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1 ///////////////////////////////////////////////////////////////////////////////
2 // Name: wx/datetime.h
3 // Purpose: implementation of time/date related classes
4 // Author: Vadim Zeitlin
5 // Modified by:
6 // Created: 11.05.99
7 // RCS-ID: $Id$
8 // Copyright: (c) 1999 Vadim Zeitlin <zeitlin@dptmaths.ens-cachan.fr>
9 // parts of code taken from sndcal library by Scott E. Lee:
10 //
11 // Copyright 1993-1995, Scott E. Lee, all rights reserved.
12 // Permission granted to use, copy, modify, distribute and sell
13 // so long as the above copyright and this permission statement
14 // are retained in all copies.
15 //
16 // Licence: wxWindows licence
17 ///////////////////////////////////////////////////////////////////////////////
18
19 /*
20 * Implementation notes:
21 *
22 * 1. the time is stored as a 64bit integer containing the signed number of
23 * milliseconds since Jan 1. 1970 (the Unix Epoch) - so it is always
24 * expressed in GMT.
25 *
26 * 2. the range is thus something about 580 million years, but due to current
27 * algorithms limitations, only dates from Nov 24, 4714BC are handled
28 *
29 * 3. standard ANSI C functions are used to do time calculations whenever
30 * possible, i.e. when the date is in the range Jan 1, 1970 to 2038
31 *
32 * 4. otherwise, the calculations are done by converting the date to/from JDN
33 * first (the range limitation mentioned above comes from here: the
34 * algorithm used by Scott E. Lee's code only works for positive JDNs, more
35 * or less)
36 *
37 * 5. the object constructed for the given DD-MM-YYYY HH:MM:SS corresponds to
38 * this moment in local time and may be converted to the object
39 * corresponding to the same date/time in another time zone by using
40 * ToTimezone()
41 *
42 * 6. the conversions to the current (or any other) timezone are done when the
43 * internal time representation is converted to the broken-down one in
44 * wxDateTime::Tm.
45 */
46
47 // ============================================================================
48 // declarations
49 // ============================================================================
50
51 // ----------------------------------------------------------------------------
52 // headers
53 // ----------------------------------------------------------------------------
54
55 #if defined(__GNUG__) && !defined(NO_GCC_PRAGMA)
56 #pragma implementation "datetime.h"
57 #endif
58
59 // For compilers that support precompilation, includes "wx.h".
60 #include "wx/wxprec.h"
61
62 #ifdef __BORLANDC__
63 #pragma hdrstop
64 #endif
65
66 #if !defined(wxUSE_DATETIME) || wxUSE_DATETIME
67
68 #ifndef WX_PRECOMP
69 #include "wx/string.h"
70 #include "wx/log.h"
71 #endif // WX_PRECOMP
72
73 #include "wx/intl.h"
74 #include "wx/thread.h"
75 #include "wx/tokenzr.h"
76 #include "wx/module.h"
77
78 #include <ctype.h>
79
80 #include "wx/datetime.h"
81 #include "wx/stopwatch.h" // for wxGetLocalTimeMillis()
82
83 const long wxDateTime::TIME_T_FACTOR = 1000l;
84
85 #if wxUSE_EXTENDED_RTTI
86
87 template<> void wxStringReadValue(const wxString &s , wxDateTime &data )
88 {
89 data.ParseFormat(s,wxT("%Y-%m-%d %H:%M:%S")) ;
90 }
91
92 template<> void wxStringWriteValue(wxString &s , const wxDateTime &data )
93 {
94 s = data.Format(wxT("%Y-%m-%d %H:%M:%S")) ;
95 }
96
97 wxCUSTOM_TYPE_INFO(wxDateTime, wxToStringConverter<wxDateTime> , wxFromStringConverter<wxDateTime>)
98
99 #endif
100
101 //
102 // ----------------------------------------------------------------------------
103 // conditional compilation
104 // ----------------------------------------------------------------------------
105
106 #if defined(HAVE_STRPTIME) && defined(__GLIBC__) && \
107 ((__GLIBC__ == 2) && (__GLIBC_MINOR__ == 0))
108 // glibc 2.0.7 strptime() is broken - the following snippet causes it to
109 // crash (instead of just failing):
110 //
111 // strncpy(buf, "Tue Dec 21 20:25:40 1999", 128);
112 // strptime(buf, "%x", &tm);
113 //
114 // so don't use it
115 #undef HAVE_STRPTIME
116 #endif // broken strptime()
117
118 #if defined(__MWERKS__) && wxUSE_UNICODE
119 #include <wtime.h>
120 #endif
121
122 #if !defined(WX_TIMEZONE) && !defined(WX_GMTOFF_IN_TM)
123 #if defined(__BORLANDC__) || defined(__MINGW32__) || defined(__VISAGECPP__)
124 #define WX_TIMEZONE _timezone
125 #elif defined(__MWERKS__)
126 long wxmw_timezone = 28800;
127 #define WX_TIMEZONE wxmw_timezone
128 #elif defined(__DJGPP__) || defined(__WINE__)
129 #include <sys/timeb.h>
130 #include <values.h>
131 static long wxGetTimeZone()
132 {
133 static long timezone = MAXLONG; // invalid timezone
134 if (timezone == MAXLONG)
135 {
136 struct timeb tb;
137 ftime(&tb);
138 timezone = tb.timezone;
139 }
140 return timezone;
141 }
142 #define WX_TIMEZONE wxGetTimeZone()
143 #elif defined(__DARWIN__)
144 #define WX_GMTOFF_IN_TM
145 #else // unknown platform - try timezone
146 #define WX_TIMEZONE timezone
147 #endif
148 #endif // !WX_TIMEZONE && !WX_GMTOFF_IN_TM
149
150 // ----------------------------------------------------------------------------
151 // macros
152 // ----------------------------------------------------------------------------
153
154 // debugging helper: just a convenient replacement of wxCHECK()
155 #define wxDATETIME_CHECK(expr, msg) \
156 if ( !(expr) ) \
157 { \
158 wxFAIL_MSG(msg); \
159 *this = wxInvalidDateTime; \
160 return *this; \
161 }
162
163 // ----------------------------------------------------------------------------
164 // private classes
165 // ----------------------------------------------------------------------------
166
167 class wxDateTimeHolidaysModule : public wxModule
168 {
169 public:
170 virtual bool OnInit()
171 {
172 wxDateTimeHolidayAuthority::AddAuthority(new wxDateTimeWorkDays);
173
174 return true;
175 }
176
177 virtual void OnExit()
178 {
179 wxDateTimeHolidayAuthority::ClearAllAuthorities();
180 wxDateTimeHolidayAuthority::ms_authorities.clear();
181 }
182
183 private:
184 DECLARE_DYNAMIC_CLASS(wxDateTimeHolidaysModule)
185 };
186
187 IMPLEMENT_DYNAMIC_CLASS(wxDateTimeHolidaysModule, wxModule)
188
189 // ----------------------------------------------------------------------------
190 // constants
191 // ----------------------------------------------------------------------------
192
193 // some trivial ones
194 static const int MONTHS_IN_YEAR = 12;
195
196 static const int SEC_PER_MIN = 60;
197
198 static const int MIN_PER_HOUR = 60;
199
200 static const int HOURS_PER_DAY = 24;
201
202 static const long SECONDS_PER_DAY = 86400l;
203
204 static const int DAYS_PER_WEEK = 7;
205
206 static const long MILLISECONDS_PER_DAY = 86400000l;
207
208 // this is the integral part of JDN of the midnight of Jan 1, 1970
209 // (i.e. JDN(Jan 1, 1970) = 2440587.5)
210 static const long EPOCH_JDN = 2440587l;
211
212 // the date of JDN -0.5 (as we don't work with fractional parts, this is the
213 // reference date for us) is Nov 24, 4714BC
214 static const int JDN_0_YEAR = -4713;
215 static const int JDN_0_MONTH = wxDateTime::Nov;
216 static const int JDN_0_DAY = 24;
217
218 // the constants used for JDN calculations
219 static const long JDN_OFFSET = 32046l;
220 static const long DAYS_PER_5_MONTHS = 153l;
221 static const long DAYS_PER_4_YEARS = 1461l;
222 static const long DAYS_PER_400_YEARS = 146097l;
223
224 // this array contains the cumulated number of days in all previous months for
225 // normal and leap years
226 static const wxDateTime::wxDateTime_t gs_cumulatedDays[2][MONTHS_IN_YEAR] =
227 {
228 { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 },
229 { 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335 }
230 };
231
232 // ----------------------------------------------------------------------------
233 // global data
234 // ----------------------------------------------------------------------------
235
236 // in the fine tradition of ANSI C we use our equivalent of (time_t)-1 to
237 // indicate an invalid wxDateTime object
238 const wxDateTime wxDefaultDateTime;
239
240 wxDateTime::Country wxDateTime::ms_country = wxDateTime::Country_Unknown;
241
242 // ----------------------------------------------------------------------------
243 // private functions
244 // ----------------------------------------------------------------------------
245
246 // debugger helper: shows what the date really is
247 #ifdef __WXDEBUG__
248 extern const wxChar *wxDumpDate(const wxDateTime* dt)
249 {
250 static wxChar buf[128];
251
252 wxStrcpy(buf, dt->Format(_T("%Y-%m-%d (%a) %H:%M:%S")));
253
254 return buf;
255 }
256 #endif // Debug
257
258 // get the number of days in the given month of the given year
259 static inline
260 wxDateTime::wxDateTime_t GetNumOfDaysInMonth(int year, wxDateTime::Month month)
261 {
262 // the number of days in month in Julian/Gregorian calendar: the first line
263 // is for normal years, the second one is for the leap ones
264 static wxDateTime::wxDateTime_t daysInMonth[2][MONTHS_IN_YEAR] =
265 {
266 { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 },
267 { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }
268 };
269
270 return daysInMonth[wxDateTime::IsLeapYear(year)][month];
271 }
272
273 // returns the time zone in the C sense, i.e. the difference UTC - local
274 // (in seconds)
275 static int GetTimeZone()
276 {
277 #ifdef WX_GMTOFF_IN_TM
278 // set to true when the timezone is set
279 static bool s_timezoneSet = false;
280 static long gmtoffset = LONG_MAX; // invalid timezone
281
282 // ensure that the timezone variable is set by calling localtime
283 if ( !s_timezoneSet )
284 {
285 // just call localtime() instead of figuring out whether this system
286 // supports tzset(), _tzset() or something else
287 time_t t = 0;
288 struct tm *tm;
289
290 tm = localtime(&t);
291 s_timezoneSet = true;
292
293 // note that GMT offset is the opposite of time zone and so to return
294 // consistent results in both WX_GMTOFF_IN_TM and !WX_GMTOFF_IN_TM
295 // cases we have to negate it
296 gmtoffset = -tm->tm_gmtoff;
297 }
298
299 return (int)gmtoffset;
300 #else // !WX_GMTOFF_IN_TM
301 return (int)WX_TIMEZONE;
302 #endif // WX_GMTOFF_IN_TM/!WX_GMTOFF_IN_TM
303 }
304
305 // return the integral part of the JDN for the midnight of the given date (to
306 // get the real JDN you need to add 0.5, this is, in fact, JDN of the
307 // noon of the previous day)
308 static long GetTruncatedJDN(wxDateTime::wxDateTime_t day,
309 wxDateTime::Month mon,
310 int year)
311 {
312 // CREDIT: code below is by Scott E. Lee (but bugs are mine)
313
314 // check the date validity
315 wxASSERT_MSG(
316 (year > JDN_0_YEAR) ||
317 ((year == JDN_0_YEAR) && (mon > JDN_0_MONTH)) ||
318 ((year == JDN_0_YEAR) && (mon == JDN_0_MONTH) && (day >= JDN_0_DAY)),
319 _T("date out of range - can't convert to JDN")
320 );
321
322 // make the year positive to avoid problems with negative numbers division
323 year += 4800;
324
325 // months are counted from March here
326 int month;
327 if ( mon >= wxDateTime::Mar )
328 {
329 month = mon - 2;
330 }
331 else
332 {
333 month = mon + 10;
334 year--;
335 }
336
337 // now we can simply add all the contributions together
338 return ((year / 100) * DAYS_PER_400_YEARS) / 4
339 + ((year % 100) * DAYS_PER_4_YEARS) / 4
340 + (month * DAYS_PER_5_MONTHS + 2) / 5
341 + day
342 - JDN_OFFSET;
343 }
344
345 // this function is a wrapper around strftime(3) adding error checking
346 static wxString CallStrftime(const wxChar *format, const tm* tm)
347 {
348 wxChar buf[4096];
349 if ( !wxStrftime(buf, WXSIZEOF(buf), format, tm) )
350 {
351 // buffer is too small?
