt); |
|
859 |
||
860 |
static const char *winLangCodeToIsoName(int code) |
|
861 |
{
|
|
862 |
int cmp = code - windows_to_iso_list[0].windows_code; |
|
863 |
if (cmp < 0) |
|
864 |
return 0; |
|
865 |
||
866 |
if (cmp == 0) |
|
867 |
return windows_to_iso_list[0].iso_name; |
|
868 |
||
869 |
int begin = 0; |
|
870 |
int end = windows_to_iso_count; |
|
871 |
||
872 |
while (end - begin > 1) {
|
|
873 |
uint mid = (begin + end)/2; |
|
874 |
||
875 |
const WindowsToISOListElt *elt = windows_to_iso_list + mid; |
|
876 |
int cmp = code - elt->windows_code; |
|
877 |
if (cmp < 0) |
|
878 |
end = mid; |
|
879 |
else if (cmp > 0) |
|
880 |
begin = mid; |
|
881 |
else |
|
882 |
return elt->iso_name; |
|
883 |
} |
|
884 |
||
885 |
return 0; |
|
886 |
||
887 |
} |
|
888 |
||
889 |
static QString winIso639LangName(LCID id) |
|
890 |
{
|
|
891 |
QString result; |
|
892 |
||
893 |
// Windows returns the wrong ISO639 for some languages, we need to detect them here using |
|
894 |
// the language code |
|
895 |
QString lang_code; |
|
896 |
wchar_t out[256]; |
|
897 |
if (GetLocaleInfo(id, LOCALE_ILANGUAGE, out, 255)) |
|
898 |
lang_code = QString::fromWCharArray(out); |
|
899 |
||
900 |
if (!lang_code.isEmpty()) {
|
|
901 |
const char *endptr; |
|
902 |
bool ok; |
|
903 |
QByteArray latin1_lang_code = lang_code.toLatin1(); |
|
904 |
int i = qstrtoull(latin1_lang_code, &endptr, 16, &ok); |
|
905 |
if (ok && *endptr == '\0') {
|
|
906 |
switch (i) {
|
|
907 |
case 0x814: |
|
908 |
result = QLatin1String("nn"); // Nynorsk
|
|
909 |
break; |
|
910 |
default: |
|
911 |
break; |
|
912 |
} |
|
913 |
} |
|
914 |
} |
|
915 |
||
916 |
if (!result.isEmpty()) |
|
917 |
return result; |
|
918 |
||
919 |
// not one of the problematic languages - do the usual lookup |
|
920 |
if (GetLocaleInfo(id, LOCALE_SISO639LANGNAME , out, 255)) |
|
921 |
result = QString::fromWCharArray(out); |
|
922 |
||
923 |
return result; |
|
924 |
} |
|
925 |
||
926 |
static QString winIso3116CtryName(LCID id) |
|
927 |
{
|
|
928 |
QString result; |
|
929 |
||
930 |
wchar_t out[256]; |
|
931 |
if (GetLocaleInfo(id, LOCALE_SISO3166CTRYNAME, out, 255)) |
|
932 |
result = QString::fromWCharArray(out); |
|
933 |
||
934 |
return result; |
|
935 |
} |
|
936 |
||
937 |
||
938 |
#elif defined(Q_OS_MAC) |
|
939 |
/****************************************************************************** |
|
940 |
** Wrappers for Mac locale system functions |
|
941 |
*/ |
|
942 |
||
943 |
static QByteArray getMacLocaleName() |
|
944 |
{
|
|
945 |
QByteArray result = envVarLocale(); |
|
946 |
||
947 |
QChar lang[3]; |
|
948 |
QChar cntry[2]; |
|
949 |
if (result.isEmpty() || result != "C" |
|
950 |
&& !splitLocaleName(QString::fromLocal8Bit(result), lang, cntry)) {
|
|
951 |
QCFType<CFLocaleRef> l = CFLocaleCopyCurrent(); |
|
952 |
CFStringRef locale = CFLocaleGetIdentifier(l); |
|
953 |
result = QCFString::toQString(locale).toUtf8(); |
|
954 |
} |
|
955 |
return result; |
|
956 |
} |
|
957 |
||
958 |
static QString macMonthName(int month, bool short_format) |
|
959 |
{
|
|
960 |
month -= 1; |
|
961 |
if (month < 0 || month > 11) |
|
962 |
return QString(); |
|
963 |
||
964 |
QCFType<CFDateFormatterRef> formatter |
|
965 |
= CFDateFormatterCreate(0, QCFType<CFLocaleRef>(CFLocaleCopyCurrent()), |
|
966 |
kCFDateFormatterNoStyle, kCFDateFormatterNoStyle); |
|
967 |
QCFType<CFArrayRef> values |
|
968 |
= static_cast<CFArrayRef>(CFDateFormatterCopyProperty(formatter, |
|
969 |
short_format ? kCFDateFormatterShortMonthSymbols |
|
970 |
: kCFDateFormatterMonthSymbols)); |
|
971 |
if (values != 0) {
|
|
972 |
CFStringRef cfstring = static_cast<CFStringRef>(CFArrayGetValueAtIndex(values, month)); |
|
973 |
return QCFString::toQString(cfstring); |
|
974 |
} |
|
975 |
return QString(); |
|
976 |
} |
|
977 |
||
978 |
||
979 |
static QString macDayName(int day, bool short_format) |
|
980 |
{
|
|
981 |
if (day < 1 || day > 7) |
|
982 |
return QString(); |
|
983 |
||
984 |
QCFType<CFDateFormatterRef> formatter |
|
985 |
= CFDateFormatterCreate(0, QCFType<CFLocaleRef>(CFLocaleCopyCurrent()), |
|
986 |
kCFDateFormatterNoStyle, kCFDateFormatterNoStyle); |
|
987 |
QCFType<CFArrayRef> values = static_cast<CFArrayRef>(CFDateFormatterCopyProperty(formatter, |
|
988 |
short_format ? kCFDateFormatterShortWeekdaySymbols |
|
989 |
: kCFDateFormatterWeekdaySymbols)); |
|
990 |
if (values != 0) {
|
|
991 |
CFStringRef cfstring = static_cast<CFStringRef>(CFArrayGetValueAtIndex(values, day % 7)); |
|
992 |
return QCFString::toQString(cfstring); |
|
993 |
} |
|
994 |
return QString(); |
|
995 |
} |
|
996 |
||
997 |
static QString macDateToString(const QDate &date, bool short_format) |
|
998 |
{
|
|
999 |
CFGregorianDate macGDate; |
|
1000 |
macGDate.year = date.year(); |
|
1001 |
macGDate.month = date.month(); |
|
1002 |
macGDate.day = date.day(); |
|
1003 |
macGDate.hour = 0; |
|
1004 |
macGDate.minute = 0; |
|
1005 |
macGDate.second = 0.0; |
|
1006 |
QCFType<CFDateRef> myDate |
|
1007 |
= CFDateCreate(0, CFGregorianDateGetAbsoluteTime(macGDate, |
|
1008 |
QCFType<CFTimeZoneRef>(CFTimeZoneCopyDefault()))); |
|
1009 |
QCFType<CFLocaleRef> mylocale = CFLocaleCopyCurrent(); |
|
1010 |
CFDateFormatterStyle style = short_format ? kCFDateFormatterShortStyle : kCFDateFormatterLongStyle; |
|
1011 |
QCFType<CFDateFormatterRef> myFormatter |
|
1012 |
= CFDateFormatterCreate(kCFAllocatorDefault, |
|
1013 |
mylocale, style, |
|
1014 |
kCFDateFormatterNoStyle); |
|
1015 |
return QCFString(CFDateFormatterCreateStringWithDate(0, myFormatter, myDate)); |
|
1016 |
} |
|
1017 |
||
1018 |
static QString macTimeToString(const QTime &time, bool short_format) |
|
1019 |
{
|
|
1020 |
CFGregorianDate macGDate; |
|
1021 |
// Assume this is local time and the current date |
|
1022 |
QDate dt = QDate::currentDate(); |
|
1023 |
macGDate.year = dt.year(); |
|
1024 |
macGDate.month = dt.month(); |
|
1025 |
macGDate.day = dt.day(); |
|
1026 |
macGDate.hour = time.hour(); |
|
1027 |
macGDate.minute = time.minute(); |
|
1028 |
macGDate.second = time.second(); |
|
1029 |
QCFType<CFDateRef> myDate |
|
1030 |
= CFDateCreate(0, CFGregorianDateGetAbsoluteTime(macGDate, |
|
1031 |
QCFType<CFTimeZoneRef>(CFTimeZoneCopyDefault()))); |
|
1032 |
||
1033 |
QCFType<CFLocaleRef> mylocale = CFLocaleCopyCurrent(); |
|
1034 |
CFDateFormatterStyle style = short_format ? kCFDateFormatterShortStyle : kCFDateFormatterLongStyle; |
|
1035 |
QCFType<CFDateFormatterRef> myFormatter = CFDateFormatterCreate(kCFAllocatorDefault, |
|
1036 |
mylocale, |
|
1037 |
kCFDateFormatterNoStyle, |
|
1038 |
style); |
|
1039 |
return QCFString(CFDateFormatterCreateStringWithDate(0, myFormatter, myDate)); |
|
1040 |
} |
|
1041 |
||
1042 |
static QString macToQtFormat(const QString &sys_fmt) |
|
1043 |
{
|
|
1044 |
QString result; |
|
1045 |
int i = 0; |
|
1046 |
||
1047 |
while (i < sys_fmt.size()) {
|
|
1048 |
if (sys_fmt.at(i).unicode() == '\'') {
|
|
1049 |
QString text = readEscapedFormatString(sys_fmt, &i); |
|
1050 |
if (text == QLatin1String("'"))
|
|
1051 |
result += QLatin1String("''");
|
|
1052 |
else |
|
1053 |
result += QLatin1Char('\'') + text + QLatin1Char('\'');
|
|
1054 |
continue; |
|
1055 |
} |
|
1056 |
||
1057 |
QChar c = sys_fmt.at(i); |
|
1058 |
int repeat = repeatCount(sys_fmt, i); |
|
1059 |
||
1060 |
switch (c.unicode()) {
|
|
1061 |
case 'G': // Qt doesn't support these :( |
|
1062 |
case 'Y': |
|
1063 |
case 'D': |
|
1064 |
case 'F': |
|
1065 |
case 'w': |
|
1066 |
case 'W': |
|
1067 |
case 'g': |
|
1068 |
break; |
|
1069 |
||
1070 |
case 'u': // extended year - use 'y' |
|
1071 |
if (repeat < 4) |
|
1072 |
result += QLatin1String("yy");
|
|
1073 |
else |
|
1074 |
result += QLatin1String("yyyy");
|
|
1075 |
break; |
|
1076 |
case 'S': // fractional second |
|
1077 |
if (repeat < 3) |
|
1078 |
result += QLatin1Char('z');
|
|
1079 |
else |
|
1080 |
result += QLatin1String("zzz");
|
|
1081 |
break; |
|
1082 |
case 'E': |
|
1083 |
if (repeat <= 3) |
|
1084 |
result += QLatin1String("ddd");
|
|
1085 |
else |
|
1086 |
result += QLatin1String("dddd");
|
|
1087 |
break; |
|
1088 |
case 'e': |
|
1089 |
if (repeat >= 2) |
|
1090 |
result += QLatin1String("dd");
|
|
1091 |
else |
|
1092 |
result += QLatin1Char('d');
|
|
1093 |
break; |
|
1094 |
case 'a': |
|
1095 |
result += QLatin1String("AP");
|
|
1096 |
break; |
|
1097 |
case 'k': |
|
1098 |
result += QString(repeat, QLatin1Char('H'));
|
|
1099 |
break; |
|
1100 |
case 'K': |
|
1101 |
result += QString(repeat, QLatin1Char('h'));
|
|
1102 |
break; |
|
1103 |
case 'z': |
|
1104 |
case 'Z': |
|
1105 |
case 'v': |
|
1106 |
result += QLatin1Char('t');
|
|
1107 |
break; |
|
1108 |
default: |
|
1109 |
result += QString(repeat, c); |
|
1110 |
break; |
|
1111 |
} |
|
1112 |
||
1113 |
i += repeat; |
|
1114 |
} |
|
1115 |
||
1116 |
return result; |
|
1117 |
} |
|
1118 |
||
1119 |
QString getMacDateFormat(CFDateFormatterStyle style) |
|
1120 |
{
|
|
1121 |
QCFType<CFLocaleRef> l = CFLocaleCopyCurrent(); |
|
1122 |
QCFType<CFDateFormatterRef> formatter = CFDateFormatterCreate(kCFAllocatorDefault, |
|
1123 |
l, style, kCFDateFormatterNoStyle); |
|
1124 |
return macToQtFormat(QCFString::toQString(CFDateFormatterGetFormat(formatter))); |
|
1125 |
} |
|
1126 |
||
1127 |
static QString getMacTimeFormat(CFDateFormatterStyle style) |
|
1128 |
{
|
|
1129 |
QCFType<CFLocaleRef> l = CFLocaleCopyCurrent(); |
|
1130 |
QCFType<CFDateFormatterRef> formatter = CFDateFormatterCreate(kCFAllocatorDefault, |
|
1131 |
l, kCFDateFormatterNoStyle, style); |
|
1132 |
return macToQtFormat(QCFString::toQString(CFDateFormatterGetFormat(formatter))); |
|
1133 |
} |
|
1134 |
||
1135 |
static QString getCFLocaleValue(CFStringRef key) |
|
1136 |
{
|
|
1137 |
QCFType<CFLocaleRef> locale = CFLocaleCopyCurrent(); |
|
1138 |
CFTypeRef value = CFLocaleGetValue(locale, key); |
|
1139 |
return QCFString::toQString(CFStringRef(static_cast<CFTypeRef>(value))); |
|
1140 |
} |
|
1141 |
||
1142 |
static QLocale::MeasurementSystem macMeasurementSystem() |
|
1143 |
{
|
|
1144 |
QCFType<CFLocaleRef> locale = CFLocaleCopyCurrent(); |
|
1145 |
CFStringRef system = static_cast<CFStringRef>(CFLocaleGetValue(locale, kCFLocaleMeasurementSystem)); |
|
1146 |
if (QCFString::toQString(system) == QLatin1String("Metric")) {
|
|
1147 |
return QLocale::MetricSystem; |
|
1148 |
} else {
|
|
1149 |
return QLocale::ImperialSystem; |
|
1150 |
} |
|
1151 |
} |
|
1152 |
||
1153 |
static void getMacPreferredLanguageAndCountry(QString *language, QString *country) |
|
1154 |
{
|
|
1155 |
QCFType<CFArrayRef> languages = (CFArrayRef)CFPreferencesCopyValue( |
|
1156 |
CFSTR("AppleLanguages"),
|
|
1157 |
kCFPreferencesAnyApplication, |
|
1158 |
kCFPreferencesCurrentUser, |
|
1159 |
kCFPreferencesAnyHost); |
|
1160 |
if (languages && CFArrayGetCount(languages) > 0) {
|
|
1161 |
QCFType<CFLocaleRef> locale = CFLocaleCreate(kCFAllocatorDefault, |
|
1162 |
CFStringRef(CFArrayGetValueAtIndex(languages, 0))); |
|
1163 |
if (language) |
|
1164 |
*language = QCFString::toQString(CFStringRef(CFLocaleGetValue(locale, kCFLocaleLanguageCode))); |
|
1165 |
if (country) |
|
1166 |
*country = QCFString::toQString(CFStringRef(CFLocaleGetValue(locale, kCFLocaleCountryCode))); |
|
1167 |
} |
|
1168 |
} |
|
1169 |
||
1170 |
QLocale QSystemLocale::fallbackLocale() const |
|
1171 |
{
|
|
1172 |
return QLocale(QString::fromUtf8(getMacLocaleName().constData())); |
|
1173 |
} |
|
1174 |
||
1175 |
QVariant QSystemLocale::query(QueryType type, QVariant in = QVariant()) const |
|
1176 |
{
|
|
1177 |
switch(type) {
|
|
1178 |
// case Name: |
|
1179 |
// return getMacLocaleName(); |
|
1180 |
case DecimalPoint: {
|
|
1181 |
QString value = getCFLocaleValue(kCFLocaleDecimalSeparator); |
|
1182 |
return value.isEmpty() ? QVariant() : value; |
|
1183 |
} |
|
1184 |
case GroupSeparator: {
|
|
1185 |
QString value = getCFLocaleValue(kCFLocaleGroupingSeparator); |
|
1186 |
return value.isEmpty() ? QVariant() : value; |
|
1187 |
} |
|
1188 |
case DateFormatLong: |
|
1189 |
case DateFormatShort: |
|
|
3
41300fa6a67c
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
1190 |
return getMacDateFormat(type == DateFormatShort |
| 0 | 1191 |
? kCFDateFormatterShortStyle |
|
3
41300fa6a67c
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
1192 |
: kCFDateFormatterLongStyle); |
| 0 | 1193 |
case TimeFormatLong: |
1194 |
case TimeFormatShort: |
|
|
3
41300fa6a67c
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
1195 |
return getMacTimeFormat(type == TimeFormatShort |
| 0 | 1196 |
? kCFDateFormatterShortStyle |
|
3
41300fa6a67c
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
1197 |
: kCFDateFormatterLongStyle); |
| 0 | 1198 |
case DayNameLong: |
1199 |
case DayNameShort: |
|
1200 |
return macDayName(in.toInt(), (type == DayNameShort)); |
|
1201 |
case MonthNameLong: |
|
1202 |
case MonthNameShort: |
|
1203 |
return macMonthName(in.toInt(), (type == MonthNameShort)); |
|
1204 |
case DateToStringShort: |
|
1205 |
case DateToStringLong: |
|
1206 |
return macDateToString(in.toDate(), (type == DateToStringShort)); |
|
1207 |
case TimeToStringShort: |
|
1208 |
case TimeToStringLong: |
|
1209 |
return macTimeToString(in.toTime(), (type == TimeToStringShort)); |
|
1210 |
||
1211 |
case NegativeSign: |
|
1212 |
case PositiveSign: |
|
1213 |
case ZeroDigit: |
|
1214 |
break; |
|
1215 |
case LanguageId: |
|
1216 |
case CountryId: {
|
|
1217 |
QString preferredLanguage; |
|
1218 |
QString preferredCountry; |
|
1219 |
getMacPreferredLanguageAndCountry(&preferredLanguage, &preferredCountry); |
|
1220 |
QLocale::Language languageCode = (preferredLanguage.isEmpty() ? QLocale::C : codeToLanguage(preferredLanguage.data())); |
|
1221 |
QLocale::Country countryCode = (preferredCountry.isEmpty() ? QLocale::AnyCountry : codeToCountry(preferredCountry.data())); |
|
1222 |
const QLocalePrivate *d = findLocale(languageCode, countryCode); |
|
1223 |
if (type == LanguageId) |
|
1224 |
return (QLocale::Language)d->languageId(); |
|
1225 |
return (QLocale::Country)d->countryId(); |
|
1226 |
} |
|
1227 |
||
1228 |
case MeasurementSystem: |
|
1229 |
return QVariant(static_cast<int>(macMeasurementSystem())); |
|
1230 |
||
1231 |
case AMText: |
|
1232 |
case PMText: |
|
1233 |
break; |
|
1234 |
default: |
|
1235 |
break; |
|
1236 |
} |
|
1237 |
return QVariant(); |
|
1238 |
} |
|
1239 |
||
1240 |
#elif defined(Q_OS_UNIX) && !defined(Q_OS_SYMBIAN) |
|
1241 |
||
1242 |
static uint unixGetSystemMeasurementSystem() |
|
1243 |
{
|
|
1244 |
QString meas_locale = QString::fromLocal8Bit(qgetenv("LC_ALL"));
|
|
1245 |
if (meas_locale.isEmpty()) {
|
|
1246 |
meas_locale = QString::fromLocal8Bit(qgetenv("LC_MEASUREMENT"));
|
|
1247 |
} |
|
1248 |
if (meas_locale.isEmpty()) {
|
|
1249 |
meas_locale = QString::fromLocal8Bit(qgetenv("LANG"));
|
|
1250 |
} |
|
1251 |
if (meas_locale.isEmpty()) {
|
|
1252 |
meas_locale = QString::fromLocal8Bit("C");
|
|
1253 |
} |
|
1254 |
||
1255 |
if (meas_locale.compare(QString::fromLocal8Bit("Metric"), Qt::CaseInsensitive) == 0)
|
|
1256 |
return 0; |
|
1257 |
if (meas_locale.compare(QString::fromLocal8Bit("Other"), Qt::CaseInsensitive) == 0)
|
|
1258 |
return 0; |
|
1259 |
||
1260 |
const QLocalePrivate* locale = findLocale(meas_locale); |
|
1261 |
return locale->measurementSystem(); |
|
1262 |
} |
|
1263 |
||
1264 |
/*! |
|
1265 |
\internal |
|
1266 |
*/ |
|
1267 |
QLocale QSystemLocale::fallbackLocale() const |
|
1268 |
{
|
|
1269 |
return QLocale(QLatin1String(envVarLocale())); |
|
1270 |
} |
|
1271 |
||
1272 |
/*! |
|
1273 |
\internal |
|
1274 |
*/ |
|
1275 |
QVariant QSystemLocale::query(QueryType type, QVariant /* in */) const |
|
1276 |
{
|
|
1277 |
if (type == MeasurementSystem) {
|
|
1278 |
return QVariant(unixGetSystemMeasurementSystem()); |
|
1279 |
} else {
|
|
1280 |
return QVariant(); |
|
1281 |
} |
|
1282 |
} |
|
1283 |
||
1284 |
#elif !defined(Q_OS_SYMBIAN) |
|
1285 |
||
1286 |
/*! |
|
1287 |
\since 4.6 |
|
1288 |
||
1289 |
Returns a fallback locale, that will get used for everything that |
|
1290 |
is not explicitly overridden by the system locale. |
|
1291 |
*/ |
|
1292 |
QLocale QSystemLocale::fallbackLocale() const |
|
1293 |
{
|
|
1294 |
return QLocale(QLatin1String(envVarLocale())); |
|
1295 |
} |
|
1296 |
||
1297 |
/*! |
|
1298 |
Performs a query of the given \a type in the system locale for |
|
1299 |
customized values or conversion. If the method returns a null |
|
1300 |
QVariant, the conversion of the fallbackLocale() will be used. |
|
1301 |
||
1302 |
\a in is unused for some of the query types. |
|
1303 |
||
1304 |
\sa QSystemLocale::QueryType |
|
1305 |
*/ |
|
1306 |
QVariant QSystemLocale::query(QueryType /* type */, QVariant /* in */) const |
|
1307 |
{
|
|
1308 |
return QVariant(); |
|
1309 |
} |
|
1310 |
||
1311 |
#endif |
|
1312 |
||
1313 |
#ifndef QT_NO_SYSTEMLOCALE |
|
1314 |
static QSystemLocale *_systemLocale = 0; |
|
1315 |
Q_GLOBAL_STATIC_WITH_ARGS(QSystemLocale, QSystemLocale_globalSystemLocale, (true)) |
|
1316 |
static QLocalePrivate *system_lp = 0; |
|
1317 |
Q_GLOBAL_STATIC(QLocalePrivate, globalLocalePrivate) |
|
1318 |
#endif |
|
1319 |
||
1320 |
/****************************************************************************** |
|
1321 |
** Default system locale behavior |
|
1322 |
*/ |
|
1323 |
||
1324 |
/*! |
|
1325 |
\class QSystemLocale |
|
1326 |
\brief The QSystemLocale class can be used to finetune the system locale |
|
1327 |
of the user. |
|
1328 |
\since 4.2 |
|
1329 |
||
1330 |
\ingroup i18n |
|
1331 |
||
1332 |
\warning This class is only useful in very rare cases. Usually QLocale offers |
|
1333 |
all the functionality required for application development. |
|
1334 |
||
1335 |
QSystemLocale allows to override the values provided by the system |
|
1336 |
locale (QLocale::system()). |
|
1337 |
||
1338 |
\sa QLocale |
|
1339 |
*/ |
|
1340 |
||
1341 |
/*! |
|
1342 |
\enum QSystemLocale::QueryType |
|
1343 |
||
1344 |
Specifies the type of information queried by query(). For each value |
|
1345 |
the type of information to return from the query() method is listed. |
|
1346 |
||
1347 |
\value LanguageId a uint specifying the language. |
|
1348 |
\value CountryId a uint specifying the country. |
|
1349 |
\value DecimalPoint a QString specifying the decimal point. |
|
1350 |
\value GroupSeparator a QString specifying the group separator. |
|
1351 |
\value ZeroDigit a QString specifying the zero digit. |
|
1352 |
\value NegativeSign a QString specifying the minus sign. |
|
1353 |
\value PositiveSign a QString specifying the plus sign. |
|
1354 |
\value DateFormatLong a QString specifying the long date format |
|
1355 |
\value DateFormatShort a QString specifying the short date format |
|
1356 |
\value TimeFormatLong a QString specifying the long time format |
|
1357 |
\value TimeFormatShort a QString specifying the short time format |
|
1358 |
\value DayNameLong a QString specifying the name of a weekday. the in variant contains an integer between 1 and 7 (Monday - Sunday) |
|
1359 |
\value DayNameShort a QString specifying the short name of a weekday. the in variant contains an integer between 1 and 7 (Monday - Sunday) |
|
1360 |
\value MonthNameLong a QString specifying the name of a month. the in variant contains an integer between 1 and 12 |
|
1361 |
\value MonthNameShort a QString specifying the short name of a month. the in variant contains an integer between 1 and 12 |
|
1362 |
\value DateToStringLong converts the QDate stored in the in variant to a QString using the long date format |
|
1363 |
\value DateToStringShort converts the QDate stored in the in variant to a QString using the short date format |
|
1364 |
\value TimeToStringLong converts the QTime stored in the in variant to a QString using the long time format |
|
1365 |
\value TimeToStringShort converts the QTime stored in the in variant to a QString using the short time format |
|
1366 |
\value DateTimeFormatLong a QString specifying the long date time format |
|
1367 |
\value DateTimeFormatShort a QString specifying the short date time format |
|
1368 |
\value DateTimeToStringLong converts the QDateTime in the in variant to a QString using the long datetime format |
|
1369 |
\value DateTimeToStringShort converts the QDateTime in the in variant to a QString using the short datetime format |
|
1370 |
\value MeasurementSystem a QLocale::MeasurementSystem enum specifying the measurement system |
|
1371 |
\value AMText a string that represents the system AM designator associated with a 12-hour clock. |
|
1372 |
\value PMText a string that represents the system PM designator associated with a 12-hour clock. |
|
1373 |
*/ |
|
1374 |
||
1375 |
/*! |
|
1376 |
Constructs a QSystemLocale object. The constructor will automatically |
|
1377 |
install this object as the system locale and remove any earlier installed |
|
1378 |
system locales. |
|
1379 |
*/ |
|
1380 |
QSystemLocale::QSystemLocale() |
|
1381 |
{
|
|
1382 |
delete _systemLocale; |
|
1383 |
_systemLocale = this; |
|
1384 |
||
1385 |
if (system_lp) |
|
1386 |
system_lp->m_language_id = 0; |
|
1387 |
} |
|
1388 |
||
1389 |
/*! \internal */ |
|
1390 |
QSystemLocale::QSystemLocale(bool) |
|
1391 |
{ }
|
|
1392 |
||
1393 |
/*! |
|
1394 |
Deletes the object. |
|
1395 |
*/ |
|
1396 |
QSystemLocale::~QSystemLocale() |
|
1397 |
{
|
|
1398 |
if (_systemLocale == this) {
|
|
1399 |
_systemLocale = 0; |
|
1400 |
||
1401 |
if (system_lp) |
|
1402 |
system_lp->m_language_id = 0; |
|
1403 |
} |
|
1404 |
} |
|
1405 |
||
1406 |
static const QSystemLocale *systemLocale() |
|
1407 |
{
|
|
1408 |
if (_systemLocale) |
|
1409 |
return _systemLocale; |
|
1410 |
return QSystemLocale_globalSystemLocale(); |
|
1411 |
} |
|
1412 |
||
1413 |
void QLocalePrivate::updateSystemPrivate() |
|
1414 |
{
|
|
1415 |
const QSystemLocale *sys_locale = systemLocale(); |
|
1416 |
if (!system_lp) |
|
1417 |
system_lp = globalLocalePrivate(); |
|
1418 |
*system_lp = *sys_locale->fallbackLocale().d(); |
|
1419 |
||
1420 |
QVariant res = sys_locale->query(QSystemLocale::LanguageId, QVariant()); |
|
1421 |
if (!res.isNull()) |
|
1422 |
system_lp->m_language_id = res.toInt(); |
|
1423 |
res = sys_locale->query(QSystemLocale::CountryId, QVariant()); |
|
1424 |
if (!res.isNull()) |
|
1425 |
system_lp->m_country_id = res.toInt(); |
|
1426 |
||
1427 |
res = sys_locale->query(QSystemLocale::DecimalPoint, QVariant()); |
|
1428 |
if (!res.isNull()) |
|
1429 |
system_lp->m_decimal = res.toString().at(0).unicode(); |
|
1430 |
||
1431 |
res = sys_locale->query(QSystemLocale::GroupSeparator, QVariant()); |
|
1432 |
if (!res.isNull()) |
|
1433 |
system_lp->m_group = res.toString().at(0).unicode(); |
|
1434 |
||
1435 |
res = sys_locale->query(QSystemLocale::ZeroDigit, QVariant()); |
|
1436 |
if (!res.isNull()) |
|
1437 |
system_lp->m_zero = res.toString().at(0).unicode(); |
|
1438 |
||
1439 |
res = sys_locale->query(QSystemLocale::NegativeSign, QVariant()); |
|
1440 |
if (!res.isNull()) |
|
1441 |
system_lp->m_minus = res.toString().at(0).unicode(); |
|
1442 |
||
1443 |
res = sys_locale->query(QSystemLocale::PositiveSign, QVariant()); |
|
1444 |
if (!res.isNull()) |
|
1445 |
system_lp->m_plus = res.toString().at(0).unicode(); |
|
1446 |
} |
|
1447 |
#endif |
|
1448 |
||
1449 |
static const QLocalePrivate *systemPrivate() |
|
1450 |
{
|
|
1451 |
#ifndef QT_NO_SYSTEMLOCALE |
|
1452 |
// copy over the information from the fallback locale and modify |
|
1453 |
if (!system_lp || system_lp->m_language_id == 0) |
|
1454 |
QLocalePrivate::updateSystemPrivate(); |
|
1455 |
||
1456 |
return system_lp; |
|
1457 |
#else |
|
1458 |
return locale_data; |
|
1459 |
#endif |
|
1460 |
} |
|
1461 |
||
1462 |
static const QLocalePrivate *defaultPrivate() |
|
1463 |
{
|
|
1464 |
if (!default_lp) |
|
1465 |
default_lp = systemPrivate(); |
|
1466 |
return default_lp; |
|
1467 |
} |
|
1468 |
||
1469 |
static QString getLocaleListData(const ushort *data, int size, int index) |
|
1470 |
{
|
|
1471 |
static const ushort separator = ';'; |
|
1472 |
while (index && size > 0) {
|
|
1473 |
while (*data != separator) |
|
1474 |
++data, --size; |
|
1475 |
--index; |
|
1476 |
++data; |
|
1477 |
--size; |
|
1478 |
} |
|
1479 |
const ushort *end = data; |
|
1480 |
while (size > 0 && *end != separator) |
|
1481 |
++end, --size; |
|
1482 |
return QString::fromRawData(reinterpret_cast<const QChar*>(data), end-data); |
|
1483 |
} |
|
1484 |
||
1485 |
static inline QString getLocaleData(const ushort *data, int size) |
|
1486 |
{
|
|
1487 |
return QString::fromRawData(reinterpret_cast<const QChar*>(data), size); |
|
1488 |
} |
|
1489 |
||
1490 |
||
1491 |
#ifndef QT_NO_DATASTREAM |
|
1492 |
QDataStream &operator<<(QDataStream &ds, const QLocale &l) |
|
1493 |
{
|
|
1494 |
ds << l.name(); |
|
1495 |
return ds; |
|
1496 |
} |
|
1497 |
||
1498 |
QDataStream &operator>>(QDataStream &ds, QLocale &l) |
|
1499 |
{
|
|
1500 |
QString s; |
|
1501 |
ds >> s; |
|
1502 |
l = QLocale(s); |
|
1503 |
return ds; |
|
1504 |
} |
|
1505 |
#endif // QT_NO_DATASTREAM |
|
1506 |
||
1507 |
||
1508 |
/*! |
|
1509 |
\class QLocale |
|
1510 |
\brief The QLocale class converts between numbers and their |
|
1511 |
string representations in various languages. |
|
1512 |
||
1513 |
\reentrant |
|
1514 |
\ingroup i18n |
|
1515 |
\ingroup string-processing |
|
1516 |
\ingroup shared |
|
1517 |
||
1518 |
||
1519 |
QLocale is initialized with a language/country pair in its |
|
1520 |
constructor and offers number-to-string and string-to-number |
|
1521 |
conversion functions similar to those in QString. |
|
1522 |
||
1523 |
Example: |
|
1524 |
||
1525 |
\snippet doc/src/snippets/code/src_corelib_tools_qlocale.cpp 0 |
|
1526 |
||
1527 |
QLocale supports the concept of a default locale, which is |
|
1528 |
determined from the system's locale settings at application |
|
1529 |
startup. The default locale can be changed by calling the |
|
1530 |
static member setDefault(). Setting the default locale has the |
|
1531 |
following effects: |
|
1532 |
||
1533 |
\list |
|
1534 |
\i If a QLocale object is constructed with the default constructor, |
|
1535 |
it will use the default locale's settings. |
|
1536 |
\i QString::toInt(), QString::toDouble(), etc., interpret the |
|
1537 |
string according to the default locale. If this fails, it |
|
1538 |
falls back on the "C" locale. |
|
1539 |
\i QString::arg() uses the default locale to format a number when |
|
1540 |
its position specifier in the format string contains an 'L', |
|
1541 |
e.g. "%L1". |
|
1542 |
\endlist |
|
1543 |
||
1544 |
The following example illustrates how to use QLocale directly: |
|
1545 |
||
1546 |
\snippet doc/src/snippets/code/src_corelib_tools_qlocale.cpp 1 |
|
1547 |
||
1548 |
When a language/country pair is specified in the constructor, one |
|
1549 |
of three things can happen: |
|
1550 |
||
1551 |
\list |
|
1552 |
\i If the language/country pair is found in the database, it is used. |
|
1553 |
\i If the language is found but the country is not, or if the country |
|
1554 |
is \c AnyCountry, the language is used with the most |
|
1555 |
appropriate available country (for example, Germany for German), |
|
1556 |
\i If neither the language nor the country are found, QLocale |
|
1557 |
defaults to the default locale (see setDefault()). |
|
1558 |
\endlist |
|
1559 |
||
1560 |
The "C" locale is identical in behavior to \l{English}/\l{UnitedStates}.