352 wxFAIL_MSG(_T("strftime() failed"));
353 }
354
355 return wxString(buf);
356 }
357
358 #ifdef HAVE_STRPTIME
359
360 // glibc2 doesn't define this in the headers unless _XOPEN_SOURCE is defined
361 // which, unfortunately, wreaks havoc elsewhere
362 #if defined(__GLIBC__) && (__GLIBC__ == 2)
363 extern "C" char *strptime(const char *, const char *, struct tm *);
364 #endif
365
366 // Unicode-friendly strptime() wrapper
367 static const wxChar *
368 CallStrptime(const wxChar *input, const char *fmt, tm *tm)
369 {
370 // the problem here is that strptime() returns pointer into the string we
371 // passed to it while we're really interested in the pointer into the
372 // original, Unicode, string so we try to transform the pointer back
373 #if wxUSE_UNICODE
374 wxCharBuffer inputMB(wxConvertWX2MB(input));
375 #else // ASCII
376 const char * const inputMB = input;
377 #endif // Unicode/Ascii
378
379 const char *result = strptime(inputMB, fmt, tm);
380 if ( !result )
381 return NULL;
382
383 #if wxUSE_UNICODE
384 // FIXME: this is wrong in presence of surrogates &c
385 return input + (result - inputMB.data());
386 #else // ASCII
387 return result;
388 #endif // Unicode/Ascii
389 }
390
391 #endif // HAVE_STRPTIME
392
393 // if year and/or month have invalid values, replace them with the current ones
394 static void ReplaceDefaultYearMonthWithCurrent(int *year,
395 wxDateTime::Month *month)
396 {
397 struct tm *tmNow = NULL;
398
399 if ( *year == wxDateTime::Inv_Year )
400 {
401 tmNow = wxDateTime::GetTmNow();
402
403 *year = 1900 + tmNow->tm_year;
404 }
405
406 if ( *month == wxDateTime::Inv_Month )
407 {
408 if ( !tmNow )
409 tmNow = wxDateTime::GetTmNow();
410
411 *month = (wxDateTime::Month)tmNow->tm_mon;
412 }
413 }
414
415 // fll the struct tm with default values
416 static void InitTm(struct tm& tm)
417 {
418 // struct tm may have etxra fields (undocumented and with unportable
419 // names) which, nevertheless, must be set to 0
420 memset(&tm, 0, sizeof(struct tm));
421
422 tm.tm_mday = 1; // mday 0 is invalid
423 tm.tm_year = 76; // any valid year
424 tm.tm_isdst = -1; // auto determine
425 }
426
427 // parsing helpers
428 // ---------------
429
430 // return the month if the string is a month name or Inv_Month otherwise
431 static wxDateTime::Month GetMonthFromName(const wxString& name, int flags)
432 {
433 wxDateTime::Month mon;
434 for ( mon = wxDateTime::Jan; mon < wxDateTime::Inv_Month; wxNextMonth(mon) )
435 {
436 // case-insensitive comparison either one of or with both abbreviated
437 // and not versions
438 if ( flags & wxDateTime::Name_Full )
439 {
440 if ( name.CmpNoCase(wxDateTime::
441 GetMonthName(mon, wxDateTime::Name_Full)) == 0 )
442 {
443 break;
444 }
445 }
446
447 if ( flags & wxDateTime::Name_Abbr )
448 {
449 if ( name.CmpNoCase(wxDateTime::
450 GetMonthName(mon, wxDateTime::Name_Abbr)) == 0 )
451 {
452 break;
453 }
454 }
455 }
456
457 return mon;
458 }
459
460 // return the weekday if the string is a weekday name or Inv_WeekDay otherwise
461 static wxDateTime::WeekDay GetWeekDayFromName(const wxString& name, int flags)
462 {
463 wxDateTime::WeekDay wd;
464 for ( wd = wxDateTime::Sun; wd < wxDateTime::Inv_WeekDay; wxNextWDay(wd) )
465 {
466 // case-insensitive comparison either one of or with both abbreviated
467 // and not versions
468 if ( flags & wxDateTime::Name_Full )
469 {
470 if ( name.CmpNoCase(wxDateTime::
471 GetWeekDayName(wd, wxDateTime::Name_Full)) == 0 )
472 {
473 break;
474 }
475 }
476
477 if ( flags & wxDateTime::Name_Abbr )
478 {
479 if ( name.CmpNoCase(wxDateTime::
480 GetWeekDayName(wd, wxDateTime::Name_Abbr)) == 0 )
481 {
482 break;
483 }
484 }
485 }
486
487 return wd;
488 }
489
490 // scans all digits (but no more than len) and returns the resulting number
491 static bool GetNumericToken(size_t len, const wxChar*& p, unsigned long *number)
492 {
493 size_t n = 1;
494 wxString s;
495 while ( wxIsdigit(*p) )
496 {
497 s += *p++;
498
499 if ( len && ++n > len )
500 break;
501 }
502
503 return !s.IsEmpty() && s.ToULong(number);
504 }
505
506 // scans all alphabetic characters and returns the resulting string
507 static wxString GetAlphaToken(const wxChar*& p)
508 {
509 wxString s;
510 while ( wxIsalpha(*p) )
511 {
512 s += *p++;
513 }
514
515 return s;
516 }
517
518 // ============================================================================
519 // implementation of wxDateTime
520 // ============================================================================
521
522 // ----------------------------------------------------------------------------
523 // struct Tm
524 // ----------------------------------------------------------------------------
525
526 wxDateTime::Tm::Tm()
527 {
528 year = (wxDateTime_t)wxDateTime::Inv_Year;
529 mon = wxDateTime::Inv_Month;
530 mday = 0;
531 hour = min = sec = msec = 0;
532 wday = wxDateTime::Inv_WeekDay;
533 }
534
535 wxDateTime::Tm::Tm(const struct tm& tm, const TimeZone& tz)
536 : m_tz(tz)
537 {
538 msec = 0;
539 sec = (wxDateTime::wxDateTime_t)tm.tm_sec;
540 min = (wxDateTime::wxDateTime_t)tm.tm_min;
541 hour = (wxDateTime::wxDateTime_t)tm.tm_hour;
542 mday = (wxDateTime::wxDateTime_t)tm.tm_mday;
543 mon = (wxDateTime::Month)tm.tm_mon;
544 year = 1900 + tm.tm_year;
545 wday = tm.tm_wday;
546 yday = tm.tm_yday;
547 }
548
549 bool wxDateTime::Tm::IsValid() const
550 {
551 // we allow for the leap seconds, although we don't use them (yet)
552 return (year != wxDateTime::Inv_Year) && (mon != wxDateTime::Inv_Month) &&
553 (mday <= GetNumOfDaysInMonth(year, mon)) &&
554 (hour < 24) && (min < 60) && (sec < 62) && (msec < 1000);
555 }
556
557 void wxDateTime::Tm::ComputeWeekDay()
558 {
559 // compute the week day from day/month/year: we use the dumbest algorithm
560 // possible: just compute our JDN and then use the (simple to derive)
561 // formula: weekday = (JDN + 1.5) % 7
562 wday = (wxDateTime::WeekDay)(GetTruncatedJDN(mday, mon, year) + 2) % 7;
563 }
564
565 void wxDateTime::Tm::AddMonths(int monDiff)
566 {
567 // normalize the months field
568 while ( monDiff < -mon )
569 {
570 year--;
571
572 monDiff += MONTHS_IN_YEAR;
573 }
574
575 while ( monDiff + mon >= MONTHS_IN_YEAR )
576 {
577 year++;
578
579 monDiff -= MONTHS_IN_YEAR;
580 }
581
582 mon = (wxDateTime::Month)(mon + monDiff);
583
584 wxASSERT_MSG( mon >= 0 && mon < MONTHS_IN_YEAR, _T("logic error") );
585
586 // NB: we don't check here that the resulting date is valid, this function
587 // is private and the caller must check it if needed
588 }
589
590 void wxDateTime::Tm::AddDays(int dayDiff)
591 {
592 // normalize the days field
593 while ( dayDiff + mday < 1 )
594 {
595 AddMonths(-1);
596
597 dayDiff += GetNumOfDaysInMonth(year, mon);
598 }
599
600 mday = (wxDateTime::wxDateTime_t)( mday + dayDiff );
601 while ( mday > GetNumOfDaysInMonth(year, mon) )
602 {
603 mday -= GetNumOfDaysInMonth(year, mon);
604
605 AddMonths(1);
606 }
607
608 wxASSERT_MSG( mday > 0 && mday <= GetNumOfDaysInMonth(year, mon),
609 _T("logic error") );
610 }
611
612 // ----------------------------------------------------------------------------
613 // class TimeZone
614 // ----------------------------------------------------------------------------
615
616 wxDateTime::TimeZone::TimeZone(wxDateTime::TZ tz)
617 {
618 switch ( tz )
619 {
620 case wxDateTime::Local:
621 // get the offset from C RTL: it returns the difference GMT-local
622 // while we want to have the offset _from_ GMT, hence the '-'
623 m_offset = -GetTimeZone();
624 break;
625
626 case wxDateTime::GMT_12:
627 case wxDateTime::GMT_11:
628 case wxDateTime::GMT_10:
629 case wxDateTime::GMT_9:
630 case wxDateTime::GMT_8:
631 case wxDateTime::GMT_7:
632 case wxDateTime::GMT_6:
633 case wxDateTime::GMT_5:
634 case wxDateTime::GMT_4:
635 case wxDateTime::GMT_3:
636 case wxDateTime::GMT_2:
637 case wxDateTime::GMT_1:
638 m_offset = -3600*(wxDateTime::GMT0 - tz);
639 break;
640
641 case wxDateTime::GMT0:
642 case wxDateTime::GMT1:
643 case wxDateTime::GMT2:
644 case wxDateTime::GMT3:
645 case wxDateTime::GMT4:
646 case wxDateTime::GMT5:
647 case wxDateTime::GMT6:
648 case wxDateTime::GMT7:
649 case wxDateTime::GMT8:
650 case wxDateTime::GMT9:
651 case wxDateTime::GMT10:
652 case wxDateTime::GMT11:
653 case wxDateTime::GMT12:
654 m_offset = 3600*(tz - wxDateTime::GMT0);
655 break;
656
657 case wxDateTime::A_CST:
658 // Central Standard Time in use in Australia = UTC + 9.5
659 m_offset = 60l*(9*60 + 30);
660 break;
661
662 default:
663 wxFAIL_MSG( _T("unknown time zone") );
664 }
665 }
666
667 // ----------------------------------------------------------------------------
668 // static functions
669 // ----------------------------------------------------------------------------
670
671 /* static */
672 bool wxDateTime::IsLeapYear(int year, wxDateTime::Calendar cal)
673 {
674 if ( year == Inv_Year )
675 year = GetCurrentYear();
676
677 if ( cal == Gregorian )
678 {
679 // in Gregorian calendar leap years are those divisible by 4 except
680 // those divisible by 100 unless they're also divisible by 400
681 // (in some countries, like Russia and Greece, additional corrections
682 // exist, but they won't manifest themselves until 2700)
683 return (year % 4 == 0) && ((year % 100 != 0) || (year % 400 == 0));
684 }
685 else if ( cal == Julian )
686 {
687 // in Julian calendar the rule is simpler
688 return year % 4 == 0;
689 }
690 else
691 {
692 wxFAIL_MSG(_T("unknown calendar"));
693
694 return false;
695 }
696 }
697
698 /* static */
699 int wxDateTime::GetCentury(int year)
700 {
701 return year > 0 ? year / 100 : year / 100 - 1;
702 }
703
704 /* static */
705 int wxDateTime::ConvertYearToBC(int year)
706 {
707 // year 0 is BC 1
708 return year > 0 ? year : year - 1;
709 }
710
711 /* static */
712 int wxDateTime::GetCurrentYear(wxDateTime::Calendar cal)
713 {
714 switch ( cal )
715 {
716 case Gregorian:
717 return Now().GetYear();
718
719 case Julian:
720 wxFAIL_MSG(_T("TODO"));
721 break;
722
723 default:
724 wxFAIL_MSG(_T("unsupported calendar"));
725 break;
726 }
727
728 return Inv_Year;
729 }
730
731 /* static */
732 wxDateTime::Month wxDateTime::GetCurrentMonth(wxDateTime::Calendar cal)
733 {
734 switch ( cal )
735 {
736 case Gregorian:
737 return Now().GetMonth();
738
739 case Julian:
740 wxFAIL_MSG(_T("TODO"));
741 break;
742
743 default:
744 wxFAIL_MSG(_T("unsupported calendar"));
745 break;
746 }
747
748 return Inv_Month;
749 }
750
751 /* static */
752 wxDateTime::wxDateTime_t wxDateTime::GetNumberOfDays(int year, Calendar cal)
753 {
754 if ( year == Inv_Year )
755 {
756 // take the current year if none given
757 year = GetCurrentYear();
758 }
759
760 switch ( cal )
761 {
762 case Gregorian:
763 case Julian:
764 return IsLeapYear(year) ? 366 : 365;
765
766 default:
767 wxFAIL_MSG(_T("unsupported calendar"));
768 break;
769 }
770
771 return 0;
772 }
773
774 /* static */
775 wxDateTime::wxDateTime_t wxDateTime::GetNumberOfDays(wxDateTime::Month month,
776 int year,
777 wxDateTime::Calendar cal)
778 {
779 wxCHECK_MSG( month < MONTHS_IN_YEAR, 0, _T("invalid month") );
780
781 if ( cal == Gregorian || cal == Julian )
782 {
783 if ( year == Inv_Year )
784 {
785 // take the current year if none given
786 year = GetCurrentYear();
787 }
788
789 return GetNumOfDaysInMonth(year, month);
790 }
791 else
792 {
793 wxFAIL_MSG(_T("unsupported calendar"));
794
795 return 0;
796 }
797 }
798
799 /* static */
800 wxString wxDateTime::GetMonthName(wxDateTime::Month month,
801 wxDateTime::NameFlags flags)
802 {
803 wxCHECK_MSG( month != Inv_Month, _T(""), _T("invalid month") );
804
805 // notice that we must set all the fields to avoid confusing libc (GNU one
806 // gets confused to a crash if we don't do this)
807 tm tm;
808 InitTm(tm);
809 tm.tm_mon = month;
810
811 return CallStrftime(flags == Name_Abbr ? _T("%b") : _T("%B"), &tm);
812 }
813
814 /* static */
815 wxString wxDateTime::GetWeekDayName(wxDateTime::WeekDay wday,
816 wxDateTime::NameFlags flags)
817 {
818 wxCHECK_MSG( wday != Inv_WeekDay, _T(""), _T("invalid weekday") );
819
820 // take some arbitrary Sunday (but notice that the day should be such that
821 // after adding wday to it below we still have a valid date, e.g. don't
822 // take 28 here!)
823 tm tm;
824 InitTm(tm);
825 tm.tm_mday = 21;
826 tm.tm_mon = Nov;
827 tm.tm_year = 99;
828
829 // and offset it by the number of days needed to get the correct wday
830 tm.tm_mday += wday;
831
832 // call mktime() to normalize it...
833 (void)mktime(&tm);
834
835 // ... and call strftime()
836 return CallStrftime(flags == Name_Abbr ? _T("%a") : _T("%A"), &tm);
837 }
838
839 /* static */
840 void wxDateTime::GetAmPmStrings(wxString *am, wxString *pm)
841 {
842 tm tm;
843 InitTm(tm);
844 wxChar buffer[64];
845 // @Note: Do not call 'CallStrftime' here! CallStrftime checks the return code
846 // and causes an assertion failed if the buffer is to small (which is good) - OR -
847 // if strftime does not return anything because the format string is invalid - OR -
848 // if there are no 'am' / 'pm' tokens defined for the current locale (which is not good).
849 // wxDateTime::ParseTime will try several different formats to parse the time.
850 // As a result, GetAmPmStrings might get called, even if the current locale
851 // does not define any 'am' / 'pm' tokens. In this case, wxStrftime would
852 // assert, even though it is a perfectly legal use.
853 if ( am )
854 {
855 if (wxStrftime(buffer, sizeof buffer, _T("%p"), &tm) > 0)
856 *am = wxString(buffer);
857 else
858 *am = wxString();
859 }
860 if ( pm )
861 {
862 tm.tm_hour = 13;
863 if (wxStrftime(buffer, sizeof buffer, _T("%p"), &tm) > 0)
864 *pm = wxString(buffer);
865 else
866 *pm = wxString();
867 }
868 }
869
870 // ----------------------------------------------------------------------------
871 // Country stuff: date calculations depend on the country (DST, work days,
872 // ...), so we need to know which rules to follow.