|
|
1561 |
||
1562 |
Use language() and country() to determine the actual language and |
|
1563 |
country values used. |
|
1564 |
||
1565 |
An alternative method for constructing a QLocale object is by |
|
1566 |
specifying the locale name. |
|
1567 |
||
1568 |
\snippet doc/src/snippets/code/src_corelib_tools_qlocale.cpp 2 |
|
1569 |
||
1570 |
This constructor converts the locale name to a language/country |
|
1571 |
pair; it does not use the system locale database. |
|
1572 |
||
1573 |
QLocale's data is based on Common Locale Data Repository v1.6.1. |
|
1574 |
||
1575 |
The double-to-string and string-to-double conversion functions are |
|
1576 |
covered by the following licenses: |
|
1577 |
||
1578 |
\legalese |
|
1579 |
Copyright (c) 1991 by AT&T. |
|
1580 |
||
1581 |
Permission to use, copy, modify, and distribute this software for any |
|
1582 |
purpose without fee is hereby granted, provided that this entire notice |
|
1583 |
is included in all copies of any software which is or includes a copy |
|
1584 |
or modification of this software and in all copies of the supporting |
|
1585 |
documentation for such software. |
|
1586 |
||
1587 |
THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR IMPLIED |
|
1588 |
WARRANTY. IN PARTICULAR, NEITHER THE AUTHOR NOR AT&T MAKES ANY |
|
1589 |
REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE MERCHANTABILITY |
|
1590 |
OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR PURPOSE. |
|
1591 |
||
1592 |
This product includes software developed by the University of |
|
1593 |
California, Berkeley and its contributors. |
|
1594 |
||
1595 |
\sa QString::arg(), QString::toInt(), QString::toDouble() |
|
1596 |
*/ |
|
1597 |
||
1598 |
/*! |
|
1599 |
\enum QLocale::Language |
|
1600 |
||
1601 |
This enumerated type is used to specify a language. |
|
1602 |
||
1603 |
\value C The "C" locale is identical in behavior to English/UnitedStates. |
|
1604 |
\value Abkhazian |
|
1605 |
\value Afan |
|
1606 |
\value Afar |
|
1607 |
\value Afrikaans |
|
1608 |
\value Albanian |
|
1609 |
\value Amharic |
|
1610 |
\value Arabic |
|
1611 |
\value Armenian |
|
1612 |
\value Assamese |
|
1613 |
\value Aymara |
|
1614 |
\value Azerbaijani |
|
1615 |
\value Bashkir |
|
1616 |
\value Basque |
|
1617 |
\value Bengali |
|
1618 |
\value Bhutani |
|
1619 |
\value Bihari |
|
1620 |
\value Bislama |
|
1621 |
\value Bosnian |
|
1622 |
\value Breton |
|
1623 |
\value Bulgarian |
|
1624 |
\value Burmese |
|
1625 |
\value Byelorussian |
|
1626 |
\value Cambodian |
|
1627 |
\value Catalan |
|
1628 |
\value Chinese |
|
1629 |
\value Cornish |
|
1630 |
\value Corsican |
|
1631 |
\value Croatian |
|
1632 |
\value Czech |
|
1633 |
\value Danish |
|
1634 |
\value Divehi |
|
1635 |
\value Dutch |
|
1636 |
\value English |
|
1637 |
\value Esperanto |
|
1638 |
\value Estonian |
|
1639 |
\value Faroese |
|
1640 |
\value FijiLanguage |
|
1641 |
\value Finnish |
|
1642 |
\value French |
|
1643 |
\value Frisian |
|
1644 |
\value Gaelic |
|
1645 |
\value Galician |
|
1646 |
\value Georgian |
|
1647 |
\value German |
|
1648 |
\value Greek |
|
1649 |
\value Greenlandic |
|
1650 |
\value Guarani |
|
1651 |
\value Gujarati |
|
1652 |
\value Hausa |
|
1653 |
\value Hebrew |
|
1654 |
\value Hindi |
|
1655 |
\value Hungarian |
|
1656 |
\value Icelandic |
|
1657 |
\value Indonesian |
|
1658 |
\value Interlingua |
|
1659 |
\value Interlingue |
|
1660 |
\value Inuktitut |
|
1661 |
\value Inupiak |
|
1662 |
\value Irish |
|
1663 |
\value Italian |
|
1664 |
\value Japanese |
|
1665 |
\value Javanese |
|
1666 |
\value Kannada |
|
1667 |
\value Kashmiri |
|
1668 |
\value Kazakh |
|
1669 |
\value Kinyarwanda |
|
1670 |
\value Kirghiz |
|
1671 |
\value Korean |
|
1672 |
\value Kurdish |
|
1673 |
\value Kurundi |
|
1674 |
\value Laothian |
|
1675 |
\value Latin |
|
1676 |
\value Latvian |
|
1677 |
\value Lingala |
|
1678 |
\value Lithuanian |
|
1679 |
\value Macedonian |
|
1680 |
\value Malagasy |
|
1681 |
\value Malay |
|
1682 |
\value Malayalam |
|
1683 |
\value Maltese |
|
1684 |
\value Manx |
|
1685 |
\value Maori |
|
1686 |
\value Marathi |
|
1687 |
\value Moldavian |
|
1688 |
\value Mongolian |
|
1689 |
\value NauruLanguage |
|
1690 |
\value Nepali |
|
1691 |
\value Norwegian |
|
1692 |
\value NorwegianBokmal |
|
1693 |
\value Nynorsk Obsolete, please use NorwegianNynorsk |
|
1694 |
\value NorwegianNynorsk |
|
1695 |
\value Occitan |
|
1696 |
\value Oriya |
|
1697 |
\value Pashto |
|
1698 |
\value Persian |
|
1699 |
\value Polish |
|
1700 |
\value Portuguese |
|
1701 |
\value Punjabi |
|
1702 |
\value Quechua |
|
1703 |
\value RhaetoRomance |
|
1704 |
\value Romanian |
|
1705 |
\value Russian |
|
1706 |
\value Samoan |
|
1707 |
\value Sangho |
|
1708 |
\value Sanskrit |
|
1709 |
\value Serbian |
|
1710 |
\value SerboCroatian |
|
1711 |
\value Sesotho |
|
1712 |
\value Setswana |
|
1713 |
\value Shona |
|
1714 |
\value Sindhi |
|
1715 |
\value Singhalese |
|
1716 |
\value Siswati |
|
1717 |
\value Slovak |
|
1718 |
\value Slovenian |
|
1719 |
\value Somali |
|
1720 |
\value Spanish |
|
1721 |
\value Sundanese |
|
1722 |
\value Swahili |
|
1723 |
\value Swedish |
|
1724 |
\value Tagalog |
|
1725 |
\value Tajik |
|
1726 |
\value Tamil |
|
1727 |
\value Tatar |
|
1728 |
\value Telugu |
|
1729 |
\value Thai |
|
1730 |
\value Tibetan |
|
1731 |
\value Tigrinya |
|
1732 |
\value TongaLanguage |
|
1733 |
\value Tsonga |
|
1734 |
\value Turkish |
|
1735 |
\value Turkmen |
|
1736 |
\value Twi |
|
1737 |
\value Uigur |
|
1738 |
\value Ukrainian |
|
1739 |
\value Urdu |
|
1740 |
\value Uzbek |
|
1741 |
\value Vietnamese |
|
1742 |
\value Volapuk |
|
1743 |
\value Welsh |
|
1744 |
\value Wolof |
|
1745 |
\value Xhosa |
|
1746 |
\value Yiddish |
|
1747 |
\value Yoruba |
|
1748 |
\value Zhuang |
|
1749 |
\value Zulu |
|
1750 |
\value Bosnian |
|
1751 |
\value Divehi |
|
1752 |
\value Manx |
|
1753 |
\value Cornish |
|
1754 |
\value Akan |
|
1755 |
\value Konkani |
|
1756 |
\value Ga |
|
1757 |
\value Igbo |
|
1758 |
\value Kamba |
|
1759 |
\value Syriac |
|
1760 |
\value Blin |
|
1761 |
\value Geez |
|
1762 |
\value Koro |
|
1763 |
\value Sidamo |
|
1764 |
\value Atsam |
|
1765 |
\value Tigre |
|
1766 |
\value Jju |
|
1767 |
\value Friulian |
|
1768 |
\value Venda |
|
1769 |
\value Ewe |
|
1770 |
\value Walamo |
|
1771 |
\value Hawaiian |
|
1772 |
\value Tyap |
|
1773 |
\value Chewa |
|
1774 |
\omitvalue LastLanguage |
|
1775 |
||
1776 |
\sa language() |
|
1777 |
*/ |
|
1778 |
||
1779 |
/*! |
|
1780 |
\enum QLocale::Country |
|
1781 |
||
1782 |
This enumerated type is used to specify a country. |
|
1783 |
||
1784 |
\value AnyCountry |
|
1785 |
\value Afghanistan |
|
1786 |
\value Albania |
|
1787 |
\value Algeria |
|
1788 |
\value AmericanSamoa |
|
1789 |
\value Andorra |
|
1790 |
\value Angola |
|
1791 |
\value Anguilla |
|
1792 |
\value Antarctica |
|
1793 |
\value AntiguaAndBarbuda |
|
1794 |
\value Argentina |
|
1795 |
\value Armenia |
|
1796 |
\value Aruba |
|
1797 |
\value Australia |
|
1798 |
\value Austria |
|
1799 |
\value Azerbaijan |
|
1800 |
\value Bahamas |
|
1801 |
\value Bahrain |
|
1802 |
\value Bangladesh |
|
1803 |
\value Barbados |
|
1804 |
\value Belarus |
|
1805 |
\value Belgium |
|
1806 |
\value Belize |
|
1807 |
\value Benin |
|
1808 |
\value Bermuda |
|
1809 |
\value Bhutan |
|
1810 |
\value Bolivia |
|
1811 |
\value BosniaAndHerzegowina |
|
1812 |
\value Botswana |
|
1813 |
\value BouvetIsland |
|
1814 |
\value Brazil |
|
1815 |
\value BritishIndianOceanTerritory |
|
1816 |
\value BruneiDarussalam |
|
1817 |
\value Bulgaria |
|
1818 |
\value BurkinaFaso |
|
1819 |
\value Burundi |
|
1820 |
\value Cambodia |
|
1821 |
\value Cameroon |
|
1822 |
\value Canada |
|
1823 |
\value CapeVerde |
|
1824 |
\value CaymanIslands |
|
1825 |
\value CentralAfricanRepublic |
|
1826 |
\value Chad |
|
1827 |
\value Chile |
|
1828 |
\value China |
|
1829 |
\value ChristmasIsland |
|
1830 |
\value CocosIslands |
|
1831 |
\value Colombia |
|
1832 |
\value Comoros |
|
1833 |
\value DemocraticRepublicOfCongo |
|
1834 |
\value PeoplesRepublicOfCongo |
|
1835 |
\value CookIslands |
|
1836 |
\value CostaRica |
|
1837 |
\value IvoryCoast |
|
1838 |
\value Croatia |
|
1839 |
\value Cuba |
|
1840 |
\value Cyprus |
|
1841 |
\value CzechRepublic |
|
1842 |
\value Denmark |
|
1843 |
\value Djibouti |
|
1844 |
\value Dominica |
|
1845 |
\value DominicanRepublic |
|
1846 |
\value EastTimor |
|
1847 |
\value Ecuador |
|
1848 |
\value Egypt |
|
1849 |
\value ElSalvador |
|
1850 |
\value EquatorialGuinea |
|
1851 |
\value Eritrea |
|
1852 |
\value Estonia |
|
1853 |
\value Ethiopia |
|
1854 |
\value FalklandIslands |
|
1855 |
\value FaroeIslands |
|
1856 |
\value FijiCountry |
|
1857 |
\value Finland |
|
1858 |
\value France |
|
1859 |
\value MetropolitanFrance |
|
1860 |
\value FrenchGuiana |
|
1861 |
\value FrenchPolynesia |
|
1862 |
\value FrenchSouthernTerritories |
|
1863 |
\value Gabon |
|
1864 |
\value Gambia |
|
1865 |
\value Georgia |
|
1866 |
\value Germany |
|
1867 |
\value Ghana |
|
1868 |
\value Gibraltar |
|
1869 |
\value Greece |
|
1870 |
\value Greenland |
|
1871 |
\value Grenada |
|
1872 |
\value Guadeloupe |
|
1873 |
\value Guam |
|
1874 |
\value Guatemala |
|
1875 |
\value Guinea |
|
1876 |
\value GuineaBissau |
|
1877 |
\value Guyana |
|
1878 |
\value Haiti |
|
1879 |
\value HeardAndMcDonaldIslands |
|
1880 |
\value Honduras |
|
1881 |
\value HongKong |
|
1882 |
\value Hungary |
|
1883 |
\value Iceland |
|
1884 |
\value India |
|
1885 |
\value Indonesia |
|
1886 |
\value Iran |
|
1887 |
\value Iraq |
|
1888 |
\value Ireland |
|
1889 |
\value Israel |
|
1890 |
\value Italy |
|
1891 |
\value Jamaica |
|
1892 |
\value Japan |
|
1893 |
\value Jordan |
|
1894 |
\value Kazakhstan |
|
1895 |
\value Kenya |
|
1896 |
\value Kiribati |
|
1897 |
\value DemocraticRepublicOfKorea |
|
1898 |
\value RepublicOfKorea |
|
1899 |
\value Kuwait |
|
1900 |
\value Kyrgyzstan |
|
1901 |
\value Lao |
|
1902 |
\value Latvia |
|
1903 |
\value Lebanon |
|
1904 |
\value Lesotho |
|
1905 |
\value Liberia |
|
1906 |
\value LibyanArabJamahiriya |
|
1907 |
\value Liechtenstein |
|
1908 |
\value Lithuania |
|
1909 |
\value Luxembourg |
|
1910 |
\value Macau |
|
1911 |
\value Macedonia |
|
1912 |
\value Madagascar |
|
1913 |
\value Malawi |
|
1914 |
\value Malaysia |
|
1915 |
\value Maldives |
|
1916 |
\value Mali |
|
1917 |
\value Malta |
|
1918 |
\value MarshallIslands |
|
1919 |
\value Martinique |
|
1920 |
\value Mauritania |
|
1921 |
\value Mauritius |
|
1922 |
\value Mayotte |
|
1923 |
\value Mexico |
|
1924 |
\value Micronesia |
|
1925 |
\value Moldova |
|
1926 |
\value Monaco |
|
1927 |
\value Mongolia |
|
1928 |
\value Montserrat |
|
1929 |
\value Morocco |
|
1930 |
\value Mozambique |
|
1931 |
\value Myanmar |
|
1932 |
\value Namibia |
|
1933 |
\value NauruCountry |
|
1934 |
\value Nepal |
|
1935 |
\value Netherlands |
|
1936 |
\value NetherlandsAntilles |
|
1937 |
\value NewCaledonia |
|
1938 |
\value NewZealand |
|
1939 |
\value Nicaragua |
|
1940 |
\value Niger |
|
1941 |
\value Nigeria |
|
1942 |
\value Niue |
|
1943 |
\value NorfolkIsland |
|
1944 |
\value NorthernMarianaIslands |
|
1945 |
\value Norway |
|
1946 |
\value Oman |
|
1947 |
\value Pakistan |
|
1948 |
\value Palau |
|
1949 |
\value PalestinianTerritory |
|
1950 |
\value Panama |
|
1951 |
\value PapuaNewGuinea |
|
1952 |
\value Paraguay |
|
1953 |
\value Peru |
|
1954 |
\value Philippines |
|
1955 |
\value Pitcairn |
|
1956 |
\value Poland |
|
1957 |
\value Portugal |
|
1958 |
\value PuertoRico |
|
1959 |
\value Qatar |
|
1960 |
\value Reunion |
|
1961 |
\value Romania |
|
1962 |
\value RussianFederation |
|
1963 |
\value Rwanda |
|
1964 |
\value SaintKittsAndNevis |
|
1965 |
\value StLucia |
|
1966 |
\value StVincentAndTheGrenadines |
|
1967 |
\value Samoa |
|
1968 |
\value SanMarino |
|
1969 |
\value SaoTomeAndPrincipe |
|
1970 |
\value SaudiArabia |
|
1971 |
\value Senegal |
|
1972 |
\value SerbiaAndMontenegro |
|
1973 |
\value Seychelles |
|
1974 |
\value SierraLeone |
|
1975 |
\value Singapore |
|
1976 |
\value Slovakia |
|
1977 |
\value Slovenia |
|
1978 |
\value SolomonIslands |
|
1979 |
\value Somalia |
|
1980 |
\value SouthAfrica |
|
1981 |
\value SouthGeorgiaAndTheSouthSandwichIslands |
|
1982 |
\value Spain |
|
1983 |
\value SriLanka |
|
1984 |
\value StHelena |
|
1985 |
\value StPierreAndMiquelon |
|
1986 |
\value Sudan |
|
1987 |
\value Suriname |
|
1988 |
\value SvalbardAndJanMayenIslands |
|
1989 |
\value Swaziland |
|
1990 |
\value Sweden |
|
1991 |
\value Switzerland |
|
1992 |
\value SyrianArabRepublic |
|
1993 |
\value Taiwan |
|
1994 |
\value Tajikistan |
|
1995 |
\value Tanzania |
|
1996 |
\value Thailand |
|
1997 |
\value Togo |
|
1998 |
\value Tokelau |
|
1999 |
\value TongaCountry |
|
2000 |
\value TrinidadAndTobago |
|
2001 |
\value Tunisia |
|
2002 |
\value Turkey |
|
2003 |
\value Turkmenistan |
|
2004 |
\value TurksAndCaicosIslands |
|
2005 |
\value Tuvalu |
|
2006 |
\value Uganda |
|
2007 |
\value Ukraine |
|
2008 |
\value UnitedArabEmirates |
|
2009 |
\value UnitedKingdom |
|
2010 |
\value UnitedStates |
|
2011 |
\value UnitedStatesMinorOutlyingIslands |
|
2012 |
\value Uruguay |
|
2013 |
\value Uzbekistan |
|
2014 |
\value Vanuatu |
|
2015 |
\value VaticanCityState |
|
2016 |
\value Venezuela |
|
2017 |
\value VietNam |
|
2018 |
\value BritishVirginIslands |
|
2019 |
\value USVirginIslands |
|
2020 |
\value WallisAndFutunaIslands |
|
2021 |
\value WesternSahara |
|
2022 |
\value Yemen |
|
2023 |
\value Yugoslavia |
|
2024 |
\value Zambia |
|
2025 |
\value Zimbabwe |
|
2026 |
\omitvalue LastCountry |
|
2027 |
||
2028 |
\sa country() |
|
2029 |
*/ |
|
2030 |
||
2031 |
/*! |
|
2032 |
\enum QLocale::FormatType |
|
2033 |
||
2034 |
This enum describes the types of format that can be used when |
|
2035 |
converting QDate and QTime objects to strings. |
|
2036 |
||
2037 |
\value LongFormat The long version of day and month names; for |
|
2038 |
example, returning "January" as a month name. |
|
2039 |
||
2040 |
\value ShortFormat The short version of day and month names; for |
|
2041 |
example, returning "Jan" as a month name. |
|
2042 |
||
2043 |
\value NarrowFormat A special version of day and month names for |
|
2044 |
use when space is limited; for example, returning "J" as a month |
|
2045 |
name. Note that the narrow format might contain the same text for |
|
2046 |
different months and days or it can even be an empty string if the |
|
2047 |
locale doesn't support narrow names, so you should avoid using it |
|
2048 |
for date formatting. Also, for the system locale this format is |
|
2049 |
the same as ShortFormat. |
|
2050 |
*/ |
|
2051 |
||
2052 |
/*! |
|
2053 |
\enum QLocale::NumberOption |
|
2054 |
||
2055 |
This enum defines a set of options for number-to-string and string-to-number |
|
2056 |
conversions. They can be retrieved with numberOptions() and set with |
|
2057 |
setNumberOptions(). |
|
2058 |
||
2059 |
\value OmitGroupSeparator If this option is set, the number-to-string functions |
|
2060 |
will not insert group separators in their return values. The default |
|
2061 |
is to insert group separators. |
|
2062 |
\value RejectGroupSeparator If this option is set, the string-to-number functions |
|
2063 |
will fail if they encounter group separators in their input. The default |
|
2064 |
is to accept numbers containing correctly placed group separators. |
|
2065 |
||
2066 |
\sa setNumberOptions() numberOptions() |
|
2067 |
*/ |
|
2068 |
||
2069 |
/*! |
|
2070 |
\enum QLocale::MeasurementSystem |
|
2071 |
||
2072 |
This enum defines which units are used for measurement. |
|
2073 |
||
2074 |
\value MetricSystem This value indicates metric units, such as meters, |
|
2075 |
centimeters and millimeters. |
|
2076 |
\value ImperialSystem This value indicates imperial units, such as inches and |
|
2077 |
miles. There are several distinct imperial systems in the world; this |
|
2078 |
value stands for the official United States imperial units. |
|
2079 |
||
2080 |
\since 4.4 |
|
2081 |
*/ |
|
2082 |
||
2083 |
||
2084 |
/*! |
|
2085 |
\fn bool QLocale::operator==(const QLocale &other) const |
|
2086 |
||
2087 |
Returns true if the QLocale object is the same as the \a other |
|
2088 |
locale specified; otherwise returns false. |
|
2089 |
*/ |
|
2090 |
||
2091 |
/*! |
|
2092 |
\fn bool QLocale::operator!=(const QLocale &other) const |
|
2093 |
||
2094 |
Returns true if the QLocale object is not the same as the \a other |
|
2095 |
locale specified; otherwise returns false. |
|
2096 |
*/ |
|
2097 |
||
2098 |
static const int locale_data_size = sizeof(locale_data)/sizeof(QLocalePrivate) - 1; |
|
2099 |
||
2100 |
static const QLocalePrivate *dataPointerHelper(quint16 index) |
|
2101 |
{
|
|
2102 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2103 |
Q_ASSERT(index <= locale_data_size); |
|
2104 |
if (index == locale_data_size) |
|
2105 |
return system_lp; |
|
2106 |
#else |
|
2107 |
Q_ASSERT(index < locale_data_size); |
|
2108 |
#endif |
|
2109 |
||
2110 |
return &locale_data[index]; |
|
2111 |
} |
|
2112 |
||
2113 |
static quint16 localePrivateIndex(const QLocalePrivate *p) |
|
2114 |
{
|
|
2115 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2116 |
Q_ASSERT((p >= locale_data && p - locale_data < locale_data_size) |
|
2117 |
|| (p != 0 && p == system_lp)); |
|
2118 |
quint16 index = p == system_lp ? locale_data_size : p - locale_data; |
|
2119 |
#else |
|
2120 |
Q_ASSERT(p >= locale_data && p - locale_data < locale_data_size); |
|
2121 |
quint16 index = p - locale_data; |
|
2122 |
#endif |
|
2123 |
||
2124 |
return index; |
|
2125 |
} |
|
2126 |
||
2127 |
/*! |
|
2128 |
Constructs a QLocale object with the specified \a name, |
|
2129 |
which has the format |
|
2130 |
"language[_country][.codeset][@modifier]" or "C", where: |
|
2131 |
||
2132 |
\list |
|
2133 |
\i language is a lowercase, two-letter, ISO 639 language code, |
|
2134 |
\i territory is an uppercase, two-letter, ISO 3166 country code, |
|
2135 |
\i and codeset and modifier are ignored. |
|
2136 |
\endlist |
|
2137 |
||
2138 |
If the string violates the locale format, or language is not |
|
2139 |
a valid ISO 369 code, the "C" locale is used instead. If country |
|
2140 |
is not present, or is not a valid ISO 3166 code, the most |
|
2141 |
appropriate country is chosen for the specified language. |
|
2142 |
||
2143 |
The language and country codes are converted to their respective |
|
2144 |
\c Language and \c Country enums. After this conversion is |
|
2145 |
performed the constructor behaves exactly like QLocale(Country, |
|
2146 |
Language). |
|
2147 |
||
2148 |
This constructor is much slower than QLocale(Country, Language). |
|
2149 |
||
2150 |
\sa name() |
|
2151 |
*/ |
|
2152 |
||
2153 |
QLocale::QLocale(const QString &name) |
|
2154 |
: v(0) |
|
2155 |
{
|
|
2156 |
p.numberOptions = 0; |
|
2157 |
p.index = localePrivateIndex(findLocale(name)); |
|
2158 |
} |
|
2159 |
||
2160 |
/*! |
|
2161 |
Constructs a QLocale object initialized with the default locale. If |
|
2162 |
no default locale was set using setDefaultLocale(), this locale will |
|
2163 |
be the same as the one returned by system(). |
|
2164 |
||
2165 |
\sa setDefault() |
|
2166 |
*/ |
|
2167 |
||
2168 |
QLocale::QLocale() |
|
2169 |
: v(0) |
|
2170 |
{
|
|
2171 |
p.numberOptions = default_number_options; |
|
2172 |
p.index = localePrivateIndex(defaultPrivate()); |
|
2173 |
} |
|
2174 |
||
2175 |
/*! |
|
2176 |
Constructs a QLocale object with the specified \a language and \a |
|
2177 |
country. |
|
2178 |
||
2179 |
\list |
|
2180 |
\i If the language/country pair is found in the database, it is used. |
|
2181 |
\i If the language is found but the country is not, or if the country |
|
2182 |
is \c AnyCountry, the language is used with the most |
|
2183 |
appropriate available country (for example, Germany for German), |
|
2184 |
\i If neither the language nor the country are found, QLocale |
|
2185 |
defaults to the default locale (see setDefault()). |
|
2186 |
\endlist |
|
2187 |
||
2188 |
The language and country that are actually used can be queried |
|
2189 |
using language() and country(). |
|
2190 |
||
2191 |
\sa setDefault() language() country() |
|
2192 |
*/ |
|
2193 |
||
2194 |
QLocale::QLocale(Language language, Country country) |
|
2195 |
: v(0) |
|
2196 |
{
|
|
2197 |
const QLocalePrivate *d = findLocale(language, country); |
|
2198 |
||
2199 |
// If not found, should default to system |
|
2200 |
if (d->languageId() == QLocale::C && language != QLocale::C) {
|
|
2201 |
p.numberOptions = default_number_options; |
|
2202 |
p.index = localePrivateIndex(defaultPrivate()); |
|
2203 |
} else {
|
|
2204 |
p.numberOptions = 0; |
|
2205 |
p.index = localePrivateIndex(d); |
|
2206 |
} |
|
2207 |
} |
|
2208 |
||
2209 |
/*! |
|
2210 |
Constructs a QLocale object as a copy of \a other. |
|
2211 |
*/ |
|
2212 |
||
2213 |
QLocale::QLocale(const QLocale &other) |
|
2214 |
{
|
|
2215 |
v = other.v; |
|
2216 |
} |
|
2217 |
||
2218 |
const QLocalePrivate *QLocale::d() const |
|
2219 |
{
|
|
2220 |
return dataPointerHelper(p.index); |
|
2221 |
} |
|
2222 |
||
2223 |
/*! |
|
2224 |
Assigns \a other to this QLocale object and returns a reference |
|
2225 |
to this QLocale object. |
|
2226 |
*/ |
|
2227 |
||
2228 |
QLocale &QLocale::operator=(const QLocale &other) |
|
2229 |
{
|
|
2230 |
v = other.v; |
|
2231 |
return *this; |
|
2232 |
} |
|
2233 |
||
2234 |
/*! |
|
2235 |
\since 4.2 |
|
2236 |
||
2237 |
Sets the \a options related to number conversions for this |
|
2238 |
QLocale instance. |
|
2239 |
*/ |
|
2240 |
void QLocale::setNumberOptions(NumberOptions options) |
|
2241 |
{
|
|
2242 |
p.numberOptions = options; |
|
2243 |
} |
|
2244 |
||
2245 |
/*! |
|
2246 |
\since 4.2 |
|
2247 |
||
2248 |
Returns the options related to number conversions for this |
|
2249 |
QLocale instance. |
|
2250 |
||
2251 |
By default, no options are set for the standard locales. |
|
2252 |
*/ |
|
2253 |
QLocale::NumberOptions QLocale::numberOptions() const |
|
2254 |
{
|
|
2255 |
return static_cast<NumberOption>(p.numberOptions); |
|
2256 |
} |
|
2257 |
||
2258 |
/*! |
|
2259 |
\nonreentrant |
|
2260 |
||
2261 |
Sets the global default locale to \a locale. These |
|
2262 |
values are used when a QLocale object is constructed with |
|
2263 |
no arguments. If this function is not called, the system's |
|
2264 |
locale is used. |
|
2265 |
||
2266 |
\warning In a multithreaded application, the default locale |
|
2267 |
should be set at application startup, before any non-GUI threads |
|
2268 |
are created. |
|
2269 |
||
2270 |
\sa system() c() |
|
2271 |
*/ |
|
2272 |
||
2273 |
void QLocale::setDefault(const QLocale &locale) |
|
2274 |
{
|
|
2275 |
default_lp = locale.d(); |
|
2276 |
default_number_options = locale.numberOptions(); |
|
2277 |
} |
|
2278 |
||
2279 |
/*! |
|
2280 |
Returns the language of this locale. |
|
2281 |
||
2282 |
\sa country(), languageToString(), name() |
|
2283 |
*/ |
|
2284 |
QLocale::Language QLocale::language() const |
|
2285 |
{
|
|
2286 |
return Language(d()->languageId()); |
|
2287 |
} |
|
2288 |
||
2289 |
/*! |
|
2290 |
Returns the country of this locale. |
|
2291 |
||
2292 |
\sa language(), countryToString(), name() |
|
2293 |
*/ |
|
2294 |
QLocale::Country QLocale::country() const |
|
2295 |
{
|
|
2296 |
return Country(d()->countryId()); |
|
2297 |
} |
|
2298 |
||
2299 |
/*! |
|
2300 |
Returns the language and country of this locale as a |
|
2301 |
string of the form "language_country", where |
|
2302 |
language is a lowercase, two-letter ISO 639 language code, |
|
2303 |
and country is an uppercase, two-letter ISO 3166 country code. |
|
2304 |
||
2305 |
\sa language(), country() |
|
2306 |
*/ |
|
2307 |
||
2308 |
QString QLocale::name() const |
|
2309 |
{
|
|
2310 |
Language l = language(); |
|
2311 |
||
2312 |
QString result = languageToCode(l); |
|
2313 |
||
2314 |
if (l == C) |
|
2315 |
return result; |
|
2316 |
||
2317 |
Country c = country(); |
|
2318 |
if (c == AnyCountry) |
|
2319 |
return result; |
|
2320 |
||
2321 |
result.append(QLatin1Char('_'));
|
|
2322 |
result.append(countryToCode(c)); |
|
2323 |
||
2324 |
return result; |
|
2325 |
} |
|
2326 |
||
2327 |
/*! |
|
2328 |
Returns a QString containing the name of \a language. |
|
2329 |
||
2330 |
\sa countryToString(), name() |
|
2331 |
*/ |
|
2332 |
||
2333 |
QString QLocale::languageToString(Language language) |
|
2334 |
{
|
|
2335 |
if (uint(language) > uint(QLocale::LastLanguage)) |
|
2336 |
return QLatin1String("Unknown");
|
|
2337 |
return QLatin1String(language_name_list + language_name_index[language]); |
|
2338 |
} |
|
2339 |
||
2340 |
/*! |
|
2341 |
Returns a QString containing the name of \a country. |
|
2342 |
||
2343 |
\sa country(), name() |
|
2344 |
*/ |
|
2345 |
||
2346 |
QString QLocale::countryToString(Country country) |
|
2347 |
{
|
|
2348 |
if (uint(country) > uint(QLocale::LastCountry)) |
|
2349 |
return QLatin1String("Unknown");
|
|
2350 |
return QLatin1String(country_name_list + country_name_index[country]); |
|
2351 |
} |
|
2352 |
||
2353 |
/*! |
|
2354 |
Returns the short int represented by the localized string \a s, |
|
2355 |
using base \a base. If \a base is 0 the base is determined |
|
2356 |
automatically using the following rules: If the string begins with |
|
2357 |
"0x", it is assumed to be hexadecimal; if it begins with "0", it |
|
2358 |
is assumed to be octal; otherwise it is assumed to be decimal. |
|
2359 |
||
2360 |
If the conversion fails the function returns 0. |
|
2361 |
||
2362 |
If \a ok is not 0, failure is reported by setting *ok to false, and |
|
2363 |
success by setting *ok to true. |
|
2364 |
||
2365 |
This function ignores leading and trailing whitespace. |
|
2366 |
||
2367 |
\sa toUShort(), toString() |
|
2368 |
*/ |
|
2369 |
||
2370 |
short QLocale::toShort(const QString &s, bool *ok, int base) const |
|
2371 |
{
|
|
2372 |
qlonglong i = toLongLong(s, ok, base); |
|
2373 |
if (i < SHRT_MIN || i > SHRT_MAX) {
|
|
2374 |
if (ok != 0) |
|
2375 |
*ok = false; |
|
2376 |
return 0; |
|
2377 |
} |
|
2378 |
return short(i); |
|
2379 |
} |
|
2380 |
||
2381 |
/*! |
|
2382 |
Returns the unsigned short int represented by the localized string |
|
2383 |
\a s, using base \a base. If \a base is 0 the base is determined |
|
2384 |
automatically using the following rules: If the string begins with |
|
2385 |
"0x", it is assumed to be hexadecimal; if it begins with "0", it |
|
2386 |
is assumed to be octal; otherwise it is assumed to be decimal. |
|
2387 |
||
2388 |
If the conversion fails the function returns 0. |
|
2389 |
||
2390 |
If \a ok is not 0, failure is reported by setting *ok to false, and |
|
2391 |
success by setting *ok to true. |
|
2392 |
||
2393 |
This function ignores leading and trailing whitespace. |
|
2394 |
||
2395 |
\sa toShort(), toString() |
|
2396 |
*/ |
|
2397 |
||
2398 |
ushort QLocale::toUShort(const QString &s, bool *ok, int base) const |
|
2399 |
{
|
|
2400 |
qulonglong i = toULongLong(s, ok, base); |
|
2401 |
if (i > USHRT_MAX) {
|
|
2402 |
if (ok != 0) |
|
2403 |
*ok = false; |
|
2404 |
return 0; |
|
2405 |
} |
|
2406 |
return ushort(i); |
|
2407 |
} |
|
2408 |
||
2409 |
/*! |
|
2410 |
Returns the int represented by the localized string \a s, using |
|
2411 |
base \a base. If \a base is 0 the base is determined automatically |
|
2412 |
using the following rules: If the string begins with "0x", it is |
|
2413 |
assumed to be hexadecimal; if it begins with "0", it is assumed to |
|
2414 |
be octal; otherwise it is assumed to be decimal. |
|
2415 |
||
2416 |
If the conversion fails the function returns 0. |
|
2417 |
||
2418 |
If \a ok is not 0, failure is reported by setting *ok to false, and |
|
2419 |
success by setting *ok to true. |
|
2420 |
||
2421 |
This function ignores leading and trailing whitespace. |
|
2422 |
||
2423 |
\sa toUInt(), toString() |
|
2424 |
*/ |
|
2425 |
||
2426 |
int QLocale::toInt(const QString &s, bool *ok, int base) const |
|
2427 |
{
|
|
2428 |
qlonglong i = toLongLong(s, ok, base); |
|
2429 |
if (i < INT_MIN || i > INT_MAX) {
|
|
2430 |
if (ok != 0) |
|
2431 |
*ok = false; |
|
2432 |
return 0; |
|
2433 |
} |
|
2434 |
return int(i); |
|
2435 |
} |
|
2436 |
||
2437 |
/*! |
|
2438 |
Returns the unsigned int represented by the localized string \a s, |
|
2439 |
using base \a base. If \a base is 0 the base is determined |
|
2440 |
automatically using the following rules: If the string begins with |
|
2441 |
"0x", it is assumed to be hexadecimal; if it begins with "0", it |
|
2442 |
is assumed to be octal; otherwise it is assumed to be decimal. |
|
2443 |
||
2444 |
If the conversion fails the function returns 0. |
|
2445 |
||
2446 |
If \a ok is not 0, failure is reported by setting *ok to false, and |
|
2447 |
success by setting *ok to true. |
|
2448 |
||
2449 |
This function ignores leading and trailing whitespace. |
|
2450 |
||
2451 |
\sa toInt(), toString() |
|
2452 |
*/ |
|
2453 |
||
2454 |
uint QLocale::toUInt(const QString &s, bool *ok, int base) const |
|
2455 |
{
|
|
2456 |
qulonglong i = toULongLong(s, ok, base); |
|
2457 |
if (i > UINT_MAX) {
|
|
2458 |
if (ok != 0) |
|
2459 |
*ok = false; |
|
2460 |
return 0; |
|
2461 |
} |
|
2462 |
return uint(i); |
|
2463 |
} |
|
2464 |
||
2465 |
/*! |
|
2466 |
Returns the long long int represented by the localized string \a |
|
2467 |
s, using base \a base. If \a base is 0 the base is determined |
|
2468 |
automatically using the following rules: If the string begins with |
|
2469 |
"0x", it is assumed to be hexadecimal; if it begins with "0", it |
|
2470 |
is assumed to be octal; otherwise it is assumed to be decimal. |
|
2471 |
||
2472 |
If the conversion fails the function returns 0. |
|
2473 |
||
2474 |
If \a ok is not 0, failure is reported by setting *ok to false, and |
|
2475 |
success by setting *ok to true. |
|
2476 |
||
2477 |
This function ignores leading and trailing whitespace. |
|
2478 |
||
2479 |
\sa toInt(), toULongLong(), toDouble(), toString() |
|
2480 |
*/ |
|
2481 |
||
2482 |
||
2483 |
qlonglong QLocale::toLongLong(const QString &s, bool *ok, int base) const |
|
2484 |
{
|
|
2485 |
QLocalePrivate::GroupSeparatorMode mode |
|
2486 |
= p.numberOptions & RejectGroupSeparator |
|
2487 |
? QLocalePrivate::FailOnGroupSeparators |
|
2488 |
: QLocalePrivate::ParseGroupSeparators; |
|
2489 |
||
2490 |
return d()->stringToLongLong(s, base, ok, mode); |
|
2491 |
} |
|
2492 |
||
2493 |
// ### Qt5: make the return type for toULongLong() qulonglong. |
|
2494 |
||
2495 |
/*! |
|
2496 |
Returns the unsigned long long int represented by the localized |
|
2497 |
string \a s, using base \a base. If \a base is 0 the base is |
|
2498 |
determined automatically using the following rules: If the string |
|
2499 |
begins with "0x", it is assumed to be hexadecimal; if it begins |
|
2500 |
with "0", it is assumed to be octal; otherwise it is assumed to be |
|
2501 |
decimal. |
|
2502 |
||
2503 |
If the conversion fails the function returns 0. |
|
2504 |
||
2505 |
If \a ok is not 0, failure is reported by setting *ok to false, and |
|
2506 |
success by setting *ok to true. |
|
2507 |
||
2508 |
This function ignores leading and trailing whitespace. |
|
2509 |
||
2510 |
\sa toLongLong(), toInt(), toDouble(), toString() |
|
2511 |
*/ |
|
2512 |
||
2513 |
qlonglong QLocale::toULongLong(const QString &s, bool *ok, int base) const |
|
2514 |
{
|
|
2515 |
QLocalePrivate::GroupSeparatorMode mode |
|
2516 |
= p.numberOptions & RejectGroupSeparator |
|
2517 |
? QLocalePrivate::FailOnGroupSeparators |
|
2518 |
: QLocalePrivate::ParseGroupSeparators; |
|
2519 |
||
2520 |
return d()->stringToUnsLongLong(s, base, ok, mode); |
|
2521 |
} |
|
2522 |
||
2523 |
/*! |
|
2524 |
Returns the float represented by the localized string \a s, or 0.0 |
|
2525 |
if the conversion failed. |
|
2526 |
||
2527 |
If \a ok is not 0, reports failure by setting |
|
2528 |
*ok to false and success by setting *ok to true. |
|
2529 |
||
2530 |
This function ignores leading and trailing whitespace. |
|
2531 |
||
2532 |
\sa toDouble(), toInt(), toString() |
|
2533 |
*/ |
|
2534 |
||
2535 |
#define QT_MAX_FLOAT 3.4028234663852886e+38 |
|
2536 |
||
2537 |
float QLocale::toFloat(const QString &s, bool *ok) const |
|
2538 |
{
|
|
2539 |
bool myOk; |
|
2540 |
double d = toDouble(s, &myOk); |
|
2541 |
if (!myOk || d > QT_MAX_FLOAT || d < -QT_MAX_FLOAT) {
|
|
2542 |
if (ok != 0) |
|
2543 |
*ok = false; |
|
2544 |
return 0.0; |
|
2545 |
} |
|
2546 |
if (ok != 0) |
|
2547 |
*ok = true; |
|
2548 |
return float(d); |
|
2549 |
} |
|
2550 |
||
2551 |
/*! |
|
2552 |
Returns the double represented by the localized string \a s, or |
|
2553 |
0.0 if the conversion failed. |
|
2554 |
||
2555 |
If \a ok is not 0, reports failure by setting |
|
2556 |
*ok to false and success by setting *ok to true. |
|
2557 |
||
2558 |
Unlike QString::toDouble(), this function does not fall back to |
|
2559 |
the "C" locale if the string cannot be interpreted in this |
|
2560 |
locale. |
|
2561 |
||
2562 |
\snippet doc/src/snippets/code/src_corelib_tools_qlocale.cpp 3 |
|
2563 |
||
2564 |
Notice that the last conversion returns 1234.0, because '.' is the |
|
2565 |
thousands group separator in the German locale. |
|
2566 |
||
2567 |
This function ignores leading and trailing whitespace. |
|
2568 |
||
2569 |
\sa toFloat(), toInt(), toString() |
|
2570 |
*/ |
|
2571 |
||
2572 |
double QLocale::toDouble(const QString &s, bool *ok) const |
|
2573 |
{
|
|
2574 |
QLocalePrivate::GroupSeparatorMode mode |
|
2575 |
= p.numberOptions & RejectGroupSeparator |
|
2576 |
? QLocalePrivate::FailOnGroupSeparators |
|
2577 |
: QLocalePrivate::ParseGroupSeparators; |
|
2578 |
||
2579 |
return d()->stringToDouble(s, ok, mode); |
|
2580 |
} |
|
2581 |
||
2582 |
/*! |
|
2583 |
Returns a localized string representation of \a i. |
|
2584 |
||
2585 |
\sa toLongLong() |
|
2586 |
*/ |
|
2587 |
||
2588 |
QString QLocale::toString(qlonglong i) const |
|
2589 |
{
|
|
2590 |
int flags = p.numberOptions & OmitGroupSeparator |
|
2591 |
? 0 |
|
2592 |
: QLocalePrivate::ThousandsGroup; |
|
2593 |
||
2594 |
return d()->longLongToString(i, -1, 10, -1, flags); |
|
2595 |
} |
|
2596 |
||
2597 |
/*! |
|
2598 |
\overload |
|
2599 |
||
2600 |
\sa toULongLong() |
|
2601 |
*/ |
|
2602 |
||
2603 |
QString QLocale::toString(qulonglong i) const |
|
2604 |
{
|
|
2605 |
int flags = p.numberOptions & OmitGroupSeparator |
|
2606 |
? 0 |
|
2607 |
: QLocalePrivate::ThousandsGroup; |
|
2608 |
||
2609 |
return d()->unsLongLongToString(i, -1, 10, -1, flags); |
|
2610 |
} |
|
2611 |
||
2612 |
/*! |
|
2613 |
Returns a localized string representation of the given \a date in the |
|
2614 |
specified \a format. |
|
2615 |
If \a format is an empty string, an empty string is returned. |
|
2616 |
*/ |
|
2617 |
||
2618 |
QString QLocale::toString(const QDate &date, const QString &format) const |
|
2619 |
{
|
|
2620 |
return d()->dateTimeToString(format, &date, 0, this); |
|
2621 |
} |
|
2622 |
||
2623 |
/*! |
|
2624 |
Returns a localized string representation of the given \a date according |
|
2625 |
to the specified \a format. |
|
2626 |
*/ |
|
2627 |
||
2628 |
QString QLocale::toString(const QDate &date, FormatType format) const |
|
2629 |
{
|
|
2630 |
if (!date.isValid()) |
|
2631 |
return QString(); |
|
2632 |
||
2633 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2634 |
if (d() == systemPrivate()) {
|
|
2635 |
QVariant res = systemLocale()->query(format == LongFormat |
|
2636 |
? QSystemLocale::DateToStringLong : QSystemLocale::DateToStringShort, |
|
2637 |
date); |
|
2638 |
if (!res.isNull()) |
|
2639 |
return res.toString(); |
|
2640 |
} |
|
2641 |
#endif |
|
2642 |
||
2643 |
QString format_str = dateFormat(format); |
|
2644 |
return toString(date, format_str); |
|
2645 |
} |
|
2646 |
||
2647 |
static bool timeFormatContainsAP(const QString &format) |
|
2648 |
{
|
|
2649 |
int i = 0; |
|
2650 |
while (i < format.size()) {
|
|
2651 |
if (format.at(i).unicode() == '\'') {
|
|
2652 |
readEscapedFormatString(format, &i); |
|
2653 |
continue; |
|
2654 |
} |
|
2655 |
||
2656 |
if (format.at(i).toLower().unicode() == 'a') |
|
2657 |
return true; |
|
2658 |
||
2659 |
++i; |
|
2660 |
} |
|
2661 |
return false; |
|
2662 |
} |
|
2663 |
||
2664 |
static QString timeZone() |
|
2665 |
{
|
|
2666 |
#if defined(Q_OS_WINCE) |
|
2667 |
TIME_ZONE_INFORMATION info; |
|
2668 |
DWORD res = GetTimeZoneInformation(&info); |
|
2669 |
if (res == TIME_ZONE_ID_UNKNOWN) |
|
2670 |
return QString(); |
|
2671 |
return QString::fromWCharArray(info.StandardName); |
|
2672 |
#elif defined(Q_OS_WIN) |
|
2673 |
_tzset(); |
|
2674 |
# if defined(_MSC_VER) && _MSC_VER >= 1400 |
|
2675 |
size_t returnSize = 0; |
|
2676 |
char timeZoneName[512]; |
|
2677 |
if (_get_tzname(&returnSize, timeZoneName, 512, 1)) |
|
2678 |
return QString(); |
|
2679 |
return QString::fromLocal8Bit(timeZoneName); |
|
2680 |
# else |
|
2681 |
return QString::fromLocal8Bit(_tzname[1]); |
|
2682 |
# endif |
|
2683 |
#elif defined(Q_OS_VXWORKS) |
|
2684 |
return QString(); |
|
2685 |
#else |
|
2686 |
tzset(); |
|
2687 |
return QString::fromLocal8Bit(tzname[1]); |
|
2688 |
#endif |
|
2689 |
} |
|
2690 |
||
2691 |
/*! |
|
2692 |
Returns a localized string representation of the given \a time according |
|
2693 |
to the specified \a format. |
|
2694 |
If \a format is an empty string, an empty string is returned. |
|
2695 |
*/ |
|
2696 |
QString QLocale::toString(const QTime &time, const QString &format) const |
|
2697 |
{
|
|
2698 |
return d()->dateTimeToString(format, 0, &time, this); |
|
2699 |
} |
|
2700 |
||
2701 |
/*! |
|
2702 |
\since 4.4 |
|
2703 |
||
2704 |
Returns a localized string representation of the given \a dateTime according |
|
2705 |
to the specified \a format. |
|
2706 |
If \a format is an empty string, an empty string is returned. |
|
2707 |
*/ |
|
2708 |
||
2709 |
QString QLocale::toString(const QDateTime &dateTime, const QString &format) const |
|
2710 |
{
|
|
2711 |
const QDate dt = dateTime.date(); |
|
2712 |
const QTime tm = dateTime.time(); |
|
2713 |
return d()->dateTimeToString(format, &dt, &tm, this); |
|
2714 |
} |
|
2715 |
||
2716 |
/*! |
|
2717 |
\since 4.4 |
|
2718 |
||
2719 |
Returns a localized string representation of the given \a dateTime according |
|
2720 |
to the specified \a format. |
|
2721 |
*/ |
|
2722 |
||
2723 |
QString QLocale::toString(const QDateTime &dateTime, FormatType format) const |
|
2724 |
{
|
|
2725 |
if (!dateTime.isValid()) |
|
2726 |
return QString(); |
|
2727 |
||
2728 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2729 |
if (d() == systemPrivate()) {
|
|
2730 |
QVariant res = systemLocale()->query(format == LongFormat |
|
2731 |
? QSystemLocale::DateTimeToStringLong |
|
2732 |
: QSystemLocale::DateTimeToStringShort, |
|
2733 |
dateTime); |
|
2734 |
if (!res.isNull()) |
|
2735 |
return res.toString(); |
|
2736 |
} |
|
2737 |
#endif |
|
2738 |
||
2739 |
const QString format_str = dateTimeFormat(format); |
|
2740 |
return toString(dateTime, format_str); |
|
2741 |
} |
|
2742 |
||
2743 |
||
2744 |
/*! |
|
2745 |
Returns a localized string representation of the given \a time in the |
|
2746 |
specified \a format. |
|
2747 |
*/ |
|
2748 |
||
2749 |
QString QLocale::toString(const QTime &time, FormatType format) const |
|
2750 |
{
|
|
2751 |
if (!time.isValid()) |
|
2752 |
return QString(); |
|
2753 |
||
2754 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2755 |
if (d() == systemPrivate()) {
|
|
2756 |
QVariant res = systemLocale()->query(format == LongFormat |
|
2757 |
? QSystemLocale::TimeToStringLong : QSystemLocale::TimeToStringShort, |
|
2758 |
time); |
|
2759 |
if (!res.isNull()) |
|
2760 |
return res.toString(); |
|
2761 |
} |
|
2762 |
#endif |
|
2763 |
||
2764 |
QString format_str = timeFormat(format); |
|
2765 |
return toString(time, format_str); |
|
2766 |
} |
|
2767 |
||
2768 |
/*! |
|
2769 |
\since 4.1 |
|
2770 |
||
2771 |
Returns the date format used for the current locale. |
|
2772 |
||
2773 |
If \a format is LongFormat the format will be a long version. |
|
2774 |
Otherwise it uses a shorter version. |
|
2775 |
||
2776 |
\sa QDate::toString(), QDate::fromString() |
|
2777 |
*/ |
|
2778 |
||
2779 |
QString QLocale::dateFormat(FormatType format) const |
|
2780 |
{
|
|
2781 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2782 |
if (d() == systemPrivate()) {
|
|
2783 |
QVariant res = systemLocale()->query(format == LongFormat |
|
2784 |
? QSystemLocale::DateFormatLong : QSystemLocale::DateFormatShort, |
|
2785 |
QVariant()); |
|
2786 |
if (!res.isNull()) |
|
2787 |
return res.toString(); |
|
2788 |
} |
|
2789 |
#endif |
|
2790 |
||
2791 |
quint32 idx, size; |
|
2792 |
switch (format) {
|
|
2793 |
case LongFormat: |
|
2794 |
idx = d()->m_long_date_format_idx; |
|
2795 |
size = d()->m_long_date_format_size; |
|
2796 |
break; |
|
2797 |
default: |
|
2798 |
idx = d()->m_short_date_format_idx; |
|
2799 |
size = d()->m_short_date_format_size; |
|
2800 |
break; |
|
2801 |
} |
|
2802 |
return getLocaleData(date_format_data + idx, size); |
|
2803 |
} |
|
2804 |
||
2805 |
/*! |
|
2806 |
\since 4.1 |
|
2807 |
||
2808 |
Returns the time format used for the current locale. |
|
2809 |
||
2810 |
If \a format is LongFormat the format will be a long version. |
|
2811 |
Otherwise it uses a shorter version. |
|
2812 |
||
2813 |
\sa QTime::toString(), QTime::fromString() |
|
2814 |
*/ |
|
2815 |
||
2816 |
QString QLocale::timeFormat(FormatType format) const |
|
2817 |
{
|
|
2818 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2819 |
if (d() == systemPrivate()) {
|
|
2820 |
QVariant res = systemLocale()->query(format == LongFormat |
|
2821 |
? QSystemLocale::TimeFormatLong : QSystemLocale::TimeFormatShort, |
|
2822 |
QVariant()); |
|
2823 |
if (!res.isNull()) |
|
2824 |
return res.toString(); |
|
2825 |
} |
|
2826 |
#endif |
|
2827 |
||
2828 |
quint32 idx, size; |
|
2829 |
switch (format) {
|
|
2830 |
case LongFormat: |
|
2831 |
idx = d()->m_long_time_format_idx; |
|
2832 |
size = d()->m_long_time_format_size; |
|
2833 |
break; |
|
2834 |
default: |
|
2835 |
idx = d()->m_short_time_format_idx; |
|
2836 |
size = d()->m_short_time_format_size; |
|
2837 |
break; |
|
2838 |
} |
|
2839 |
return getLocaleData(time_format_data + idx, size); |
|
2840 |
} |
|
2841 |
||
2842 |
/*! |
|
2843 |
\since 4.4 |
|
2844 |
||
2845 |
Returns the date time format used for the current locale. |
|
2846 |
||
2847 |
If \a format is ShortFormat the format will be a short version. |
|
2848 |
Otherwise it uses a longer version. |
|
2849 |
||
2850 |
\sa QDateTime::toString(), QDateTime::fromString() |
|
2851 |
*/ |
|
2852 |
||
2853 |
QString QLocale::dateTimeFormat(FormatType format) const |
|
2854 |
{
|
|
2855 |
#ifndef QT_NO_SYSTEMLOCALE |
|
2856 |
if (d() == systemPrivate()) {
|
|
2857 |
QVariant res = systemLocale()->query(format == LongFormat |
|
2858 |
? QSystemLocale::DateTimeFormatLong |
|
2859 |
: QSystemLocale::DateTimeFormatShort, |
|
2860 |
QVariant()); |
|
2861 |
if (!res.isNull()) {
|
|
2862 |
return res.toString(); |
|
2863 |
} |
|
2864 |
} |
|
2865 |
#endif |
|
2866 |
return dateFormat(format) + QLatin1Char(' ') + timeFormat(format);
|
|
2867 |
} |
|
2868 |
||
2869 |
/*! |
|
2870 |
\since 4.4 |
|
2871 |
||
2872 |
Parses the time string given in \a string and returns the |
|
2873 |
time. The format of the time string is chosen according to the |
|
2874 |
\a format parameter (see timeFormat()). |
|
2875 |
||
2876 |
If the time could not be parsed, returns an invalid time. |
|
2877 |
||
2878 |
\sa timeFormat(), toDate(), toDateTime(), QTime::fromString() |
|
2879 |
*/ |
|
2880 |
#ifndef QT_NO_DATESTRING |
|
2881 |
QTime QLocale::toTime(const QString &string, FormatType format) const |
|
2882 |
{
|
|
2883 |
return toTime(string, timeFormat(format)); |
|
2884 |
} |
|
2885 |
#endif |
|
2886 |
||
2887 |
/*! |
|
2888 |
\since 4.4 |
|
2889 |
||
2890 |
Parses the date string given in \a string and returns the |
|
2891 |
date. The format of the date string is chosen according to the |
|
2892 |
\a format parameter (see dateFormat()). |
|
2893 |
||
2894 |
If the date could not be parsed, returns an invalid date. |
|
2895 |
||
2896 |
\sa dateFormat(), toTime(), toDateTime(), QDate::fromString() |
|
2897 |
*/ |
|
2898 |
#ifndef QT_NO_DATESTRING |
|
2899 |
QDate QLocale::toDate(const QString &string, FormatType format) const |
|
2900 |
{
|
|
2901 |
return toDate(string, dateFormat(format)); |
|
2902 |
} |
|
2903 |
#endif |
|
2904 |
||
2905 |
/*! |
|
2906 |
\since 4.4 |
|
2907 |
||
2908 |
Parses the date/time string given in \a string and returns the |
|
2909 |
time. The format of the date/time string is chosen according to the |
|
2910 |
\a format parameter (see dateTimeFormat()). |
|
2911 |
||
2912 |
If the string could not be parsed, returns an invalid QDateTime. |
|
2913 |
||
2914 |
\sa dateTimeFormat(), toTime(), toDate(), QDateTime::fromString() |
|
2915 |
*/ |
|
2916 |
||
2917 |
#ifndef QT_NO_DATESTRING |
|
2918 |
QDateTime QLocale::toDateTime(const QString &string, FormatType format) const |
|
2919 |
{
|
|
2920 |
return toDateTime(string, dateFormat(format)); |
|
2921 |
} |
|
2922 |
#endif |
|
2923 |
||
2924 |
/*! |
|
2925 |
\since 4.4 |
|
2926 |
||
2927 |
Parses the time string given in \a string and returns the |
|
2928 |
time. See QTime::fromString() for information on what is a valid |
|
2929 |
format string. |
|
2930 |
||
2931 |
If the time could not be parsed, returns an invalid time. |
|
2932 |
||
2933 |
\sa timeFormat(), toDate(), toDateTime(), QTime::fromString() |
|
2934 |
*/ |
|
2935 |
#ifndef QT_NO_DATESTRING |
|
2936 |
QTime QLocale::toTime(const QString &string, const QString &format) const |
|
2937 |
{
|
|
2938 |
QTime time; |
|
2939 |
#ifndef QT_BOOTSTRAPPED |
|
2940 |
QDateTimeParser dt(QVariant::Time, QDateTimeParser::FromString); |
|
2941 |
dt.defaultLocale = *this; |
|
2942 |
if (dt.parseFormat(format)) |
|
2943 |
dt.fromString(string, 0, &time); |
|
2944 |
#else |
|
2945 |
Q_UNUSED(string); |
|
2946 |
Q_UNUSED(format); |
|
2947 |
#endif |
|
2948 |
return time; |
|
2949 |
} |
|
2950 |
#endif |
|
2951 |
||
2952 |
/*! |
|
2953 |
\since 4.4 |
|
2954 |
||
2955 |
Parses the date string given in \a string and returns the |
|
2956 |
date. See QDate::fromString() for information on the expressions |
|
2957 |
that can be used with this function. |
|
2958 |
||
2959 |
This function searches month names and the names of the days of |
|
2960 |
the week in the current locale. |
|
2961 |
||
2962 |
If the date could not be parsed, returns an invalid date. |
|
2963 |
||
2964 |
\sa dateFormat(), toTime(), toDateTime(), QDate::fromString() |
|
2965 |
*/ |
|
2966 |
#ifndef QT_NO_DATESTRING |
|
2967 |
QDate QLocale::toDate(const QString &string, const QString &format) const |
|
2968 |
{
|
|
2969 |
QDate date; |
|
2970 |
#ifndef QT_BOOTSTRAPPED |
|
2971 |
QDateTimeParser dt(QVariant::Date, QDateTimeParser::FromString); |
|
2972 |
dt.defaultLocale = *this; |
|
2973 |
if (dt.parseFormat(format)) |
|
2974 |
dt.fromString(string, &date, 0); |
|
2975 |
#else |
|
2976 |
Q_UNUSED(string); |
|
2977 |
Q_UNUSED(format); |
|
2978 |
#endif |
|
2979 |
return date; |
|
2980 |
} |
|
2981 |
#endif |
|
2982 |
||
2983 |
/*! |
|
2984 |
\since 4.4 |
|
2985 |
||
2986 |
Parses the date/time string given in \a string and returns the |
|
2987 |
time. See QDateTime::fromString() for information on the expressions |
|
2988 |
that can be used with this function. |
|
2989 |
||
2990 |
\note The month and day names used must be given in the user's local |
|
2991 |
language. |
|
2992 |
||
2993 |
If the string could not be parsed, returns an invalid QDateTime. |
|
2994 |
||
2995 |
\sa dateTimeFormat(), toTime(), toDate(), QDateTime::fromString() |
|
2996 |
*/ |
|
2997 |
#ifndef QT_NO_DATESTRING |
|
2998 |
QDateTime QLocale::toDateTime(const QString &string, const QString &format) const |
|
2999 |
{
|
|
3000 |
#ifndef QT_BOOTSTRAPPED |
|
3001 |
QTime time; |
|
3002 |
QDate date; |
|
3003 |
||
3004 |
QDateTimeParser dt(QVariant::DateTime, QDateTimeParser::FromString); |
|
3005 |
dt.defaultLocale = *this; |
|
3006 |
if (dt.parseFormat(format) && dt.fromString(string, &date, &time)) |
|
3007 |
return QDateTime(date, time); |
|
3008 |
#else |
|
3009 |
Q_UNUSED(string); |
|
3010 |
Q_UNUSED(format); |
|
3011 |
#endif |
|
3012 |
return QDateTime(QDate(), QTime(-1, -1, -1)); |
|
3013 |
} |
|
3014 |
#endif |
|
3015 |
||
3016 |
||
3017 |
/*! |
|
3018 |
\since 4.1 |
|
3019 |
||
3020 |
Returns the decimal point character of this locale. |
|
3021 |
*/ |
|
3022 |
QChar QLocale::decimalPoint() const |
|
3023 |
{
|
|
3024 |
return d()->decimal(); |
|
3025 |
} |
|
3026 |
||
3027 |
/*! |
|
3028 |
\since 4.1 |
|
3029 |
||
3030 |
Returns the group separator character of this locale. |
|
3031 |
*/ |
|
3032 |
QChar QLocale::groupSeparator() const |
|
3033 |
{
|
|
3034 |
return d()->group(); |
|
3035 |
} |
|
3036 |
||
3037 |
/*! |
|
3038 |
\since 4.1 |
|
3039 |
||
3040 |
Returns the percent character of this locale. |
|
3041 |
*/ |
|
3042 |
QChar QLocale::percent() const |
|
3043 |
{
|
|
3044 |
return d()->percent(); |
|
3045 |
} |
|
3046 |
||
3047 |
/*! |
|
3048 |
\since 4.1 |
|
3049 |
||
3050 |
Returns the zero digit character of this locale. |
|
3051 |
*/ |
|
3052 |
QChar QLocale::zeroDigit() const |
|
3053 |
{
|
|
3054 |
return d()->zero(); |
|
3055 |
} |
|
3056 |
||
3057 |
/*! |
|
3058 |
\since 4.1 |
|
3059 |
||
3060 |
Returns the negative sign character of this locale. |
|
3061 |
*/ |
|
3062 |
QChar QLocale::negativeSign() const |
|
3063 |
{
|
|
3064 |
return d()->minus(); |
|
3065 |
} |
|
3066 |
||
3067 |
/*! |
|
3068 |
\since 4.5 |
|
3069 |
||
3070 |
Returns the positive sign character of this locale. |
|
3071 |
*/ |
|
3072 |
QChar QLocale::positiveSign() const |
|
3073 |
{
|
|
3074 |
return d()->plus(); |
|
3075 |
} |
|
3076 |
||
3077 |
/*! |
|
3078 |
\since 4.1 |
|
3079 |
||
3080 |
Returns the exponential character of this locale. |
|
3081 |
*/ |
|
3082 |
QChar QLocale::exponential() const |
|
3083 |
{
|
|
3084 |
return d()->exponential(); |
|
3085 |
} |
|
3086 |
||
3087 |
static bool qIsUpper(char c) |
|
3088 |
{
|
|
3089 |
return c >= 'A' && c <= 'Z'; |
|
3090 |
} |
|
3091 |
||
3092 |
static char qToLower(char c) |
|
3093 |
{
|
|
3094 |
if (c >= 'A' && c <= 'Z') |
|
3095 |
return c - 'A' + 'a'; |
|
3096 |
else |
|
3097 |
return c; |
|
3098 |
} |
|
3099 |
||
3100 |
/*! |
|
3101 |
\overload |
|
3102 |
||
3103 |
\a f and \a prec have the same meaning as in QString::number(double, char, int). |
|
3104 |
||
3105 |
\sa toDouble() |
|
3106 |
*/ |
|
3107 |
||
3108 |