873 // ----------------------------------------------------------------------------
874
875 /* static */
876 wxDateTime::Country wxDateTime::GetCountry()
877 {
878 // TODO use LOCALE_ICOUNTRY setting under Win32
879
880 if ( ms_country == Country_Unknown )
881 {
882 // try to guess from the time zone name
883 time_t t = time(NULL);
884 struct tm *tm = localtime(&t);
885
886 wxString tz = CallStrftime(_T("%Z"), tm);
887 if ( tz == _T("WET") || tz == _T("WEST") )
888 {
889 ms_country = UK;
890 }
891 else if ( tz == _T("CET") || tz == _T("CEST") )
892 {
893 ms_country = Country_EEC;
894 }
895 else if ( tz == _T("MSK") || tz == _T("MSD") )
896 {
897 ms_country = Russia;
898 }
899 else if ( tz == _T("AST") || tz == _T("ADT") ||
900 tz == _T("EST") || tz == _T("EDT") ||
901 tz == _T("CST") || tz == _T("CDT") ||
902 tz == _T("MST") || tz == _T("MDT") ||
903 tz == _T("PST") || tz == _T("PDT") )
904 {
905 ms_country = USA;
906 }
907 else
908 {
909 // well, choose a default one
910 ms_country = USA;
911 }
912 }
913
914 return ms_country;
915 }
916
917 /* static */
918 void wxDateTime::SetCountry(wxDateTime::Country country)
919 {
920 ms_country = country;
921 }
922
923 /* static */
924 bool wxDateTime::IsWestEuropeanCountry(Country country)
925 {
926 if ( country == Country_Default )
927 {
928 country = GetCountry();
929 }
930
931 return (Country_WesternEurope_Start <= country) &&
932 (country <= Country_WesternEurope_End);
933 }
934
935 // ----------------------------------------------------------------------------
936 // DST calculations: we use 3 different rules for the West European countries,
937 // USA and for the rest of the world. This is undoubtedly false for many
938 // countries, but I lack the necessary info (and the time to gather it),
939 // please add the other rules here!
940 // ----------------------------------------------------------------------------
941
942 /* static */
943 bool wxDateTime::IsDSTApplicable(int year, Country country)
944 {
945 if ( year == Inv_Year )
946 {
947 // take the current year if none given
948 year = GetCurrentYear();
949 }
950
951 if ( country == Country_Default )
952 {
953 country = GetCountry();
954 }
955
956 switch ( country )
957 {
958 case USA:
959 case UK:
960 // DST was first observed in the US and UK during WWI, reused
961 // during WWII and used again since 1966
962 return year >= 1966 ||
963 (year >= 1942 && year <= 1945) ||
964 (year == 1918 || year == 1919);
965
966 default:
967 // assume that it started after WWII
968 return year > 1950;
969 }
970 }
971
972 /* static */
973 wxDateTime wxDateTime::GetBeginDST(int year, Country country)
974 {
975 if ( year == Inv_Year )
976 {
977 // take the current year if none given
978 year = GetCurrentYear();
979 }
980
981 if ( country == Country_Default )
982 {
983 country = GetCountry();
984 }
985
986 if ( !IsDSTApplicable(year, country) )
987 {
988 return wxInvalidDateTime;
989 }
990
991 wxDateTime dt;
992
993 if ( IsWestEuropeanCountry(country) || (country == Russia) )
994 {
995 // DST begins at 1 a.m. GMT on the last Sunday of March
996 if ( !dt.SetToLastWeekDay(Sun, Mar, year) )
997 {
998 // weird...
999 wxFAIL_MSG( _T("no last Sunday in March?") );
1000 }
1001
1002 dt += wxTimeSpan::Hours(1);
1003
1004 // disable DST tests because it could result in an infinite recursion!
1005 dt.MakeGMT(true);
1006 }
1007 else switch ( country )
1008 {
1009 case USA:
1010 switch ( year )
1011 {
1012 case 1918:
1013 case 1919:
1014 // don't know for sure - assume it was in effect all year
1015
1016 case 1943:
1017 case 1944:
1018 case 1945:
1019 dt.Set(1, Jan, year);
1020 break;
1021
1022 case 1942:
1023 // DST was installed Feb 2, 1942 by the Congress
1024 dt.Set(2, Feb, year);
1025 break;
1026
1027 // Oil embargo changed the DST period in the US
1028 case 1974:
1029 dt.Set(6, Jan, 1974);
1030 break;
1031
1032 case 1975:
1033 dt.Set(23, Feb, 1975);
1034 break;
1035
1036 default:
1037 // before 1986, DST begun on the last Sunday of April, but
1038 // in 1986 Reagan changed it to begin at 2 a.m. of the
1039 // first Sunday in April
1040 if ( year < 1986 )
1041 {
1042 if ( !dt.SetToLastWeekDay(Sun, Apr, year) )
1043 {
1044 // weird...
1045 wxFAIL_MSG( _T("no first Sunday in April?") );
1046 }
1047 }
1048 else
1049 {
1050 if ( !dt.SetToWeekDay(Sun, 1, Apr, year) )
1051 {
1052 // weird...
1053 wxFAIL_MSG( _T("no first Sunday in April?") );
1054 }
1055 }
1056
1057 dt += wxTimeSpan::Hours(2);
1058
1059 // TODO what about timezone??
1060 }
1061
1062 break;
1063
1064 default:
1065 // assume Mar 30 as the start of the DST for the rest of the world
1066 // - totally bogus, of course
1067 dt.Set(30, Mar, year);
1068 }
1069
1070 return dt;
1071 }
1072
1073 /* static */
1074 wxDateTime wxDateTime::GetEndDST(int year, Country country)
1075 {
1076 if ( year == Inv_Year )
1077 {
1078 // take the current year if none given
1079 year = GetCurrentYear();
1080 }
1081
1082 if ( country == Country_Default )
1083 {
1084 country = GetCountry();
1085 }
1086
1087 if ( !IsDSTApplicable(year, country) )
1088 {
1089 return wxInvalidDateTime;
1090 }
1091
1092 wxDateTime dt;
1093
1094 if ( IsWestEuropeanCountry(country) || (country == Russia) )
1095 {
1096 // DST ends at 1 a.m. GMT on the last Sunday of October
1097 if ( !dt.SetToLastWeekDay(Sun, Oct, year) )
1098 {
1099 // weirder and weirder...
1100 wxFAIL_MSG( _T("no last Sunday in October?") );
1101 }
1102
1103 dt += wxTimeSpan::Hours(1);
1104
1105 // disable DST tests because it could result in an infinite recursion!
1106 dt.MakeGMT(true);
1107 }
1108 else switch ( country )
1109 {
1110 case USA:
1111 switch ( year )
1112 {
1113 case 1918:
1114 case 1919:
1115 // don't know for sure - assume it was in effect all year
1116
1117 case 1943:
1118 case 1944:
1119 dt.Set(31, Dec, year);
1120 break;
1121
1122 case 1945:
1123 // the time was reset after the end of the WWII
1124 dt.Set(30, Sep, year);
1125 break;
1126
1127 default:
1128 // DST ends at 2 a.m. on the last Sunday of October
1129 if ( !dt.SetToLastWeekDay(Sun, Oct, year) )
1130 {
1131 // weirder and weirder...
1132 wxFAIL_MSG( _T("no last Sunday in October?") );
1133 }
1134
1135 dt += wxTimeSpan::Hours(2);
1136
1137 // TODO what about timezone??
1138 }
1139 break;
1140
1141 default:
1142 // assume October 26th as the end of the DST - totally bogus too
1143 dt.Set(26, Oct, year);
1144 }
1145
1146 return dt;
1147 }
1148
1149 // ----------------------------------------------------------------------------
1150 // constructors and assignment operators
1151 // ----------------------------------------------------------------------------
1152
1153 // return the current time with ms precision
1154 /* static */ wxDateTime wxDateTime::UNow()
1155 {
1156 return wxDateTime(wxGetLocalTimeMillis());
1157 }
1158
1159 // the values in the tm structure contain the local time
1160 wxDateTime& wxDateTime::Set(const struct tm& tm)
1161 {
1162 struct tm tm2(tm);
1163 time_t timet = mktime(&tm2);
1164
1165 if ( timet == (time_t)-1 )
1166 {
1167 // mktime() rather unintuitively fails for Jan 1, 1970 if the hour is
1168 // less than timezone - try to make it work for this case
1169 if ( tm2.tm_year == 70 && tm2.tm_mon == 0 && tm2.tm_mday == 1 )
1170 {
1171 // add timezone to make sure that date is in range
1172 tm2.tm_sec -= GetTimeZone();
1173
1174 timet = mktime(&tm2);
1175 if ( timet != (time_t)-1 )
1176 {
1177 timet += GetTimeZone();
1178
1179 return Set(timet);
1180 }
1181 }
1182
1183 wxFAIL_MSG( _T("mktime() failed") );
1184
1185 *this = wxInvalidDateTime;
1186
1187 return *this;
1188 }
1189 else
1190 {
1191 return Set(timet);
1192 }
1193 }
1194
1195 wxDateTime& wxDateTime::Set(wxDateTime_t hour,
1196 wxDateTime_t minute,
1197 wxDateTime_t second,
1198 wxDateTime_t millisec)
1199 {
1200 // we allow seconds to be 61 to account for the leap seconds, even if we
1201 // don't use them really
1202 wxDATETIME_CHECK( hour < 24 &&
1203 second < 62 &&
1204 minute < 60 &&
1205 millisec < 1000,
1206 _T("Invalid time in wxDateTime::Set()") );
1207
1208 // get the current date from system
1209 struct tm *tm = GetTmNow();
1210
1211 wxDATETIME_CHECK( tm, _T("localtime() failed") );
1212
1213 // adjust the time
1214 tm->tm_hour = hour;
1215 tm->tm_min = minute;
1216 tm->tm_sec = second;
1217
1218 (void)Set(*tm);
1219
1220 // and finally adjust milliseconds
1221 return SetMillisecond(millisec);
1222 }
1223
1224 wxDateTime& wxDateTime::Set(wxDateTime_t day,
1225 Month month,
1226 int year,
1227 wxDateTime_t hour,
1228 wxDateTime_t minute,
1229 wxDateTime_t second,
1230 wxDateTime_t millisec)
1231 {
1232 wxDATETIME_CHECK( hour < 24 &&
1233 second < 62 &&
1234 minute < 60 &&
1235 millisec < 1000,
1236 _T("Invalid time in wxDateTime::Set()") );
1237
1238 ReplaceDefaultYearMonthWithCurrent(&year, &month);
1239
1240 wxDATETIME_CHECK( (0 < day) && (day <= GetNumberOfDays(month, year)),
1241 _T("Invalid date in wxDateTime::Set()") );
1242
1243 // the range of time_t type (inclusive)
1244 static const int yearMinInRange = 1970;
1245 static const int yearMaxInRange = 2037;
1246
1247 // test only the year instead of testing for the exact end of the Unix
1248 // time_t range - it doesn't bring anything to do more precise checks
1249 if ( year >= yearMinInRange && year <= yearMaxInRange )
1250 {
1251 // use the standard library version if the date is in range - this is
1252 // probably more efficient than our code
1253 struct tm tm;
1254 tm.tm_year = year - 1900;
1255 tm.tm_mon = month;
1256 tm.tm_mday = day;
1257 tm.tm_hour = hour;
1258 tm.tm_min = minute;
1259 tm.tm_sec = second;
1260 tm.tm_isdst = -1; // mktime() will guess it
1261
1262 (void)Set(tm);
1263
1264 // and finally adjust milliseconds
1265 return SetMillisecond(millisec);
1266 }
1267 else
1268 {
1269 // do time calculations ourselves: we want to calculate the number of
1270 // milliseconds between the given date and the epoch
1271
1272 // get the JDN for the midnight of this day
1273 m_time = GetTruncatedJDN(day, month, year);
1274 m_time -= EPOCH_JDN;
1275 m_time *= SECONDS_PER_DAY * TIME_T_FACTOR;
1276
1277 // JDN corresponds to GMT, we take localtime
1278 Add(wxTimeSpan(hour, minute, second + GetTimeZone(), millisec));
1279 }
1280
1281 return *this;
1282 }
1283
1284 wxDateTime& wxDateTime::Set(double jdn)
1285 {
1286 // so that m_time will be 0 for the midnight of Jan 1, 1970 which is jdn
1287 // EPOCH_JDN + 0.5
1288 jdn -= EPOCH_JDN + 0.5;
1289
1290 jdn *= MILLISECONDS_PER_DAY;
1291
1292 // JDNs always suppose an UTC date, so bring it back to local time zone
1293 // (also see GetJulianDayNumber() implementation)
1294 long tzDiff = GetTimeZone();
1295 if ( IsDST() == 1 )
1296 {
1297 // FIXME: again, we suppose that DST is always one hour
1298 tzDiff -= 3600;
1299 }
1300
1301 jdn += tzDiff*1000; // tzDiff is in seconds
1302
1303 m_time.Assign(jdn);
1304
1305 return *this;
1306 }
1307
1308 wxDateTime& wxDateTime::ResetTime()
1309 {
1310 Tm tm = GetTm();
1311
1312 if ( tm.hour || tm.min || tm.sec || tm.msec )
1313 {
1314 tm.msec =
1315 tm.sec =
1316 tm.min =
1317 tm.hour = 0;
1318
1319 Set(tm);
1320 }
1321
1322 return *this;
1323 }
1324
1325 // ----------------------------------------------------------------------------
1326 // DOS Date and Time Format functions
1327 // ----------------------------------------------------------------------------
1328 // the dos date and time value is an unsigned 32 bit value in the format:
1329 // YYYYYYYMMMMDDDDDhhhhhmmmmmmsssss
1330 //
1331 // Y = year offset from 1980 (0-127)
1332 // M = month (1-12)
1333 // D = day of month (1-31)
1334 // h = hour (0-23)
1335 // m = minute (0-59)
1336 // s = bisecond (0-29) each bisecond indicates two seconds
1337 // ----------------------------------------------------------------------------
1338
1339 wxDateTime& wxDateTime::SetFromDOS(unsigned long ddt)
1340 {
1341 struct tm tm;
1342 InitTm(tm);
1343
1344 long year = ddt & 0xFE000000;
1345 year >>= 25;
1346 year += 80;
1347 tm.tm_year = year;
1348
1349 long month = ddt & 0x1E00000;
1350 month >>= 21;
1351 month -= 1;
1352 tm.tm_mon = month;
1353
1354 long day = ddt & 0x1F0000;
1355 day >>= 16;
1356 tm.tm_mday = day;
1357
1358 long hour = ddt & 0xF800;
1359 hour >>= 11;
1360 tm.tm_hour = hour;
1361
1362 long minute = ddt & 0x7E0;
1363 minute >>= 5;
1364 tm.tm_min = minute;
1365
1366 long second = ddt & 0x1F;
1367 tm.tm_sec = second * 2;
1368
1369 return Set(mktime(&tm));
1370 }
1371
1372 unsigned long wxDateTime::GetAsDOS() const
1373 {
1374 unsigned long ddt;
1375 time_t ticks = GetTicks();
1376 struct tm *tm = localtime(&ticks);
1377
1378 long year = tm->tm_year;
1379 year -= 80;
1380 year <<= 25;
1381
1382 long month = tm->tm_mon;
1383 month += 1;
1384 month <<= 21;
1385
1386 long day = tm->tm_mday;
1387 day <<= 16;
1388
1389 long hour = tm->tm_hour;
1390 hour <<= 11;
1391
1392 long minute = tm->tm_min;
1393 minute <<= 5;
1394
1395 long second = tm->tm_sec;
1396 second /= 2;
1397
1398 ddt = year | month | day | hour | minute | second;
1399 return ddt;
1400 }
1401
1402 // ----------------------------------------------------------------------------
1403 // time_t <-> broken down time conversions
1404 // ----------------------------------------------------------------------------
1405
1406 wxDateTime::Tm wxDateTime::GetTm(const TimeZone& tz) const
1407 {
1408 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1409
1410 time_t time = GetTicks();
1411 if ( time != (time_t)-1 )
1412 {
1413 // use C RTL functions
1414 tm *tm;
1415 if ( tz.GetOffset() == -GetTimeZone() )
1416 {
1417 // we are working with local time
1418 tm = localtime(&time);
1419
1420 // should never happen
1421 wxCHECK_MSG( tm, Tm(), _T("localtime() failed") );
1422 }
1423 else
1424 {
1425 time += (time_t)tz.GetOffset();
1426 #if defined(__VMS__) || defined(__WATCOMC__) // time is unsigned so avoid warning
1427 int time2 = (int) time;
1428 if ( time2 >= 0 )
1429 #else
1430 if ( time >= 0 )
1431 #endif
1432 {
1433 tm = gmtime(&time);
1434
1435 // should never happen
1436 wxCHECK_MSG( tm, Tm(), _T("gmtime() failed") );
1437 }
1438 else
1439 {
1440 tm = (struct tm *)NULL;
1441 }
1442 }
1443
1444 if ( tm )
1445 {
1446 // adjust the milliseconds
1447 Tm tm2(*tm, tz);
1448 long timeOnly = (m_time % MILLISECONDS_PER_DAY).ToLong();
1449 tm2.msec = (wxDateTime_t)(timeOnly % 1000);
1450 return tm2;
1451 }
1452 //else: use generic code below
1453 }
1454
1455 // remember the time and do the calculations with the date only - this
1456 // eliminates rounding errors of the floating point arithmetics
1457
1458 wxLongLong timeMidnight = m_time + tz.GetOffset() * 1000;
1459
1460 long timeOnly = (timeMidnight % MILLISECONDS_PER_DAY).ToLong();
1461
1462 // we want to always have positive time and timeMidnight to be really
1463 // the midnight before it
1464 if ( timeOnly < 0 )
1465 {
1466 timeOnly = MILLISECONDS_PER_DAY + timeOnly;
1467 }
1468
1469 timeMidnight -= timeOnly;
1470
1471 // calculate the Gregorian date from JDN for the midnight of our date:
1472 // this will yield day, month (in 1..12 range) and year
1473
1474 // actually, this is the JDN for the noon of the previous day
1475 long jdn = (timeMidnight / MILLISECONDS_PER_DAY).ToLong() + EPOCH_JDN;
1476
1477 // CREDIT: code below is by Scott E. Lee (but bugs are mine)
1478
1479 wxASSERT_MSG( jdn > -2, _T("JDN out of range") );
1480
1481 // calculate the century
1482 long temp = (jdn + JDN_OFFSET) * 4 - 1;
1483 long century = temp / DAYS_PER_400_YEARS;
1484
1485 // then the year and day of year (1 <= dayOfYear <= 366)
1486 temp = ((temp % DAYS_PER_400_YEARS) / 4) * 4 + 3;
1487 long year = (century * 100) + (temp / DAYS_PER_4_YEARS);
1488 long dayOfYear = (temp % DAYS_PER_4_YEARS) / 4 + 1;
1489
1490 // and finally the month and day of the month
1491 temp = dayOfYear * 5 - 3;
1492 long month = temp / DAYS_PER_5_MONTHS;
1493 long day = (temp % DAYS_PER_5_MONTHS) / 5 + 1;
1494
1495 // month is counted from March - convert to normal
1496 if ( month < 10 )
1497 {
1498 month += 3;
1499 }
1500 else
1501 {
1502 year += 1;
1503 month -= 9;
1504 }
1505
1506 // year is offset by 4800
1507 year -= 4800;
1508
1509 // check that the algorithm gave us something reasonable
1510 wxASSERT_MSG( (0 < month) && (month <= 12), _T("invalid month") );
1511 wxASSERT_MSG( (1 <= day) && (day < 32), _T("invalid day") );
1512
1513 // construct Tm from these values
1514 Tm tm;
1515 tm.year = (int)year;
1516 tm.mon = (Month)(month - 1); // algorithm yields 1 for January, not 0
1517 tm.mday = (wxDateTime_t)day;
1518 tm.msec = (wxDateTime_t)(timeOnly % 1000);
1519 timeOnly -= tm.msec;
1520 timeOnly /= 1000; // now we have time in seconds
1521
1522 tm.sec = (wxDateTime_t)(timeOnly % 60);
1523 timeOnly -= tm.sec;
1524 timeOnly /= 60; // now we have time in minutes
1525
1526 tm.min = (wxDateTime_t)(timeOnly % 60);
1527 timeOnly -= tm.min;
1528
1529 tm.hour = (wxDateTime_t)(timeOnly / 60);
1530
1531 return tm;
1532 }
1533
1534 wxDateTime& wxDateTime::SetYear(int year)
1535 {
1536 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1537
1538 Tm tm(GetTm());
1539 tm.year = year;
1540 Set(tm);
1541
1542 return *this;
1543 }
1544
1545 wxDateTime& wxDateTime::SetMonth(Month month)
1546 {
1547 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1548
1549 Tm tm(GetTm());
1550 tm.mon = month;
1551 Set(tm);
1552
1553 return *this;
1554 }
1555
1556 wxDateTime& wxDateTime::SetDay(wxDateTime_t mday)
1557 {
1558 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1559
1560 Tm tm(GetTm());
1561 tm.mday = mday;
1562 Set(tm);
1563
1564 return *this;
1565 }
1566
1567 wxDateTime& wxDateTime::SetHour(wxDateTime_t hour)
1568 {
1569 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1570
1571 Tm tm(GetTm());
1572 tm.hour = hour;
1573 Set(tm);
1574
1575 return *this;
1576 }
1577
1578 wxDateTime& wxDateTime::SetMinute(wxDateTime_t min)
1579 {
1580 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1581
1582 Tm tm(GetTm());
1583 tm.min = min;
1584 Set(tm);
1585
1586 return *this;
1587 }
1588
1589 wxDateTime& wxDateTime::SetSecond(wxDateTime_t sec)
1590 {
1591 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1592
1593 Tm tm(GetTm());
1594 tm.sec = sec;
1595 Set(tm);
1596
1597 return *this;
1598 }
1599
1600 wxDateTime& wxDateTime::SetMillisecond(wxDateTime_t millisecond)
1601 {
1602 wxASSERT_MSG( IsValid(), _T("invalid wxDateTime") );
1603
1604 // we don't need to use GetTm() for this one
1605 m_time -= m_time % 1000l;
1606 m_time += millisecond;
1607
1608 return *this;
1609 }
1610
1611 // ----------------------------------------------------------------------------
1612 // wxDateTime arithmetics
1613 // ----------------------------------------------------------------------------
1614
1615 wxDateTime& wxDateTime::Add(const wxDateSpan& diff)
1616 {
1617 Tm tm(GetTm());
1618
1619 tm.year += diff.GetYears();
1620 tm.AddMonths(diff.GetMonths());
1621
1622 // check that the resulting date is valid
1623 if ( tm.mday > GetNumOfDaysInMonth(tm.year, tm.mon) )
1624 {
1625 // We suppose that when adding one month to Jan 31 we want to get Feb
1626 // 28 (or 29), i.e. adding a month to the last day of the month should
1627 // give the last day of the next month which is quite logical.
1628 //
1629 // Unfortunately, there is no logic way to understand what should
1630 // Jan 30 + 1 month be - Feb 28 too or Feb 27 (assuming non leap year)?
1631 // We make it Feb 28 (last day too), but it is highly questionable.
1632 tm.mday = GetNumOfDaysInMonth(tm.year, tm.mon);
1633 }
1634
1635 tm.AddDays(diff.GetTotalDays());
1636
1637 Set(tm);
1638
1639 wxASSERT_MSG( IsSameTime(tm),
1640 _T("Add(wxDateSpan) shouldn't modify time") );
1641
1642 return *this;
1643 }
1644
1645 // ----------------------------------------------------------------------------
1646 // Weekday and monthday stuff
1647 // ----------------------------------------------------------------------------
1648
1649 // convert Sun, Mon, ..., Sat into 6, 0, ..., 5
1650 static inline int ConvertWeekDayToMondayBase(int wd)
1651 {
1652 return wd == wxDateTime::Sun ? 6 : wd - 1;
1653 }
1654
1655 /* static */
1656 wxDateTime
1657 wxDateTime::SetToWeekOfYear(int year, wxDateTime_t numWeek, WeekDay wd)
1658 {
1659 wxASSERT_MSG( numWeek > 0,
1660 _T("invalid week number: weeks are counted from 1") );
1661
1662 // Jan 4 always lies in the 1st week of the year
1663 wxDateTime dt(4, Jan, year);
1664 dt.SetToWeekDayInSameWeek(wd);
1665 dt += wxDateSpan::Weeks(numWeek - 1);
1666
1667 return dt;
1668 }
1669
1670 // use a separate function to avoid warnings about using deprecated
1671 // SetToTheWeek in GetWeek below
1672 static wxDateTime
1673 SetToTheWeek(int year,
1674 wxDateTime::wxDateTime_t numWeek,
1675 wxDateTime::WeekDay weekday,
1676 wxDateTime::WeekFlags flags)
1677 {
1678 // Jan 4 always lies in the 1st week of the year
1679 wxDateTime dt(4, wxDateTime::Jan, year);
1680 dt.SetToWeekDayInSameWeek(weekday, flags);
1681 dt += wxDateSpan::Weeks(numWeek - 1);
1682
1683 return dt;
1684 }
1685
1686 bool wxDateTime::SetToTheWeek(wxDateTime_t numWeek,
1687 WeekDay weekday,
1688 WeekFlags flags)
1689 {
1690 int year = GetYear();
1691 *this = ::SetToTheWeek(year, numWeek, weekday, flags);
1692 if ( GetYear() != year )
1693 {
1694 // oops... numWeek was too big
1695 return false;
1696 }
1697
1698 return true;
1699 }
1700
1701 wxDateTime wxDateTime::GetWeek(wxDateTime_t numWeek,
1702 WeekDay weekday,
1703 WeekFlags flags) const
1704 {
1705 return ::SetToTheWeek(GetYear(), numWeek, weekday, flags);
1706 }
1707
1708 wxDateTime& wxDateTime::SetToLastMonthDay(Month month,
1709 int year)
1710 {
1711 // take the current month/year if none specified
1712 if ( year == Inv_Year )
1713 year = GetYear();
1714 if ( month == Inv_Month )
1715 month = GetMonth();
1716
1717 return Set(GetNumOfDaysInMonth(year, month), month, year);
1718 }
1719
1720 wxDateTime& wxDateTime::SetToWeekDayInSameWeek(WeekDay weekday, WeekFlags flags)
1721 {
1722 wxDATETIME_CHECK( weekday != Inv_WeekDay, _T("invalid weekday") );
1723
1724 int wdayThis = GetWeekDay();
1725 if ( weekday == wdayThis )
1726 {
1727 // nothing to do
1728 return *this;
1729 }
1730
1731 if ( flags == Default_First )
1732 {
1733 flags = GetCountry() == USA ? Sunday_First : Monday_First;
1734 }
1735
1736 // the logic below based on comparing weekday and wdayThis works if Sun (0)
1737 // is the first day in the week, but breaks down for Monday_First case so
1738 // we adjust the week days in this case
1739 if( flags == Monday_First )
1740 {
1741 if ( wdayThis == Sun )
1742 wdayThis += 7;
1743 }
1744 //else: Sunday_First, nothing to do
1745
1746 // go forward or back in time to the day we want
1747 if ( weekday < wdayThis )
1748 {
1749 return Subtract(wxDateSpan::Days(wdayThis - weekday));
1750 }
1751 else // weekday > wdayThis
1752 {
1753 return Add(wxDateSpan::Days(weekday - wdayThis));
1754 }
1755 }
1756
1757 wxDateTime& wxDateTime::SetToNextWeekDay(WeekDay weekday)
1758 {
1759 wxDATETIME_CHECK( weekday != Inv_WeekDay, _T("invalid weekday") );
1760
1761 int diff;
1762 WeekDay wdayThis = GetWeekDay();
1763 if ( weekday == wdayThis )
1764 {
1765 // nothing to do
1766 return *this;
1767 }
1768 else if ( weekday < wdayThis )
1769 {
1770 // need to advance a week
1771 diff = 7 - (wdayThis - weekday);
1772 }
1773 else // weekday > wdayThis
1774 {
1775 diff = weekday - wdayThis;
1776 }
1777
1778 return Add(wxDateSpan::Days(diff));
1779 }
1780
1781 wxDateTime& wxDateTime::SetToPrevWeekDay(WeekDay weekday)
1782 {
1783 wxDATETIME_CHECK( weekday != Inv_WeekDay, _T("invalid weekday") );
1784
1785 int diff;
1786 WeekDay wdayThis = GetWeekDay();
1787 if ( weekday == wdayThis )
1788 {
1789 // nothing to do
1790 return *this;
1791 }
1792 else if ( weekday > wdayThis )
1793 {
1794 // need to go to previous week
1795 diff = 7 - (weekday - wdayThis);
1796 }
1797 else // weekday < wdayThis
1798 {
1799 diff = wdayThis - weekday;
1800 }
1801
1802 return Subtract(wxDateSpan::Days(diff));
1803 }
1804
1805 bool wxDateTime::SetToWeekDay(WeekDay weekday,
1806 int n,
1807 Month month,
1808 int year)
1809 {
1810 wxCHECK_MSG( weekday != Inv_WeekDay, false, _T("invalid weekday") );
1811
1812 // we don't check explicitly that -5 <= n <= 5 because we will return false
1813 // anyhow in such case - but may be should still give an assert for it?
1814
1815 // take the current month/year if none specified
1816 ReplaceDefaultYearMonthWithCurrent(&year, &month);
1817
1818 wxDateTime dt;
1819
1820 // TODO this probably could be optimised somehow...