QString QLocale::toString(double i, char f, int prec) const |
|
3109 |
{
|
|
3110 |
QLocalePrivate::DoubleForm form = QLocalePrivate::DFDecimal; |
|
3111 |
uint flags = 0; |
|
3112 |
||
3113 |
if (qIsUpper(f)) |
|
3114 |
flags = QLocalePrivate::CapitalEorX; |
|
3115 |
f = qToLower(f); |
|
3116 |
||
3117 |
switch (f) {
|
|
3118 |
case 'f': |
|
3119 |
form = QLocalePrivate::DFDecimal; |
|
3120 |
break; |
|
3121 |
case 'e': |
|
3122 |
form = QLocalePrivate::DFExponent; |
|
3123 |
break; |
|
3124 |
case 'g': |
|
3125 |
form = QLocalePrivate::DFSignificantDigits; |
|
3126 |
break; |
|
3127 |
default: |
|
3128 |
break; |
|
3129 |
} |
|
3130 |
||
3131 |
if (!(p.numberOptions & OmitGroupSeparator)) |
|
3132 |
flags |= QLocalePrivate::ThousandsGroup; |
|
3133 |
return d()->doubleToString(i, prec, form, -1, flags); |
|
3134 |
} |
|
3135 |
||
3136 |
/*! |
|
3137 |
\fn QLocale QLocale::c() |
|
3138 |
||
3139 |
Returns a QLocale object initialized to the "C" locale. |
|
3140 |
||
3141 |
\sa system() |
|
3142 |
*/ |
|
3143 |
||
3144 |
/*! |
|
3145 |
Returns a QLocale object initialized to the system locale. |
|
3146 |
||
3147 |
On Windows and Mac, this locale will use the decimal/grouping characters and date/time |
|
3148 |
formats specified in the system configuration panel. |
|
3149 |
||
3150 |
\sa QTextCodec::locale() c() |
|
3151 |
*/ |
|
3152 |
||
3153 |
QLocale QLocale::system() |
|
3154 |
{
|
|
3155 |
QLocale result(C); |
|
3156 |
result.p.index = localePrivateIndex(systemPrivate()); |
|
3157 |
return result; |
|
3158 |
} |
|
3159 |
||
3160 |
/*! |
|
3161 |
\since 4.3 |
|
3162 |
||
3163 |
Returns the list of countries that have entires for \a language in Qt's locale |
|
3164 |
database. If the result is an empty list, then \a language is not represented in |
|
3165 |
Qt's locale database. |
|
3166 |
*/ |
|
3167 |
QList<QLocale::Country> QLocale::countriesForLanguage(Language language) |
|
3168 |
{
|
|
3169 |
QList<Country> result; |
|
3170 |
||
3171 |
unsigned language_id = language; |
|
3172 |
uint idx = locale_index[language_id]; |
|
3173 |
||
3174 |
if (language == C) {
|
|
3175 |
result << AnyCountry; |
|
3176 |
return result; |
|
3177 |
} |
|
3178 |
||
3179 |
const QLocalePrivate *d = locale_data + idx; |
|
3180 |
||
3181 |
while (d->languageId() == language_id) {
|
|
3182 |
result << static_cast<Country>(d->countryId()); |
|
3183 |
++d; |
|
3184 |
} |
|
3185 |
||
3186 |
return result; |
|
3187 |
} |
|
3188 |
||
3189 |
/*! |
|
3190 |
\since 4.2 |
|
3191 |
||
3192 |
Returns the localized name of \a month, in the format specified |
|
3193 |
by \a type. |
|
3194 |
||
3195 |
\sa dayName(), standaloneMonthName() |
|
3196 |
*/ |
|
3197 |
QString QLocale::monthName(int month, FormatType type) const |
|
3198 |
{
|
|
3199 |
if (month < 1 || month > 12) |
|
3200 |
return QString(); |
|
3201 |
||
3202 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3203 |
if (d() == systemPrivate()) {
|
|
3204 |
QVariant res = systemLocale()->query(type == LongFormat |
|
3205 |
? QSystemLocale::MonthNameLong : QSystemLocale::MonthNameShort, |
|
3206 |
month); |
|
3207 |
if (!res.isNull()) |
|
3208 |
return res.toString(); |
|
3209 |
} |
|
3210 |
#endif |
|
3211 |
||
3212 |
quint32 idx, size; |
|
3213 |
switch (type) {
|
|
3214 |
case QLocale::LongFormat: |
|
3215 |
idx = d()->m_long_month_names_idx; |
|
3216 |
size = d()->m_long_month_names_size; |
|
3217 |
break; |
|
3218 |
case QLocale::ShortFormat: |
|
3219 |
idx = d()->m_short_month_names_idx; |
|
3220 |
size = d()->m_short_month_names_size; |
|
3221 |
break; |
|
3222 |
case QLocale::NarrowFormat: |
|
3223 |
idx = d()->m_narrow_month_names_idx; |
|
3224 |
size = d()->m_narrow_month_names_size; |
|
3225 |
break; |
|
3226 |
default: |
|
3227 |
return QString(); |
|
3228 |
} |
|
3229 |
return getLocaleListData(months_data + idx, size, month - 1); |
|
3230 |
} |
|
3231 |
||
3232 |
/*! |
|
3233 |
\since 4.5 |
|
3234 |
||
3235 |
Returns the localized name of \a month that is used as a |
|
3236 |
standalone text, in the format specified by \a type. |
|
3237 |
||
3238 |
If the locale information doesn't specify the standalone month |
|
3239 |
name then return value is the same as in monthName(). |
|
3240 |
||
3241 |
\sa monthName(), standaloneDayName() |
|
3242 |
*/ |
|
3243 |
QString QLocale::standaloneMonthName(int month, FormatType type) const |
|
3244 |
{
|
|
3245 |
if (month < 1 || month > 12) |
|
3246 |
return QString(); |
|
3247 |
||
3248 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3249 |
if (d() == systemPrivate()) {
|
|
3250 |
QVariant res = systemLocale()->query(type == LongFormat |
|
3251 |
? QSystemLocale::MonthNameLong : QSystemLocale::MonthNameShort, |
|
3252 |
month); |
|
3253 |
if (!res.isNull()) |
|
3254 |
return res.toString(); |
|
3255 |
} |
|
3256 |
#endif |
|
3257 |
||
3258 |
quint32 idx, size; |
|
3259 |
switch (type) {
|
|
3260 |
case QLocale::LongFormat: |
|
3261 |
idx = d()->m_standalone_long_month_names_idx; |
|
3262 |
size = d()->m_standalone_long_month_names_size; |
|
3263 |
break; |
|
3264 |
case QLocale::ShortFormat: |
|
3265 |
idx = d()->m_standalone_short_month_names_idx; |
|
3266 |
size = d()->m_standalone_short_month_names_size; |
|
3267 |
break; |
|
3268 |
case QLocale::NarrowFormat: |
|
3269 |
idx = d()->m_standalone_narrow_month_names_idx; |
|
3270 |
size = d()->m_standalone_narrow_month_names_size; |
|
3271 |
break; |
|
3272 |
default: |
|
3273 |
return QString(); |
|
3274 |
} |
|
3275 |
QString name = getLocaleListData(standalone_months_data + idx, size, month - 1); |
|
3276 |
if (name.isEmpty()) |
|
3277 |
return monthName(month, type); |
|
3278 |
return name; |
|
3279 |
} |
|
3280 |
||
3281 |
/*! |
|
3282 |
\since 4.2 |
|
3283 |
||
3284 |
Returns the localized name of the \a day (where 1 represents |
|
3285 |
Monday, 2 represents Tuesday and so on), in the format specified |
|
3286 |
by \a type. |
|
3287 |
||
3288 |
\sa monthName(), standaloneDayName() |
|
3289 |
*/ |
|
3290 |
QString QLocale::dayName(int day, FormatType type) const |
|
3291 |
{
|
|
3292 |
if (day < 1 || day > 7) |
|
3293 |
return QString(); |
|
3294 |
||
3295 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3296 |
if (d() == systemPrivate()) {
|
|
3297 |
QVariant res = systemLocale()->query(type == LongFormat |
|
3298 |
? QSystemLocale::DayNameLong : QSystemLocale::DayNameShort, |
|
3299 |
day); |
|
3300 |
if (!res.isNull()) |
|
3301 |
return res.toString(); |
|
3302 |
} |
|
3303 |
#endif |
|
3304 |
if (day == 7) |
|
3305 |
day = 0; |
|
3306 |
||
3307 |
quint32 idx, size; |
|
3308 |
switch (type) {
|
|
3309 |
case QLocale::LongFormat: |
|
3310 |
idx = d()->m_long_day_names_idx; |
|
3311 |
size = d()->m_long_day_names_size; |
|
3312 |
break; |
|
3313 |
case QLocale::ShortFormat: |
|
3314 |
idx = d()->m_short_day_names_idx; |
|
3315 |
size = d()->m_short_day_names_size; |
|
3316 |
break; |
|
3317 |
case QLocale::NarrowFormat: |
|
3318 |
idx = d()->m_narrow_day_names_idx; |
|
3319 |
size = d()->m_narrow_day_names_size; |
|
3320 |
break; |
|
3321 |
default: |
|
3322 |
return QString(); |
|
3323 |
} |
|
3324 |
return getLocaleListData(days_data + idx, size, day); |
|
3325 |
} |
|
3326 |
||
3327 |
/*! |
|
3328 |
\since 4.5 |
|
3329 |
||
3330 |
Returns the localized name of the \a day (where 1 represents |
|
3331 |
Monday, 2 represents Tuesday and so on) that is used as a |
|
3332 |
standalone text, in the format specified by \a type. |
|
3333 |
||
3334 |
If the locale information does not specify the standalone day |
|
3335 |
name then return value is the same as in dayName(). |
|
3336 |
||
3337 |
\sa dayName(), standaloneMonthName() |
|
3338 |
*/ |
|
3339 |
QString QLocale::standaloneDayName(int day, FormatType type) const |
|
3340 |
{
|
|
3341 |
if (day < 1 || day > 7) |
|
3342 |
return QString(); |
|
3343 |
||
3344 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3345 |
if (d() == systemPrivate()) {
|
|
3346 |
QVariant res = systemLocale()->query(type == LongFormat |
|
3347 |
? QSystemLocale::DayNameLong : QSystemLocale::DayNameShort, |
|
3348 |
day); |
|
3349 |
if (!res.isNull()) |
|
3350 |
return res.toString(); |
|
3351 |
} |
|
3352 |
#endif |
|
3353 |
if (day == 7) |
|
3354 |
day = 0; |
|
3355 |
||
3356 |
quint32 idx, size; |
|
3357 |
switch (type) {
|
|
3358 |
case QLocale::LongFormat: |
|
3359 |
idx = d()->m_standalone_long_day_names_idx; |
|
3360 |
size = d()->m_standalone_long_day_names_size; |
|
3361 |
break; |
|
3362 |
case QLocale::ShortFormat: |
|
3363 |
idx = d()->m_standalone_short_day_names_idx; |
|
3364 |
size = d()->m_standalone_short_day_names_size; |
|
3365 |
break; |
|
3366 |
case QLocale::NarrowFormat: |
|
3367 |
idx = d()->m_standalone_narrow_day_names_idx; |
|
3368 |
size = d()->m_standalone_narrow_day_names_size; |
|
3369 |
break; |
|
3370 |
default: |
|
3371 |
return QString(); |
|
3372 |
} |
|
3373 |
QString name = getLocaleListData(days_data + idx, size, day); |
|
3374 |
if (name.isEmpty()) |
|
3375 |
return dayName(day == 0 ? 7 : day, type); |
|
3376 |
return name; |
|
3377 |
} |
|
3378 |
||
3379 |
/*! |
|
3380 |
\since 4.4 |
|
3381 |
||
3382 |
Returns the measurement system for the locale. |
|
3383 |
*/ |
|
3384 |
QLocale::MeasurementSystem QLocale::measurementSystem() const |
|
3385 |
{
|
|
3386 |
MeasurementSystem meas = MetricSystem; |
|
3387 |
bool found = false; |
|
3388 |
||
3389 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3390 |
if (d() == systemPrivate()) {
|
|
3391 |
QVariant res = systemLocale()->query(QSystemLocale::MeasurementSystem, QVariant()); |
|
3392 |
if (!res.isNull()) {
|
|
3393 |
meas = MeasurementSystem(res.toInt()); |
|
3394 |
found = true; |
|
3395 |
} |
|
3396 |
} |
|
3397 |
#endif |
|
3398 |
||
3399 |
if (!found) {
|
|
3400 |
meas = d()->measurementSystem(); |
|
3401 |
found = true; |
|
3402 |
} |
|
3403 |
||
3404 |
return meas; |
|
3405 |
} |
|
3406 |
||
3407 |
/*! |
|
3408 |
\since 4.5 |
|
3409 |
||
3410 |
Returns the localized name of the "AM" suffix for times specified using |
|
3411 |
the conventions of the 12-hour clock. |
|
3412 |
||
3413 |
\sa pmText() |
|
3414 |
*/ |
|
3415 |
QString QLocale::amText() const |
|
3416 |
{
|
|
3417 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3418 |
if (d() == systemPrivate()) {
|
|
3419 |
QVariant res = systemLocale()->query(QSystemLocale::AMText, QVariant()); |
|
3420 |
if (!res.isNull()) |
|
3421 |
return res.toString(); |
|
3422 |
} |
|
3423 |
#endif |
|
3424 |
return getLocaleData(am_data + d()->m_am_idx, d()->m_am_size); |
|
3425 |
} |
|
3426 |
||
3427 |
/*! |
|
3428 |
\since 4.5 |
|
3429 |
||
3430 |
Returns the localized name of the "PM" suffix for times specified using |
|
3431 |
the conventions of the 12-hour clock. |
|
3432 |
||
3433 |
\sa amText() |
|
3434 |
*/ |
|
3435 |
QString QLocale::pmText() const |
|
3436 |
{
|
|
3437 |
#ifndef QT_NO_SYSTEMLOCALE |
|
3438 |
if (d() == systemPrivate()) {
|
|
3439 |
QVariant res = systemLocale()->query(QSystemLocale::PMText, QVariant()); |
|
3440 |
if (!res.isNull()) |
|
3441 |
return res.toString(); |
|
3442 |
} |
|
3443 |
#endif |
|
3444 |
return getLocaleData(pm_data + d()->m_pm_idx, d()->m_pm_size); |
|
3445 |
} |
|
3446 |
||
3447 |
||
3448 |
/*! |
|
3449 |
\fn QString QLocale::toString(short i) const |
|
3450 |
||
3451 |
\overload |
|
3452 |
||
3453 |
\sa toShort() |
|
3454 |
*/ |
|
3455 |
||
3456 |
/*! |
|
3457 |
\fn QString QLocale::toString(ushort i) const |
|
3458 |
||
3459 |
\overload |
|
3460 |
||
3461 |
\sa toUShort() |
|
3462 |
*/ |
|
3463 |
||
3464 |
/*! |
|
3465 |
\fn QString QLocale::toString(int i) const |
|
3466 |
||
3467 |
\overload |
|
3468 |
||
3469 |
\sa toInt() |
|
3470 |
*/ |
|
3471 |
||
3472 |
/*! |
|
3473 |
\fn QString QLocale::toString(uint i) const |
|
3474 |
||
3475 |
\overload |
|
3476 |
||
3477 |
\sa toUInt() |
|
3478 |
*/ |
|
3479 |
||
3480 |
/* |
|
3481 |
\fn QString QLocale::toString(long i) const |
|
3482 |
||
3483 |
\overload |
|
3484 |
||
3485 |
\sa toLong() |
|
3486 |
*/ |
|
3487 |
||
3488 |
/* |
|
3489 |
\fn QString QLocale::toString(ulong i) const |
|
3490 |
||
3491 |
\overload |
|
3492 |
||
3493 |
\sa toULong() |
|
3494 |
*/ |
|
3495 |
||
3496 |
/*! |
|
3497 |
\fn QString QLocale::toString(float i, char f = 'g', int prec = 6) const |
|
3498 |
||
3499 |
\overload |
|
3500 |
||
3501 |
\a f and \a prec have the same meaning as in QString::number(double, char, int). |
|
3502 |
||
3503 |
\sa toDouble() |
|
3504 |
*/ |
|
3505 |
||
3506 |
||
3507 |
static QString qulltoa(qulonglong l, int base, const QLocalePrivate &locale) |
|
3508 |
{
|
|
3509 |
ushort buff[65]; // length of MAX_ULLONG in base 2 |
|
3510 |
ushort *p = buff + 65; |
|
3511 |
const QChar _zero = locale.zero(); |
|
3512 |
||
3513 |
if (base != 10 || _zero.unicode() == '0') {
|
|
3514 |
while (l != 0) {
|
|
3515 |
int c = l % base; |
|
3516 |
||
3517 |
--p; |
|
3518 |
||
3519 |
if (c < 10) |
|
3520 |
*p = '0' + c; |
|
3521 |
else |
|
3522 |
*p = c - 10 + 'a'; |
|
3523 |
||
3524 |
l /= base; |
|
3525 |
} |
|
3526 |
} |
|
3527 |
else {
|
|
3528 |
while (l != 0) {
|
|
3529 |
int c = l % base; |
|
3530 |
||
3531 |
*(--p) = _zero.unicode() + c; |
|
3532 |
||
3533 |
l /= base; |
|
3534 |
} |
|
3535 |
} |
|
3536 |
||
3537 |
return QString(reinterpret_cast<QChar *>(p), 65 - (p - buff)); |
|
3538 |
} |
|
3539 |
||
3540 |
static QString qlltoa(qlonglong l, int base, const QLocalePrivate &locale) |
|
3541 |
{
|
|
3542 |
return qulltoa(l < 0 ? -l : l, base, locale); |
|
3543 |
} |
|
3544 |
||
3545 |
enum PrecisionMode {
|
|
3546 |
PMDecimalDigits = 0x01, |
|
3547 |
PMSignificantDigits = 0x02, |
|
3548 |
PMChopTrailingZeros = 0x03 |
|
3549 |
}; |
|
3550 |
||
3551 |
static QString &decimalForm(QString &digits, int decpt, uint precision, |
|
3552 |
PrecisionMode pm, |
|
3553 |
bool always_show_decpt, |
|
3554 |
bool thousands_group, |
|
3555 |
const QLocalePrivate &locale) |
|
3556 |
{
|
|
3557 |
if (decpt < 0) {
|
|
3558 |
for (int i = 0; i < -decpt; ++i) |
|
3559 |
digits.prepend(locale.zero()); |
|
3560 |
decpt = 0; |
|
3561 |
} |
|
3562 |
else if (decpt > digits.length()) {
|
|
3563 |
for (int i = digits.length(); i < decpt; ++i) |
|
3564 |
digits.append(locale.zero()); |
|
3565 |
} |
|
3566 |
||
3567 |
if (pm == PMDecimalDigits) {
|
|
3568 |
uint decimal_digits = digits.length() - decpt; |
|
3569 |
for (uint i = decimal_digits; i < precision; ++i) |
|
3570 |
digits.append(locale.zero()); |
|
3571 |
} |
|
3572 |
else if (pm == PMSignificantDigits) {
|
|
3573 |
for (uint i = digits.length(); i < precision; ++i) |
|
3574 |
digits.append(locale.zero()); |
|
3575 |
} |
|
3576 |
else { // pm == PMChopTrailingZeros
|
|
3577 |
} |
|
3578 |
||
3579 |
if (always_show_decpt || decpt < digits.length()) |
|
3580 |
digits.insert(decpt, locale.decimal()); |
|
3581 |
||
3582 |
if (thousands_group) {
|
|
3583 |
for (int i = decpt - 3; i > 0; i -= 3) |
|
3584 |
digits.insert(i, locale.group()); |
|
3585 |
} |
|
3586 |
||
3587 |
if (decpt == 0) |
|
3588 |
digits.prepend(locale.zero()); |
|
3589 |
||
3590 |
return digits; |
|
3591 |
} |
|
3592 |
||
3593 |
static QString &exponentForm(QString &digits, int decpt, uint precision, |
|
3594 |
PrecisionMode pm, |
|
3595 |
bool always_show_decpt, |
|
3596 |
const QLocalePrivate &locale) |
|
3597 |
{
|
|
3598 |
int exp = decpt - 1; |
|
3599 |
||
3600 |
if (pm == PMDecimalDigits) {
|
|
3601 |
for (uint i = digits.length(); i < precision + 1; ++i) |
|
3602 |
digits.append(locale.zero()); |
|
3603 |
} |
|
3604 |
else if (pm == PMSignificantDigits) {
|
|
3605 |
for (uint i = digits.length(); i < precision; ++i) |
|
3606 |
digits.append(locale.zero()); |
|
3607 |
} |
|
3608 |
else { // pm == PMChopTrailingZeros
|
|
3609 |
} |
|
3610 |
||
3611 |
if (always_show_decpt || digits.length() > 1) |
|
3612 |
digits.insert(1, locale.decimal()); |
|
3613 |
||
3614 |
digits.append(locale.exponential()); |
|
3615 |
digits.append(locale.longLongToString(exp, 2, 10, |
|
3616 |
-1, QLocalePrivate::AlwaysShowSign)); |
|
3617 |
||
3618 |
return digits; |
|
3619 |
} |
|
3620 |
||
3621 |
static bool isZero(double d) |
|
3622 |
{
|
|
3623 |
uchar *ch = (uchar *)&d; |
|
3624 |
#ifdef QT_ARMFPA |
|
3625 |
return !(ch[3] & 0x7F || ch[2] || ch[1] || ch[0] || ch[7] || ch[6] || ch[5] || ch[4]); |
|
3626 |
#else |
|
3627 |
if (QSysInfo::ByteOrder == QSysInfo::BigEndian) {
|
|
3628 |
return !(ch[0] & 0x7F || ch[1] || ch[2] || ch[3] || ch[4] || ch[5] || ch[6] || ch[7]); |
|
3629 |
} else {
|
|
3630 |
return !(ch[7] & 0x7F || ch[6] || ch[5] || ch[4] || ch[3] || ch[2] || ch[1] || ch[0]); |
|
3631 |
} |
|
3632 |
#endif |
|
3633 |
} |
|
3634 |
||
3635 |
QString QLocalePrivate::dateTimeToString(const QString &format, const QDate *date, const QTime *time, |
|
3636 |
const QLocale *q) const |
|
3637 |
{
|
|
3638 |
Q_ASSERT(date || time); |
|
3639 |
if ((date && !date->isValid()) || (time && !time->isValid())) |
|
3640 |
return QString(); |
|
3641 |
const bool format_am_pm = time && timeFormatContainsAP(format); |
|
3642 |
||
3643 |
enum { AM, PM } am_pm = AM;
|
|
3644 |
int hour12 = time ? time->hour() : -1; |
|
3645 |
if (time) {
|
|
3646 |
if (hour12 == 0) {
|
|
3647 |
am_pm = AM; |
|
3648 |
hour12 = 12; |
|
3649 |
} else if (hour12 < 12) {
|
|
3650 |
am_pm = AM; |
|
3651 |
} else if (hour12 == 12) {
|
|
3652 |
am_pm = PM; |
|
3653 |
} else {
|
|
3654 |
am_pm = PM; |
|
3655 |
hour12 -= 12; |
|
3656 |
} |
|
3657 |
} |
|
3658 |
||
3659 |
QString result; |
|
3660 |
||
3661 |
int i = 0; |
|
3662 |
while (i < format.size()) {
|
|
3663 |
if (format.at(i).unicode() == '\'') {
|
|
3664 |
result.append(readEscapedFormatString(format, &i)); |
|
3665 |
continue; |
|
3666 |
} |
|
3667 |
||
3668 |
const QChar c = format.at(i); |
|
3669 |
int repeat = repeatCount(format, i); |
|
3670 |
bool used = false; |
|
3671 |
if (date) {
|
|
3672 |
switch (c.unicode()) {
|
|
3673 |
case 'y': |
|
3674 |
used = true; |
|
3675 |
if (repeat >= 4) |
|
3676 |
repeat = 4; |
|
3677 |
else if (repeat >= 2) |
|
3678 |
repeat = 2; |
|
3679 |
||
3680 |
switch (repeat) {
|
|
3681 |
case 4: |
|
3682 |
result.append(longLongToString(date->year())); |
|
3683 |
break; |
|
3684 |
case 2: |
|
3685 |
result.append(longLongToString(date->year() % 100, -1, 10, 2, |
|
3686 |
QLocalePrivate::ZeroPadded)); |
|
3687 |
break; |
|
3688 |
default: |
|
3689 |
repeat = 1; |
|
3690 |
result.append(c); |
|
3691 |
break; |
|
3692 |
} |
|
3693 |
break; |
|
3694 |
||
3695 |
case 'M': |
|
3696 |
used = true; |
|
3697 |
repeat = qMin(repeat, 4); |
|
3698 |
switch (repeat) {
|
|
3699 |
case 1: |
|
3700 |
result.append(longLongToString(date->month())); |
|
3701 |
break; |
|
3702 |
case 2: |
|
3703 |
result.append(longLongToString(date->month(), -1, 10, 2, QLocalePrivate::ZeroPadded)); |
|
3704 |
break; |
|
3705 |
case 3: |
|
3706 |
result.append(q->monthName(date->month(), QLocale::ShortFormat)); |
|
3707 |
break; |
|
3708 |
case 4: |
|
3709 |
result.append(q->monthName(date->month(), QLocale::LongFormat)); |
|
3710 |
break; |
|
3711 |
} |
|
3712 |
break; |
|
3713 |
||
3714 |
case 'd': |
|
3715 |
used = true; |
|
3716 |
repeat = qMin(repeat, 4); |
|
3717 |
switch (repeat) {
|
|
3718 |
case 1: |
|
3719 |
result.append(longLongToString(date->day())); |
|
3720 |
break; |
|
3721 |
case 2: |
|
3722 |
result.append(longLongToString(date->day(), -1, 10, 2, QLocalePrivate::ZeroPadded)); |
|
3723 |
break; |
|
3724 |
case 3: |
|
3725 |
result.append(q->dayName(date->dayOfWeek(), QLocale::ShortFormat)); |
|
3726 |
break; |
|
3727 |
case 4: |
|
3728 |
result.append(q->dayName(date->dayOfWeek(), QLocale::LongFormat)); |
|
3729 |
break; |
|
3730 |
} |
|
3731 |
break; |
|
3732 |
||
3733 |
default: |
|
3734 |
break; |
|
3735 |
} |
|
3736 |
} |
|
3737 |
if (!used && time) {
|
|
3738 |
switch (c.unicode()) {
|
|
3739 |
case 'h': {
|
|
3740 |
used = true; |
|
3741 |
repeat = qMin(repeat, 2); |
|
3742 |
const int hour = format_am_pm ? hour12 : time->hour(); |
|
3743 |
||
3744 |
switch (repeat) {
|
|
3745 |
case 1: |
|
3746 |
result.append(longLongToString(hour)); |
|
3747 |
break; |
|
3748 |
case 2: |
|
3749 |
result.append(longLongToString(hour, -1, 10, 2, QLocalePrivate::ZeroPadded)); |
|
3750 |
break; |
|
3751 |
} |
|
3752 |
break; |
|
3753 |
} |
|
3754 |
case 'H': |
|
3755 |
used = true; |
|
3756 |
repeat = qMin(repeat, 2); |
|
3757 |
switch (repeat) {
|
|
3758 |
case 1: |
|
3759 |
result.append(longLongToString(time->hour())); |
|
3760 |
break; |
|
3761 |
case 2: |
|
3762 |
result.append(longLongToString(time->hour(), -1, 10, 2, QLocalePrivate::ZeroPadded)); |
|
3763 |
break; |
|
3764 |
} |
|
3765 |
break; |
|
3766 |
||
3767 |
case 'm': |
|
3768 |
used = true; |
|
3769 |
repeat = qMin(repeat, 2); |
|
3770 |
switch (repeat) {
|
|
3771 |
case 1: |
|
3772 |
result.append(longLongToString(time->minute())); |
|
3773 |
break; |
|
3774 |
case 2: |
|
3775 |
result.append(longLongToString(time->minute(), -1, 10, 2, QLocalePrivate::ZeroPadded)); |
|
3776 |
break; |
|
3777 |
} |
|
3778 |
break; |
|
3779 |
||
3780 |
case 's': |
|
3781 |
used = true; |
|
3782 |
repeat = qMin(repeat, 2); |
|
3783 |
switch (repeat) {
|
|
3784 |
case 1: |
|
3785 |
result.append(longLongToString(time->second())); |
|
3786 |
break; |
|
3787 |
case 2: |
|
3788 |
result.append(longLongToString(time->second(), -1, 10, 2, QLocalePrivate::ZeroPadded)); |
|
3789 |
break; |
|
3790 |
} |
|
3791 |
break; |
|
3792 |
||
3793 |
case 'a': |
|
3794 |
used = true; |
|
3795 |
if (i + 1 < format.length() && format.at(i + 1).unicode() == 'p') {
|
|
3796 |
repeat = 2; |
|
3797 |
} else {
|
|
3798 |
repeat = 1; |
|
3799 |
} |
|
3800 |
result.append(am_pm == AM ? QLatin1String("am") : QLatin1String("pm"));
|
|
3801 |
break; |
|
3802 |
||
3803 |
case 'A': |
|
3804 |
used = true; |
|
3805 |
if (i + 1 < format.length() && format.at(i + 1).unicode() == 'P') {
|
|
3806 |
repeat = 2; |
|
3807 |
} else {
|
|
3808 |
repeat = 1; |
|
3809 |
} |
|
3810 |
result.append(am_pm == AM ? QLatin1String("AM") : QLatin1String("PM"));
|
|
3811 |
break; |
|
3812 |
||
3813 |
case 'z': |
|
3814 |
used = true; |
|
3815 |
if (repeat >= 3) {
|
|
3816 |
repeat = 3; |
|
3817 |
} else {
|
|
3818 |
repeat = 1; |
|
3819 |
} |
|
3820 |
switch (repeat) {
|
|
3821 |
case 1: |
|
3822 |
result.append(longLongToString(time->msec())); |
|
3823 |
break; |
|
3824 |
case 3: |
|
3825 |
result.append(longLongToString(time->msec(), -1, 10, 3, QLocalePrivate::ZeroPadded)); |
|
3826 |
break; |
|
3827 |
} |
|
3828 |
break; |
|
3829 |
||
3830 |
case 't': |
|
3831 |
used = true; |
|
3832 |
repeat = 1; |
|
3833 |
result.append(timeZone()); |
|
3834 |
break; |
|
3835 |
default: |
|
3836 |
break; |
|
3837 |
} |
|
3838 |
} |
|
3839 |
if (!used) {
|
|
3840 |
result.append(QString(repeat, c)); |
|
3841 |
} |
|
3842 |
i += repeat; |
|
3843 |
} |
|
3844 |
||
3845 |
return result; |
|
3846 |
} |
|
3847 |
||
3848 |
QString QLocalePrivate::doubleToString(double d, |
|
3849 |
int precision, |
|
3850 |
DoubleForm form, |
|
3851 |
int width, |
|
3852 |
unsigned flags) const |
|
3853 |
{
|
|
3854 |
if (precision == -1) |
|
3855 |
precision = 6; |
|
3856 |
if (width == -1) |
|
3857 |
width = 0; |
|
3858 |
||
3859 |
bool negative = false; |
|
3860 |
bool special_number = false; // nan, +/-inf |
|
3861 |
QString num_str; |
|
3862 |
||
3863 |
// Detect special numbers (nan, +/-inf) |
|
3864 |
if (qt_is_inf(d)) {
|
|
3865 |
num_str = QString::fromLatin1("inf");
|
|
3866 |
special_number = true; |
|
3867 |
negative = d < 0; |
|
3868 |
} else if (qt_is_nan(d)) {
|
|
3869 |
num_str = QString::fromLatin1("nan");
|
|
3870 |
special_number = true; |
|
3871 |
} |
|
3872 |
||
3873 |
// Handle normal numbers |
|
3874 |
if (!special_number) {
|
|
3875 |
int decpt, sign; |
|
3876 |
QString digits; |
|
3877 |
||
3878 |
#ifdef QT_QLOCALE_USES_FCVT |
|
3879 |
// NOT thread safe! |
|
3880 |
if (form == DFDecimal) {
|
|
3881 |
digits = QLatin1String(fcvt(d, precision, &decpt, &sign)); |
|
3882 |
} else {
|
|
3883 |
int pr = precision; |
|
3884 |
if (form == DFExponent) |
|
3885 |
++pr; |
|
3886 |
else if (form == DFSignificantDigits && pr == 0) |
|
3887 |
pr = 1; |
|
3888 |
digits = QLatin1String(ecvt(d, pr, &decpt, &sign)); |
|
3889 |
||
3890 |
// Chop trailing zeros |
|
3891 |
if (digits.length() > 0) {
|
|
3892 |
int last_nonzero_idx = digits.length() - 1; |
|
3893 |
while (last_nonzero_idx > 0 |
|
3894 |
&& digits.unicode()[last_nonzero_idx] == QLatin1Char('0'))
|
|
3895 |
--last_nonzero_idx; |
|
3896 |
digits.truncate(last_nonzero_idx + 1); |
|
3897 |
} |
|
3898 |
||
3899 |
} |
|
3900 |
||
3901 |
#else |
|
3902 |
int mode; |
|
3903 |
if (form == DFDecimal) |
|
3904 |
mode = 3; |
|
3905 |
else |
|
3906 |
mode = 2; |
|
3907 |
||
3908 |
/* This next bit is a bit quirky. In DFExponent form, the precision |
|
3909 |
is the number of digits after decpt. So that would suggest using |
|
3910 |
mode=3 for qdtoa. But qdtoa behaves strangely when mode=3 and |
|
3911 |
precision=0. So we get around this by using mode=2 and reasoning |
|
3912 |
that we want precision+1 significant digits, since the decimal |
|
3913 |
point in this mode is always after the first digit. */ |
|
3914 |
int pr = precision; |
|
3915 |
if (form == DFExponent) |
|
3916 |
++pr; |
|
3917 |
||
3918 |
char *rve = 0; |
|
3919 |
char *buff = 0; |
|
3920 |
QT_TRY {
|
|
3921 |
digits = QLatin1String(qdtoa(d, mode, pr, &decpt, &sign, &rve, &buff)); |
|
3922 |
} QT_CATCH(...) {
|
|
3923 |
if (buff != 0) |
|
3924 |