1821
1822 if ( n > 0 )
1823 {
1824 // get the first day of the month
1825 dt.Set(1, month, year);
1826
1827 // get its wday
1828 WeekDay wdayFirst = dt.GetWeekDay();
1829
1830 // go to the first weekday of the month
1831 int diff = weekday - wdayFirst;
1832 if ( diff < 0 )
1833 diff += 7;
1834
1835 // add advance n-1 weeks more
1836 diff += 7*(n - 1);
1837
1838 dt += wxDateSpan::Days(diff);
1839 }
1840 else // count from the end of the month
1841 {
1842 // get the last day of the month
1843 dt.SetToLastMonthDay(month, year);
1844
1845 // get its wday
1846 WeekDay wdayLast = dt.GetWeekDay();
1847
1848 // go to the last weekday of the month
1849 int diff = wdayLast - weekday;
1850 if ( diff < 0 )
1851 diff += 7;
1852
1853 // and rewind n-1 weeks from there
1854 diff += 7*(-n - 1);
1855
1856 dt -= wxDateSpan::Days(diff);
1857 }
1858
1859 // check that it is still in the same month
1860 if ( dt.GetMonth() == month )
1861 {
1862 *this = dt;
1863
1864 return true;
1865 }
1866 else
1867 {
1868 // no such day in this month
1869 return false;
1870 }
1871 }
1872
1873 static inline
1874 wxDateTime::wxDateTime_t GetDayOfYearFromTm(const wxDateTime::Tm& tm)
1875 {
1876 return (wxDateTime::wxDateTime_t)(gs_cumulatedDays[wxDateTime::IsLeapYear(tm.year)][tm.mon] + tm.mday);
1877 }
1878
1879 wxDateTime::wxDateTime_t wxDateTime::GetDayOfYear(const TimeZone& tz) const
1880 {
1881 return GetDayOfYearFromTm(GetTm(tz));
1882 }
1883
1884 wxDateTime::wxDateTime_t
1885 wxDateTime::GetWeekOfYear(wxDateTime::WeekFlags flags, const TimeZone& tz) const
1886 {
1887 if ( flags == Default_First )
1888 {
1889 flags = GetCountry() == USA ? Sunday_First : Monday_First;
1890 }
1891
1892 Tm tm(GetTm(tz));
1893 wxDateTime_t nDayInYear = GetDayOfYearFromTm(tm);
1894
1895 int wdTarget = GetWeekDay(tz);
1896 int wdYearStart = wxDateTime(1, Jan, GetYear()).GetWeekDay();
1897 int week;
1898 if ( flags == Sunday_First )
1899 {
1900 // FIXME: First week is not calculated correctly.
1901 week = (nDayInYear - wdTarget + 7) / 7;
1902 if ( wdYearStart == Wed || wdYearStart == Thu )
1903 week++;
1904 }
1905 else // week starts with monday
1906 {
1907 // adjust the weekdays to non-US style.
1908 wdYearStart = ConvertWeekDayToMondayBase(wdYearStart);
1909 wdTarget = ConvertWeekDayToMondayBase(wdTarget);
1910
1911 // quoting from http://www.cl.cam.ac.uk/~mgk25/iso-time.html:
1912 //
1913 // Week 01 of a year is per definition the first week that has the
1914 // Thursday in this year, which is equivalent to the week that
1915 // contains the fourth day of January. In other words, the first
1916 // week of a new year is the week that has the majority of its
1917 // days in the new year. Week 01 might also contain days from the
1918 // previous year and the week before week 01 of a year is the last
1919 // week (52 or 53) of the previous year even if it contains days
1920 // from the new year. A week starts with Monday (day 1) and ends
1921 // with Sunday (day 7).
1922 //
1923
1924 // if Jan 1 is Thursday or less, it is in the first week of this year
1925 if ( wdYearStart < 4 )
1926 {
1927 // count the number of entire weeks between Jan 1 and this date
1928 week = (nDayInYear + wdYearStart + 6 - wdTarget)/7;
1929
1930 // be careful to check for overflow in the next year
1931 if ( week == 53 && tm.mday - wdTarget > 28 )
1932 week = 1;
1933 }
1934 else // Jan 1 is in the last week of the previous year
1935 {
1936 // check if we happen to be at the last week of previous year:
1937 if ( tm.mon == Jan && tm.mday < 8 - wdYearStart )
1938 week = wxDateTime(31, Dec, GetYear()-1).GetWeekOfYear();
1939 else
1940 week = (nDayInYear + wdYearStart - 1 - wdTarget)/7;
1941 }
1942 }
1943
1944 return (wxDateTime::wxDateTime_t)week;
1945 }
1946
1947 wxDateTime::wxDateTime_t wxDateTime::GetWeekOfMonth(wxDateTime::WeekFlags flags,
1948 const TimeZone& tz) const
1949 {
1950 Tm tm = GetTm(tz);
1951 wxDateTime dtMonthStart = wxDateTime(1, tm.mon, tm.year);
1952 int nWeek = GetWeekOfYear(flags) - dtMonthStart.GetWeekOfYear(flags) + 1;
1953 if ( nWeek < 0 )
1954 {
1955 // this may happen for January when Jan, 1 is the last week of the
1956 // previous year
1957 nWeek += IsLeapYear(tm.year - 1) ? 53 : 52;
1958 }
1959
1960 return (wxDateTime::wxDateTime_t)nWeek;
1961 }
1962
1963 wxDateTime& wxDateTime::SetToYearDay(wxDateTime::wxDateTime_t yday)
1964 {
1965 int year = GetYear();
1966 wxDATETIME_CHECK( (0 < yday) && (yday <= GetNumberOfDays(year)),
1967 _T("invalid year day") );
1968
1969 bool isLeap = IsLeapYear(year);
1970 for ( Month mon = Jan; mon < Inv_Month; wxNextMonth(mon) )
1971 {
1972 // for Dec, we can't compare with gs_cumulatedDays[mon + 1], but we
1973 // don't need it neither - because of the CHECK above we know that
1974 // yday lies in December then
1975 if ( (mon == Dec) || (yday <= gs_cumulatedDays[isLeap][mon + 1]) )
1976 {
1977 Set(yday - gs_cumulatedDays[isLeap][mon], mon, year);
1978
1979 break;
1980 }
1981 }
1982
1983 return *this;
1984 }
1985
1986 // ----------------------------------------------------------------------------
1987 // Julian day number conversion and related stuff
1988 // ----------------------------------------------------------------------------
1989
1990 double wxDateTime::GetJulianDayNumber() const
1991 {
1992 // JDN are always expressed for the UTC dates
1993 Tm tm(ToTimezone(UTC).GetTm(UTC));
1994
1995 double result = GetTruncatedJDN(tm.mday, tm.mon, tm.year);
1996
1997 // add the part GetTruncatedJDN() neglected
1998 result += 0.5;
1999
2000 // and now add the time: 86400 sec = 1 JDN
2001 return result + ((double)(60*(60*tm.hour + tm.min) + tm.sec)) / 86400;
2002 }
2003
2004 double wxDateTime::GetRataDie() const
2005 {
2006 // March 1 of the year 0 is Rata Die day -306 and JDN 1721119.5
2007 return GetJulianDayNumber() - 1721119.5 - 306;
2008 }
2009
2010 // ----------------------------------------------------------------------------
2011 // timezone and DST stuff
2012 // ----------------------------------------------------------------------------
2013
2014 int wxDateTime::IsDST(wxDateTime::Country country) const
2015 {
2016 wxCHECK_MSG( country == Country_Default, -1,
2017 _T("country support not implemented") );
2018
2019 // use the C RTL for the dates in the standard range
2020 time_t timet = GetTicks();
2021 if ( timet != (time_t)-1 )
2022 {
2023 tm *tm = localtime(&timet);
2024
2025 wxCHECK_MSG( tm, -1, _T("localtime() failed") );
2026
2027 return tm->tm_isdst;
2028 }
2029 else
2030 {
2031 int year = GetYear();
2032
2033 if ( !IsDSTApplicable(year, country) )
2034 {
2035 // no DST time in this year in this country
2036 return -1;
2037 }
2038
2039 return IsBetween(GetBeginDST(year, country), GetEndDST(year, country));
2040 }
2041 }
2042
2043 wxDateTime& wxDateTime::MakeTimezone(const TimeZone& tz, bool noDST)
2044 {
2045 long secDiff = GetTimeZone() + tz.GetOffset();
2046
2047 // we need to know whether DST is or not in effect for this date unless
2048 // the test disabled by the caller
2049 if ( !noDST && (IsDST() == 1) )
2050 {
2051 // FIXME we assume that the DST is always shifted by 1 hour
2052 secDiff -= 3600;
2053 }
2054
2055 return Subtract(wxTimeSpan::Seconds(secDiff));
2056 }
2057
2058 // ----------------------------------------------------------------------------
2059 // wxDateTime to/from text representations
2060 // ----------------------------------------------------------------------------
2061
2062 wxString wxDateTime::Format(const wxChar *format, const TimeZone& tz) const
2063 {
2064 wxCHECK_MSG( format, _T(""), _T("NULL format in wxDateTime::Format") );
2065
2066 // we have to use our own implementation if the date is out of range of
2067 // strftime() or if we use non standard specificators
2068 time_t time = GetTicks();
2069 if ( (time != (time_t)-1) && !wxStrstr(format, _T("%l")) )
2070 {
2071 // use strftime()
2072 tm *tm;
2073 if ( tz.GetOffset() == -GetTimeZone() )
2074 {
2075 // we are working with local time
2076 tm = localtime(&time);
2077
2078 // should never happen
2079 wxCHECK_MSG( tm, wxEmptyString, _T("localtime() failed") );
2080 }
2081 else
2082 {
2083 time += (int)tz.GetOffset();
2084
2085 #if defined(__VMS__) || defined(__WATCOMC__) // time is unsigned so avoid warning
2086 int time2 = (int) time;
2087 if ( time2 >= 0 )
2088 #else
2089 if ( time >= 0 )
2090 #endif
2091 {
2092 tm = gmtime(&time);
2093
2094 // should never happen
2095 wxCHECK_MSG( tm, wxEmptyString, _T("gmtime() failed") );
2096 }
2097 else
2098 {
2099 tm = (struct tm *)NULL;
2100 }
2101 }
2102
2103 if ( tm )
2104 {
2105 return CallStrftime(format, tm);
2106 }
2107 //else: use generic code below
2108 }
2109
2110 // we only parse ANSI C format specifications here, no POSIX 2
2111 // complications, no GNU extensions but we do add support for a "%l" format
2112 // specifier allowing to get the number of milliseconds
2113 Tm tm = GetTm(tz);
2114
2115 // used for calls to strftime() when we only deal with time
2116 struct tm tmTimeOnly;
2117 tmTimeOnly.tm_hour = tm.hour;
2118 tmTimeOnly.tm_min = tm.min;
2119 tmTimeOnly.tm_sec = tm.sec;
2120 tmTimeOnly.tm_wday = 0;
2121 tmTimeOnly.tm_yday = 0;
2122 tmTimeOnly.tm_mday = 1; // any date will do
2123 tmTimeOnly.tm_mon = 0;
2124 tmTimeOnly.tm_year = 76;
2125 tmTimeOnly.tm_isdst = 0; // no DST, we adjust for tz ourselves
2126
2127 wxString tmp, res, fmt;
2128 for ( const wxChar *p = format; *p; p++ )
2129 {
2130 if ( *p != _T('%') )
2131 {
2132 // copy as is
2133 res += *p;
2134
2135 continue;
2136 }
2137
2138 // set the default format
2139 switch ( *++p )
2140 {
2141 case _T('Y'): // year has 4 digits
2142 fmt = _T("%04d");
2143 break;
2144
2145 case _T('j'): // day of year has 3 digits
2146 case _T('l'): // milliseconds have 3 digits
2147 fmt = _T("%03d");
2148 break;
2149
2150 case _T('w'): // week day as number has only one
2151 fmt = _T("%d");
2152 break;
2153
2154 default:
2155 // it's either another valid format specifier in which case
2156 // the format is "%02d" (for all the rest) or we have the
2157 // field width preceding the format in which case it will
2158 // override the default format anyhow
2159 fmt = _T("%02d");
2160 }
2161
2162 bool restart = true;
2163 while ( restart )
2164 {
2165 restart = false;
2166
2167 // start of the format specification
2168 switch ( *p )
2169 {
2170 case _T('a'): // a weekday name
2171 case _T('A'):
2172 // second parameter should be true for abbreviated names
2173 res += GetWeekDayName(tm.GetWeekDay(),
2174 *p == _T('a') ? Name_Abbr : Name_Full);
2175 break;
2176
2177 case _T('b'): // a month name
2178 case _T('B'):
2179 res += GetMonthName(tm.mon,
2180 *p == _T('b') ? Name_Abbr : Name_Full);
2181 break;
2182
2183 case _T('c'): // locale default date and time representation
2184 case _T('x'): // locale default date representation
2185 //
2186 // the problem: there is no way to know what do these format
2187 // specifications correspond to for the current locale.
2188 //
2189 // the solution: use a hack and still use strftime(): first
2190 // find the YEAR which is a year in the strftime() range (1970
2191 // - 2038) whose Jan 1 falls on the same week day as the Jan 1
2192 // of the real year. Then make a copy of the format and
2193 // replace all occurences of YEAR in it with some unique
2194 // string not appearing anywhere else in it, then use
2195 // strftime() to format the date in year YEAR and then replace
2196 // YEAR back by the real year and the unique replacement
2197 // string back with YEAR. Notice that "all occurences of YEAR"
2198 // means all occurences of 4 digit as well as 2 digit form!
2199 //
2200 // the bugs: we assume that neither of %c nor %x contains any
2201 // fields which may change between the YEAR and real year. For
2202 // example, the week number (%U, %W) and the day number (%j)
2203 // will change if one of these years is leap and the other one
2204 // is not!
2205 {
2206 // find the YEAR: normally, for any year X, Jan 1 or the
2207 // year X + 28 is the same weekday as Jan 1 of X (because
2208 // the weekday advances by 1 for each normal X and by 2
2209 // for each leap X, hence by 5 every 4 years or by 35
2210 // which is 0 mod 7 every 28 years) but this rule breaks
2211 // down if there are years between X and Y which are
2212 // divisible by 4 but not leap (i.e. divisible by 100 but
2213 // not 400), hence the correction.
2214
2215 int yearReal = GetYear(tz);
2216 int mod28 = yearReal % 28;
2217
2218 // be careful to not go too far - we risk to leave the
2219 // supported range
2220 int year;
2221 if ( mod28 < 10 )
2222 {
2223 year = 1988 + mod28; // 1988 == 0 (mod 28)
2224 }
2225 else
2226 {
2227 year = 1970 + mod28 - 10; // 1970 == 10 (mod 28)
2228 }
2229
2230 int nCentury = year / 100,
2231 nCenturyReal = yearReal / 100;
2232
2233 // need to adjust for the years divisble by 400 which are
2234 // not leap but are counted like leap ones if we just take
2235 // the number of centuries in between for nLostWeekDays
2236 int nLostWeekDays = (nCentury - nCenturyReal) -
2237 (nCentury / 4 - nCenturyReal / 4);
2238
2239 // we have to gain back the "lost" weekdays: note that the
2240 // effect of this loop is to not do anything to
2241 // nLostWeekDays (which we won't use any more), but to
2242 // (indirectly) set the year correctly
2243 while ( (nLostWeekDays % 7) != 0 )
2244 {
2245 nLostWeekDays += year++ % 4 ? 1 : 2;
2246 }
2247
2248 // at any rate, we couldn't go further than 1988 + 9 + 28!
2249 wxASSERT_MSG( year < 2030,
2250 _T("logic error in wxDateTime::Format") );
2251
2252 wxString strYear, strYear2;
2253 strYear.Printf(_T("%d"), year);
2254 strYear2.Printf(_T("%d"), year % 100);
2255
2256 // find two strings not occuring in format (this is surely
2257 // not optimal way of doing it... improvements welcome!)