free(buff); |
|
3925 |
QT_RETHROW; |
|
3926 |
} |
|
3927 |
if (buff != 0) |
|
3928 |
free(buff); |
|
3929 |
#endif // QT_QLOCALE_USES_FCVT |
|
3930 |
||
3931 |
const QChar _zero = zero(); |
|
3932 |
||
3933 |
if (_zero.unicode() != '0') {
|
|
3934 |
ushort z = _zero.unicode() - '0'; |
|
3935 |
for (int i = 0; i < digits.length(); ++i) |
|
3936 |
reinterpret_cast<ushort *>(digits.data())[i] += z; |
|
3937 |
} |
|
3938 |
||
3939 |
bool always_show_decpt = (flags & Alternate || flags & ForcePoint); |
|
3940 |
switch (form) {
|
|
3941 |
case DFExponent: {
|
|
3942 |
num_str = exponentForm(digits, decpt, precision, PMDecimalDigits, |
|
3943 |
always_show_decpt, *this); |
|
3944 |
break; |
|
3945 |
} |
|
3946 |
case DFDecimal: {
|
|
3947 |
num_str = decimalForm(digits, decpt, precision, PMDecimalDigits, |
|
3948 |
always_show_decpt, flags & ThousandsGroup, |
|
3949 |
*this); |
|
3950 |
break; |
|
3951 |
} |
|
3952 |
case DFSignificantDigits: {
|
|
3953 |
PrecisionMode mode = (flags & Alternate) ? |
|
3954 |
PMSignificantDigits : PMChopTrailingZeros; |
|
3955 |
||
3956 |
if (decpt != digits.length() && (decpt <= -4 || decpt > precision)) |
|
3957 |
num_str = exponentForm(digits, decpt, precision, mode, |
|
3958 |
always_show_decpt, *this); |
|
3959 |
else |
|
3960 |
num_str = decimalForm(digits, decpt, precision, mode, |
|
3961 |
always_show_decpt, flags & ThousandsGroup, |
|
3962 |
*this); |
|
3963 |
break; |
|
3964 |
} |
|
3965 |
} |
|
3966 |
||
3967 |
negative = sign != 0 && !isZero(d); |
|
3968 |
} |
|
3969 |
||
3970 |
// pad with zeros. LeftAdjusted overrides this flag). Also, we don't |
|
3971 |
// pad special numbers |
|
3972 |
if (flags & QLocalePrivate::ZeroPadded |
|
3973 |
&& !(flags & QLocalePrivate::LeftAdjusted) |
|
3974 |
&& !special_number) {
|
|
3975 |
int num_pad_chars = width - num_str.length(); |
|
3976 |
// leave space for the sign |
|
3977 |
if (negative |
|
3978 |
|| flags & QLocalePrivate::AlwaysShowSign |
|
3979 |
|| flags & QLocalePrivate::BlankBeforePositive) |
|
3980 |
--num_pad_chars; |
|
3981 |
||
3982 |
for (int i = 0; i < num_pad_chars; ++i) |
|
3983 |
num_str.prepend(zero()); |
|
3984 |
} |
|
3985 |
||
3986 |
// add sign |
|
3987 |
if (negative) |
|
3988 |
num_str.prepend(minus()); |
|
3989 |
else if (flags & QLocalePrivate::AlwaysShowSign) |
|
3990 |
num_str.prepend(plus()); |
|
3991 |
else if (flags & QLocalePrivate::BlankBeforePositive) |
|
3992 |
num_str.prepend(QLatin1Char(' '));
|
|
3993 |
||
3994 |
if (flags & QLocalePrivate::CapitalEorX) |
|
3995 |
num_str = num_str.toUpper(); |
|
3996 |
||
3997 |
return num_str; |
|
3998 |
} |
|
3999 |
||
4000 |
QString QLocalePrivate::longLongToString(qlonglong l, int precision, |
|
4001 |
int base, int width, |
|
4002 |
unsigned flags) const |
|
4003 |
{
|
|
4004 |
bool precision_not_specified = false; |
|
4005 |
if (precision == -1) {
|
|
4006 |
precision_not_specified = true; |
|
4007 |
precision = 1; |
|
4008 |
} |
|
4009 |
||
4010 |
bool negative = l < 0; |
|
4011 |
if (base != 10) {
|
|
4012 |
// these are not supported by sprintf for octal and hex |
|
4013 |
flags &= ~AlwaysShowSign; |
|
4014 |
flags &= ~BlankBeforePositive; |
|
4015 |
negative = false; // neither are negative numbers |
|
4016 |
} |
|
4017 |
||
4018 |
QString num_str; |
|
4019 |
if (base == 10) |
|
4020 |
num_str = qlltoa(l, base, *this); |
|
4021 |
else |
|
4022 |
num_str = qulltoa(l, base, *this); |
|
4023 |
||
4024 |
uint cnt_thousand_sep = 0; |
|
4025 |
if (flags & ThousandsGroup && base == 10) {
|
|
4026 |
for (int i = num_str.length() - 3; i > 0; i -= 3) {
|
|
4027 |
num_str.insert(i, group()); |
|
4028 |
++cnt_thousand_sep; |
|
4029 |
} |
|
4030 |
} |
|
4031 |
||
4032 |
for (int i = num_str.length()/* - cnt_thousand_sep*/; i < precision; ++i) |
|
4033 |
num_str.prepend(base == 10 ? zero() : QChar::fromLatin1('0'));
|
|
4034 |
||
4035 |
if ((flags & Alternate || flags & ShowBase) |
|
4036 |
&& base == 8 |
|
4037 |
&& (num_str.isEmpty() || num_str[0].unicode() != QLatin1Char('0')))
|
|
4038 |
num_str.prepend(QLatin1Char('0'));
|
|
4039 |
||
4040 |
// LeftAdjusted overrides this flag ZeroPadded. sprintf only padds |
|
4041 |
// when precision is not specified in the format string |
|
4042 |
bool zero_padded = flags & ZeroPadded |
|
4043 |
&& !(flags & LeftAdjusted) |
|
4044 |
&& precision_not_specified; |
|
4045 |
||
4046 |
if (zero_padded) {
|
|
4047 |
int num_pad_chars = width - num_str.length(); |
|
4048 |
||
4049 |
// leave space for the sign |
|
4050 |
if (negative |
|
4051 |
|| flags & AlwaysShowSign |
|
4052 |
|| flags & BlankBeforePositive) |
|
4053 |
--num_pad_chars; |
|
4054 |
||
4055 |
// leave space for optional '0x' in hex form |
|
4056 |
if (base == 16 && (flags & Alternate || flags & ShowBase)) |
|
4057 |
num_pad_chars -= 2; |
|
4058 |
// leave space for optional '0b' in binary form |
|
4059 |
else if (base == 2 && (flags & Alternate || flags & ShowBase)) |
|
4060 |
num_pad_chars -= 2; |
|
4061 |
||
4062 |
for (int i = 0; i < num_pad_chars; ++i) |
|
4063 |
num_str.prepend(base == 10 ? zero() : QChar::fromLatin1('0'));
|
|
4064 |
} |
|
4065 |
||
4066 |
if (flags & CapitalEorX) |
|
4067 |
num_str = num_str.toUpper(); |
|
4068 |
||
4069 |
if (base == 16 && (flags & Alternate || flags & ShowBase)) |
|
4070 |
num_str.prepend(QLatin1String(flags & UppercaseBase ? "0X" : "0x")); |
|
4071 |
if (base == 2 && (flags & Alternate || flags & ShowBase)) |
|
4072 |
num_str.prepend(QLatin1String(flags & UppercaseBase ? "0B" : "0b")); |
|
4073 |
||
4074 |
// add sign |
|
4075 |
if (negative) |
|
4076 |
num_str.prepend(minus()); |
|
4077 |
else if (flags & AlwaysShowSign) |
|
4078 |
num_str.prepend(plus()); |
|
4079 |
else if (flags & BlankBeforePositive) |
|
4080 |
num_str.prepend(QLatin1Char(' '));
|
|
4081 |
||
4082 |
return num_str; |
|
4083 |
} |
|
4084 |
||
4085 |
QString QLocalePrivate::unsLongLongToString(qulonglong l, int precision, |
|
4086 |
int base, int width, |
|
4087 |
unsigned flags) const |
|
4088 |
{
|
|
4089 |
bool precision_not_specified = false; |
|
4090 |
if (precision == -1) {
|
|
4091 |
precision_not_specified = true; |
|
4092 |
precision = 1; |
|
4093 |
} |
|
4094 |
||
4095 |
QString num_str = qulltoa(l, base, *this); |
|
4096 |
||
4097 |
uint cnt_thousand_sep = 0; |
|
4098 |
if (flags & ThousandsGroup && base == 10) {
|
|
4099 |
for (int i = num_str.length() - 3; i > 0; i -=3) {
|
|
4100 |
num_str.insert(i, group()); |
|
4101 |
++cnt_thousand_sep; |
|
4102 |
} |
|
4103 |
} |
|
4104 |
||
4105 |
for (int i = num_str.length()/* - cnt_thousand_sep*/; i < precision; ++i) |
|
4106 |
num_str.prepend(base == 10 ? zero() : QChar::fromLatin1('0'));
|
|
4107 |
||
4108 |
if ((flags & Alternate || flags & ShowBase) |
|
4109 |
&& base == 8 |
|
4110 |
&& (num_str.isEmpty() || num_str[0].unicode() != QLatin1Char('0')))
|
|
4111 |
num_str.prepend(QLatin1Char('0'));
|
|
4112 |
||
4113 |
// LeftAdjusted overrides this flag ZeroPadded. sprintf only padds |
|
4114 |
// when precision is not specified in the format string |
|
4115 |
bool zero_padded = flags & ZeroPadded |
|
4116 |
&& !(flags & LeftAdjusted) |
|
4117 |
&& precision_not_specified; |
|
4118 |
||
4119 |
if (zero_padded) {
|
|
4120 |
int num_pad_chars = width - num_str.length(); |
|
4121 |
||
4122 |
// leave space for optional '0x' in hex form |
|
4123 |
if (base == 16 && flags & Alternate) |
|
4124 |
num_pad_chars -= 2; |
|
4125 |
// leave space for optional '0b' in binary form |
|
4126 |
else if (base == 2 && flags & Alternate) |
|
4127 |
num_pad_chars -= 2; |
|
4128 |
||
4129 |
for (int i = 0; i < num_pad_chars; ++i) |
|
4130 |
num_str.prepend(base == 10 ? zero() : QChar::fromLatin1('0'));
|
|
4131 |
} |
|
4132 |
||
4133 |
if (flags & CapitalEorX) |
|
4134 |
num_str = num_str.toUpper(); |
|
4135 |
||
4136 |
if (base == 16 && (flags & Alternate || flags & ShowBase)) |
|
4137 |
num_str.prepend(QLatin1String(flags & UppercaseBase ? "0X" : "0x")); |
|
4138 |
else if (base == 2 && (flags & Alternate || flags & ShowBase)) |
|
4139 |
num_str.prepend(QLatin1String(flags & UppercaseBase ? "0B" : "0b")); |
|
4140 |
||
4141 |
// add sign |
|
4142 |
if (flags & AlwaysShowSign) |
|
4143 |
num_str.prepend(plus()); |
|
4144 |
else if (flags & BlankBeforePositive) |
|
4145 |
num_str.prepend(QLatin1Char(' '));
|
|
4146 |
||
4147 |
return num_str; |
|
4148 |
} |
|
4149 |
||
4150 |
// Removes thousand-group separators in "C" locale. |
|
4151 |
static bool removeGroupSeparators(QLocalePrivate::CharBuff *num) |
|
4152 |
{
|
|
4153 |
int group_cnt = 0; // counts number of group chars |
|
4154 |
int decpt_idx = -1; |
|
4155 |
||
4156 |
char *data = num->data(); |
|
4157 |
int l = qstrlen(data); |
|
4158 |
||
4159 |
// Find the decimal point and check if there are any group chars |
|
4160 |
int i = 0; |
|
4161 |
for (; i < l; ++i) {
|
|
4162 |
char c = data[i]; |
|
4163 |
||
4164 |
if (c == ',') {
|
|
4165 |
if (i == 0 || data[i - 1] < '0' || data[i - 1] > '9') |
|
4166 |
return false; |
|
4167 |
if (i == l - 1 || data[i + 1] < '0' || data[i + 1] > '9') |
|
4168 |
return false; |
|
4169 |
++group_cnt; |
|
4170 |
} |
|
4171 |
else if (c == '.') {
|
|
4172 |
// Fail if more than one decimal points |
|
4173 |
if (decpt_idx != -1) |
|
4174 |
return false; |
|
4175 |
decpt_idx = i; |
|
4176 |
} else if (c == 'e' || c == 'E') {
|
|
4177 |
// an 'e' or 'E' - if we have not encountered a decimal |
|
4178 |
// point, this is where it "is". |
|
4179 |
if (decpt_idx == -1) |
|
4180 |
decpt_idx = i; |
|
4181 |
} |
|
4182 |
} |
|
4183 |
||
4184 |
// If no group chars, we're done |
|
4185 |
if (group_cnt == 0) |
|
4186 |
return true; |
|
4187 |
||
4188 |
// No decimal point means that it "is" at the end of the string |
|
4189 |
if (decpt_idx == -1) |
|
4190 |
decpt_idx = l; |
|
4191 |
||
4192 |
i = 0; |
|
4193 |
while (i < l && group_cnt > 0) {
|
|
4194 |
char c = data[i]; |
|
4195 |
||
4196 |
if (c == ',') {
|
|
4197 |
// Don't allow group chars after the decimal point |
|
4198 |
if (i > decpt_idx) |
|
4199 |
return false; |
|
4200 |
||
4201 |
// Check that it is placed correctly relative to the decpt |
|
4202 |
if ((decpt_idx - i) % 4 != 0) |
|
4203 |
return false; |
|
4204 |
||
4205 |
// Remove it |
|
4206 |
memmove(data + i, data + i + 1, l - i - 1); |
|
4207 |
data[--l] = '\0'; |
|
4208 |
||
4209 |
--group_cnt; |
|
4210 |
--decpt_idx; |
|
4211 |
} else {
|
|
4212 |
// Check that we are not missing a separator |
|
4213 |
if (i < decpt_idx |
|
4214 |
&& (decpt_idx - i) % 4 == 0 |
|
4215 |
&& !(i == 0 && c == '-')) // check for negative sign at start of string |
|
4216 |
return false; |
|
4217 |
++i; |
|
4218 |
} |
|
4219 |
} |
|
4220 |
||
4221 |
return true; |
|
4222 |
} |
|
4223 |
||
4224 |
/* |
|
4225 |
Converts a number in locale to its representation in the C locale. |
|
4226 |
Only has to guarantee that a string that is a correct representation of |
|
4227 |
a number will be converted. If junk is passed in, junk will be passed |
|
4228 |
out and the error will be detected during the actual conversion to a |
|
4229 |
number. We can't detect junk here, since we don't even know the base |
|
4230 |
of the number. |
|
4231 |
*/ |
|
4232 |
bool QLocalePrivate::numberToCLocale(const QString &num, |
|
4233 |
GroupSeparatorMode group_sep_mode, |
|
4234 |
CharBuff *result) const |
|
4235 |
{
|
|
4236 |
const QChar *uc = num.unicode(); |
|
4237 |
int l = num.length(); |
|
4238 |
int idx = 0; |
|
4239 |
||
4240 |
// Skip whitespace |
|
4241 |
while (idx < l && uc[idx].isSpace()) |
|
4242 |
++idx; |
|
4243 |
if (idx == l) |
|
4244 |
return false; |
|
4245 |
||
4246 |
const QChar _group = group(); |
|
4247 |
||
4248 |
while (idx < l) {
|
|
4249 |
const QChar &in = uc[idx]; |
|
4250 |
||
4251 |
char out = digitToCLocale(in); |
|
4252 |
if (out == 0) {
|
|
4253 |
if (in == list()) |
|
4254 |
out = ';'; |
|
4255 |
else if (in == percent()) |
|
4256 |
out = '%'; |
|
4257 |
// for handling base-x numbers |
|
4258 |
else if (in.unicode() >= 'A' && in.unicode() <= 'Z') |
|
4259 |
out = in.toLower().toLatin1(); |
|
4260 |
else if (in.unicode() >= 'a' && in.unicode() <= 'z') |
|
4261 |
out = in.toLatin1(); |
|
4262 |
else |
|
4263 |
break; |
|
4264 |
} |
|
4265 |
||
4266 |
result->append(out); |
|
4267 |
||
4268 |
++idx; |
|
4269 |
} |
|
4270 |
||
4271 |
// Check trailing whitespace |
|
4272 |
for (; idx < l; ++idx) {
|
|
4273 |
if (!uc[idx].isSpace()) |
|
4274 |
return false; |
|
4275 |
} |
|
4276 |
||
4277 |
result->append('\0');
|
|
4278 |
||
4279 |
// Check separators |
|
4280 |
if (group_sep_mode == ParseGroupSeparators |
|
4281 |
&& !removeGroupSeparators(result)) |
|
4282 |
return false; |
|
4283 |
||
4284 |
||
4285 |
return true; |
|
4286 |
} |
|
4287 |
||
4288 |
bool QLocalePrivate::validateChars(const QString &str, NumberMode numMode, QByteArray *buff, |
|
4289 |
int decDigits) const |
|
4290 |
{
|
|
4291 |
buff->clear(); |
|
4292 |
buff->reserve(str.length()); |
|
4293 |
||
4294 |
const bool scientific = numMode == DoubleScientificMode; |
|
4295 |
bool lastWasE = false; |
|
4296 |
int eCnt = 0; |
|
4297 |
int decPointCnt = 0; |
|
4298 |
bool dec = false; |
|
4299 |
int decDigitCnt = 0; |
|
4300 |
||
4301 |
for (int i = 0; i < str.length(); ++i) {
|
|
4302 |
char c = digitToCLocale(str.at(i)); |
|
4303 |
||
4304 |
if (c >= '0' && c <= '9') {
|
|
4305 |
if (numMode != IntegerMode) {
|
|
4306 |
// If a double has too many digits after decpt, it shall be Invalid. |
|
4307 |
if (dec && decDigits != -1 && decDigits < ++decDigitCnt) |
|
4308 |
return false; |
|
4309 |
} |
|
4310 |
} else {
|
|
4311 |
switch (c) {
|
|
4312 |
case '.': |
|
4313 |
if (numMode == IntegerMode) {
|
|
4314 |
// If an integer has a decimal point, it shall be Invalid. |
|
4315 |
return false; |
|
4316 |
} else {
|
|
4317 |
// If a double has more than one decimal point, it shall be Invalid. |
|
4318 |
if (++decPointCnt > 1) |
|
4319 |
return false; |
|
4320 |
#if 0 |
|
4321 |
// If a double with no decimal digits has a decimal point, it shall be |
|
4322 |
// Invalid. |
|
4323 |
if (decDigits == 0) |
|
4324 |
return false; |
|
4325 |
#endif // On second thoughts, it shall be Valid. |
|
4326 |
||
4327 |
dec = true; |
|
4328 |
} |
|
4329 |
break; |
|
4330 |
||
4331 |
case '+': |
|
4332 |
case '-': |
|
4333 |
if (scientific) {
|
|
4334 |
// If a scientific has a sign that's not at the beginning or after |
|
4335 |
// an 'e', it shall be Invalid. |
|
4336 |
if (i != 0 && !lastWasE) |
|
4337 |
return false; |
|
4338 |
} else {
|
|
4339 |
// If a non-scientific has a sign that's not at the beginning, |
|
4340 |
// it shall be Invalid. |
|
4341 |
if (i != 0) |
|
4342 |
return false; |
|
4343 |
} |
|
4344 |
break; |
|
4345 |
||
4346 |
case ',': |
|
4347 |
return false; |
|
4348 |
||
4349 |
case 'e': |
|
4350 |
if (scientific) {
|
|
4351 |
// If a scientific has more than one 'e', it shall be Invalid. |
|
4352 |
if (++eCnt > 1) |
|
4353 |
return false; |
|
4354 |
dec = false; |
|
4355 |
} else {
|
|
4356 |
// If a non-scientific has an 'e', it shall be Invalid. |
|
4357 |
return false; |
|
4358 |
} |
|
4359 |
break; |
|
4360 |
||
4361 |
default: |
|
4362 |
// If it's not a valid digit, it shall be Invalid. |
|
4363 |
return false; |
|
4364 |
} |
|
4365 |
} |
|
4366 |
||
4367 |
lastWasE = c == 'e'; |
|
4368 |
buff->append(c); |
|
4369 |
} |
|
4370 |
||
4371 |
return true; |
|
4372 |
} |
|
4373 |
||
4374 |
double QLocalePrivate::stringToDouble(const QString &number, bool *ok, |
|
4375 |
GroupSeparatorMode group_sep_mode) const |
|
4376 |
{
|
|
4377 |
CharBuff buff; |
|
4378 |
if (!numberToCLocale(group().unicode() == 0xa0 ? number.trimmed() : number, |
|
4379 |
group_sep_mode, &buff)) {
|
|
4380 |
if (ok != 0) |
|
4381 |
*ok = false; |
|
4382 |
return 0.0; |
|
4383 |
} |
|
4384 |
return bytearrayToDouble(buff.constData(), ok); |
|
4385 |
} |
|
4386 |
||
4387 |
qlonglong QLocalePrivate::stringToLongLong(const QString &number, int base, |
|
4388 |
bool *ok, GroupSeparatorMode group_sep_mode) const |
|
4389 |
{
|
|
4390 |
CharBuff buff; |
|
4391 |
if (!numberToCLocale(group().unicode() == 0xa0 ? number.trimmed() : number, |
|
4392 |
group_sep_mode, &buff)) {
|
|
4393 |
if (ok != 0) |
|
4394 |
*ok = false; |
|
4395 |
return 0; |
|
4396 |
} |
|
4397 |
||
4398 |
return bytearrayToLongLong(buff.constData(), base, ok); |
|
4399 |
} |
|
4400 |
||
4401 |
qulonglong QLocalePrivate::stringToUnsLongLong(const QString &number, int base, |
|
4402 |
bool *ok, GroupSeparatorMode group_sep_mode) const |
|
4403 |
{
|
|
4404 |
CharBuff buff; |
|
4405 |
if (!numberToCLocale(group().unicode() == 0xa0 ? number.trimmed() : number, |
|
4406 |
group_sep_mode, &buff)) {
|
|
4407 |
if (ok != 0) |
|
4408 |
*ok = false; |
|
4409 |
return 0; |
|
4410 |
} |
|
4411 |
||
4412 |
return bytearrayToUnsLongLong(buff.constData(), base, ok); |
|
4413 |
} |
|
4414 |
||
4415 |
||
4416 |
double QLocalePrivate::bytearrayToDouble(const char *num, bool *ok, bool *overflow) |
|
4417 |
{
|
|
4418 |
if (ok != 0) |
|
4419 |
*ok = true; |
|
4420 |
if (overflow != 0) |
|
4421 |
*overflow = false; |
|
4422 |
||
4423 |
if (*num == '\0') {
|
|
4424 |
if (ok != 0) |
|
4425 |
*ok = false; |
|
4426 |
return 0.0; |
|
4427 |
} |
|
4428 |
||
4429 |
if (qstrcmp(num, "nan") == 0) |
|
4430 |
return qt_snan(); |
|
4431 |
||
4432 |
if (qstrcmp(num, "+inf") == 0 || qstrcmp(num, "inf") == 0) |
|
4433 |
return qt_inf(); |
|
4434 |
||
4435 |
if (qstrcmp(num, "-inf") == 0) |
|
4436 |
return -qt_inf(); |
|
4437 |
||
4438 |
bool _ok; |
|
4439 |
const char *endptr; |
|
4440 |
double d = qstrtod(num, &endptr, &_ok); |
|
4441 |
||
4442 |
if (!_ok) {
|
|
4443 |
// the only way strtod can fail with *endptr != '\0' on a non-empty |
|
4444 |
// input string is overflow |
|
4445 |
if (ok != 0) |
|
4446 |
*ok = false; |
|
4447 |
if (overflow != 0) |
|
4448 |
*overflow = *endptr != '\0'; |
|
4449 |
return 0.0; |
|
4450 |
} |
|
4451 |
||
4452 |
if (*endptr != '\0') {
|
|
4453 |
// we stopped at a non-digit character after converting some digits |
|
4454 |
if (ok != 0) |
|
4455 |
*ok = false; |
|
4456 |
if (overflow != 0) |
|
4457 |
*overflow = false; |
|
4458 |
return 0.0; |
|
4459 |
} |
|
4460 |
||
4461 |
if (ok != 0) |
|
4462 |
*ok = true; |
|
4463 |
if (overflow != 0) |
|
4464 |
*overflow = false; |
|
4465 |
return d; |
|
4466 |
} |
|
4467 |
||
4468 |
qlonglong QLocalePrivate::bytearrayToLongLong(const char *num, int base, bool *ok, bool *overflow) |
|
4469 |
{
|
|
4470 |
bool _ok; |
|
4471 |
const char *endptr; |
|
4472 |
||
4473 |
if (*num == '\0') {
|
|
4474 |
if (ok != 0) |
|
4475 |
*ok = false; |
|
4476 |
if (overflow != 0) |
|
4477 |
*overflow = false; |
|
4478 |
return 0; |
|
4479 |
} |
|
4480 |
||
4481 |
qlonglong l = qstrtoll(num, &endptr, base, &_ok); |
|
4482 |
||
4483 |
if (!_ok) {
|
|
4484 |
if (ok != 0) |
|
4485 |
*ok = false; |
|
4486 |
if (overflow != 0) {
|
|
4487 |
// the only way qstrtoll can fail with *endptr != '\0' on a non-empty |
|
4488 |
// input string is overflow |
|
4489 |
*overflow = *endptr != '\0'; |
|
4490 |
} |
|
4491 |
return 0; |
|
4492 |
} |
|
4493 |
||
4494 |
if (*endptr != '\0') {
|
|
4495 |
// we stopped at a non-digit character after converting some digits |
|
4496 |
if (ok != 0) |
|
4497 |
*ok = false; |
|
4498 |
if (overflow != 0) |
|
4499 |
*overflow = false; |
|
4500 |
return 0; |
|
4501 |
} |
|
4502 |
||
4503 |
if (ok != 0) |
|
4504 |
*ok = true; |
|
4505 |
if (overflow != 0) |
|
4506 |
*overflow = false; |
|
4507 |
return l; |
|
4508 |
} |
|
4509 |
||
4510 |
qulonglong QLocalePrivate::bytearrayToUnsLongLong(const char *num, int base, bool *ok) |
|
4511 |
{
|
|
4512 |
bool _ok; |
|
4513 |
const char *endptr; |
|
4514 |
qulonglong l = qstrtoull(num, &endptr, base, &_ok); |
|
4515 |
||
4516 |
if (!_ok || *endptr != '\0') {
|
|
4517 |
if (ok != 0) |
|
4518 |
*ok = false; |
|
4519 |
return 0; |
|
4520 |
} |
|
4521 |
||
4522 |
if (ok != 0) |
|
4523 |
*ok = true; |
|
4524 |
return l; |
|
4525 |
} |
|
4526 |
||
4527 |
/*- |
|
4528 |
* Copyright (c) 1992, 1993 |
|
4529 |
* The Regents of the University of California. All rights reserved. |
|
4530 |
* |
|
4531 |
* Redistribution and use in source and binary forms, with or without |
|
4532 |
* modification, are permitted provided that the following conditions |
|
4533 |
* are met: |
|
4534 |
* 1. Redistributions of source code must retain the above copyright |
|
4535 |
* notice, this list of conditions and the following disclaimer. |
|
4536 |
* 2. Redistributions in binary form must reproduce the above copyright |
|
4537 |
* notice, this list of conditions and the following disclaimer in the |
|
4538 |
* documentation and/or other materials provided with the distribution. |
|
4539 |
* 3. All advertising materials mentioning features or use of this software |
|
4540 |
* must display the following acknowledgment: |
|
4541 |
* This product includes software developed by the University of |
|
4542 |
* California, Berkeley and its contributors. |
|
4543 |
* 4. Neither the name of the University nor the names of its contributors |
|
4544 |
* may be used to endorse or promote products derived from this software |
|
4545 |
* without specific prior written permission. |
|
4546 |
* |
|
4547 |
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND |
|
4548 |
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
|
4549 |
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
|
4550 |
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE |
|
4551 |
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
|
4552 |
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS |
|
4553 |
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) |
|
4554 |
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT |
|
4555 |
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY |
|
4556 |
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF |
|
4557 |
* SUCH DAMAGE. |
|
4558 |
*/ |
|
4559 |
||
4560 |
// static char sccsid[] = "@(#)strtouq.c 8.1 (Berkeley) 6/4/93"; |
|
4561 |
// "$FreeBSD: src/lib/libc/stdlib/strtoull.c,v 1.5.2.1 2001/03/02 09:45:20 obrien Exp $"; |
|
4562 |
||
4563 |
/* |
|
4564 |
* Convert a string to an unsigned long long integer. |
|
4565 |
* |
|
4566 |
* Ignores `locale' stuff. Assumes that the upper and lower case |
|
4567 |
* alphabets and digits are each contiguous. |
|
4568 |
*/ |
|
4569 |
static qulonglong qstrtoull(const char *nptr, const char **endptr, register int base, bool *ok) |
|
4570 |
{
|
|
4571 |
register const char *s = nptr; |
|
4572 |
register qulonglong acc; |
|
4573 |
register unsigned char c; |
|
4574 |
register qulonglong qbase, cutoff; |
|
4575 |
register int any, cutlim; |
|
4576 |
||
4577 |
if (ok != 0) |
|
4578 |
*ok = true; |
|
4579 |
||
4580 |
/* |
|
4581 |
* See strtoq for comments as to the logic used. |
|
4582 |
*/ |
|
4583 |
s = nptr; |
|
4584 |
do {
|
|
4585 |
c = *s++; |
|
4586 |
} while (isspace(c)); |
|
4587 |
if (c == '-') {
|
|
4588 |
if (ok != 0) |
|
4589 |
*ok = false; |
|
4590 |
if (endptr != 0) |
|
4591 |
*endptr = s - 1; |
|
4592 |
return 0; |
|
4593 |
} else {
|
|
4594 |
if (c == '+') |
|
4595 |
c = *s++; |
|
4596 |
} |
|
4597 |
if ((base == 0 || base == 16) && |
|
4598 |
c == '0' && (*s == 'x' || *s == 'X')) {
|
|
4599 |
c = s[1]; |
|
4600 |
s += 2; |
|
4601 |
base = 16; |
|
4602 |
} |
|
4603 |
if (base == 0) |
|
4604 |
base = c == '0' ? 8 : 10; |
|
4605 |
qbase = unsigned(base); |
|
4606 |
cutoff = qulonglong(ULLONG_MAX) / qbase; |
|
4607 |
cutlim = qulonglong(ULLONG_MAX) % qbase; |
|
4608 |
for (acc = 0, any = 0;; c = *s++) {
|
|
4609 |
if (!isascii(c)) |
|
4610 |
break; |
|
4611 |
if (isdigit(c)) |
|
4612 |
c -= '0'; |
|
4613 |
else if (isalpha(c)) |
|
4614 |
c -= isupper(c) ? 'A' - 10 : 'a' - 10; |
|
4615 |
else |
|
4616 |
break; |
|
4617 |
if (c >= base) |
|
4618 |
break; |
|
4619 |
if (any < 0 || acc > cutoff || (acc == cutoff && c > cutlim)) |
|
4620 |
any = -1; |
|
4621 |
else {
|
|
4622 |
any = 1; |
|
4623 |
acc *= qbase; |
|
4624 |
acc += c; |
|
4625 |
} |
|
4626 |
} |
|
4627 |
if (any == 0) {
|
|
4628 |
if (ok != 0) |
|
4629 |
*ok = false; |
|
4630 |
} else if (any < 0) {
|
|
4631 |
acc = ULLONG_MAX; |
|
4632 |
if (ok != 0) |
|
4633 |
*ok = false; |
|
4634 |
} |
|
4635 |
if (endptr != 0) |
|
4636 |
*endptr = (any ? s - 1 : nptr); |
|
4637 |
return acc; |
|
4638 |
} |
|
4639 |
||
4640 |
||
4641 |
// "$FreeBSD: src/lib/libc/stdlib/strtoll.c,v 1.5.2.1 2001/03/02 09:45:20 obrien Exp $"; |
|
4642 |
||
4643 |
||
4644 |
/* |
|
4645 |
* Convert a string to a long long integer. |
|
4646 |
* |
|
4647 |
* Ignores `locale' stuff. Assumes that the upper and lower case |
|
4648 |
* alphabets and digits are each contiguous. |
|
4649 |
*/ |
|
4650 |
static qlonglong qstrtoll(const char *nptr, const char **endptr, register int base, bool *ok) |
|
4651 |
{
|
|
4652 |
register const char *s; |
|
4653 |
register qulonglong acc; |
|
4654 |
register unsigned char c; |
|
4655 |
register qulonglong qbase, cutoff; |
|
4656 |
register int neg, any, cutlim; |
|
4657 |
||
4658 |
/* |
|
4659 |
* Skip white space and pick up leading +/- sign if any. |
|
4660 |
* If base is 0, allow 0x for hex and 0 for octal, else |
|
4661 |
* assume decimal; if base is already 16, allow 0x. |
|
4662 |
*/ |
|
4663 |
s = nptr; |
|
4664 |
do {
|
|
4665 |
c = *s++; |
|
4666 |
} while (isspace(c)); |
|
4667 |
if (c == '-') {
|
|
4668 |
neg = 1; |
|
4669 |
c = *s++; |
|
4670 |
} else {
|
|
4671 |
neg = 0; |
|
4672 |
if (c == '+') |
|
4673 |
c = *s++; |
|
4674 |
} |
|
4675 |
if ((base == 0 || base == 16) && |
|
4676 |
c == '0' && (*s == 'x' || *s == 'X')) {
|
|
4677 |
c = s[1]; |
|
4678 |
s += 2; |
|
4679 |
base = 16; |
|
4680 |
} |
|
4681 |
if (base == 0) |
|
4682 |
base = c == '0' ? 8 : 10; |
|
4683 |
||
4684 |
/* |
|
4685 |
* Compute the cutoff value between legal numbers and illegal |
|
4686 |
* numbers. That is the largest legal value, divided by the |
|
4687 |
* base. An input number that is greater than this value, if |
|
4688 |
* followed by a legal input character, is too big. One that |
|
4689 |
* is equal to this value may be valid or not; the limit |
|
4690 |
* between valid and invalid numbers is then based on the last |
|
4691 |
* digit. For instance, if the range for quads is |
|
4692 |
* [-9223372036854775808..9223372036854775807] and the input base |
|
4693 |
* is 10, cutoff will be set to 922337203685477580 and cutlim to |
|
4694 |
* either 7 (neg==0) or 8 (neg==1), meaning that if we have |
|
4695 |
* accumulated a value > 922337203685477580, or equal but the |
|
4696 |
* next digit is > 7 (or 8), the number is too big, and we will |
|
4697 |
* return a range error. |
|
4698 |
* |
|
4699 |
* Set any if any `digits' consumed; make it negative to indicate |
|
4700 |
* overflow. |
|
4701 |
*/ |
|
4702 |
qbase = unsigned(base); |
|
4703 |
cutoff = neg ? qulonglong(0-(LLONG_MIN + LLONG_MAX)) + LLONG_MAX : LLONG_MAX; |
|
4704 |
cutlim = cutoff % qbase; |
|
4705 |
cutoff /= qbase; |
|
4706 |
for (acc = 0, any = 0;; c = *s++) {
|
|
4707 |
if (!isascii(c)) |
|
4708 |
break; |
|
4709 |
if (isdigit(c)) |
|
4710 |
c -= '0'; |
|
4711 |
else if (isalpha(c)) |
|
4712 |
c -= isupper(c) ? 'A' - 10 : 'a' - 10; |
|
4713 |
else |
|
4714 |
break; |
|
4715 |
if (c >= base) |
|
4716 |
break; |
|
4717 |
if (any < 0 || acc > cutoff || (acc == cutoff && c > cutlim)) |
|
4718 |
any = -1; |
|
4719 |
else {
|
|
4720 |
any = 1; |
|
4721 |
acc *= qbase; |
|
4722 |
acc += c; |
|
4723 |
} |
|
4724 |
} |
|
4725 |
if (any < 0) {
|
|
4726 |
acc = neg ? LLONG_MIN : LLONG_MAX; |
|
4727 |
if (ok != 0) |
|
4728 |
*ok = false; |
|
4729 |
} else if (neg) {
|
|
4730 |
acc = (~acc) + 1; |
|
4731 |
} |
|
4732 |
if (endptr != 0) |
|
4733 |
*endptr = (any >= 0 ? s - 1 : nptr); |
|
4734 |
||
4735 |
if (ok != 0) |
|
4736 |
*ok = any > 0; |
|
4737 |
||
4738 |
return acc; |
|
4739 |
} |
|
4740 |
||
4741 |
#ifndef QT_QLOCALE_USES_FCVT |
|
4742 |
||
4743 |
/* From: NetBSD: strtod.c,v 1.26 1998/02/03 18:44:21 perry Exp */ |
|
4744 |
/* $FreeBSD: src/lib/libc/stdlib/netbsd_strtod.c,v 1.2.2.2 2001/03/02 17:14:15 tegge Exp $ */ |
|
4745 |
||
4746 |
/* Please send bug reports to |
|
4747 |
David M. Gay |
|
4748 |
AT&T Bell Laboratories, Room 2C-463 |
|
4749 |
600 Mountain Avenue |
|
4750 |
Murray Hill, NJ 07974-2070 |
|
4751 |
U.S.A. |
|
4752 |
dmg@research.att.com or research!dmg |
|
4753 |
*/ |
|
4754 |
||
4755 |
/* strtod for IEEE-, VAX-, and IBM-arithmetic machines. |
|
4756 |
* |
|
4757 |
* This strtod returns a nearest machine number to the input decimal |
|
4758 |
* string (or sets errno to ERANGE). With IEEE arithmetic, ties are |
|
4759 |
* broken by the IEEE round-even rule. Otherwise ties are broken by |
|
4760 |
* biased rounding (add half and chop). |
|
4761 |
* |
|
4762 |
* Inspired loosely by William D. Clinger's paper "How to Read Floating |
|
4763 |
* Point Numbers Accurately" [Proc. ACM SIGPLAN '90, pp. 92-101]. |
|
4764 |
* |
|
4765 |
* Modifications: |
|
4766 |
* |
|
4767 |
* 1. We only require IEEE, IBM, or VAX double-precision |
|
4768 |
* arithmetic (not IEEE double-extended). |
|
4769 |
* 2. We get by with floating-point arithmetic in a case that |
|
4770 |
* Clinger missed -- when we're computing d * 10^n |
|
4771 |
* for a small integer d and the integer n is not too |
|
4772 |
* much larger than 22 (the maximum integer k for which |
|
4773 |
* we can represent 10^k exactly), we may be able to |
|
4774 |
* compute (d*10^k) * 10^(e-k) with just one roundoff. |
|
4775 |
* 3. Rather than a bit-at-a-time adjustment of the binary |
|
4776 |
* result in the hard case, we use floating-point |
|
4777 |
* arithmetic to determine the adjustment to within |
|
4778 |
* one bit; only in really hard cases do we need to |
|
4779 |
* compute a second residual. |
|
4780 |
* 4. Because of 3., we don't need a large table of powers of 10 |
|
4781 |
* for ten-to-e (just some small tables, e.g. of 10^k |
|
4782 |
* for 0 <= k <= 22). |
|
4783 |
*/ |
|
4784 |
||
4785 |
/* |
|
4786 |
* #define IEEE_LITTLE_ENDIAN for IEEE-arithmetic machines where the least |
|
4787 |
* significant byte has the lowest address. |
|
4788 |
* #define IEEE_BIG_ENDIAN for IEEE-arithmetic machines where the most |
|
4789 |
* significant byte has the lowest address. |
|
4790 |
* #define Long int on machines with 32-bit ints and 64-bit longs. |
|
4791 |
* #define Sudden_Underflow for IEEE-format machines without gradual |
|
4792 |
* underflow (i.e., that flush to zero on underflow). |
|
4793 |
* #define IBM for IBM mainframe-style floating-point arithmetic. |
|
4794 |
* #define VAX for VAX-style floating-point arithmetic. |
|
4795 |
* #define Unsigned_Shifts if >> does treats its left operand as unsigned. |
|
4796 |
* #define No_leftright to omit left-right logic in fast floating-point |
|
4797 |
* computation of dtoa. |
|
4798 |
* #define Check_FLT_ROUNDS if FLT_ROUNDS can assume the values 2 or 3. |
|
4799 |
* #define RND_PRODQUOT to use rnd_prod and rnd_quot (assembly routines |
|
4800 |
* that use extended-precision instructions to compute rounded |
|
4801 |
* products and quotients) with IBM. |
|
4802 |
* #define ROUND_BIASED for IEEE-format with biased rounding. |
|
4803 |
* #define Inaccurate_Divide for IEEE-format with correctly rounded |
|
4804 |
* products but inaccurate quotients, e.g., for Intel i860. |
|
4805 |
* #define Just_16 to store 16 bits per 32-bit Long when doing high-precision |
|
4806 |
* integer arithmetic. Whether this speeds things up or slows things |
|
4807 |
* down depends on the machine and the number being converted. |
|
4808 |
* #define KR_headers for old-style C function headers. |
|
4809 |
* #define Bad_float_h if your system lacks a float.h or if it does not |
|
4810 |
* define some or all of DBL_DIG, DBL_MAX_10_EXP, DBL_MAX_EXP, |
|
4811 |
* FLT_RADIX, FLT_ROUNDS, and DBL_MAX. |
|
4812 |
* #define MALLOC your_malloc, where your_malloc(n) acts like malloc(n) |
|
4813 |
* if memory is available and otherwise does something you deem |
|
4814 |
* appropriate. If MALLOC is undefined, malloc will be invoked |
|
4815 |
* directly -- and assumed always to succeed. |
|
4816 |
*/ |
|
4817 |
||
4818 |
#if defined(LIBC_SCCS) && !defined(lint) |
|
4819 |
__RCSID("$NetBSD: strtod.c,v 1.26 1998/02/03 18:44:21 perry Exp $");
|
|
4820 |
#endif /* LIBC_SCCS and not lint */ |
|
4821 |
||
4822 |
/* |
|
4823 |
#if defined(__m68k__) || defined(__sparc__) || defined(__i386__) || \ |
|
4824 |
defined(__mips__) || defined(__ns32k__) || defined(__alpha__) || \ |
|
4825 |
defined(__powerpc__) || defined(Q_OS_WIN) || defined(Q_OS_DARWIN) || defined(Q_OS_MAC) || \ |
|
4826 |
defined(mips) || defined(Q_OS_AIX) || defined(Q_OS_SOLARIS) |
|
4827 |
# define IEEE_BIG_OR_LITTLE_ENDIAN 1 |
|
4828 |
#endif |
|
4829 |
*/ |
|
4830 |
||
4831 |
// *All* of our architectures have IEEE arithmetic, don't they? |
|
4832 |
#define IEEE_BIG_OR_LITTLE_ENDIAN 1 |
|
4833 |
||
4834 |
#ifdef __arm32__ |
|
4835 |
/* |
|
4836 |
* Although the CPU is little endian the FP has different |
|
4837 |
* byte and word endianness. The byte order is still little endian |
|
4838 |
* but the word order is big endian. |
|
4839 |
*/ |
|
4840 |
#define IEEE_BIG_OR_LITTLE_ENDIAN |
|
4841 |
#endif |
|
4842 |
||
4843 |
#ifdef vax |
|
4844 |
#define VAX |
|
4845 |
#endif |
|
4846 |
||
4847 |
#define Long qint32 |
|
4848 |
#define ULong quint32 |
|
4849 |
||
4850 |
#define MALLOC malloc |
|
4851 |
||
4852 |
#ifdef BSD_QDTOA_DEBUG |
|
4853 |
QT_BEGIN_INCLUDE_NAMESPACE |
|
4854 |
#include <stdio.h> |
|
4855 |
QT_END_INCLUDE_NAMESPACE |
|
4856 |
||
4857 |
#define Bug(x) {fprintf(stderr, "%s\n", x); exit(1);}
|
|
4858 |
#endif |
|
4859 |
||
4860 |
#ifdef Unsigned_Shifts |
|
4861 |
#define Sign_Extend(a,b) if (b < 0) a |= 0xffff0000; |
|
4862 |
#else |
|
4863 |
#define Sign_Extend(a,b) /*no-op*/ |
|
4864 |
#endif |
|
4865 |
||
4866 |
#if (defined(IEEE_BIG_OR_LITTLE_ENDIAN) + defined(VAX) + defined(IBM)) != 1 |
|
4867 |
#error Exactly one of IEEE_BIG_OR_LITTLE_ENDIAN, VAX, or IBM should be defined. |
|
4868 |
#endif |
|
4869 |
||
4870 |
static inline ULong _getWord0(const NEEDS_VOLATILE double x) |
|
4871 |
{
|
|
4872 |
const NEEDS_VOLATILE uchar *ptr = reinterpret_cast<const NEEDS_VOLATILE uchar *>(&x); |
|
4873 |
if (QSysInfo::ByteOrder == QSysInfo::BigEndian) {
|
|
4874 |
return (ptr[0]<<24) + (ptr[1]<<16) + (ptr[2]<<8) + ptr[3]; |
|
4875 |
} else {
|
|
4876 |
return (ptr[7]<<24) + (ptr[6]<<16) + (ptr[5]<<8) + ptr[4]; |
|
4877 |
} |
|
4878 |
} |
|
4879 |
||
4880 |
static inline void _setWord0(NEEDS_VOLATILE double *x, ULong l) |
|
4881 |
{
|
|
4882 |
NEEDS_VOLATILE uchar *ptr = reinterpret_cast<NEEDS_VOLATILE uchar *>(x); |
|
4883 |
if (QSysInfo::ByteOrder == QSysInfo::BigEndian) {
|
|
4884 |
ptr[0] = uchar(l>>24); |
|
4885 |
ptr[1] = uchar(l>>16); |
|
4886 |
ptr[2] = uchar(l>>8); |
|
4887 |
ptr[3] = uchar(l); |
|
4888 |
} else {
|
|
4889 |
ptr[7] = uchar(l>>24); |
|
4890 |
ptr[6] = uchar(l>>16); |
|
4891 |
ptr[5] = uchar(l>>8); |
|
4892 |
ptr[4] = uchar(l); |
|
4893 |
} |
|
4894 |
} |
|
4895 |
||
4896 |
static inline ULong _getWord1(const NEEDS_VOLATILE double x) |
|
4897 |
{
|
|
4898 |
const NEEDS_VOLATILE uchar *ptr = reinterpret_cast<const NEEDS_VOLATILE uchar *>(&x); |
|
4899 |
if (QSysInfo::ByteOrder == QSysInfo::BigEndian) {
|
|
4900 |
return (ptr[4]<<24) + (ptr[5]<<16) + (ptr[6]<<8) + ptr[7]; |
|
4901 |
} else {
|
|
4902 |
return (ptr[3]<<24) + (ptr[2]<<16) + (ptr[1]<<8) + ptr[0]; |
|
4903 |
} |
|
4904 |
} |
|
4905 |
static inline void _setWord1(NEEDS_VOLATILE double *x, ULong l) |
|
4906 |
{
|
|
4907 |
NEEDS_VOLATILE uchar *ptr = reinterpret_cast<uchar NEEDS_VOLATILE *>(x); |
|
4908 |
if (QSysInfo::ByteOrder == QSysInfo::BigEndian) {
|
|
4909 |
ptr[4] = uchar(l>>24); |
|
4910 |
ptr[5] = uchar(l>>16); |
|
4911 |
ptr[6] = uchar(l>>8); |
|
4912 |
ptr[7] = uchar(l); |
|
4913 |
} else {
|
|
4914 |
ptr[3] = uchar(l>>24); |
|
4915 |
ptr[2] = uchar(l>>16); |
|
4916 |
ptr[1] = uchar(l>>8); |
|
4917 |
ptr[0] = uchar(l); |
|
4918 |
} |
|
4919 |
} |
|
4920 |
||
4921 |
static inline ULong getWord0(const NEEDS_VOLATILE double x) |
|
4922 |
{
|
|
4923 |
#ifdef QT_ARMFPA |
|
4924 |
return _getWord1(x); |
|
4925 |
#else |
|
4926 |
return _getWord0(x); |
|
4927 |
#endif |
|
4928 |
} |
|
4929 |
||
4930 |
static inline void setWord0(NEEDS_VOLATILE double *x, ULong l) |
|
4931 |
{
|
|
4932 |
#ifdef QT_ARMFPA |
|
4933 |
_setWord1(x, l); |
|
4934 |
#else |
|
4935 |
_setWord0(x, l); |
|
4936 |
#endif |
|
4937 |
} |
|
4938 |
||
4939 |
static inline ULong getWord1(const NEEDS_VOLATILE double x) |
|
4940 |
{
|
|
4941 |
#ifdef QT_ARMFPA |
|
4942 |
return _getWord0(x); |
|
4943 |
#else |
|
4944 |
return _getWord1(x); |
|
4945 |
#endif |
|
4946 |
} |
|
4947 |
||
4948 |
static inline void setWord1(NEEDS_VOLATILE double *x, ULong l) |
|
4949 |
{
|
|
4950 |
#ifdef QT_ARMFPA |
|
4951 |
_setWord0(x, l); |
|
4952 |
#else |
|
4953 |
_setWord1(x, l); |
|
4954 |
#endif |
|
4955 |
} |
|
4956 |
||
4957 |
static inline void Storeinc(ULong *&a, const ULong &b, const ULong &c) |
|
4958 |
{
|
|
4959 |
||
4960 |
*a = (ushort(b) << 16) | ushort(c); |
|
4961 |
++a; |
|
4962 |
} |
|
4963 |
||
4964 |
/* #define P DBL_MANT_DIG */ |
|
4965 |
/* Ten_pmax = floor(P*log(2)/log(5)) */ |
|
4966 |
/* Bletch = (highest power of 2 < DBL_MAX_10_EXP) / 16 */ |
|
4967 |
/* Quick_max = floor((P-1)*log(FLT_RADIX)/log(10) - 1) */ |
|
4968 |
/* Int_max = floor(P*log(FLT_RADIX)/log(10) - 1) */ |
|
4969 |
||
4970 |
#if defined(IEEE_BIG_OR_LITTLE_ENDIAN) |
|
4971 |
#define Exp_shift 20 |
|
4972 |
#define Exp_shift1 20 |
|
4973 |
#define Exp_msk1 0x100000 |
|
4974 |
#define Exp_msk11 0x100000 |
|
4975 |
#define Exp_mask 0x7ff00000 |
|
4976 |
#define P 53 |
|
4977 |
#define Bias 1023 |
|
4978 |
#define IEEE_Arith |
|
4979 |
#define Emin (-1022) |
|
4980 |
#define Exp_1 0x3ff00000 |
|
4981 |
#define Exp_11 0x3ff00000 |
|
4982 |
#define Ebits 11 |
|
4983 |
#define Frac_mask 0xfffff |
|
4984 |
#define Frac_mask1 0xfffff |
|
4985 |
#define Ten_pmax 22 |
|
4986 |
#define Bletch 0x10 |
|
4987 |
#define Bndry_mask 0xfffff |
|
4988 |
#define Bndry_mask1 0xfffff |
|
4989 |
#if defined(LSB) && defined(Q_OS_VXWORKS) |
|
4990 |
#undef LSB |
|
4991 |
#endif |
|
4992 |
#define LSB 1 |
|
4993 |
#define Sign_bit 0x80000000 |
|
4994 |
#define Log2P 1 |
|
4995 |
#define Tiny0 0 |
|
4996 |
#define Tiny1 1 |
|
4997 |
#define Quick_max 14 |
|
4998 |
#define Int_max 14 |
|
4999 |
#define Infinite(x) (getWord0(x) == 0x7ff00000) /* sufficient test for here */ |
|
5000 |
#else |
|
5001 |
#undef Sudden_Underflow |
|
5002 |
#define Sudden_Underflow |
|
5003 |
#ifdef IBM |
|
5004 |
#define Exp_shift 24 |
|
5005 |
#define Exp_shift1 24 |
|
5006 |
#define Exp_msk1 0x1000000 |
|
5007 |
#define Exp_msk11 0x1000000 |
|
5008 |
#define Exp_mask 0x7f000000 |
|
5009 |
#define P 14 |
|
5010 |
#define Bias 65 |
|
5011 |
#define Exp_1 0x41000000 |
|
5012 |
#define Exp_11 0x41000000 |
|
5013 |
#define Ebits 8 /* exponent has 7 bits, but 8 is the right value in b2d */ |
|
5014 |
#define Frac_mask 0xffffff |
|
5015 |
#define Frac_mask1 0xffffff |
|
5016 |
#define Bletch 4 |
|
5017 |
#define Ten_pmax 22 |
|
5018 |
#define Bndry_mask 0xefffff |
|
5019 |
#define Bndry_mask1 0xffffff |
|
5020 |
#define LSB 1 |
|
5021 |
#define Sign_bit 0x80000000 |
|
5022 |
#define Log2P 4 |
|
5023 |
#define Tiny0 0x100000 |
|
5024 |
#define Tiny1 0 |
|
5025 |
#define Quick_max 14 |
|
5026 |
#define Int_max 15 |
|
5027 |
#else /* VAX */ |
|
5028 |
#define Exp_shift 23 |
|
5029 |
#define Exp_shift1 7 |
|
5030 |
#define Exp_msk1 0x80 |
|
5031 |
#define Exp_msk11 0x800000 |
|
5032 |
#define Exp_mask 0x7f80 |
|
5033 |
#define P 56 |
|
5034 |
#define Bias 129 |
|
5035 |
#define Exp_1 0x40800000 |
|
5036 |
#define Exp_11 0x4080 |
|
5037 |
#define Ebits 8 |
|
5038 |
#define Frac_mask 0x7fffff |
|
5039 |
#define Frac_mask1 0xffff007f |
|
5040 |
#define Ten_pmax 24 |
|
5041 |
#define Bletch 2 |
|
5042 |
#define Bndry_mask 0xffff007f |
|
5043 |
#define Bndry_mask1 0xffff007f |
|
5044 |
#define LSB 0x10000 |
|
5045 |
#define Sign_bit 0x8000 |
|
5046 |
#define Log2P 1 |
|
5047 |
#define Tiny0 0x80 |
|
5048 |
#define Tiny1 0 |
|
5049 |
#define Quick_max 15 |
|
5050 |
#define Int_max 15 |
|
5051 |
#endif |
|
5052 |
#endif |
|
5053 |
||
5054 |
#ifndef IEEE_Arith |
|
5055 |
#define ROUND_BIASED |
|
5056 |
#endif |
|
5057 |
||
5058 |
#ifdef RND_PRODQUOT |
|
5059 |
#define rounded_product(a,b) a = rnd_prod(a, b) |
|
5060 |
#define rounded_quotient(a,b) a = rnd_quot(a, b) |
|
5061 |
extern double rnd_prod(double, double), rnd_quot(double, double); |
|
5062 |
#else |
|
5063 |
#define rounded_product(a,b) a *= b |
|
5064 |
#define rounded_quotient(a,b) a /= b |
|
5065 |
#endif |
|
5066 |
||
5067 |
#define Big0 (Frac_mask1 | Exp_msk1*(DBL_MAX_EXP+Bias-1)) |
|
5068 |
#define Big1 0xffffffff |
|
5069 |
||
5070 |
#ifndef Just_16 |
|
5071 |
/* When Pack_32 is not defined, we store 16 bits per 32-bit Long. |
|
5072 |
* This makes some inner loops simpler and sometimes saves work |
|
5073 |
* during multiplications, but it often seems to make things slightly |
|
5074 |
* slower. Hence the default is now to store 32 bits per Long. |
|
5075 |
*/ |
|
5076 |
#ifndef Pack_32 |
|
5077 |
#define Pack_32 |
|
5078 |
#endif |
|
5079 |
#endif |
|
5080 |
||
5081 |
#define Kmax 15 |
|
5082 |
||
5083 |
struct |
|
5084 |
Bigint {
|
|
5085 |
struct Bigint *next; |
|
5086 |
int k, maxwds, sign, wds; |
|
5087 |
ULong x[1]; |
|
5088 |
}; |
|
5089 |
||
5090 |
typedef struct Bigint Bigint; |
|
5091 |
||
5092 |
static Bigint *Balloc(int k) |
|
5093 |
{
|
|
5094 |
int x; |
|
5095 |
Bigint *rv; |
|
5096 |
||
5097 |
x = 1 << k; |
|
5098 |
rv = static_cast<Bigint *>(MALLOC(sizeof(Bigint) + (x-1)*sizeof(Long))); |
|
5099 |
Q_CHECK_PTR(rv); |
|
5100 |
rv->k = k; |
|
5101 |
rv->maxwds = x; |
|
5102 |
rv->sign = rv->wds = 0; |
|
5103 |
return rv; |
|
5104 |
} |
|
5105 |
||
5106 |
static void Bfree(Bigint *v) |
|
5107 |
{
|
|
5108 |
free(v); |
|
5109 |
} |
|
5110 |
||
5111 |
#define Bcopy(x,y) memcpy(reinterpret_cast<char *>(&x->sign), reinterpret_cast<char *>(&y->sign), \ |
|
5112 |
y->wds*sizeof(Long) + 2*sizeof(int)) |
|
5113 |
||
5114 |
/* multiply by m and add a */ |
|
5115 |
static Bigint *multadd(Bigint *b, int m, int a) |
|
5116 |
{
|
|
5117 |
int i, wds; |
|
5118 |
ULong *x, y; |
|
5119 |
#ifdef Pack_32 |
|
5120 |
ULong xi, z; |
|
5121 |
#endif |
|
5122 |
Bigint *b1; |
|
5123 |
||
5124 |
wds = b->wds; |
|
5125 |
x = b->x; |
|
5126 |
i = 0; |
|
5127 |
do {
|
|
5128 |
#ifdef Pack_32 |
|
5129 |
xi = *x; |
|
5130 |
y = (xi & 0xffff) * m + a; |
|
5131 |
z = (xi >> 16) * m + (y >> 16); |
|
5132 |
a = (z >> 16); |
|
5133 |
*x++ = (z << 16) + (y & 0xffff); |
|
5134 |
#else |
|
5135 |
y = *x * m + a; |
|
5136 |
a = (y >> 16); |
|
5137 |
*x++ = y & 0xffff; |
|
5138 |
#endif |
|
5139 |
} |
|
5140 |
while(++i < wds); |
|
5141 |
if (a) {
|
|
5142 |
if (wds >= b->maxwds) {
|
|
5143 |
b1 = Balloc(b->k+1); |
|
5144 |
Bcopy(b1, b); |
|
5145 |
Bfree(b); |
|
5146 |
b = b1; |
|
5147 |
} |
|
5148 |
b->x[wds++] = a; |
|
5149 |
b->wds = wds; |
|
5150 |
} |
|
5151 |
return b; |
|
5152 |
} |
|
5153 |
||
5154 |
static Bigint *s2b(const char *s, int nd0, int nd, ULong y9) |
|
5155 |
{
|
|
5156 |
Bigint *b; |
|
5157 |
int i, k; |
|
5158 |
Long x, y; |
|
5159 |
||
5160 |
x = (nd + 8) / 9; |
|
5161 |
for(k = 0, y = 1; x > y; y <<= 1, k++) ; |
|
5162 |
#ifdef Pack_32 |
|
5163 |
b = Balloc(k); |
|
5164 |
b->x[0] = y9; |
|
5165 |
b->wds = 1; |
|
5166 |
#else |
|
5167 |
b = Balloc(k+1); |
|
5168 |
b->x[0] = y9 & 0xffff; |
|
5169 |
b->wds = (b->x[1] = y9 >> 16) ? 2 : 1; |
|
5170 |
#endif |
|
5171 |
||
5172 |
i = 9; |
|
5173 |
if (9 < nd0) {
|
|
5174 |
s += 9; |
|
5175 |
do b = multadd(b, 10, *s++ - '0'); |
|
5176 |
while(++i < nd0); |
|
5177 |
s++; |
|
5178 |
} |
|
5179 |
else |
|
5180 |
s += 10; |
|
5181 |
for(; i < nd; i++) |
|
5182 |
b = multadd(b, 10, *s++ - '0'); |
|
5183 |
return b; |
|
5184 |
} |
|
5185 |
||
5186 |
static int hi0bits(ULong x) |
|
5187 |
{
|
|
5188 |
int k = 0; |
|
5189 |
||
5190 |
if (!(x & 0xffff0000)) {
|
|
5191 |
k = 16; |
|
5192 |
x <<= 16; |
|
5193 |
} |
|
5194 |
if (!(x & 0xff000000)) {
|
|
5195 |
k += 8; |
|
5196 |
x <<= 8; |
|
5197 |
} |
|
5198 |
if (!(x & 0xf0000000)) {
|
|
5199 |
k += 4; |
|
5200 |
x <<= 4; |
|
5201 |
} |
|
5202 |
if (!(x & 0xc0000000)) {
|
|
5203 |
k += 2; |
|
5204 |
x <<= 2; |
|
5205 |
} |
|
5206 |
if (!(x & 0x80000000)) {
|
|
5207 |
k++; |
|
5208 |
if (!(x & 0x40000000)) |
|
5209 |
return 32; |
|
5210 |
} |
|
5211 |
return k; |
|
5212 |
} |
|
5213 |
||
5214 |
static int lo0bits(ULong *y) |
|
5215 |
{
|
|
5216 |
int k; |
|
5217 |
ULong x = *y; |
|
5218 |
||
5219 |
if (x & 7) {
|
|
5220 |
if (x & 1) |
|
5221 |
return 0; |
|
5222 |
if (x & 2) {
|
|
5223 |
*y = x >> 1; |
|
5224 |
return 1; |
|
5225 |
} |
|
5226 |
*y = x >> 2; |
|
5227 |
return 2; |
|
5228 |
} |
|
5229 |
k = 0; |
|
5230 |
if (!(x & 0xffff)) {
|
|
5231 |
k = 16; |
|
5232 |
x >>= 16; |
|
5233 |
} |
|
5234 |
if (!(x & 0xff)) {
|
|
5235 |
k += 8; |
|
5236 |
x >>= 8; |
|
5237 |
} |
|
5238 |
if (!(x & 0xf)) {
|
|
5239 |
k += 4; |
|
5240 |
x >>= 4; |
|
5241 |
} |
|
5242 |
if (!(x & 0x3)) {
|
|
5243 |
k += 2; |
|
5244 |
x >>= 2; |
|
5245 |
} |
|
5246 |
if (!(x & 1)) {
|
|
5247 |
k++; |
|
5248 |
x >>= 1; |
|
5249 |
if (!x & 1) |
|
5250 |
return 32; |
|
5251 |
} |
|
5252 |
*y = x; |
|
5253 |
return k; |
|
5254 |
} |
|
5255 |
||
5256 |
static Bigint *i2b(int i) |
|
5257 |
{
|
|
5258 |
Bigint *b; |
|
5259 |
||
5260 |
b = Balloc(1); |
|
5261 |
b->x[0] = i; |
|
5262 |
b->wds = 1; |
|
5263 |
return b; |
|
5264 |
} |
|
5265 |
||
5266 |
static Bigint *mult(Bigint *a, Bigint *b) |
|
5267 |
{
|
|
5268 |
Bigint *c; |
|
5269 |
int k, wa, wb, wc; |
|
5270 |
ULong carry, y, z; |
|
5271 |
ULong *x, *xa, *xae, *xb, *xbe, *xc, *xc0; |
|
5272 |
#ifdef Pack_32 |
|
5273 |
ULong z2; |
|
5274 |
#endif |
|
5275 |
||
5276 |
if (a->wds < b->wds) {
|
|
5277 |
c = a; |
|
5278 |
a = b; |
|
5279 |
b = c; |
|
5280 |
} |
|
5281 |
k = a->k; |
|
5282 |
wa = a->wds; |
|
5283 |
wb = b->wds; |
|
5284 |
wc = wa + wb; |
|
5285 |
if (wc > a->maxwds) |
|
5286 |
k++; |
|
5287 |
c = Balloc(k); |
|
5288 |
for(x = c->x, xa = x + wc; x < xa; x++) |
|
5289 |
*x = 0; |
|
5290 |
xa = a->x; |
|
5291 |
xae = xa + wa; |
|
5292 |
xb = b->x; |
|
5293 |
xbe = xb + wb; |
|
5294 |
xc0 = c->x; |
|
5295 |
#ifdef Pack_32 |
|
5296 |
for(; xb < xbe; xb++, xc0++) {
|
|
5297 |
if ((y = *xb & 0xffff) != 0) {
|
|
5298 |
x = xa; |
|
5299 |
xc = xc0; |
|
5300 |
carry = 0; |
|
5301 |
do {
|
|
5302 |
z = (*x & 0xffff) * y + (*xc & 0xffff) + carry; |
|
5303 |
carry = z >> 16; |
|
5304 |
z2 = (*x++ >> 16) * y + (*xc >> 16) + carry; |
|
5305 |
carry = z2 >> 16; |
|
5306 |
Storeinc(xc, z2, z); |
|
5307 |
} |
|
5308 |
while(x < xae); |
|
5309 |
*xc = carry; |
|
5310 |
} |
|
5311 |
if ((y = *xb >> 16) != 0) {
|
|
5312 |
x = xa; |
|
5313 |
xc = xc0; |
|
5314 |
carry = 0; |
|
5315 |
z2 = *xc; |
|
5316 |
do {
|
|
5317 |
z = (*x & 0xffff) * y + (*xc >> 16) + carry; |
|
5318 |
carry = z >> 16; |
|
5319 |
Storeinc(xc, z, z2); |
|
5320 |
z2 = (*x++ >> 16) * y + (*xc & 0xffff) + carry; |
|
5321 |
carry = z2 >> 16; |
|
5322 |
} |
|
5323 |
while(x < xae); |
|
5324 |
*xc = z2; |
|
5325 |
} |
|
5326 |
} |
|
5327 |
#else |
|
5328 |
for(; xb < xbe; xc0++) {
|
|
5329 |
if (y = *xb++) {
|
|
5330 |
x = xa; |
|
5331 |
xc = xc0; |
|
5332 |
carry = 0; |
|
5333 |
do {
|
|
5334 |
z = *x++ * y + *xc + carry; |
|
5335 |
carry = z >> 16; |
|
5336 |
*xc++ = z & 0xffff; |
|
5337 |
} |
|
5338 |
while(x < xae); |
|
5339 |
*xc = carry; |
|
5340 |
} |
|
5341 |
} |
|
5342 |
#endif |
|
5343 |
for(xc0 = c->x, xc = xc0 + wc; wc > 0 && !*--xc; --wc) ; |
|
5344 |
c->wds = wc; |
|
5345 |
return c; |
|
5346 |
} |
|
5347 |
||
5348 |
static Bigint *p5s; |
|
5349 |
||
5350 |
struct p5s_deleter |
|
5351 |
{
|
|
5352 |
~p5s_deleter() |
|
5353 |
{
|
|
5354 |
while (p5s) {
|
|
5355 |
Bigint *next = p5s->next; |
|
5356 |
Bfree(p5s); |
|
5357 |
p5s = next; |
|
5358 |
} |
|
5359 |
} |
|
5360 |
}; |
|
5361 |
||
5362 |
static Bigint *pow5mult(Bigint *b, int k) |
|
5363 |
{
|
|
5364 |
Bigint *b1, *p5, *p51; |
|
5365 |
int i; |
|
5366 |
static const int p05[3] = { 5, 25, 125 };
|
|
5367 |
||
5368 |
if ((i = k & 3) != 0) |
|
5369 |
#if defined(Q_OS_IRIX) && defined(Q_CC_GNU) |
|
5370 |
{
|
|
5371 |
// work around a bug on 64 bit IRIX gcc |
|
5372 |
int *p = (int *) p05; |
|
5373 |
b = multadd(b, p[i-1], 0); |
|
5374 |
} |
|
5375 |
#else |
|
5376 |
b = multadd(b, p05[i-1], 0); |
|
5377 |
#endif |
|
5378 |
||
5379 |
if (!(k >>= 2)) |
|
5380 |
return b; |
|
5381 |
if (!(p5 = p5s)) {
|
|
5382 |
/* first time */ |
|
5383 |
static p5s_deleter deleter; |
|
5384 |
p5 = p5s = i2b(625); |
|
5385 |
p5->next = 0; |
|
5386 |
} |
|
5387 |
for(;;) {
|
|
5388 |
if (k & 1) {
|
|
5389 |
b1 = mult(b, p5); |
|
5390 |
Bfree(b); |
|
5391 |
b = b1; |
|
5392 |
} |
|
5393 |
if (!(k >>= 1)) |
|
5394 |
break; |
|
5395 |
if (!(p51 = p5->next)) {
|
|
5396 |
p51 = p5->next = mult(p5,p5); |
|
5397 |
p51->next = 0; |
|
5398 |
} |
|
5399 |
p5 = p51; |
|
5400 |
} |
|
5401 |
return b; |
|
5402 |
} |
|
5403 |
||
5404 |
static Bigint *lshift(Bigint *b, int k) |
|
5405 |
{
|
|
5406 |
int i, k1, n, n1; |
|
5407 |
Bigint *b1; |
|
5408 |
ULong *x, *x1, *xe, z; |
|
5409 |
||
5410 |
#ifdef Pack_32 |
|
5411 |
n = k >> 5; |
|
5412 |
#else |
|
5413 |
n = k >> 4; |
|
5414 |
#endif |
|
5415 |
k1 = b->k; |
|
5416 |
n1 = n + b->wds + 1; |
|
5417 |
for(i = b->maxwds; n1 > i; i <<= 1) |
|
5418 |
k1++; |
|
5419 |
b1 = Balloc(k1); |
|
5420 |
x1 = b1->x; |
|
5421 |
for(i = 0; i < n; i++) |
|
5422 |
*x1++ = 0; |
|
5423 |
x = b->x; |
|
5424 |
xe = x + b->wds; |
|
5425 |
#ifdef Pack_32 |
|
5426 |
if (k &= 0x1f) {
|
|
5427 |
k1 = 32 - k; |
|
5428 |
z = 0; |
|
5429 |
do {
|
|
5430 |
*x1++ = *x << k | z; |
|
5431 |
z = *x++ >> k1; |
|
5432 |
} |
|
5433 |
while(x < xe); |
|
5434 |
if ((*x1 = z) != 0) |
|
5435 |
++n1; |
|
5436 |
} |
|
5437 |
#else |
|
5438 |
if (k &= 0xf) {
|
|
5439 |
k1 = 16 - k; |
|
5440 |
z = 0; |
|
5441 |
do {
|
|
5442 |
*x1++ = *x << k & 0xffff | z; |
|
5443 |
z = *x++ >> k1; |
|
5444 |
} |
|
5445 |
while(x < xe); |
|
5446 |
if (*x1 = z) |
|
5447 |
++n1; |
|
5448 |
} |
|
5449 |
#endif |
|
5450 |
else do |
|
5451 |
*x1++ = *x++; |
|
5452 |
while(x < xe); |
|
5453 |
b1->wds = n1 - 1; |
|
5454 |
Bfree(b); |
|
5455 |
return b1; |
|
5456 |
} |
|
5457 |
||
5458 |
static int cmp(Bigint *a, Bigint *b) |
|
5459 |
{
|
|
5460 |
ULong *xa, *xa0, *xb, *xb0; |
|
5461 |
int i, j; |
|
5462 |
||
5463 |
i = a->wds; |
|
5464 |
j = b->wds; |
|
5465 |
#ifdef BSD_QDTOA_DEBUG |
|
5466 |
if (i > 1 && !a->x[i-1]) |
|
5467 |
Bug("cmp called with a->x[a->wds-1] == 0");
|
|
5468 |
if (j > 1 && !b->x[j-1]) |
|
5469 |
Bug("cmp called with b->x[b->wds-1] == 0");
|
|
5470 |
#endif |
|
5471 |
if (i -= j) |
|
5472 |