2258 wxString fmt = format;
2259 wxString replacement = (wxChar)-1;
2260 while ( fmt.Find(replacement) != wxNOT_FOUND )
2261 {
2262 replacement << (wxChar)-1;
2263 }
2264
2265 wxString replacement2 = (wxChar)-2;
2266 while ( fmt.Find(replacement) != wxNOT_FOUND )
2267 {
2268 replacement << (wxChar)-2;
2269 }
2270
2271 // replace all occurences of year with it
2272 bool wasReplaced = fmt.Replace(strYear, replacement) > 0;
2273 if ( !wasReplaced )
2274 wasReplaced = fmt.Replace(strYear2, replacement2) > 0;
2275
2276 // use strftime() to format the same date but in supported
2277 // year
2278 //
2279 // NB: we assume that strftime() doesn't check for the
2280 // date validity and will happily format the date
2281 // corresponding to Feb 29 of a non leap year (which
2282 // may happen if yearReal was leap and year is not)
2283 struct tm tmAdjusted;
2284 InitTm(tmAdjusted);
2285 tmAdjusted.tm_hour = tm.hour;
2286 tmAdjusted.tm_min = tm.min;
2287 tmAdjusted.tm_sec = tm.sec;
2288 tmAdjusted.tm_wday = tm.GetWeekDay();
2289 tmAdjusted.tm_yday = GetDayOfYear();
2290 tmAdjusted.tm_mday = tm.mday;
2291 tmAdjusted.tm_mon = tm.mon;
2292 tmAdjusted.tm_year = year - 1900;
2293 tmAdjusted.tm_isdst = 0; // no DST, already adjusted
2294 wxString str = CallStrftime(*p == _T('c') ? _T("%c")
2295 : _T("%x"),
2296 &tmAdjusted);
2297
2298 // now replace the occurence of 1999 with the real year
2299 wxString strYearReal, strYearReal2;
2300 strYearReal.Printf(_T("%04d"), yearReal);
2301 strYearReal2.Printf(_T("%02d"), yearReal % 100);
2302 str.Replace(strYear, strYearReal);
2303 str.Replace(strYear2, strYearReal2);
2304
2305 // and replace back all occurences of replacement string
2306 if ( wasReplaced )
2307 {
2308 str.Replace(replacement2, strYear2);
2309 str.Replace(replacement, strYear);
2310 }
2311
2312 res += str;
2313 }
2314 break;
2315
2316 case _T('d'): // day of a month (01-31)
2317 res += wxString::Format(fmt, tm.mday);
2318 break;
2319
2320 case _T('H'): // hour in 24h format (00-23)
2321 res += wxString::Format(fmt, tm.hour);
2322 break;
2323
2324 case _T('I'): // hour in 12h format (01-12)
2325 {
2326 // 24h -> 12h, 0h -> 12h too
2327 int hour12 = tm.hour > 12 ? tm.hour - 12
2328 : tm.hour ? tm.hour : 12;
2329 res += wxString::Format(fmt, hour12);
2330 }
2331 break;
2332
2333 case _T('j'): // day of the year
2334 res += wxString::Format(fmt, GetDayOfYear(tz));
2335 break;
2336
2337 case _T('l'): // milliseconds (NOT STANDARD)
2338 res += wxString::Format(fmt, GetMillisecond(tz));
2339 break;
2340
2341 case _T('m'): // month as a number (01-12)
2342 res += wxString::Format(fmt, tm.mon + 1);
2343 break;
2344
2345 case _T('M'): // minute as a decimal number (00-59)
2346 res += wxString::Format(fmt, tm.min);
2347 break;
2348
2349 case _T('p'): // AM or PM string
2350 res += CallStrftime(_T("%p"), &tmTimeOnly);
2351 break;
2352
2353 case _T('S'): // second as a decimal number (00-61)
2354 res += wxString::Format(fmt, tm.sec);
2355 break;
2356
2357 case _T('U'): // week number in the year (Sunday 1st week day)
2358 res += wxString::Format(fmt, GetWeekOfYear(Sunday_First, tz));
2359 break;
2360
2361 case _T('W'): // week number in the year (Monday 1st week day)
2362 res += wxString::Format(fmt, GetWeekOfYear(Monday_First, tz));
2363 break;
2364
2365 case _T('w'): // weekday as a number (0-6), Sunday = 0
2366 res += wxString::Format(fmt, tm.GetWeekDay());
2367 break;
2368
2369 // case _T('x'): -- handled with "%c"
2370
2371 case _T('X'): // locale default time representation
2372 // just use strftime() to format the time for us
2373 res += CallStrftime(_T("%X"), &tmTimeOnly);
2374 break;
2375
2376 case _T('y'): // year without century (00-99)
2377 res += wxString::Format(fmt, tm.year % 100);
2378 break;
2379
2380 case _T('Y'): // year with century
2381 res += wxString::Format(fmt, tm.year);
2382 break;
2383
2384 case _T('Z'): // timezone name
2385 res += CallStrftime(_T("%Z"), &tmTimeOnly);
2386 break;
2387
2388 default:
2389 // is it the format width?
2390 fmt.Empty();
2391 while ( *p == _T('-') || *p == _T('+') ||
2392 *p == _T(' ') || wxIsdigit(*p) )
2393 {
2394 fmt += *p;
2395 }
2396
2397 if ( !fmt.IsEmpty() )
2398 {
2399 // we've only got the flags and width so far in fmt
2400 fmt.Prepend(_T('%'));
2401 fmt.Append(_T('d'));
2402
2403 restart = true;
2404
2405 break;
2406 }
2407
2408 // no, it wasn't the width
2409 wxFAIL_MSG(_T("unknown format specificator"));
2410
2411 // fall through and just copy it nevertheless
2412
2413 case _T('%'): // a percent sign
2414 res += *p;
2415 break;
2416
2417 case 0: // the end of string
2418 wxFAIL_MSG(_T("missing format at the end of string"));
2419
2420 // just put the '%' which was the last char in format
2421 res += _T('%');
2422 break;
2423 }
2424 }
2425 }
2426
2427 return res;
2428 }
2429
2430 // this function parses a string in (strict) RFC 822 format: see the section 5
2431 // of the RFC for the detailed description, but briefly it's something of the
2432 // form "Sat, 18 Dec 1999 00:48:30 +0100"
2433 //
2434 // this function is "strict" by design - it must reject anything except true
2435 // RFC822 time specs.
2436 //
2437 // TODO a great candidate for using reg exps
2438 const wxChar *wxDateTime::ParseRfc822Date(const wxChar* date)
2439 {
2440 wxCHECK_MSG( date, (wxChar *)NULL, _T("NULL pointer in wxDateTime::Parse") );
2441
2442 const wxChar *p = date;
2443 const wxChar *comma = wxStrchr(p, _T(','));
2444 if ( comma )
2445 {
2446 // the part before comma is the weekday
2447
2448 // skip it for now - we don't use but might check that it really
2449 // corresponds to the specfied date
2450 p = comma + 1;
2451
2452 if ( *p != _T(' ') )
2453 {
2454 wxLogDebug(_T("no space after weekday in RFC822 time spec"));
2455
2456 return (wxChar *)NULL;
2457 }
2458
2459 p++; // skip space
2460 }
2461
2462 // the following 1 or 2 digits are the day number
2463 if ( !wxIsdigit(*p) )
2464 {
2465 wxLogDebug(_T("day number expected in RFC822 time spec, none found"));
2466
2467 return (wxChar *)NULL;
2468 }
2469
2470 wxDateTime_t day = (wxDateTime_t)(*p++ - _T('0'));
2471 if ( wxIsdigit(*p) )
2472 {
2473 day *= 10;
2474 day = (wxDateTime_t)(day + (*p++ - _T('0')));
2475 }
2476
2477 if ( *p++ != _T(' ') )
2478 {
2479 return (wxChar *)NULL;
2480 }
2481
2482 // the following 3 letters specify the month
2483 wxString monName(p, 3);
2484 Month mon;
2485 if ( monName == _T("Jan") )
2486 mon = Jan;
2487 else if ( monName == _T("Feb") )
2488 mon = Feb;
2489 else if ( monName == _T("Mar") )
2490 mon = Mar;
2491 else if ( monName == _T("Apr") )
2492 mon = Apr;
2493 else if ( monName == _T("May") )
2494 mon = May;
2495 else if ( monName == _T("Jun") )
2496 mon = Jun;
2497 else if ( monName == _T("Jul") )
2498 mon = Jul;
2499 else if ( monName == _T("Aug") )
2500 mon = Aug;
2501 else if ( monName == _T("Sep") )
2502 mon = Sep;
2503 else if ( monName == _T("Oct") )
2504 mon = Oct;
2505 else if ( monName == _T("Nov") )
2506 mon = Nov;
2507 else if ( monName == _T("Dec") )
2508 mon = Dec;
2509 else
2510 {
2511 wxLogDebug(_T("Invalid RFC 822 month name '%s'"), monName.c_str());
2512
2513 return (wxChar *)NULL;
2514 }
2515
2516 p += 3;
2517
2518 if ( *p++ != _T(' ') )
2519 {
2520 return (wxChar *)NULL;
2521 }
2522
2523 // next is the year
2524 if ( !wxIsdigit(*p) )
2525 {
2526 // no year?
2527 return (wxChar *)NULL;
2528 }
2529
2530 int year = *p++ - _T('0');
2531
2532 if ( !wxIsdigit(*p) )
2533 {
2534 // should have at least 2 digits in the year
2535 return (wxChar *)NULL;
2536 }
2537
2538 year *= 10;
2539 year += *p++ - _T('0');
2540
2541 // is it a 2 digit year (as per original RFC 822) or a 4 digit one?
2542 if ( wxIsdigit(*p) )
2543 {
2544 year *= 10;
2545 year += *p++ - _T('0');
2546
2547 if ( !wxIsdigit(*p) )
2548 {
2549 // no 3 digit years please
2550 return (wxChar *)NULL;
2551 }
2552
2553 year *= 10;
2554 year += *p++ - _T('0');
2555 }
2556
2557 if ( *p++ != _T(' ') )
2558 {
2559 return (wxChar *)NULL;
2560 }
2561
2562 // time is in the format hh:mm:ss and seconds are optional
2563 if ( !wxIsdigit(*p) )
2564 {
2565 return (wxChar *)NULL;
2566 }
2567
2568 wxDateTime_t hour = *p++ - _T('0');
2569
2570 if ( !wxIsdigit(*p) )
2571 {
2572 return (wxChar *)NULL;
2573 }
2574
2575 hour *= 10;
2576 hour += *p++ - _T('0');
2577
2578 if ( *p++ != _T(':') )
2579 {
2580 return (wxChar *)NULL;
2581 }
2582
2583 if ( !wxIsdigit(*p) )
2584 {
2585 return (wxChar *)NULL;
2586 }
2587
2588 wxDateTime_t min = *p++ - _T('0');
2589
2590 if ( !wxIsdigit(*p) )
2591 {
2592 return (wxChar *)NULL;
2593 }
2594
2595 min *= 10;
2596 min += *p++ - _T('0');
2597
2598 wxDateTime_t sec = 0;
2599 if ( *p++ == _T(':') )
2600 {
2601 if ( !wxIsdigit(*p) )
2602 {
2603 return (wxChar *)NULL;
2604 }
2605
2606 sec = *p++ - _T('0');
2607
2608 if ( !wxIsdigit(*p) )
2609 {
2610 return (wxChar *)NULL;
2611 }
2612
2613 sec *= 10;
2614 sec += *p++ - _T('0');
2615 }
2616
2617 if ( *p++ != _T(' ') )
2618 {
2619 return (wxChar *)NULL;
2620 }
2621
2622 // and now the interesting part: the timezone
2623 int offset;
2624 if ( *p == _T('-') || *p == _T('+') )
2625 {
2626 // the explicit offset given: it has the form of hhmm
2627 bool plus = *p++ == _T('+');
2628
2629 if ( !wxIsdigit(*p) || !wxIsdigit(*(p + 1)) )
2630 {
2631 return (wxChar *)NULL;
2632 }
2633
2634 // hours
2635 offset = 60*(10*(*p - _T('0')) + (*(p + 1) - _T('0')));
2636
2637 p += 2;
2638
2639 if ( !wxIsdigit(*p) || !wxIsdigit(*(p + 1)) )
2640 {
2641 return (wxChar *)NULL;
2642 }
2643
2644 // minutes
2645 offset += 10*(*p - _T('0')) + (*(p + 1) - _T('0'));
2646
2647 if ( !plus )
2648 {
2649 offset = -offset;
2650 }
2651
2652 p += 2;
2653 }
2654 else
2655 {
2656 // the symbolic timezone given: may be either military timezone or one
2657 // of standard abbreviations
2658 if ( !*(p + 1) )
2659 {
2660 // military: Z = UTC, J unused, A = -1, ..., Y = +12
2661 static const int offsets[26] =
2662 {
2663 //A B C D E F G H I J K L M
2664 -1, -2, -3, -4, -5, -6, -7, -8, -9, 0, -10, -11, -12,
2665 //N O P R Q S T U V W Z Y Z
2666 +1, +2, +3, +4, +5, +6, +7, +8, +9, +10, +11, +12, 0
2667 };
2668
2669 if ( *p < _T('A') || *p > _T('Z') || *p == _T('J') )
2670 {
2671 wxLogDebug(_T("Invalid militaty timezone '%c'"), *p);
2672
2673 return (wxChar *)NULL;
2674 }
2675
2676 offset = offsets[*p++ - _T('A')];
2677 }
2678 else
2679 {
2680 // abbreviation
2681 wxString tz = p;
2682 if ( tz == _T("UT") || tz == _T("UTC") || tz == _T("GMT") )
2683 offset = 0;
2684 else if ( tz == _T("AST") )
2685 offset = AST - GMT0;
2686 else if ( tz == _T("ADT") )
2687 offset = ADT - GMT0;
2688 else if ( tz == _T("EST") )
2689 offset = EST - GMT0;
2690 else if ( tz == _T("EDT") )
2691 offset = EDT - GMT0;
2692 else if ( tz == _T("CST") )
2693 offset = CST - GMT0;
2694 else if ( tz == _T("CDT") )
2695 offset = CDT - GMT0;
2696 else if ( tz == _T("MST") )
2697 offset = MST - GMT0;
2698 else if ( tz == _T("MDT") )
2699 offset = MDT - GMT0;
2700 else if ( tz == _T("PST") )
2701 offset = PST - GMT0;
2702 else if ( tz == _T("PDT") )
2703 offset = PDT - GMT0;
2704 else
2705 {
2706 wxLogDebug(_T("Unknown RFC 822 timezone '%s'"), p);
2707
2708 return (wxChar *)NULL;
2709 }
2710
2711 p += tz.length();
2712 }
2713
2714 // make it minutes
2715 offset *= 60;
2716 }
2717
2718 // the spec was correct
2719 Set(day, mon, year, hour, min, sec);
2720 MakeTimezone((wxDateTime_t)(60*offset));
2721
2722 return p;
2723 }
2724
2725 const wxChar *wxDateTime::ParseFormat(const wxChar *date,
2726 const wxChar *format,
2727 const wxDateTime& dateDef)
2728 {
2729 wxCHECK_MSG( date && format, (wxChar *)NULL,
2730 _T("NULL pointer in wxDateTime::ParseFormat()") );
2731
2732 wxString str;
2733 unsigned long num;
2734
2735 // what fields have we found?