return i; |
|
5473 |
xa0 = a->x; |
|
5474 |
xa = xa0 + j; |
|
5475 |
xb0 = b->x; |
|
5476 |
xb = xb0 + j; |
|
5477 |
for(;;) {
|
|
5478 |
if (*--xa != *--xb) |
|
5479 |
return *xa < *xb ? -1 : 1; |
|
5480 |
if (xa <= xa0) |
|
5481 |
break; |
|
5482 |
} |
|
5483 |
return 0; |
|
5484 |
} |
|
5485 |
||
5486 |
static Bigint *diff(Bigint *a, Bigint *b) |
|
5487 |
{
|
|
5488 |
Bigint *c; |
|
5489 |
int i, wa, wb; |
|
5490 |
Long borrow, y; /* We need signed shifts here. */ |
|
5491 |
ULong *xa, *xae, *xb, *xbe, *xc; |
|
5492 |
#ifdef Pack_32 |
|
5493 |
Long z; |
|
5494 |
#endif |
|
5495 |
||
5496 |
i = cmp(a,b); |
|
5497 |
if (!i) {
|
|
5498 |
c = Balloc(0); |
|
5499 |
c->wds = 1; |
|
5500 |
c->x[0] = 0; |
|
5501 |
return c; |
|
5502 |
} |
|
5503 |
if (i < 0) {
|
|
5504 |
c = a; |
|
5505 |
a = b; |
|
5506 |
b = c; |
|
5507 |
i = 1; |
|
5508 |
} |
|
5509 |
else |
|
5510 |
i = 0; |
|
5511 |
c = Balloc(a->k); |
|
5512 |
c->sign = i; |
|
5513 |
wa = a->wds; |
|
5514 |
xa = a->x; |
|
5515 |
xae = xa + wa; |
|
5516 |
wb = b->wds; |
|
5517 |
xb = b->x; |
|
5518 |
xbe = xb + wb; |
|
5519 |
xc = c->x; |
|
5520 |
borrow = 0; |
|
5521 |
#ifdef Pack_32 |
|
5522 |
do {
|
|
5523 |
y = (*xa & 0xffff) - (*xb & 0xffff) + borrow; |
|
5524 |
borrow = y >> 16; |
|
5525 |
Sign_Extend(borrow, y); |
|
5526 |
z = (*xa++ >> 16) - (*xb++ >> 16) + borrow; |
|
5527 |
borrow = z >> 16; |
|
5528 |
Sign_Extend(borrow, z); |
|
5529 |
Storeinc(xc, z, y); |
|
5530 |
} |
|
5531 |
while(xb < xbe); |
|
5532 |
while(xa < xae) {
|
|
5533 |
y = (*xa & 0xffff) + borrow; |
|
5534 |
borrow = y >> 16; |
|
5535 |
Sign_Extend(borrow, y); |
|
5536 |
z = (*xa++ >> 16) + borrow; |
|
5537 |
borrow = z >> 16; |
|
5538 |
Sign_Extend(borrow, z); |
|
5539 |
Storeinc(xc, z, y); |
|
5540 |
} |
|
5541 |
#else |
|
5542 |
do {
|
|
5543 |
y = *xa++ - *xb++ + borrow; |
|
5544 |
borrow = y >> 16; |
|
5545 |
Sign_Extend(borrow, y); |
|
5546 |
*xc++ = y & 0xffff; |
|
5547 |
} |
|
5548 |
while(xb < xbe); |
|
5549 |
while(xa < xae) {
|
|
5550 |
y = *xa++ + borrow; |
|
5551 |
borrow = y >> 16; |
|
5552 |
Sign_Extend(borrow, y); |
|
5553 |
*xc++ = y & 0xffff; |
|
5554 |
} |
|
5555 |
#endif |
|
5556 |
while(!*--xc) |
|
5557 |
wa--; |
|
5558 |
c->wds = wa; |
|
5559 |
return c; |
|
5560 |
} |
|
5561 |
||
5562 |
static double ulp(double x) |
|
5563 |
{
|
|
5564 |
Long L; |
|
5565 |
double a; |
|
5566 |
||
5567 |
L = (getWord0(x) & Exp_mask) - (P-1)*Exp_msk1; |
|
5568 |
#ifndef Sudden_Underflow |
|
5569 |
if (L > 0) {
|
|
5570 |
#endif |
|
5571 |
#ifdef IBM |
|
5572 |
L |= Exp_msk1 >> 4; |
|
5573 |
#endif |
|
5574 |
setWord0(&a, L); |
|
5575 |
setWord1(&a, 0); |
|
5576 |
#ifndef Sudden_Underflow |
|
5577 |
} |
|
5578 |
else {
|
|
5579 |
L = -L >> Exp_shift; |
|
5580 |
if (L < Exp_shift) {
|
|
5581 |
setWord0(&a, 0x80000 >> L); |
|
5582 |
setWord1(&a, 0); |
|
5583 |
} |
|
5584 |
else {
|
|
5585 |
setWord0(&a, 0); |
|
5586 |
L -= Exp_shift; |
|
5587 |
setWord1(&a, L >= 31 ? 1U : 1U << (31 - L)); |
|
5588 |
} |
|
5589 |
} |
|
5590 |
#endif |
|
5591 |
return a; |
|
5592 |
} |
|
5593 |
||
5594 |
static double b2d(Bigint *a, int *e) |
|
5595 |
{
|
|
5596 |
ULong *xa, *xa0, w, y, z; |
|
5597 |
int k; |
|
5598 |
double d; |
|
5599 |
||
5600 |
xa0 = a->x; |
|
5601 |
xa = xa0 + a->wds; |
|
5602 |
y = *--xa; |
|
5603 |
#ifdef BSD_QDTOA_DEBUG |
|
5604 |
if (!y) Bug("zero y in b2d");
|
|
5605 |
#endif |
|
5606 |
k = hi0bits(y); |
|
5607 |
*e = 32 - k; |
|
5608 |
#ifdef Pack_32 |
|
5609 |
if (k < Ebits) {
|
|
5610 |
setWord0(&d, Exp_1 | y >> (Ebits - k)); |
|
5611 |
w = xa > xa0 ? *--xa : 0; |
|
5612 |
setWord1(&d, y << ((32-Ebits) + k) | w >> (Ebits - k)); |
|
5613 |
goto ret_d; |
|
5614 |
} |
|
5615 |
z = xa > xa0 ? *--xa : 0; |
|
5616 |
if (k -= Ebits) {
|
|
5617 |
setWord0(&d, Exp_1 | y << k | z >> (32 - k)); |
|
5618 |
y = xa > xa0 ? *--xa : 0; |
|
5619 |
setWord1(&d, z << k | y >> (32 - k)); |
|
5620 |
} |
|
5621 |
else {
|
|
5622 |
setWord0(&d, Exp_1 | y); |
|
5623 |
setWord1(&d, z); |
|
5624 |
} |
|
5625 |
#else |
|
5626 |
if (k < Ebits + 16) {
|
|
5627 |
z = xa > xa0 ? *--xa : 0; |
|
5628 |
setWord0(&d, Exp_1 | y << k - Ebits | z >> Ebits + 16 - k); |
|
5629 |
w = xa > xa0 ? *--xa : 0; |
|
5630 |
y = xa > xa0 ? *--xa : 0; |
|
5631 |
setWord1(&d, z << k + 16 - Ebits | w << k - Ebits | y >> 16 + Ebits - k); |
|
5632 |
goto ret_d; |
|
5633 |
} |
|
5634 |
z = xa > xa0 ? *--xa : 0; |
|
5635 |
w = xa > xa0 ? *--xa : 0; |
|
5636 |
k -= Ebits + 16; |
|
5637 |
setWord0(&d, Exp_1 | y << k + 16 | z << k | w >> 16 - k); |
|
5638 |
y = xa > xa0 ? *--xa : 0; |
|
5639 |
setWord1(&d, w << k + 16 | y << k); |
|
5640 |
#endif |
|
5641 |
ret_d: |
|
5642 |
return d; |
|
5643 |
} |
|
5644 |
||
5645 |
static Bigint *d2b(double d, int *e, int *bits) |
|
5646 |
{
|
|
5647 |
Bigint *b; |
|
5648 |
int de, i, k; |
|
5649 |
ULong *x, y, z; |
|
5650 |
||
5651 |
#ifdef Pack_32 |
|
5652 |
b = Balloc(1); |
|
5653 |
#else |
|
5654 |
b = Balloc(2); |
|
5655 |
#endif |
|
5656 |
x = b->x; |
|
5657 |
||
5658 |
z = getWord0(d) & Frac_mask; |
|
5659 |
setWord0(&d, getWord0(d) & 0x7fffffff); /* clear sign bit, which we ignore */ |
|
5660 |
#ifdef Sudden_Underflow |
|
5661 |
de = (int)(getWord0(d) >> Exp_shift); |
|
5662 |
#ifndef IBM |
|
5663 |
z |= Exp_msk11; |
|
5664 |
#endif |
|
5665 |
#else |
|
5666 |
if ((de = int(getWord0(d) >> Exp_shift)) != 0) |
|
5667 |
z |= Exp_msk1; |
|
5668 |
#endif |
|
5669 |
#ifdef Pack_32 |
|
5670 |
if ((y = getWord1(d)) != 0) {
|
|
5671 |
if ((k = lo0bits(&y)) != 0) {
|
|
5672 |
x[0] = y | z << (32 - k); |
|
5673 |
z >>= k; |
|
5674 |
} |
|
5675 |
else |
|
5676 |
x[0] = y; |
|
5677 |
i = b->wds = (x[1] = z) ? 2 : 1; |
|
5678 |
} |
|
5679 |
else {
|
|
5680 |
#ifdef BSD_QDTOA_DEBUG |
|
5681 |
if (!z) |
|
5682 |
Bug("Zero passed to d2b");
|
|
5683 |
#endif |
|
5684 |
k = lo0bits(&z); |
|
5685 |
x[0] = z; |
|
5686 |
i = b->wds = 1; |
|
5687 |
k += 32; |
|
5688 |
} |
|
5689 |
#else |
|
5690 |
if (y = getWord1(d)) {
|
|
5691 |
if (k = lo0bits(&y)) |
|
5692 |
if (k >= 16) {
|
|
5693 |
x[0] = y | z << 32 - k & 0xffff; |
|
5694 |
x[1] = z >> k - 16 & 0xffff; |
|
5695 |
x[2] = z >> k; |
|
5696 |
i = 2; |
|
5697 |
} |
|
5698 |
else {
|
|
5699 |
x[0] = y & 0xffff; |
|
5700 |
x[1] = y >> 16 | z << 16 - k & 0xffff; |
|
5701 |
x[2] = z >> k & 0xffff; |
|
5702 |
x[3] = z >> k+16; |
|
5703 |
i = 3; |
|
5704 |
} |
|
5705 |
else {
|
|
5706 |
x[0] = y & 0xffff; |
|
5707 |
x[1] = y >> 16; |
|
5708 |
x[2] = z & 0xffff; |
|
5709 |
x[3] = z >> 16; |
|
5710 |
i = 3; |
|
5711 |
} |
|
5712 |
} |
|
5713 |
else {
|
|
5714 |
#ifdef BSD_QDTOA_DEBUG |
|
5715 |
if (!z) |
|
5716 |
Bug("Zero passed to d2b");
|
|
5717 |
#endif |
|
5718 |
k = lo0bits(&z); |
|
5719 |
if (k >= 16) {
|
|
5720 |
x[0] = z; |
|
5721 |
i = 0; |
|
5722 |
} |
|
5723 |
else {
|
|
5724 |
x[0] = z & 0xffff; |
|
5725 |
x[1] = z >> 16; |
|
5726 |
i = 1; |
|
5727 |
} |
|
5728 |
k += 32; |
|
5729 |
} |
|
5730 |
while(!x[i]) |
|
5731 |
--i; |
|
5732 |
b->wds = i + 1; |
|
5733 |
#endif |
|
5734 |
#ifndef Sudden_Underflow |
|
5735 |
if (de) {
|
|
5736 |
#endif |
|
5737 |
#ifdef IBM |
|
5738 |
*e = (de - Bias - (P-1) << 2) + k; |
|
5739 |
*bits = 4*P + 8 - k - hi0bits(getWord0(d) & Frac_mask); |
|
5740 |
#else |
|
5741 |
*e = de - Bias - (P-1) + k; |
|
5742 |
*bits = P - k; |
|
5743 |
#endif |
|
5744 |
#ifndef Sudden_Underflow |
|
5745 |
} |
|
5746 |
else {
|
|
5747 |
*e = de - Bias - (P-1) + 1 + k; |
|
5748 |
#ifdef Pack_32 |
|
5749 |
*bits = 32*i - hi0bits(x[i-1]); |
|
5750 |
#else |
|
5751 |
*bits = (i+2)*16 - hi0bits(x[i]); |
|
5752 |
#endif |
|
5753 |
} |
|
5754 |
#endif |
|
5755 |
return b; |
|
5756 |
} |
|
5757 |
||
5758 |
static double ratio(Bigint *a, Bigint *b) |
|
5759 |
{
|
|
5760 |
double da, db; |
|
5761 |
int k, ka, kb; |
|
5762 |
||
5763 |
da = b2d(a, &ka); |
|
5764 |
db = b2d(b, &kb); |
|
5765 |
#ifdef Pack_32 |
|
5766 |
k = ka - kb + 32*(a->wds - b->wds); |
|
5767 |
#else |
|
5768 |
k = ka - kb + 16*(a->wds - b->wds); |
|
5769 |
#endif |
|
5770 |
#ifdef IBM |
|
5771 |
if (k > 0) {
|
|
5772 |
setWord0(&da, getWord0(da) + (k >> 2)*Exp_msk1); |
|
5773 |
if (k &= 3) |
|
5774 |
da *= 1 << k; |
|
5775 |
} |
|
5776 |
else {
|
|
5777 |
k = -k; |
|
5778 |
setWord0(&db, getWord0(db) + (k >> 2)*Exp_msk1); |
|
5779 |
if (k &= 3) |
|
5780 |
db *= 1 << k; |
|
5781 |
} |
|
5782 |
#else |
|
5783 |
if (k > 0) |
|
5784 |
setWord0(&da, getWord0(da) + k*Exp_msk1); |
|
5785 |
else {
|
|
5786 |
k = -k; |
|
5787 |
setWord0(&db, getWord0(db) + k*Exp_msk1); |
|
5788 |
} |
|
5789 |
#endif |
|
5790 |
return da / db; |
|
5791 |
} |
|
5792 |
||
5793 |
static const double tens[] = {
|
|
5794 |
1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9, |
|
5795 |
1e10, 1e11, 1e12, 1e13, 1e14, 1e15, 1e16, 1e17, 1e18, 1e19, |
|
5796 |
1e20, 1e21, 1e22 |
|
5797 |
#ifdef VAX |
|
5798 |
, 1e23, 1e24 |
|
5799 |
#endif |
|
5800 |
}; |
|
5801 |
||
5802 |
#ifdef IEEE_Arith |
|
5803 |
static const double bigtens[] = { 1e16, 1e32, 1e64, 1e128, 1e256 };
|
|
5804 |
static const double tinytens[] = { 1e-16, 1e-32, 1e-64, 1e-128, 1e-256 };
|
|
5805 |
#define n_bigtens 5 |
|
5806 |
#else |
|
5807 |
#ifdef IBM |
|
5808 |
static const double bigtens[] = { 1e16, 1e32, 1e64 };
|
|
5809 |
static const double tinytens[] = { 1e-16, 1e-32, 1e-64 };
|
|
5810 |
#define n_bigtens 3 |
|
5811 |
#else |
|
5812 |
static const double bigtens[] = { 1e16, 1e32 };
|
|
5813 |
static const double tinytens[] = { 1e-16, 1e-32 };
|
|
5814 |
#define n_bigtens 2 |
|
5815 |
#endif |
|
5816 |
#endif |
|
5817 |
||
5818 |
/* |
|
5819 |
The pre-release gcc3.3 shipped with SuSE 8.2 has a bug which causes |
|
5820 |
the comparison 1e-100 == 0.0 to return true. As a workaround, we |
|
5821 |
compare it to a global variable containing 0.0, which produces |
|
5822 |
correct assembler output. |
|
5823 |
||
5824 |
### consider detecting the broken compilers and using the static |
|
5825 |
### double for these, and use a #define for all working compilers |
|
5826 |
*/ |
|
5827 |
static double g_double_zero = 0.0; |
|
5828 |
||
5829 |
Q_CORE_EXPORT double qstrtod(const char *s00, const char **se, bool *ok) |
|
5830 |
{
|
|
5831 |
int bb2, bb5, bbe, bd2, bd5, bbbits, bs2, c, dsign, |
|
5832 |
e, e1, esign, i, j, k, nd, nd0, nf, nz, nz0, sign; |
|
5833 |
const char *s, *s0, *s1; |
|
5834 |
double aadj, aadj1, adj, rv, rv0; |
|
5835 |
Long L; |
|
5836 |
ULong y, z; |
|
5837 |
Bigint *bb1, *bd0; |
|
5838 |
Bigint *bb = NULL, *bd = NULL, *bs = NULL, *delta = NULL;/* pacify gcc */ |
|
5839 |
||
5840 |
/* |
|
5841 |
#ifndef KR_headers |
|
5842 |
const char decimal_point = localeconv()->decimal_point[0]; |
|
5843 |
#else |
|
5844 |
const char decimal_point = '.'; |
|
5845 |
#endif */ |
|
5846 |
if (ok != 0) |
|
5847 |
*ok = true; |
|
5848 |
||
5849 |
const char decimal_point = '.'; |
|
5850 |
||
5851 |
sign = nz0 = nz = 0; |
|
5852 |
rv = 0.; |
|
5853 |
||
5854 |
||
5855 |
for(s = s00; isspace(uchar(*s)); s++) |
|
5856 |
; |
|
5857 |
||
5858 |
if (*s == '-') {
|
|
5859 |
sign = 1; |
|
5860 |
s++; |
|
5861 |
} else if (*s == '+') {
|
|
5862 |
s++; |
|
5863 |
} |
|
5864 |
||
5865 |
if (*s == '\0') {
|
|
5866 |
s = s00; |
|
5867 |
goto ret; |
|
5868 |
} |
|
5869 |
||
5870 |
if (*s == '0') {
|
|
5871 |
nz0 = 1; |
|
5872 |
while(*++s == '0') ; |
|
5873 |
if (!*s) |
|
5874 |
goto ret; |
|
5875 |
} |
|
5876 |
s0 = s; |
|
5877 |
y = z = 0; |
|
5878 |
for(nd = nf = 0; (c = *s) >= '0' && c <= '9'; nd++, s++) |
|
5879 |
if (nd < 9) |
|
5880 |
y = 10*y + c - '0'; |
|
5881 |
else if (nd < 16) |
|
5882 |
z = 10*z + c - '0'; |
|
5883 |
nd0 = nd; |
|
5884 |
if (c == decimal_point) {
|
|
5885 |
c = *++s; |
|
5886 |
if (!nd) {
|
|
5887 |
for(; c == '0'; c = *++s) |
|
5888 |
nz++; |
|
5889 |
if (c > '0' && c <= '9') {
|
|
5890 |
s0 = s; |
|
5891 |
nf += nz; |
|
5892 |
nz = 0; |
|
5893 |
goto have_dig; |
|
5894 |
} |
|
5895 |
goto dig_done; |
|
5896 |
} |
|
5897 |
for(; c >= '0' && c <= '9'; c = *++s) {
|
|
5898 |
have_dig: |
|
5899 |
nz++; |
|
5900 |
if (c -= '0') {
|
|
5901 |
nf += nz; |
|
5902 |
for(i = 1; i < nz; i++) |
|
5903 |
if (nd++ < 9) |
|
5904 |
y *= 10; |
|
5905 |
else if (nd <= DBL_DIG + 1) |
|
5906 |
z *= 10; |
|
5907 |
if (nd++ < 9) |
|
5908 |
y = 10*y + c; |
|
5909 |
else if (nd <= DBL_DIG + 1) |
|
5910 |
z = 10*z + c; |
|
5911 |
nz = 0; |
|
5912 |
} |
|
5913 |
} |
|
5914 |
} |
|
5915 |
dig_done: |
|
5916 |
e = 0; |
|
5917 |
if (c == 'e' || c == 'E') {
|
|
5918 |
if (!nd && !nz && !nz0) {
|
|
5919 |
s = s00; |
|
5920 |
goto ret; |
|
5921 |
} |
|
5922 |
s00 = s; |
|
5923 |
esign = 0; |
|
5924 |
switch(c = *++s) {
|
|
5925 |
case '-': |
|
5926 |
esign = 1; |
|
5927 |
case '+': |
|
5928 |
c = *++s; |
|
5929 |
} |
|
5930 |
if (c >= '0' && c <= '9') {
|
|
5931 |
while(c == '0') |
|
5932 |
c = *++s; |
|
5933 |
if (c > '0' && c <= '9') {
|
|
5934 |
L = c - '0'; |
|
5935 |
s1 = s; |
|
5936 |
while((c = *++s) >= '0' && c <= '9') |
|
5937 |
L = 10*L + c - '0'; |
|
5938 |
if (s - s1 > 8 || L > 19999) |
|
5939 |
/* Avoid confusion from exponents |
|
5940 |
* so large that e might overflow. |
|
5941 |
*/ |
|
5942 |
e = 19999; /* safe for 16 bit ints */ |
|
5943 |
else |
|
5944 |
e = int(L); |
|
5945 |
if (esign) |
|
5946 |
e = -e; |
|
5947 |
} |
|
5948 |
else |
|
5949 |
e = 0; |
|
5950 |
} |
|
5951 |
else |
|
5952 |
s = s00; |
|
5953 |
} |
|
5954 |
if (!nd) {
|
|
5955 |
if (!nz && !nz0) |
|
5956 |
s = s00; |
|
5957 |
goto ret; |
|
5958 |
} |
|
5959 |
e1 = e -= nf; |
|
5960 |
||
5961 |
/* Now we have nd0 digits, starting at s0, followed by a |
|
5962 |
* decimal point, followed by nd-nd0 digits. The number we're |
|
5963 |
* after is the integer represented by those digits times |
|
5964 |
* 10**e */ |
|
5965 |
||
5966 |
if (!nd0) |
|
5967 |
nd0 = nd; |
|
5968 |
k = nd < DBL_DIG + 1 ? nd : DBL_DIG + 1; |
|
5969 |
rv = y; |
|
5970 |
if (k > 9) |
|
5971 |
#if defined(Q_OS_IRIX) && defined(Q_CC_GNU) |
|
5972 |
{
|
|
5973 |
// work around a bug on 64 bit IRIX gcc |
|
5974 |
double *t = (double *) tens; |
|
5975 |
rv = t[k - 9] * rv + z; |
|
5976 |
} |
|
5977 |
#else |
|
5978 |
rv = tens[k - 9] * rv + z; |
|
5979 |
#endif |
|
5980 |
||
5981 |
bd0 = 0; |
|
5982 |
if (nd <= DBL_DIG |
|
5983 |
#ifndef RND_PRODQUOT |
|
5984 |
&& FLT_ROUNDS == 1 |
|
5985 |
#endif |
|
5986 |
) {
|
|
5987 |
if (!e) |
|
5988 |
goto ret; |
|
5989 |
if (e > 0) {
|
|
5990 |
if (e <= Ten_pmax) {
|
|
5991 |
#ifdef VAX |
|
5992 |
goto vax_ovfl_check; |
|
5993 |
#else |
|
5994 |
/* rv = */ rounded_product(rv, tens[e]); |
|
5995 |
goto ret; |
|
5996 |
#endif |
|
5997 |
} |
|
5998 |
i = DBL_DIG - nd; |
|
5999 |
if (e <= Ten_pmax + i) {
|
|
6000 |
/* A fancier test would sometimes let us do |
|
6001 |
* this for larger i values. |
|
6002 |
*/ |
|
6003 |
e -= i; |
|
6004 |
rv *= tens[i]; |
|
6005 |
#ifdef VAX |
|
6006 |
/* VAX exponent range is so narrow we must |
|
6007 |
* worry about overflow here... |
|
6008 |
*/ |
|
6009 |
vax_ovfl_check: |
|
6010 |
setWord0(&rv, getWord0(rv) - P*Exp_msk1); |
|
6011 |
/* rv = */ rounded_product(rv, tens[e]); |
|
6012 |
if ((getWord0(rv) & Exp_mask) |
|
6013 |
> Exp_msk1*(DBL_MAX_EXP+Bias-1-P)) |
|
6014 |
goto ovfl; |
|
6015 |
setWord0(&rv, getWord0(rv) + P*Exp_msk1); |
|
6016 |
#else |
|
6017 |
/* rv = */ rounded_product(rv, tens[e]); |
|
6018 |
#endif |
|
6019 |
goto ret; |
|
6020 |
} |
|
6021 |
} |
|
6022 |
#ifndef Inaccurate_Divide |
|
6023 |
else if (e >= -Ten_pmax) {
|
|
6024 |
/* rv = */ rounded_quotient(rv, tens[-e]); |
|
6025 |
goto ret; |
|
6026 |
} |
|
6027 |
#endif |
|
6028 |
} |
|
6029 |
e1 += nd - k; |
|
6030 |
||
6031 |
/* Get starting approximation = rv * 10**e1 */ |
|
6032 |
||
6033 |
if (e1 > 0) {
|
|
6034 |
if ((i = e1 & 15) != 0) |
|
6035 |
rv *= tens[i]; |
|
6036 |
if (e1 &= ~15) {
|
|
6037 |
if (e1 > DBL_MAX_10_EXP) {
|
|
6038 |
ovfl: |
|
6039 |
// errno = ERANGE; |
|
6040 |
if (ok != 0) |
|
6041 |
*ok = false; |
|
6042 |
#ifdef __STDC__ |
|
6043 |
rv = HUGE_VAL; |
|
6044 |
#else |
|
6045 |
/* Can't trust HUGE_VAL */ |
|
6046 |
#ifdef IEEE_Arith |
|
6047 |
setWord0(&rv, Exp_mask); |
|
6048 |
setWord1(&rv, 0); |
|
6049 |
#else |
|
6050 |
setWord0(&rv, Big0); |
|
6051 |
setWord1(&rv, Big1); |
|
6052 |
#endif |
|
6053 |
#endif |
|
6054 |
if (bd0) |
|
6055 |
goto retfree; |
|
6056 |
goto ret; |
|
6057 |
} |
|
6058 |
if (e1 >>= 4) {
|
|
6059 |
for(j = 0; e1 > 1; j++, e1 >>= 1) |
|
6060 |
if (e1 & 1) |
|
6061 |
rv *= bigtens[j]; |
|
6062 |
/* The last multiplication could overflow. */ |
|
6063 |
setWord0(&rv, getWord0(rv) - P*Exp_msk1); |
|
6064 |
rv *= bigtens[j]; |
|
6065 |
if ((z = getWord0(rv) & Exp_mask) |
|
6066 |
> Exp_msk1*(DBL_MAX_EXP+Bias-P)) |
|
6067 |
goto ovfl; |
|
6068 |
if (z > Exp_msk1*(DBL_MAX_EXP+Bias-1-P)) {
|
|
6069 |
/* set to largest number */ |
|
6070 |
/* (Can't trust DBL_MAX) */ |
|
6071 |
setWord0(&rv, Big0); |
|
6072 |
setWord1(&rv, Big1); |
|
6073 |
} |
|
6074 |
else |
|
6075 |
setWord0(&rv, getWord0(rv) + P*Exp_msk1); |
|
6076 |
} |
|
6077 |
||
6078 |
} |
|
6079 |
} |
|
6080 |
else if (e1 < 0) {
|
|
6081 |
e1 = -e1; |
|
6082 |
if ((i = e1 & 15) != 0) |
|
6083 |
rv /= tens[i]; |
|
6084 |
if (e1 &= ~15) {
|
|
6085 |
e1 >>= 4; |
|
6086 |
if (e1 >= 1 << n_bigtens) |
|
6087 |
goto undfl; |
|
6088 |
for(j = 0; e1 > 1; j++, e1 >>= 1) |
|
6089 |
if (e1 & 1) |
|
6090 |
rv *= tinytens[j]; |
|
6091 |
/* The last multiplication could underflow. */ |
|
6092 |
rv0 = rv; |
|
6093 |
rv *= tinytens[j]; |
|
6094 |
if (rv == g_double_zero) |
|
6095 |
{
|
|
6096 |
rv = 2.*rv0; |
|
6097 |
rv *= tinytens[j]; |
|
6098 |
if (rv == g_double_zero) |
|
6099 |
{
|
|
6100 |
undfl: |
|
6101 |
rv = 0.; |
|
6102 |
// errno = ERANGE; |
|
6103 |
if (ok != 0) |
|
6104 |
*ok = false; |
|
6105 |
if (bd0) |
|
6106 |
goto retfree; |
|
6107 |
goto ret; |
|
6108 |
} |
|
6109 |
setWord0(&rv, Tiny0); |
|
6110 |
setWord1(&rv, Tiny1); |
|
6111 |
/* The refinement below will clean |
|
6112 |
* this approximation up. |
|
6113 |
*/ |
|
6114 |
} |
|
6115 |
} |
|
6116 |
} |
|
6117 |
||
6118 |
/* Now the hard part -- adjusting rv to the correct value.*/ |
|
6119 |
||
6120 |
/* Put digits into bd: true value = bd * 10^e */ |
|
6121 |
||
6122 |
bd0 = s2b(s0, nd0, nd, y); |
|
6123 |
||
6124 |
for(;;) {
|
|
6125 |
bd = Balloc(bd0->k); |
|
6126 |
Bcopy(bd, bd0); |
|
6127 |
bb = d2b(rv, &bbe, &bbbits); /* rv = bb * 2^bbe */ |
|
6128 |
bs = i2b(1); |
|
6129 |
||
6130 |
if (e >= 0) {
|
|
6131 |
bb2 = bb5 = 0; |
|
6132 |
bd2 = bd5 = e; |
|
6133 |
} |
|
6134 |
else {
|
|
6135 |
bb2 = bb5 = -e; |
|
6136 |
bd2 = bd5 = 0; |
|
6137 |
} |
|
6138 |
if (bbe >= 0) |
|
6139 |
bb2 += bbe; |
|
6140 |
else |
|
6141 |
bd2 -= bbe; |
|
6142 |
bs2 = bb2; |
|
6143 |
#ifdef Sudden_Underflow |
|
6144 |
#ifdef IBM |
|
6145 |
j = 1 + 4*P - 3 - bbbits + ((bbe + bbbits - 1) & 3); |
|
6146 |
#else |
|
6147 |
j = P + 1 - bbbits; |
|
6148 |
#endif |
|
6149 |
#else |
|
6150 |
i = bbe + bbbits - 1; /* logb(rv) */ |
|
6151 |
if (i < Emin) /* denormal */ |
|
6152 |
j = bbe + (P-Emin); |
|
6153 |
else |
|
6154 |
j = P + 1 - bbbits; |
|
6155 |
#endif |
|
6156 |
bb2 += j; |
|
6157 |
bd2 += j; |
|
6158 |
i = bb2 < bd2 ? bb2 : bd2; |
|
6159 |
if (i > bs2) |
|
6160 |
i = bs2; |
|
6161 |
if (i > 0) {
|
|
6162 |
bb2 -= i; |
|
6163 |
bd2 -= i; |
|
6164 |
bs2 -= i; |
|
6165 |
} |
|
6166 |
if (bb5 > 0) {
|
|
6167 |
bs = pow5mult(bs, bb5); |
|
6168 |
bb1 = mult(bs, bb); |
|
6169 |
Bfree(bb); |
|
6170 |
bb = bb1; |
|
6171 |
} |
|
6172 |
if (bb2 > 0) |
|
6173 |
bb = lshift(bb, bb2); |
|
6174 |
if (bd5 > 0) |
|
6175 |
bd = pow5mult(bd, bd5); |
|
6176 |
if (bd2 > 0) |
|
6177 |
bd = lshift(bd, bd2); |
|
6178 |
if (bs2 > 0) |
|
6179 |
bs = lshift(bs, bs2); |
|
6180 |
delta = diff(bb, bd); |
|
6181 |
dsign = delta->sign; |
|
6182 |
delta->sign = 0; |
|
6183 |
i = cmp(delta, bs); |
|
6184 |
if (i < 0) {
|
|
6185 |
/* Error is less than half an ulp -- check for |
|
6186 |
* special case of mantissa a power of two. |
|
6187 |
*/ |
|
6188 |
if (dsign || getWord1(rv) || getWord0(rv) & Bndry_mask) |
|
6189 |
break; |
|
6190 |
delta = lshift(delta,Log2P); |
|
6191 |
if (cmp(delta, bs) > 0) |
|
6192 |
goto drop_down; |
|
6193 |
break; |
|
6194 |
} |
|
6195 |
if (i == 0) {
|
|
6196 |
/* exactly half-way between */ |
|
6197 |
if (dsign) {
|
|
6198 |
if ((getWord0(rv) & Bndry_mask1) == Bndry_mask1 |
|
6199 |
&& getWord1(rv) == 0xffffffff) {
|
|
6200 |
/*boundary case -- increment exponent*/ |
|
6201 |
setWord0(&rv, (getWord0(rv) & Exp_mask) |
|
6202 |
+ Exp_msk1 |
|
6203 |
#ifdef IBM |
|
6204 |
| Exp_msk1 >> 4 |
|
6205 |
#endif |
|
6206 |
); |
|
6207 |
setWord1(&rv, 0); |
|
6208 |
break; |
|
6209 |
} |
|
6210 |
} |
|
6211 |
else if (!(getWord0(rv) & Bndry_mask) && !getWord1(rv)) {
|
|
6212 |
drop_down: |
|
6213 |
/* boundary case -- decrement exponent */ |
|
6214 |
#ifdef Sudden_Underflow |
|
6215 |
L = getWord0(rv) & Exp_mask; |
|
6216 |
#ifdef IBM |
|
6217 |
if (L < Exp_msk1) |
|
6218 |
#else |
|
6219 |
if (L <= Exp_msk1) |
|
6220 |
#endif |
|
6221 |
goto undfl; |
|
6222 |
L -= Exp_msk1; |
|
6223 |
#else |
|
6224 |
L = (getWord0(rv) & Exp_mask) - Exp_msk1; |
|
6225 |
#endif |
|
6226 |
setWord0(&rv, L | Bndry_mask1); |
|
6227 |
setWord1(&rv, 0xffffffff); |
|
6228 |
#ifdef IBM |
|
6229 |
goto cont; |
|
6230 |
#else |
|
6231 |
break; |
|
6232 |
#endif |
|
6233 |
} |
|
6234 |
#ifndef ROUND_BIASED |
|
6235 |
if (!(getWord1(rv) & LSB)) |
|
6236 |
break; |
|
6237 |
#endif |
|
6238 |
if (dsign) |
|
6239 |
rv += ulp(rv); |
|
6240 |
#ifndef ROUND_BIASED |
|
6241 |
else {
|
|
6242 |
rv -= ulp(rv); |
|
6243 |
#ifndef Sudden_Underflow |
|
6244 |
if (rv == g_double_zero) |
|
6245 |
goto undfl; |
|
6246 |
#endif |
|
6247 |
} |
|
6248 |
#endif |
|
6249 |
break; |
|
6250 |
} |
|
6251 |
if ((aadj = ratio(delta, bs)) <= 2.) {
|
|
6252 |
if (dsign) |
|
6253 |
aadj = aadj1 = 1.; |
|
6254 |
else if (getWord1(rv) || getWord0(rv) & Bndry_mask) {
|
|
6255 |
#ifndef Sudden_Underflow |
|
6256 |
if (getWord1(rv) == Tiny1 && !getWord0(rv)) |
|
6257 |
goto undfl; |
|
6258 |
#endif |
|
6259 |
aadj = 1.; |
|
6260 |
aadj1 = -1.; |
|
6261 |
} |
|
6262 |
else {
|
|
6263 |
/* special case -- power of FLT_RADIX to be */ |
|
6264 |
/* rounded down... */ |
|
6265 |
||
6266 |
if (aadj < 2./FLT_RADIX) |
|
6267 |
aadj = 1./FLT_RADIX; |
|
6268 |
else |
|
6269 |
aadj *= 0.5; |
|
6270 |
aadj1 = -aadj; |
|
6271 |
} |
|
6272 |
} |
|
6273 |
else {
|
|
6274 |
aadj *= 0.5; |
|
6275 |
aadj1 = dsign ? aadj : -aadj; |
|
6276 |
#ifdef Check_FLT_ROUNDS |
|
6277 |
switch(FLT_ROUNDS) {
|
|
6278 |
case 2: /* towards +infinity */ |
|
6279 |
aadj1 -= 0.5; |
|
6280 |
break; |
|
6281 |
case 0: /* towards 0 */ |
|
6282 |
case 3: /* towards -infinity */ |
|
6283 |
aadj1 += 0.5; |
|
6284 |
} |
|
6285 |
#else |
|
6286 |
if (FLT_ROUNDS == 0) |
|
6287 |
aadj1 += 0.5; |
|
6288 |
#endif |
|
6289 |
} |
|
6290 |
y = getWord0(rv) & Exp_mask; |
|
6291 |
||
6292 |
/* Check for overflow */ |
|
6293 |
||
6294 |
if (y == Exp_msk1*(DBL_MAX_EXP+Bias-1)) {
|
|
6295 |
rv0 = rv; |
|
6296 |
setWord0(&rv, getWord0(rv) - P*Exp_msk1); |
|
6297 |
adj = aadj1 * ulp(rv); |
|
6298 |
rv += adj; |
|
6299 |
if ((getWord0(rv) & Exp_mask) >= |
|
6300 |
Exp_msk1*(DBL_MAX_EXP+Bias-P)) {
|
|
6301 |
if (getWord0(rv0) == Big0 && getWord1(rv0) == Big1) |
|
6302 |
goto ovfl; |
|
6303 |
setWord0(&rv, Big0); |
|
6304 |
setWord1(&rv, Big1); |
|
6305 |
goto cont; |
|
6306 |
} |
|
6307 |
else |
|
6308 |
setWord0(&rv, getWord0(rv) + P*Exp_msk1); |
|
6309 |
} |
|
6310 |
else {
|
|
6311 |
#ifdef Sudden_Underflow |
|
6312 |
if ((getWord0(rv) & Exp_mask) <= P*Exp_msk1) {
|
|
6313 |
rv0 = rv; |
|
6314 |
setWord0(&rv, getWord0(rv) + P*Exp_msk1); |
|
6315 |
adj = aadj1 * ulp(rv); |
|
6316 |
rv += adj; |
|
6317 |
#ifdef IBM |
|
6318 |
if ((getWord0(rv) & Exp_mask) < P*Exp_msk1) |
|
6319 |
#else |
|
6320 |
if ((getWord0(rv) & Exp_mask) <= P*Exp_msk1) |
|
6321 |
#endif |
|
6322 |
{
|
|
6323 |
if (getWord0(rv0) == Tiny0 |
|
6324 |
&& getWord1(rv0) == Tiny1) |
|
6325 |
goto undfl; |
|
6326 |
setWord0(&rv, Tiny0); |
|
6327 |
setWord1(&rv, Tiny1); |
|
6328 |
goto cont; |
|
6329 |
} |
|
6330 |
else |
|
6331 |
setWord0(&rv, getWord0(rv) - P*Exp_msk1); |
|
6332 |
} |
|
6333 |
else {
|
|
6334 |
adj = aadj1 * ulp(rv); |
|
6335 |
rv += adj; |
|
6336 |
} |
|
6337 |
#else |
|
6338 |
/* Compute adj so that the IEEE rounding rules will |
|
6339 |
* correctly round rv + adj in some half-way cases. |
|
6340 |
* If rv * ulp(rv) is denormalized (i.e., |
|
6341 |
* y <= (P-1)*Exp_msk1), we must adjust aadj to avoid |
|
6342 |
* trouble from bits lost to denormalization; |
|
6343 |
* example: 1.2e-307 . |
|
6344 |
*/ |
|
6345 |
if (y <= (P-1)*Exp_msk1 && aadj >= 1.) {
|
|
6346 |
aadj1 = int(aadj + 0.5); |
|
6347 |
if (!dsign) |
|
6348 |
aadj1 = -aadj1; |
|
6349 |
} |
|
6350 |
adj = aadj1 * ulp(rv); |
|
6351 |
rv += adj; |
|
6352 |
#endif |
|
6353 |
} |
|
6354 |
z = getWord0(rv) & Exp_mask; |
|
6355 |
if (y == z) {
|
|
6356 |
/* Can we stop now? */ |
|
6357 |
L = Long(aadj); |
|
6358 |
aadj -= L; |
|
6359 |
/* The tolerances below are conservative. */ |
|
6360 |
if (dsign || getWord1(rv) || getWord0(rv) & Bndry_mask) {
|
|
6361 |
if (aadj < .4999999 || aadj > .5000001) |
|
6362 |
break; |
|
6363 |
} |
|
6364 |
else if (aadj < .4999999/FLT_RADIX) |
|
6365 |
break; |
|
6366 |
} |
|
6367 |
cont: |
|
6368 |
Bfree(bb); |
|
6369 |
Bfree(bd); |
|
6370 |
Bfree(bs); |
|
6371 |
Bfree(delta); |
|
6372 |
} |
|
6373 |
retfree: |
|
6374 |
Bfree(bb); |
|
6375 |
Bfree(bd); |
|
6376 |
Bfree(bs); |
|
6377 |