2736 bool haveWDay = false,
2737 haveYDay = false,
2738 haveDay = false,
2739 haveMon = false,
2740 haveYear = false,
2741 haveHour = false,
2742 haveMin = false,
2743 haveSec = false;
2744
2745 bool hourIsIn12hFormat = false, // or in 24h one?
2746 isPM = false; // AM by default
2747
2748 // and the value of the items we have (init them to get rid of warnings)
2749 wxDateTime_t sec = 0,
2750 min = 0,
2751 hour = 0;
2752 WeekDay wday = Inv_WeekDay;
2753 wxDateTime_t yday = 0,
2754 mday = 0;
2755 wxDateTime::Month mon = Inv_Month;
2756 int year = 0;
2757
2758 const wxChar *input = date;
2759 for ( const wxChar *fmt = format; *fmt; fmt++ )
2760 {
2761 if ( *fmt != _T('%') )
2762 {
2763 if ( wxIsspace(*fmt) )
2764 {
2765 // a white space in the format string matches 0 or more white
2766 // spaces in the input
2767 while ( wxIsspace(*input) )
2768 {
2769 input++;
2770 }
2771 }
2772 else // !space
2773 {
2774 // any other character (not whitespace, not '%') must be
2775 // matched by itself in the input
2776 if ( *input++ != *fmt )
2777 {
2778 // no match
2779 return (wxChar *)NULL;
2780 }
2781 }
2782
2783 // done with this format char
2784 continue;
2785 }
2786
2787 // start of a format specification
2788
2789 // parse the optional width
2790 size_t width = 0;
2791 while ( wxIsdigit(*++fmt) )
2792 {
2793 width *= 10;
2794 width += *fmt - _T('0');
2795 }
2796
2797 // the default widths for the various fields
2798 if ( !width )
2799 {
2800 switch ( *fmt )
2801 {
2802 case _T('Y'): // year has 4 digits
2803 width = 4;
2804 break;
2805
2806 case _T('j'): // day of year has 3 digits
2807 case _T('l'): // milliseconds have 3 digits
2808 width = 3;
2809 break;
2810
2811 case _T('w'): // week day as number has only one
2812 width = 1;
2813 break;
2814
2815 default:
2816 // default for all other fields
2817 width = 2;
2818 }
2819 }
2820
2821 // then the format itself
2822 switch ( *fmt )
2823 {
2824 case _T('a'): // a weekday name
2825 case _T('A'):
2826 {
2827 int flag = *fmt == _T('a') ? Name_Abbr : Name_Full;
2828 wday = GetWeekDayFromName(GetAlphaToken(input), flag);
2829 if ( wday == Inv_WeekDay )
2830 {
2831 // no match
2832 return (wxChar *)NULL;
2833 }
2834 }
2835 haveWDay = true;
2836 break;
2837
2838 case _T('b'): // a month name
2839 case _T('B'):
2840 {
2841 int flag = *fmt == _T('b') ? Name_Abbr : Name_Full;
2842 mon = GetMonthFromName(GetAlphaToken(input), flag);
2843 if ( mon == Inv_Month )
2844 {
2845 // no match
2846 return (wxChar *)NULL;
2847 }
2848 }
2849 haveMon = true;
2850 break;
2851
2852 case _T('c'): // locale default date and time representation
2853 {
2854 wxDateTime dt;
2855
2856 // this is the format which corresponds to ctime() output
2857 // and strptime("%c") should parse it, so try it first
2858 static const wxChar *fmtCtime = _T("%a %b %d %H:%M:%S %Y");
2859
2860 const wxChar *result = dt.ParseFormat(input, fmtCtime);
2861 if ( !result )
2862 {
2863 result = dt.ParseFormat(input, _T("%x %X"));
2864 }
2865
2866 if ( !result )
2867 {
2868 result = dt.ParseFormat(input, _T("%X %x"));
2869 }
2870
2871 if ( !result )
2872 {
2873 // we've tried everything and still no match
2874 return (wxChar *)NULL;
2875 }
2876
2877 Tm tm = dt.GetTm();
2878
2879 haveDay = haveMon = haveYear =
2880 haveHour = haveMin = haveSec = true;
2881
2882 hour = tm.hour;
2883 min = tm.min;
2884 sec = tm.sec;
2885
2886 year = tm.year;
2887 mon = tm.mon;
2888 mday = tm.mday;
2889
2890 input = result;
2891 }
2892 break;
2893
2894 case _T('d'): // day of a month (01-31)
2895 if ( !GetNumericToken(width, input, &num) ||
2896 (num > 31) || (num < 1) )
2897 {
2898 // no match
2899 return (wxChar *)NULL;
2900 }
2901
2902 // we can't check whether the day range is correct yet, will
2903 // do it later - assume ok for now
2904 haveDay = true;
2905 mday = (wxDateTime_t)num;
2906 break;
2907
2908 case _T('H'): // hour in 24h format (00-23)
2909 if ( !GetNumericToken(width, input, &num) || (num > 23) )
2910 {
2911 // no match
2912 return (wxChar *)NULL;
2913 }
2914
2915 haveHour = true;
2916 hour = (wxDateTime_t)num;
2917 break;
2918
2919 case _T('I'): // hour in 12h format (01-12)
2920 if ( !GetNumericToken(width, input, &num) || !num || (num > 12) )
2921 {
2922 // no match
2923 return (wxChar *)NULL;
2924 }
2925
2926 haveHour = true;
2927 hourIsIn12hFormat = true;
2928 hour = (wxDateTime_t)(num % 12); // 12 should be 0
2929 break;
2930
2931 case _T('j'): // day of the year
2932 if ( !GetNumericToken(width, input, &num) || !num || (num > 366) )
2933 {
2934 // no match
2935 return (wxChar *)NULL;
2936 }
2937
2938 haveYDay = true;
2939 yday = (wxDateTime_t)num;
2940 break;
2941
2942 case _T('m'): // month as a number (01-12)
2943 if ( !GetNumericToken(width, input, &num) || !num || (num > 12) )
2944 {
2945 // no match
2946 return (wxChar *)NULL;
2947 }
2948
2949 haveMon = true;
2950 mon = (Month)(num - 1);
2951 break;
2952
2953 case _T('M'): // minute as a decimal number (00-59)
2954 if ( !GetNumericToken(width, input, &num) || (num > 59) )
2955 {
2956 // no match
2957 return (wxChar *)NULL;
2958 }
2959
2960 haveMin = true;
2961 min = (wxDateTime_t)num;
2962 break;
2963
2964 case _T('p'): // AM or PM string
2965 {
2966 wxString am, pm, token = GetAlphaToken(input);
2967
2968 GetAmPmStrings(&am, &pm);
2969 if (am.IsEmpty() && pm.IsEmpty())
2970 return (wxChar *)NULL; // no am/pm strings defined
2971 if ( token.CmpNoCase(pm) == 0 )
2972 {
2973 isPM = true;
2974 }
2975 else if ( token.CmpNoCase(am) != 0 )
2976 {
2977 // no match
2978 return (wxChar *)NULL;
2979 }
2980 }
2981 break;
2982
2983 case _T('r'): // time as %I:%M:%S %p
2984 {
2985 wxDateTime dt;
2986 input = dt.ParseFormat(input, _T("%I:%M:%S %p"));
2987 if ( !input )
2988 {
2989 // no match
2990 return (wxChar *)NULL;
2991 }
2992
2993 haveHour = haveMin = haveSec = true;
2994
2995 Tm tm = dt.GetTm();
2996 hour = tm.hour;
2997 min = tm.min;
2998 sec = tm.sec;
2999 }
3000 break;
3001
3002 case _T('R'): // time as %H:%M
3003 {
3004 wxDateTime dt;
3005 input = dt.ParseFormat(input, _T("%H:%M"));
3006 if ( !input )
3007 {
3008 // no match
3009 return (wxChar *)NULL;
3010 }
3011
3012 haveHour = haveMin = true;
3013
3014 Tm tm = dt.GetTm();
3015 hour = tm.hour;
3016 min = tm.min;
3017 }
3018
3019 case _T('S'): // second as a decimal number (00-61)
3020 if ( !GetNumericToken(width, input, &num) || (num > 61) )
3021 {
3022 // no match
3023 return (wxChar *)NULL;
3024 }
3025
3026 haveSec = true;
3027 sec = (wxDateTime_t)num;
3028 break;
3029
3030 case _T('T'): // time as %H:%M:%S
3031 {
3032 wxDateTime dt;
3033 input = dt.ParseFormat(input, _T("%H:%M:%S"));
3034 if ( !input )
3035 {
3036 // no match
3037 return (wxChar *)NULL;
3038 }
3039
3040 haveHour = haveMin = haveSec = true;
3041
3042 Tm tm = dt.GetTm();
3043 hour = tm.hour;
3044 min = tm.min;
3045 sec = tm.sec;
3046 }
3047 break;
3048
3049 case _T('w'): // weekday as a number (0-6), Sunday = 0
3050 if ( !GetNumericToken(width, input, &num) || (wday > 6) )
3051 {
3052 // no match
3053 return (wxChar *)NULL;
3054 }
3055
3056 haveWDay = true;
3057 wday = (WeekDay)num;
3058 break;
3059
3060 case _T('x'): // locale default date representation
3061 #ifdef HAVE_STRPTIME
3062 // try using strptime() -- it may fail even if the input is
3063 // correct but the date is out of range, so we will fall back
3064 // to our generic code anyhow
3065 {
3066 struct tm tm;
3067
3068 const wxChar *result = CallStrptime(input, "%x", &tm);
3069 if ( result )
3070 {
3071 input = result;
3072
3073 haveDay = haveMon = haveYear = true;
3074
3075 year = 1900 + tm.tm_year;
3076 mon = (Month)tm.tm_mon;
3077 mday = tm.tm_mday;
3078
3079 break;
3080 }
3081 }
3082 #endif // HAVE_STRPTIME
3083
3084 // TODO query the LOCALE_IDATE setting under Win32
3085 {
3086 wxDateTime dt;
3087
3088 wxString fmtDate, fmtDateAlt;
3089 if ( IsWestEuropeanCountry(GetCountry()) ||
3090 GetCountry() == Russia )
3091 {
3092 fmtDate = _T("%d/%m/%y");
3093 fmtDateAlt = _T("%m/%d/%y");
3094 }
3095 else // assume USA
3096 {
3097 fmtDate = _T("%m/%d/%y");
3098 fmtDateAlt = _T("%d/%m/%y");
3099 }
3100
3101 const wxChar *result = dt.ParseFormat(input, fmtDate);
3102
3103 if ( !result )
3104 {
3105 // ok, be nice and try another one
3106 result = dt.ParseFormat(input, fmtDateAlt);
3107 }
3108
3109 if ( !result )
3110 {
3111 // bad luck
3112 return (wxChar *)NULL;
3113 }
3114
3115 Tm tm = dt.GetTm();
3116
3117 haveDay = haveMon = haveYear = true;
3118
3119 year = tm.year;
3120 mon = tm.mon;
3121 mday = tm.mday;
3122
3123 input = result;
3124 }
3125
3126 break;
3127
3128 case _T('X'): // locale default time representation
3129 #ifdef HAVE_STRPTIME
3130 {
3131 // use strptime() to do it for us (FIXME !Unicode friendly)
3132 struct tm tm;
3133 input = CallStrptime(input, "%X", &tm);
3134 if ( !input )
3135 {
3136 return (wxChar *)NULL;
3137 }
3138
3139 haveHour = haveMin = haveSec = true;
3140
3141 hour = tm.tm_hour;
3142 min = tm.tm_min;
3143 sec = tm.tm_sec;
3144 }
3145 #else // !HAVE_STRPTIME
3146 // TODO under Win32 we can query the LOCALE_ITIME system
3147 // setting which says whether the default time format is
3148 // 24 or 12 hour
3149 {
3150 // try to parse what follows as "%H:%M:%S" and, if this
3151 // fails, as "%I:%M:%S %p" - this should catch the most
3152 // common cases
3153 wxDateTime dt;
3154
3155 const wxChar *result = dt.ParseFormat(input, _T("%T"));
3156 if ( !result )
3157 {
3158 result = dt.ParseFormat(input, _T("%r"));
3159 }
3160
3161 if ( !result )
3162 {
3163 // no match
3164 return (wxChar *)NULL;
3165 }
3166
3167 haveHour = haveMin = haveSec = true;
3168
3169 Tm tm = dt.GetTm();
3170 hour = tm.hour;
3171 min = tm.min;
3172 sec = tm.sec;
3173
3174 input = result;
3175 }
3176 #endif // HAVE_STRPTIME/!HAVE_STRPTIME
3177 break;
3178
3179 case _T('y'): // year without century (00-99)
3180 if ( !GetNumericToken(width, input, &num) || (num > 99) )
3181 {
3182 // no match
3183 return (wxChar *)NULL;
3184 }
3185
3186 haveYear = true;
3187
3188 // TODO should have an option for roll over date instead of
3189 // hard coding it here
3190 year = (num > 30 ? 1900 : 2000) + (wxDateTime_t)num;
3191 break;
3192
3193 case _T('Y'): // year with century
3194 if ( !GetNumericToken(width, input, &num) )
3195 {
3196 // no match
3197 return (wxChar *)NULL;
3198 }
3199
3200 haveYear = true;
3201 year = (wxDateTime_t)num;
3202 break;
3203
3204 case _T('Z'): // timezone name
3205 wxFAIL_MSG(_T("TODO"));
3206 break;
3207
3208 case _T('%'): // a percent sign
3209 if ( *input++ != _T('%') )
3210 {
3211 // no match
3212 return (wxChar *)NULL;
3213 }
3214 break;
3215
3216 case 0: // the end of string
3217 wxFAIL_MSG(_T("unexpected format end"));
3218
3219 // fall through
3220
3221 default: // not a known format spec
3222 return (wxChar *)NULL;
3223 }
3224 }
3225
3226 // format matched, try to construct a date from what we have now
3227 Tm tmDef;
3228 if ( dateDef.IsValid() )
3229 {
3230 // take this date as default
3231 tmDef = dateDef.GetTm();
3232 }
3233 else if ( IsValid() )
3234 {
3235 // if this date is valid, don't change it
3236 tmDef = GetTm();
3237 }
3238 else
3239 {
3240 // no default and this date is invalid - fall back to Today()
3241 tmDef = Today().GetTm();
3242 }
3243
3244 Tm tm = tmDef;
3245
3246 // set the date
3247 if ( haveYear )
3248 {
3249 tm.year = year;
3250 }
3251
3252 // TODO we don't check here that the values are consistent, if both year
3253 // day and month/day were found, we just ignore the year day and we
3254 // also always ignore the week day
3255 if ( haveMon && haveDay )
3256 {
3257 if ( mday > GetNumOfDaysInMonth(tm.year, mon) )
3258 {
3259 wxLogDebug(_T("bad month day in wxDateTime::ParseFormat"));
3260
3261 return (wxChar *)NULL;
3262 }
3263
3264 tm.mon = mon;
3265 tm.mday = mday;
3266 }