Bfree(bd0); |
|
6378 |
Bfree(delta); |
|
6379 |
ret: |
|
6380 |
if (se) |
|
6381 |
*se = s; |
|
6382 |
return sign ? -rv : rv; |
|
6383 |
} |
|
6384 |
||
6385 |
static int quorem(Bigint *b, Bigint *S) |
|
6386 |
{
|
|
6387 |
int n; |
|
6388 |
Long borrow, y; |
|
6389 |
ULong carry, q, ys; |
|
6390 |
ULong *bx, *bxe, *sx, *sxe; |
|
6391 |
#ifdef Pack_32 |
|
6392 |
Long z; |
|
6393 |
ULong si, zs; |
|
6394 |
#endif |
|
6395 |
||
6396 |
n = S->wds; |
|
6397 |
#ifdef BSD_QDTOA_DEBUG |
|
6398 |
/*debug*/ if (b->wds > n) |
|
6399 |
/*debug*/ Bug("oversize b in quorem");
|
|
6400 |
#endif |
|
6401 |
if (b->wds < n) |
|
6402 |
return 0; |
|
6403 |
sx = S->x; |
|
6404 |
sxe = sx + --n; |
|
6405 |
bx = b->x; |
|
6406 |
bxe = bx + n; |
|
6407 |
q = *bxe / (*sxe + 1); /* ensure q <= true quotient */ |
|
6408 |
#ifdef BSD_QDTOA_DEBUG |
|
6409 |
/*debug*/ if (q > 9) |
|
6410 |
/*debug*/ Bug("oversized quotient in quorem");
|
|
6411 |
#endif |
|
6412 |
if (q) {
|
|
6413 |
borrow = 0; |
|
6414 |
carry = 0; |
|
6415 |
do {
|
|
6416 |
#ifdef Pack_32 |
|
6417 |
si = *sx++; |
|
6418 |
ys = (si & 0xffff) * q + carry; |
|
6419 |
zs = (si >> 16) * q + (ys >> 16); |
|
6420 |
carry = zs >> 16; |
|
6421 |
y = (*bx & 0xffff) - (ys & 0xffff) + borrow; |
|
6422 |
borrow = y >> 16; |
|
6423 |
Sign_Extend(borrow, y); |
|
6424 |
z = (*bx >> 16) - (zs & 0xffff) + borrow; |
|
6425 |
borrow = z >> 16; |
|
6426 |
Sign_Extend(borrow, z); |
|
6427 |
Storeinc(bx, z, y); |
|
6428 |
#else |
|
6429 |
ys = *sx++ * q + carry; |
|
6430 |
carry = ys >> 16; |
|
6431 |
y = *bx - (ys & 0xffff) + borrow; |
|
6432 |
borrow = y >> 16; |
|
6433 |
Sign_Extend(borrow, y); |
|
6434 |
*bx++ = y & 0xffff; |
|
6435 |
#endif |
|
6436 |
} |
|
6437 |
while(sx <= sxe); |
|
6438 |
if (!*bxe) {
|
|
6439 |
bx = b->x; |
|
6440 |
while(--bxe > bx && !*bxe) |
|
6441 |
--n; |
|
6442 |
b->wds = n; |
|
6443 |
} |
|
6444 |
} |
|
6445 |
if (cmp(b, S) >= 0) {
|
|
6446 |
q++; |
|
6447 |
borrow = 0; |
|
6448 |
carry = 0; |
|
6449 |
bx = b->x; |
|
6450 |
sx = S->x; |
|
6451 |
do {
|
|
6452 |
#ifdef Pack_32 |
|
6453 |
si = *sx++; |
|
6454 |
ys = (si & 0xffff) + carry; |
|
6455 |
zs = (si >> 16) + (ys >> 16); |
|
6456 |
carry = zs >> 16; |
|
6457 |
y = (*bx & 0xffff) - (ys & 0xffff) + borrow; |
|
6458 |
borrow = y >> 16; |
|
6459 |
Sign_Extend(borrow, y); |
|
6460 |
z = (*bx >> 16) - (zs & 0xffff) + borrow; |
|
6461 |
borrow = z >> 16; |
|
6462 |
Sign_Extend(borrow, z); |
|
6463 |
Storeinc(bx, z, y); |
|
6464 |
#else |
|
6465 |
ys = *sx++ + carry; |
|
6466 |
carry = ys >> 16; |
|
6467 |
y = *bx - (ys & 0xffff) + borrow; |
|
6468 |
borrow = y >> 16; |
|
6469 |
Sign_Extend(borrow, y); |
|
6470 |
*bx++ = y & 0xffff; |
|
6471 |
#endif |
|
6472 |
} |
|
6473 |
while(sx <= sxe); |
|
6474 |
bx = b->x; |
|
6475 |
bxe = bx + n; |
|
6476 |
if (!*bxe) {
|
|
6477 |
while(--bxe > bx && !*bxe) |
|
6478 |
--n; |
|
6479 |
b->wds = n; |
|
6480 |
} |
|
6481 |
} |
|
6482 |
return q; |
|
6483 |
} |
|
6484 |
||
6485 |
/* dtoa for IEEE arithmetic (dmg): convert double to ASCII string. |
|
6486 |
* |
|
6487 |
* Inspired by "How to Print Floating-Point Numbers Accurately" by |
|
6488 |
* Guy L. Steele, Jr. and Jon L. White [Proc. ACM SIGPLAN '90, pp. 92-101]. |
|
6489 |
* |
|
6490 |
* Modifications: |
|
6491 |
* 1. Rather than iterating, we use a simple numeric overestimate |
|
6492 |
* to determine k = floor(log10(d)). We scale relevant |
|
6493 |
* quantities using O(log2(k)) rather than O(k) multiplications. |
|
6494 |
* 2. For some modes > 2 (corresponding to ecvt and fcvt), we don't |
|
6495 |
* try to generate digits strictly left to right. Instead, we |
|
6496 |
* compute with fewer bits and propagate the carry if necessary |
|
6497 |
* when rounding the final digit up. This is often faster. |
|
6498 |
* 3. Under the assumption that input will be rounded nearest, |
|
6499 |
* mode 0 renders 1e23 as 1e23 rather than 9.999999999999999e22. |
|
6500 |
* That is, we allow equality in stopping tests when the |
|
6501 |
* round-nearest rule will give the same floating-point value |
|
6502 |
* as would satisfaction of the stopping test with strict |
|
6503 |
* inequality. |
|
6504 |
* 4. We remove common factors of powers of 2 from relevant |
|
6505 |
* quantities. |
|
6506 |
* 5. When converting floating-point integers less than 1e16, |
|
6507 |
* we use floating-point arithmetic rather than resorting |
|
6508 |
* to multiple-precision integers. |
|
6509 |
* 6. When asked to produce fewer than 15 digits, we first try |
|
6510 |
* to get by with floating-point arithmetic; we resort to |
|
6511 |
* multiple-precision integer arithmetic only if we cannot |
|
6512 |
* guarantee that the floating-point calculation has given |
|
6513 |
* the correctly rounded result. For k requested digits and |
|
6514 |
* "uniformly" distributed input, the probability is |
|
6515 |
* something like 10^(k-15) that we must resort to the Long |
|
6516 |
* calculation. |
|
6517 |
*/ |
|
6518 |
||
6519 |
||
6520 |
/* This actually sometimes returns a pointer to a string literal |
|
6521 |
cast to a char*. Do NOT try to modify the return value. */ |
|
6522 |
||
6523 |
Q_CORE_EXPORT char *qdtoa ( double d, int mode, int ndigits, int *decpt, int *sign, char **rve, char **resultp) |
|
6524 |
{
|
|
6525 |
// Some values of the floating-point control word can cause _qdtoa to crash with an underflow. |
|
6526 |
// We set a safe value here. |
|
6527 |
#ifdef Q_OS_WIN |
|
6528 |
_clear87(); |
|
6529 |
unsigned int oldbits = _control87(0, 0); |
|
6530 |
#ifndef MCW_EM |
|
6531 |
# ifdef _MCW_EM |
|
6532 |
# define MCW_EM _MCW_EM |
|
6533 |
# else |
|
6534 |
# define MCW_EM 0x0008001F |
|
6535 |
# endif |
|
6536 |
#endif |
|
6537 |
_control87(MCW_EM, MCW_EM); |
|
6538 |
#endif |
|
6539 |
||
6540 |
#if defined(Q_OS_LINUX) && !defined(__UCLIBC__) |
|
6541 |
fenv_t envp; |
|
6542 |
feholdexcept(&envp); |
|
6543 |
#endif |
|
6544 |
||
6545 |
char *s = _qdtoa(d, mode, ndigits, decpt, sign, rve, resultp); |
|
6546 |
||
6547 |
#ifdef Q_OS_WIN |
|
6548 |
_clear87(); |
|
6549 |
#ifndef _M_X64 |
|
6550 |
_control87(oldbits, 0xFFFFF); |
|
6551 |
#else |
|
6552 |
_control87(oldbits, _MCW_EM|_MCW_DN|_MCW_RC); |
|
6553 |
#endif //_M_X64 |
|
6554 |
#endif //Q_OS_WIN |
|
6555 |
||
6556 |
#if defined(Q_OS_LINUX) && !defined(__UCLIBC__) |
|
6557 |
fesetenv(&envp); |
|
6558 |
#endif |
|
6559 |
||
6560 |
return s; |
|
6561 |
} |
|
6562 |
||
6563 |
static char *_qdtoa( NEEDS_VOLATILE double d, int mode, int ndigits, int *decpt, int *sign, char **rve, char **resultp) |
|
6564 |
{
|
|
6565 |
/* |
|
6566 |
Arguments ndigits, decpt, sign are similar to those |
|
6567 |
of ecvt and fcvt; trailing zeros are suppressed from |
|
6568 |
the returned string. If not null, *rve is set to point |
|
6569 |
to the end of the return value. If d is +-Infinity or NaN, |
|
6570 |
then *decpt is set to 9999. |
|
6571 |
||
6572 |
mode: |
|
6573 |
0 ==> shortest string that yields d when read in |
|
6574 |
and rounded to nearest. |
|
6575 |
1 ==> like 0, but with Steele & White stopping rule; |
|
6576 |
e.g. with IEEE P754 arithmetic , mode 0 gives |
|
6577 |
1e23 whereas mode 1 gives 9.999999999999999e22. |
|
6578 |
2 ==> max(1,ndigits) significant digits. This gives a |
|
6579 |
return value similar to that of ecvt, except |
|
6580 |
that trailing zeros are suppressed. |
|
6581 |
3 ==> through ndigits past the decimal point. This |
|
6582 |
gives a return value similar to that from fcvt, |
|
6583 |
except that trailing zeros are suppressed, and |
|
6584 |
ndigits can be negative. |
|
6585 |
4-9 should give the same return values as 2-3, i.e., |
|
6586 |
4 <= mode <= 9 ==> same return as mode |
|
6587 |
2 + (mode & 1). These modes are mainly for |
|
6588 |
debugging; often they run slower but sometimes |
|
6589 |
faster than modes 2-3. |
|
6590 |
4,5,8,9 ==> left-to-right digit generation. |
|
6591 |
6-9 ==> don't try fast floating-point estimate |
|
6592 |
(if applicable). |
|
6593 |
||
6594 |
Values of mode other than 0-9 are treated as mode 0. |
|
6595 |
||
6596 |
Sufficient space is allocated to the return value |
|
6597 |
to hold the suppressed trailing zeros. |
|
6598 |
*/ |
|
6599 |
||
6600 |
int bbits, b2, b5, be, dig, i, ieps, ilim0, |
|
6601 |
j, j1, k, k0, k_check, leftright, m2, m5, s2, s5, |
|
6602 |
try_quick; |
|
6603 |
int ilim = 0, ilim1 = 0, spec_case = 0; /* pacify gcc */ |
|
6604 |
Long L; |
|
6605 |
#ifndef Sudden_Underflow |
|
6606 |
int denorm; |
|
6607 |
ULong x; |
|
6608 |
#endif |
|
6609 |
Bigint *b, *b1, *delta, *mhi, *S; |
|
6610 |
Bigint *mlo = NULL; /* pacify gcc */ |
|
6611 |
double d2; |
|
6612 |
double ds, eps; |
|
6613 |
char *s, *s0; |
|
6614 |
||
6615 |
if (getWord0(d) & Sign_bit) {
|
|
6616 |
/* set sign for everything, including 0's and NaNs */ |
|
6617 |
*sign = 1; |
|
6618 |
setWord0(&d, getWord0(d) & ~Sign_bit); /* clear sign bit */ |
|
6619 |
} |
|
6620 |
else |
|
6621 |
*sign = 0; |
|
6622 |
||
6623 |
#if defined(IEEE_Arith) + defined(VAX) |
|
6624 |
#ifdef IEEE_Arith |
|
6625 |
if ((getWord0(d) & Exp_mask) == Exp_mask) |
|
6626 |
#else |
|
6627 |
if (getWord0(d) == 0x8000) |
|
6628 |
#endif |
|
6629 |
{
|
|
6630 |
/* Infinity or NaN */ |
|
6631 |
*decpt = 9999; |
|
6632 |
s = |
|
6633 |
#ifdef IEEE_Arith |
|
6634 |
!getWord1(d) && !(getWord0(d) & 0xfffff) ? const_cast<char*>("Infinity") :
|
|
6635 |
#endif |
|
6636 |
const_cast<char*>("NaN");
|
|
6637 |
if (rve) |
|
6638 |
*rve = |
|
6639 |
#ifdef IEEE_Arith |
|
6640 |
s[3] ? s + 8 : |
|
6641 |
#endif |
|
6642 |
s + 3; |
|
6643 |
return s; |
|
6644 |
} |
|
6645 |
#endif |
|
6646 |
#ifdef IBM |
|
6647 |
d += 0; /* normalize */ |
|
6648 |
#endif |
|
6649 |
if (d == g_double_zero) |
|
6650 |
{
|
|
6651 |
*decpt = 1; |
|
6652 |
s = const_cast<char*>("0");
|
|
6653 |
if (rve) |
|
6654 |
*rve = s + 1; |
|
6655 |
return s; |
|
6656 |
} |
|
6657 |
||
6658 |
b = d2b(d, &be, &bbits); |
|
6659 |
#ifdef Sudden_Underflow |
|
6660 |
i = (int)(getWord0(d) >> Exp_shift1 & (Exp_mask>>Exp_shift1)); |
|
6661 |
#else |
|
6662 |
if ((i = int(getWord0(d) >> Exp_shift1 & (Exp_mask>>Exp_shift1))) != 0) {
|
|
6663 |
#endif |
|
6664 |
d2 = d; |
|
6665 |
setWord0(&d2, getWord0(d2) & Frac_mask1); |
|
6666 |
setWord0(&d2, getWord0(d2) | Exp_11); |
|
6667 |
#ifdef IBM |
|
6668 |
if (j = 11 - hi0bits(getWord0(d2) & Frac_mask)) |
|
6669 |
d2 /= 1 << j; |
|
6670 |
#endif |
|
6671 |
||
6672 |
/* log(x) ~=~ log(1.5) + (x-1.5)/1.5 |
|
6673 |
* log10(x) = log(x) / log(10) |
|
6674 |
* ~=~ log(1.5)/log(10) + (x-1.5)/(1.5*log(10)) |
|
6675 |
* log10(d) = (i-Bias)*log(2)/log(10) + log10(d2) |
|
6676 |
* |
|
6677 |
* This suggests computing an approximation k to log10(d) by |
|
6678 |
* |
|
6679 |
* k = (i - Bias)*0.301029995663981 |
|
6680 |
* + ( (d2-1.5)*0.289529654602168 + 0.176091259055681 ); |
|
6681 |
* |
|
6682 |
* We want k to be too large rather than too small. |
|
6683 |
* The error in the first-order Taylor series approximation |
|
6684 |
* is in our favor, so we just round up the constant enough |
|
6685 |
* to compensate for any error in the multiplication of |
|
6686 |
* (i - Bias) by 0.301029995663981; since |i - Bias| <= 1077, |
|
6687 |
* and 1077 * 0.30103 * 2^-52 ~=~ 7.2e-14, |
|
6688 |
* adding 1e-13 to the constant term more than suffices. |
|
6689 |
* Hence we adjust the constant term to 0.1760912590558. |
|
6690 |
* (We could get a more accurate k by invoking log10, |
|
6691 |
* but this is probably not worthwhile.) |
|
6692 |
*/ |
|
6693 |
||
6694 |
i -= Bias; |
|
6695 |
#ifdef IBM |
|
6696 |
i <<= 2; |
|
6697 |
i += j; |
|
6698 |
#endif |
|
6699 |
#ifndef Sudden_Underflow |
|
6700 |
denorm = 0; |
|
6701 |
} |
|
6702 |
else {
|
|
6703 |
/* d is denormalized */ |
|
6704 |
||
6705 |
i = bbits + be + (Bias + (P-1) - 1); |
|
6706 |
x = i > 32 ? getWord0(d) << (64 - i) | getWord1(d) >> (i - 32) |
|
6707 |
: getWord1(d) << (32 - i); |
|
6708 |
d2 = x; |
|
6709 |
setWord0(&d2, getWord0(d2) - 31*Exp_msk1); /* adjust exponent */ |
|
6710 |
i -= (Bias + (P-1) - 1) + 1; |
|
6711 |
denorm = 1; |
|
6712 |
} |
|
6713 |
#endif |
|
6714 |
ds = (d2-1.5)*0.289529654602168 + 0.1760912590558 + i*0.301029995663981; |
|
6715 |
k = int(ds); |
|
6716 |
if (ds < 0. && ds != k) |
|
6717 |
k--; /* want k = floor(ds) */ |
|
6718 |
k_check = 1; |
|
6719 |
if (k >= 0 && k <= Ten_pmax) {
|
|
6720 |
if (d < tens[k]) |
|
6721 |
k--; |
|
6722 |
k_check = 0; |
|
6723 |
} |
|
6724 |
j = bbits - i - 1; |
|
6725 |
if (j >= 0) {
|
|
6726 |
b2 = 0; |
|
6727 |
s2 = j; |
|
6728 |
} |
|
6729 |
else {
|
|
6730 |
b2 = -j; |
|
6731 |
s2 = 0; |
|
6732 |
} |
|
6733 |
if (k >= 0) {
|
|
6734 |
b5 = 0; |
|
6735 |
s5 = k; |
|
6736 |
s2 += k; |
|
6737 |
} |
|
6738 |
else {
|
|
6739 |
b2 -= k; |
|
6740 |
b5 = -k; |
|
6741 |
s5 = 0; |
|
6742 |
} |
|
6743 |
if (mode < 0 || mode > 9) |
|
6744 |
mode = 0; |
|
6745 |
try_quick = 1; |
|
6746 |
if (mode > 5) {
|
|
6747 |
mode -= 4; |
|
6748 |
try_quick = 0; |
|
6749 |
} |
|
6750 |
leftright = 1; |
|
6751 |
switch(mode) {
|
|
6752 |
case 0: |
|
6753 |
case 1: |
|
6754 |
ilim = ilim1 = -1; |
|
6755 |
i = 18; |
|
6756 |
ndigits = 0; |
|
6757 |
break; |
|
6758 |
case 2: |
|
6759 |
leftright = 0; |
|
6760 |
/* no break */ |
|
6761 |
case 4: |
|
6762 |
if (ndigits <= 0) |
|
6763 |
ndigits = 1; |
|
6764 |
ilim = ilim1 = i = ndigits; |
|
6765 |
break; |
|
6766 |
case 3: |
|
6767 |
leftright = 0; |
|
6768 |
/* no break */ |
|
6769 |
case 5: |
|
6770 |
i = ndigits + k + 1; |
|
6771 |
ilim = i; |
|
6772 |
ilim1 = i - 1; |
|
6773 |
if (i <= 0) |
|
6774 |
i = 1; |
|
6775 |
} |
|
6776 |
QT_TRY {
|
|
6777 |
*resultp = static_cast<char *>(malloc(i + 1)); |
|
6778 |
Q_CHECK_PTR(*resultp); |
|
6779 |
} QT_CATCH(...) {
|
|
6780 |
Bfree(b); |
|
6781 |
QT_RETHROW; |
|
6782 |
} |
|
6783 |
s = s0 = *resultp; |
|
6784 |
||
6785 |
if (ilim >= 0 && ilim <= Quick_max && try_quick) {
|
|
6786 |
||
6787 |
/* Try to get by with floating-point arithmetic. */ |
|
6788 |
||
6789 |
i = 0; |
|
6790 |
d2 = d; |
|
6791 |
k0 = k; |
|
6792 |
ilim0 = ilim; |
|
6793 |
ieps = 2; /* conservative */ |
|
6794 |
if (k > 0) {
|
|
6795 |
ds = tens[k&0xf]; |
|
6796 |
j = k >> 4; |
|
6797 |
if (j & Bletch) {
|
|
6798 |
/* prevent overflows */ |
|
6799 |
j &= Bletch - 1; |
|
6800 |
d /= bigtens[n_bigtens-1]; |
|
6801 |
ieps++; |
|
6802 |
} |
|
6803 |
for(; j; j >>= 1, i++) |
|
6804 |
if (j & 1) {
|
|
6805 |
ieps++; |
|
6806 |
ds *= bigtens[i]; |
|
6807 |
} |
|
6808 |
d /= ds; |
|
6809 |
} |
|
6810 |
else if ((j1 = -k) != 0) {
|
|
6811 |
d *= tens[j1 & 0xf]; |
|
6812 |
for(j = j1 >> 4; j; j >>= 1, i++) |
|
6813 |
if (j & 1) {
|
|
6814 |
ieps++; |
|
6815 |
d *= bigtens[i]; |
|
6816 |
} |
|
6817 |
} |
|
6818 |
if (k_check && d < 1. && ilim > 0) {
|
|
6819 |
if (ilim1 <= 0) |
|
6820 |
goto fast_failed; |
|
6821 |
ilim = ilim1; |
|
6822 |
k--; |
|
6823 |
d *= 10.; |
|
6824 |
ieps++; |
|
6825 |
} |
|
6826 |
eps = ieps*d + 7.; |
|
6827 |
setWord0(&eps, getWord0(eps) - (P-1)*Exp_msk1); |
|
6828 |
if (ilim == 0) {
|
|
6829 |
S = mhi = 0; |
|
6830 |
d -= 5.; |
|
6831 |
if (d > eps) |
|
6832 |
goto one_digit; |
|
6833 |
if (d < -eps) |
|
6834 |
goto no_digits; |
|
6835 |
goto fast_failed; |
|
6836 |
} |
|
6837 |
#ifndef No_leftright |
|
6838 |
if (leftright) {
|
|
6839 |
/* Use Steele & White method of only |
|
6840 |
* generating digits needed. |
|
6841 |
*/ |
|
6842 |
eps = 0.5/tens[ilim-1] - eps; |
|
6843 |
for(i = 0;;) {
|
|
6844 |
L = Long(d); |
|
6845 |
d -= L; |
|
6846 |
*s++ = '0' + int(L); |
|
6847 |
if (d < eps) |
|
6848 |
goto ret1; |
|
6849 |
if (1. - d < eps) |
|
6850 |
goto bump_up; |
|
6851 |
if (++i >= ilim) |
|
6852 |
break; |
|
6853 |
eps *= 10.; |
|
6854 |
d *= 10.; |
|
6855 |
} |
|
6856 |
} |
|
6857 |
else {
|
|
6858 |
#endif |
|
6859 |
/* Generate ilim digits, then fix them up. */ |
|
6860 |
#if defined(Q_OS_IRIX) && defined(Q_CC_GNU) |
|
6861 |
// work around a bug on 64 bit IRIX gcc |
|
6862 |
double *t = (double *) tens; |
|
6863 |
eps *= t[ilim-1]; |
|
6864 |
#else |
|
6865 |
eps *= tens[ilim-1]; |
|
6866 |
#endif |
|
6867 |
for(i = 1;; i++, d *= 10.) {
|
|
6868 |
L = Long(d); |
|
6869 |
d -= L; |
|
6870 |
*s++ = '0' + int(L); |
|
6871 |
if (i == ilim) {
|
|
6872 |
if (d > 0.5 + eps) |
|
6873 |
goto bump_up; |
|
6874 |
else if (d < 0.5 - eps) {
|
|
6875 |
while(*--s == '0') {}
|
|
6876 |
s++; |
|
6877 |
goto ret1; |
|
6878 |
} |
|
6879 |
break; |
|
6880 |
} |
|
6881 |
} |
|
6882 |
#ifndef No_leftright |
|
6883 |
} |
|
6884 |
#endif |
|
6885 |
fast_failed: |
|
6886 |
s = s0; |
|
6887 |
d = d2; |
|
6888 |
k = k0; |
|
6889 |
ilim = ilim0; |
|
6890 |
} |
|
6891 |
||
6892 |
/* Do we have a "small" integer? */ |
|
6893 |
||
6894 |
if (be >= 0 && k <= Int_max) {
|
|
6895 |
/* Yes. */ |
|
6896 |
ds = tens[k]; |
|
6897 |
if (ndigits < 0 && ilim <= 0) {
|
|
6898 |
S = mhi = 0; |
|
6899 |
if (ilim < 0 || d <= 5*ds) |
|
6900 |
goto no_digits; |
|
6901 |
goto one_digit; |
|
6902 |
} |
|
6903 |
for(i = 1;; i++) {
|
|
6904 |
L = Long(d / ds); |
|
6905 |
d -= L*ds; |
|
6906 |
#ifdef Check_FLT_ROUNDS |
|
6907 |
/* If FLT_ROUNDS == 2, L will usually be high by 1 */ |
|
6908 |
if (d < 0) {
|
|
6909 |
L--; |
|
6910 |
d += ds; |
|
6911 |
} |
|
6912 |
#endif |
|
6913 |
*s++ = '0' + int(L); |
|
6914 |
if (i == ilim) {
|
|
6915 |
d += d; |
|
6916 |
if (d > ds || (d == ds && L & 1)) {
|
|
6917 |
bump_up: |
|
6918 |
while(*--s == '9') |
|
6919 |
if (s == s0) {
|
|
6920 |
k++; |
|
6921 |
*s = '0'; |
|
6922 |
break; |
|
6923 |
} |
|
6924 |
++*s++; |
|
6925 |
} |
|
6926 |
break; |
|
6927 |
} |
|
6928 |
if ((d *= 10.) == g_double_zero) |
|
6929 |
break; |
|
6930 |
} |
|
6931 |
goto ret1; |
|
6932 |
} |
|
6933 |
||
6934 |
m2 = b2; |
|
6935 |
m5 = b5; |
|
6936 |
mhi = mlo = 0; |
|
6937 |
if (leftright) {
|
|
6938 |
if (mode < 2) {
|
|
6939 |
i = |
|
6940 |
#ifndef Sudden_Underflow |
|
6941 |
denorm ? be + (Bias + (P-1) - 1 + 1) : |
|
6942 |
#endif |
|
6943 |
#ifdef IBM |
|
6944 |
1 + 4*P - 3 - bbits + ((bbits + be - 1) & 3); |
|
6945 |
#else |
|
6946 |
1 + P - bbits; |
|
6947 |
#endif |
|
6948 |
} |
|
6949 |
else {
|
|
6950 |
j = ilim - 1; |
|
6951 |
if (m5 >= j) |
|
6952 |
m5 -= j; |
|
6953 |
else {
|
|
6954 |
s5 += j -= m5; |
|
6955 |
b5 += j; |
|
6956 |
m5 = 0; |
|
6957 |
} |
|
6958 |
if ((i = ilim) < 0) {
|
|
6959 |
m2 -= i; |
|
6960 |
i = 0; |
|
6961 |
} |
|
6962 |
} |
|
6963 |
b2 += i; |
|
6964 |
s2 += i; |
|
6965 |
mhi = i2b(1); |
|
6966 |
} |
|
6967 |
if (m2 > 0 && s2 > 0) {
|
|
6968 |
i = m2 < s2 ? m2 : s2; |
|
6969 |
b2 -= i; |
|
6970 |
m2 -= i; |
|
6971 |
s2 -= i; |
|
6972 |
} |
|
6973 |
if (b5 > 0) {
|
|
6974 |
if (leftright) {
|
|
6975 |
if (m5 > 0) {
|
|
6976 |
mhi = pow5mult(mhi, m5); |
|
6977 |
b1 = mult(mhi, b); |
|
6978 |
Bfree(b); |
|
6979 |
b = b1; |
|
6980 |
} |
|
6981 |
if ((j = b5 - m5) != 0) |
|
6982 |
b = pow5mult(b, j); |
|
6983 |
} |
|
6984 |
else |
|
6985 |
b = pow5mult(b, b5); |
|
6986 |
} |
|
6987 |
S = i2b(1); |
|
6988 |
if (s5 > 0) |
|
6989 |
S = pow5mult(S, s5); |
|
6990 |
||
6991 |
/* Check for special case that d is a normalized power of 2. */ |
|
6992 |
||
6993 |
if (mode < 2) {
|
|
6994 |
if (!getWord1(d) && !(getWord0(d) & Bndry_mask) |
|
6995 |
#ifndef Sudden_Underflow |
|
6996 |
&& getWord0(d) & Exp_mask |
|
6997 |
#endif |
|
6998 |
) {
|
|
6999 |
/* The special case */ |
|
7000 |
b2 += Log2P; |
|
7001 |
s2 += Log2P; |
|
7002 |
spec_case = 1; |
|
7003 |
} |
|
7004 |
else |
|
7005 |
spec_case = 0; |
|
7006 |
} |
|
7007 |
||
7008 |
/* Arrange for convenient computation of quotients: |
|
7009 |
* shift left if necessary so divisor has 4 leading 0 bits. |
|
7010 |
* |
|
7011 |
* Perhaps we should just compute leading 28 bits of S once |
|
7012 |
* and for all and pass them and a shift to quorem, so it |
|
7013 |
* can do shifts and ors to compute the numerator for q. |
|
7014 |
*/ |
|
7015 |
#ifdef Pack_32 |
|
7016 |
if ((i = ((s5 ? 32 - hi0bits(S->x[S->wds-1]) : 1) + s2) & 0x1f) != 0) |
|
7017 |
i = 32 - i; |
|
7018 |
#else |
|
7019 |
if (i = ((s5 ? 32 - hi0bits(S->x[S->wds-1]) : 1) + s2) & 0xf) |
|
7020 |
i = 16 - i; |
|
7021 |
#endif |
|
7022 |
if (i > 4) {
|
|
7023 |
i -= 4; |
|
7024 |
b2 += i; |
|
7025 |
m2 += i; |
|
7026 |
s2 += i; |
|
7027 |
} |
|
7028 |
else if (i < 4) {
|
|
7029 |
i += 28; |
|
7030 |
b2 += i; |
|
7031 |
m2 += i; |
|
7032 |
s2 += i; |
|
7033 |
} |
|
7034 |
if (b2 > 0) |
|
7035 |
b = lshift(b, b2); |
|
7036 |
if (s2 > 0) |
|
7037 |
S = lshift(S, s2); |
|
7038 |
if (k_check) {
|
|
7039 |
if (cmp(b,S) < 0) {
|
|
7040 |
k--; |
|
7041 |
b = multadd(b, 10, 0); /* we botched the k estimate */ |
|
7042 |
if (leftright) |
|
7043 |
mhi = multadd(mhi, 10, 0); |
|
7044 |
ilim = ilim1; |
|
7045 |
} |
|
7046 |
} |
|
7047 |
if (ilim <= 0 && mode > 2) {
|
|
7048 |
if (ilim < 0 || cmp(b,S = multadd(S,5,0)) <= 0) {
|
|
7049 |
/* no digits, fcvt style */ |
|
7050 |
no_digits: |
|
7051 |
k = -1 - ndigits; |
|
7052 |
goto ret; |
|
7053 |
} |
|
7054 |
one_digit: |
|
7055 |
*s++ = '1'; |
|
7056 |
k++; |
|
7057 |
goto ret; |
|
7058 |
} |
|
7059 |
if (leftright) {
|
|
7060 |
if (m2 > 0) |
|
7061 |
mhi = lshift(mhi, m2); |
|
7062 |
||
7063 |
/* Compute mlo -- check for special case |
|
7064 |
* that d is a normalized power of 2. |
|
7065 |
*/ |
|
7066 |
||
7067 |
mlo = mhi; |
|
7068 |
if (spec_case) {
|
|
7069 |
mhi = Balloc(mhi->k); |
|
7070 |
Bcopy(mhi, mlo); |
|
7071 |
mhi = lshift(mhi, Log2P); |
|
7072 |
} |
|
7073 |
||
7074 |
for(i = 1;;i++) {
|
|
7075 |
dig = quorem(b,S) + '0'; |
|
7076 |
/* Do we yet have the shortest decimal string |
|
7077 |
* that will round to d? |
|
7078 |
*/ |
|
7079 |
j = cmp(b, mlo); |
|
7080 |
delta = diff(S, mhi); |
|
7081 |
j1 = delta->sign ? 1 : cmp(b, delta); |
|
7082 |
Bfree(delta); |
|
7083 |
#ifndef ROUND_BIASED |
|
7084 |
if (j1 == 0 && !mode && !(getWord1(d) & 1)) {
|
|
7085 |
if (dig == '9') |
|
7086 |
goto round_9_up; |
|
7087 |
if (j > 0) |
|
7088 |
dig++; |
|
7089 |
*s++ = dig; |
|
7090 |
goto ret; |
|
7091 |
} |
|
7092 |
#endif |
|
7093 |
if (j < 0 || (j == 0 && !mode |
|
7094 |
#ifndef ROUND_BIASED |
|
7095 |
&& !(getWord1(d) & 1) |
|
7096 |
#endif |
|
7097 |
)) {
|
|
7098 |
if (j1 > 0) {
|
|
7099 |
b = lshift(b, 1); |
|
7100 |
j1 = cmp(b, S); |
|
7101 |
if ((j1 > 0 || (j1 == 0 && dig & 1)) |
|
7102 |
&& dig++ == '9') |
|
7103 |
goto round_9_up; |
|
7104 |
} |
|
7105 |
*s++ = dig; |
|
7106 |
goto ret; |
|
7107 |
} |
|
7108 |
if (j1 > 0) {
|
|
7109 |
if (dig == '9') { /* possible if i == 1 */
|
|
7110 |
round_9_up: |
|
7111 |
*s++ = '9'; |
|
7112 |
goto roundoff; |
|
7113 |
} |
|
7114 |
*s++ = dig + 1; |
|
7115 |
goto ret; |
|
7116 |
} |
|
7117 |
*s++ = dig; |
|
7118 |
if (i == ilim) |
|
7119 |
break; |
|
7120 |
b = multadd(b, 10, 0); |
|
7121 |
if (mlo == mhi) |
|
7122 |
mlo = mhi = multadd(mhi, 10, 0); |
|
7123 |
else {
|
|
7124 |
mlo = multadd(mlo, 10, 0); |
|
7125 |
mhi = multadd(mhi, 10, 0); |
|
7126 |
} |
|
7127 |
} |
|
7128 |
} |
|
7129 |
else |
|
7130 |
for(i = 1;; i++) {
|
|
7131 |
*s++ = dig = quorem(b,S) + '0'; |
|
7132 |
if (i >= ilim) |
|
7133 |
break; |
|
7134 |
b = multadd(b, 10, 0); |
|
7135 |
} |
|
7136 |
||
7137 |
/* Round off last digit */ |
|
7138 |
||
7139 |
b = lshift(b, 1); |
|
7140 |
j = cmp(b, S); |
|
7141 |
if (j > 0 || (j == 0 && dig & 1)) {
|
|
7142 |
roundoff: |
|
7143 |
while(*--s == '9') |
|
7144 |
if (s == s0) {
|
|
7145 |
k++; |
|
7146 |
*s++ = '1'; |
|
7147 |
goto ret; |
|
7148 |
} |
|
7149 |
++*s++; |
|
7150 |
} |
|
7151 |
else {
|
|
7152 |
while(*--s == '0') {}
|
|
7153 |
s++; |
|
7154 |
} |
|
7155 |
ret: |
|
7156 |
Bfree(S); |
|
7157 |
if (mhi) {
|
|
7158 |
if (mlo && mlo != mhi) |
|
7159 |
Bfree(mlo); |
|
7160 |
Bfree(mhi); |
|
7161 |
} |
|
7162 |
ret1: |
|
7163 |
Bfree(b); |
|
7164 |
if (s == s0) { /* don't return empty string */
|
|
7165 |
*s++ = '0'; |
|
7166 |
k = 0; |
|
7167 |
} |
|
7168 |
*s = 0; |
|
7169 |
*decpt = k + 1; |
|
7170 |
if (rve) |
|
7171 |
*rve = s; |
|
7172 |
return s0; |
|
7173 |
} |
|
7174 |
#else |
|
7175 |
// NOT thread safe! |
|
7176 |
||
7177 |
#include <errno.h> |
|
7178 |
||
7179 |
Q_CORE_EXPORT char *qdtoa( double d, int mode, int ndigits, int *decpt, int *sign, char **rve, char **resultp) |
|
7180 |
{
|
|
7181 |
if(rve) |
|
7182 |
*rve = 0; |
|
7183 |
||
7184 |
char *res; |
|
7185 |
if (mode == 0) |
|
7186 |
ndigits = 80; |
|
7187 |
||
7188 |
if (mode == 3) |
|
7189 |
res = fcvt(d, ndigits, decpt, sign); |
|
7190 |
else |
|
7191 |
res = ecvt(d, ndigits, decpt, sign); |
|
7192 |
||
7193 |
int n = qstrlen(res); |
|
7194 |
if (mode == 0) { // remove trailing 0's
|
|
7195 |
const int stop = qMax(1, *decpt); |
|
7196 |
int i; |
|
7197 |
for (i = n-1; i >= stop; --i) {
|
|
7198 |
if (res[i] != '0') |
|
7199 |
break; |
|
7200 |
} |
|
7201 |
n = i + 1; |
|
7202 |
} |
|
7203 |
*resultp = static_cast<char*>(malloc(n + 1)); |
|
7204 |
Q_CHECK_PTR(resultp); |
|
7205 |
qstrncpy(*resultp, res, n + 1); |
|
7206 |
return *resultp; |
|
7207 |
} |
|
7208 |
||
7209 |
Q_CORE_EXPORT double qstrtod(const char *s00, const char **se, bool *ok) |
|
7210 |
{
|
|
7211 |
double ret = strtod((char*)s00, (char**)se); |
|
7212 |
if (ok) {
|
|
7213 |
if((ret == 0.0l && errno == ERANGE) |
|
7214 |
|| ret == HUGE_VAL || ret == -HUGE_VAL) |
|
7215 |
*ok = false; |
|
7216 |
else |
|
7217 |
*ok = true; // the result will be that we don't report underflow in this case |
|
7218 |
} |
|
7219 |
return ret; |
|
7220 |
} |
|
7221 |
#endif // QT_QLOCALE_USES_FCVT |
|
7222 |
||
7223 |
QT_END_NAMESPACE |