3267 else if ( haveYDay )
3268 {
3269 if ( yday > GetNumberOfDays(tm.year) )
3270 {
3271 wxLogDebug(_T("bad year day in wxDateTime::ParseFormat"));
3272
3273 return (wxChar *)NULL;
3274 }
3275
3276 Tm tm2 = wxDateTime(1, Jan, tm.year).SetToYearDay(yday).GetTm();
3277
3278 tm.mon = tm2.mon;
3279 tm.mday = tm2.mday;
3280 }
3281
3282 // deal with AM/PM
3283 if ( haveHour && hourIsIn12hFormat && isPM )
3284 {
3285 // translate to 24hour format
3286 hour += 12;
3287 }
3288 //else: either already in 24h format or no translation needed
3289
3290 // set the time
3291 if ( haveHour )
3292 {
3293 tm.hour = hour;
3294 }
3295
3296 if ( haveMin )
3297 {
3298 tm.min = min;
3299 }
3300
3301 if ( haveSec )
3302 {
3303 tm.sec = sec;
3304 }
3305
3306 Set(tm);
3307
3308 // finally check that the week day is consistent -- if we had it
3309 if ( haveWDay && GetWeekDay() != wday )
3310 {
3311 wxLogDebug(_T("inconsistsnet week day in wxDateTime::ParseFormat()"));
3312
3313 return NULL;
3314 }
3315
3316 return input;
3317 }
3318
3319 const wxChar *wxDateTime::ParseDateTime(const wxChar *date)
3320 {
3321 wxCHECK_MSG( date, (wxChar *)NULL, _T("NULL pointer in wxDateTime::Parse") );
3322
3323 // Set to current day and hour, so strings like '14:00' becomes today at
3324 // 14, not some other random date
3325 wxDateTime dtDate = wxDateTime::Today();
3326 wxDateTime dtTime = wxDateTime::Today();
3327
3328 const wxChar* pchTime;
3329
3330 // Try to parse the beginning of the string as a date
3331 const wxChar* pchDate = dtDate.ParseDate(date);
3332
3333 // We got a date in the beginning, see if there is a time specified after the date
3334 if ( pchDate )
3335 {
3336 // Skip spaces, as the ParseTime() function fails on spaces
3337 while ( wxIsspace(*pchDate) )
3338 pchDate++;
3339
3340 pchTime = dtTime.ParseTime(pchDate);
3341 }
3342 else // no date in the beginning
3343 {
3344 // check and see if we have a time followed by a date
3345 pchTime = dtTime.ParseTime(date);
3346 if ( pchTime )
3347 {
3348 while ( wxIsspace(*pchTime) )
3349 pchTime++;
3350
3351 pchDate = dtDate.ParseDate(pchTime);
3352 }
3353 }
3354
3355 // If we have a date specified, set our own data to the same date
3356 if ( !pchDate || !pchTime )
3357 return NULL;
3358
3359 Set(dtDate.GetDay(), dtDate.GetMonth(), dtDate.GetYear(),
3360 dtTime.GetHour(), dtTime.GetMinute(), dtTime.GetSecond(),
3361 dtTime.GetMillisecond());
3362
3363 // Return endpoint of scan
3364 return pchDate > pchTime ? pchDate : pchTime;
3365 }
3366
3367 const wxChar *wxDateTime::ParseDate(const wxChar *date)
3368 {
3369 // this is a simplified version of ParseDateTime() which understands only
3370 // "today" (for wxDate compatibility) and digits only otherwise (and not
3371 // all esoteric constructions ParseDateTime() knows about)
3372
3373 wxCHECK_MSG( date, (wxChar *)NULL, _T("NULL pointer in wxDateTime::Parse") );
3374
3375 const wxChar *p = date;
3376 while ( wxIsspace(*p) )
3377 p++;
3378
3379 // some special cases
3380 static struct
3381 {
3382 const wxChar *str;
3383 int dayDiffFromToday;
3384 } literalDates[] =
3385 {
3386 { wxTRANSLATE("today"), 0 },
3387 { wxTRANSLATE("yesterday"), -1 },
3388 { wxTRANSLATE("tomorrow"), 1 },
3389 };
3390
3391 for ( size_t n = 0; n < WXSIZEOF(literalDates); n++ )
3392 {
3393 wxString date = wxGetTranslation(literalDates[n].str);
3394 size_t len = date.length();
3395 if ( wxStrlen(p) >= len )
3396 {
3397 wxString str(p, len);
3398 if ( str.CmpNoCase(date) == 0 )
3399 {
3400 // nothing can follow this, so stop here
3401 p += len;
3402
3403 int dayDiffFromToday = literalDates[n].dayDiffFromToday;
3404 *this = Today();
3405 if ( dayDiffFromToday )
3406 {
3407 *this += wxDateSpan::Days(dayDiffFromToday);
3408 }
3409
3410 return p;
3411 }
3412 }
3413 }
3414
3415 // We try to guess what we have here: for each new (numeric) token, we
3416 // determine if it can be a month, day or a year. Of course, there is an
3417 // ambiguity as some numbers may be days as well as months, so we also
3418 // have the ability to back track.
3419
3420 // what do we have?
3421 bool haveDay = false, // the months day?
3422 haveWDay = false, // the day of week?
3423 haveMon = false, // the month?
3424 haveYear = false; // the year?
3425
3426 // and the value of the items we have (init them to get rid of warnings)
3427 WeekDay wday = Inv_WeekDay;
3428 wxDateTime_t day = 0;
3429 wxDateTime::Month mon = Inv_Month;
3430 int year = 0;
3431
3432 // tokenize the string
3433 size_t nPosCur = 0;
3434 static const wxChar *dateDelimiters = _T(".,/-\t\r\n ");
3435 wxStringTokenizer tok(p, dateDelimiters);
3436 while ( tok.HasMoreTokens() )
3437 {
3438 wxString token = tok.GetNextToken();
3439 if ( !token )
3440 continue;
3441
3442 // is it a number?
3443 unsigned long val;
3444 if ( token.ToULong(&val) )
3445 {
3446 // guess what this number is
3447
3448 bool isDay = false,
3449 isMonth = false,
3450 isYear = false;
3451
3452 if ( !haveMon && val > 0 && val <= 12 )
3453 {
3454 // assume it is month
3455 isMonth = true;
3456 }
3457 else // not the month
3458 {
3459 if ( haveDay )
3460 {
3461 // this can only be the year
3462 isYear = true;
3463 }
3464 else // may be either day or year
3465 {
3466 wxDateTime_t maxDays = haveMon
3467 ? GetNumOfDaysInMonth(haveYear ? year : Inv_Year, mon)
3468 : 31;
3469
3470 // can it be day?
3471 if ( (val == 0) || (val > (unsigned long)maxDays) )
3472 {
3473 // no
3474 isYear = true;
3475 }
3476 else // yes, suppose it's the day
3477 {
3478 isDay = true;
3479 }
3480 }
3481 }
3482
3483 if ( isYear )
3484 {
3485 if ( haveYear )
3486 break;
3487
3488 haveYear = true;
3489
3490 year = (wxDateTime_t)val;
3491 }
3492 else if ( isDay )
3493 {
3494 if ( haveDay )
3495 break;
3496
3497 haveDay = true;
3498
3499 day = (wxDateTime_t)val;
3500 }
3501 else if ( isMonth )
3502 {
3503 haveMon = true;
3504
3505 mon = (Month)(val - 1);
3506 }
3507 }
3508 else // not a number
3509 {
3510 // be careful not to overwrite the current mon value
3511 Month mon2 = GetMonthFromName(token, Name_Full | Name_Abbr);
3512 if ( mon2 != Inv_Month )
3513 {
3514 // it's a month
3515 if ( haveMon )
3516 {
3517 // but we already have a month - maybe we guessed wrong?
3518 if ( !haveDay )
3519 {
3520 // no need to check in month range as always < 12, but
3521 // the days are counted from 1 unlike the months
3522 day = (wxDateTime_t)mon + 1;
3523 haveDay = true;
3524 }
3525 else
3526 {
3527 // could possible be the year (doesn't the year come
3528 // before the month in the japanese format?) (FIXME)
3529 break;
3530 }
3531 }
3532
3533 mon = mon2;
3534
3535 haveMon = true;
3536 }
3537 else // not a valid month name
3538 {
3539 wday = GetWeekDayFromName(token, Name_Full | Name_Abbr);
3540 if ( wday != Inv_WeekDay )
3541 {
3542 // a week day
3543 if ( haveWDay )
3544 {
3545 break;
3546 }
3547
3548 haveWDay = true;
3549 }
3550 else // not a valid weekday name
3551 {
3552 // try the ordinals
3553 static const wxChar *ordinals[] =
3554 {
3555 wxTRANSLATE("first"),
3556 wxTRANSLATE("second"),
3557 wxTRANSLATE("third"),
3558 wxTRANSLATE("fourth"),
3559 wxTRANSLATE("fifth"),
3560 wxTRANSLATE("sixth"),
3561 wxTRANSLATE("seventh"),
3562 wxTRANSLATE("eighth"),
3563 wxTRANSLATE("ninth"),
3564 wxTRANSLATE("tenth"),
3565 wxTRANSLATE("eleventh"),
3566 wxTRANSLATE("twelfth"),
3567 wxTRANSLATE("thirteenth"),
3568 wxTRANSLATE("fourteenth"),
3569 wxTRANSLATE("fifteenth"),
3570 wxTRANSLATE("sixteenth"),
3571 wxTRANSLATE("seventeenth"),
3572 wxTRANSLATE("eighteenth"),
3573 wxTRANSLATE("nineteenth"),
3574 wxTRANSLATE("twentieth"),
3575 // that's enough - otherwise we'd have problems with
3576 // composite (or not) ordinals
3577 };
3578
3579 size_t n;
3580 for ( n = 0; n < WXSIZEOF(ordinals); n++ )
3581 {
3582 if ( token.CmpNoCase(ordinals[n]) == 0 )
3583 {
3584 break;
3585 }
3586 }
3587
3588 if ( n == WXSIZEOF(ordinals) )
3589 {
3590 // stop here - something unknown
3591 break;
3592 }
3593
3594 // it's a day
3595 if ( haveDay )
3596 {
3597 // don't try anything here (as in case of numeric day
3598 // above) - the symbolic day spec should always
3599 // precede the month/year
3600 break;
3601 }
3602
3603 haveDay = true;
3604
3605 day = (wxDateTime_t)(n + 1);
3606 }
3607 }
3608 }
3609
3610 nPosCur = tok.GetPosition();
3611 }
3612
3613 // either no more tokens or the scan was stopped by something we couldn't
3614 // parse - in any case, see if we can construct a date from what we have
3615 if ( !haveDay && !haveWDay )
3616 {
3617 wxLogDebug(_T("ParseDate: no day, no weekday hence no date."));
3618
3619 return (wxChar *)NULL;
3620 }
3621
3622 if ( haveWDay && (haveMon || haveYear || haveDay) &&
3623 !(haveDay && haveMon && haveYear) )
3624 {
3625 // without adjectives (which we don't support here) the week day only
3626 // makes sense completely separately or with the full date
3627 // specification (what would "Wed 1999" mean?)
3628 return (wxChar *)NULL;
3629 }
3630
3631 if ( !haveWDay && haveYear && !(haveDay && haveMon) )
3632 {
3633 // may be we have month and day instead of day and year?
3634 if ( haveDay && !haveMon )
3635 {
3636 if ( day <= 12 )
3637 {
3638 // exchange day and month
3639 mon = (wxDateTime::Month)(day - 1);
3640
3641 // we're in the current year then
3642 if ( (year > 0) && (year <= (int)GetNumOfDaysInMonth(Inv_Year, mon)) )
3643 {
3644 day = year;
3645
3646 haveMon = true;
3647 haveYear = false;
3648 }
3649 //else: no, can't exchange, leave haveMon == false
3650 }
3651 }
3652
3653 if ( !haveMon )
3654 {
3655 // if we give the year, month and day must be given too
3656 wxLogDebug(_T("ParseDate: day and month should be specified if year is."));
3657
3658 return (wxChar *)NULL;
3659 }
3660 }
3661
3662 if ( !haveMon )
3663 {
3664 mon = GetCurrentMonth();
3665 }
3666
3667 if ( !haveYear )
3668 {
3669 year = GetCurrentYear();
3670 }
3671
3672 if ( haveDay )
3673 {
3674 Set(day, mon, year);
3675
3676 if ( haveWDay )
3677 {
3678 // check that it is really the same
3679 if ( GetWeekDay() != wday )
3680 {
3681 // inconsistency detected
3682 wxLogDebug(_T("ParseDate: inconsistent day/weekday."));
3683
3684 return (wxChar *)NULL;
3685 }
3686 }
3687 }
3688 else // haveWDay
3689 {
3690 *this = Today();
3691
3692 SetToWeekDayInSameWeek(wday);
3693 }
3694
3695 // return the pointer to the first unparsed char
3696 p += nPosCur;
3697 if ( nPosCur && wxStrchr(dateDelimiters, *(p - 1)) )
3698 {
3699 // if we couldn't parse the token after the delimiter, put back the
3700 // delimiter as well
3701 p--;
3702 }
3703
3704 return p;
3705 }
3706
3707 const wxChar *wxDateTime::ParseTime(const wxChar *time)
3708 {
3709 wxCHECK_MSG( time, (wxChar *)NULL, _T("NULL pointer in wxDateTime::Parse") );
3710
3711 // first try some extra things
3712 static const struct
3713 {
3714 const wxChar *name;
3715 wxDateTime_t hour;
3716 } stdTimes[] =
3717 {
3718 { wxTRANSLATE("noon"), 12 },
3719 { wxTRANSLATE("midnight"), 00 },
3720 // anything else?
3721 };
3722
3723 for ( size_t n = 0; n < WXSIZEOF(stdTimes); n++ )
3724 {
3725 wxString timeString = wxGetTranslation(stdTimes[n].name);
3726 size_t len = timeString.length();
3727 if ( timeString.CmpNoCase(wxString(time, len)) == 0 )
3728 {
3729 // casts required by DigitalMars
3730 Set(stdTimes[n].hour, wxDateTime_t(0), wxDateTime_t(0));
3731
3732 return time + len;
3733 }
3734 }
3735
3736 // try all time formats we may think about in the order from longest to
3737 // shortest
3738
3739 // 12hour with AM/PM?
3740 const wxChar *result = ParseFormat(time, _T("%I:%M:%S %p"));
3741
3742 if ( !result )
3743 {
3744 // normally, it's the same, but why not try it?
3745 result = ParseFormat(time, _T("%H:%M:%S"));
3746 }
3747
3748 if ( !result )
3749 {
3750 // 12hour with AM/PM but without seconds?
3751 result = ParseFormat(time, _T("%I:%M %p"));
3752 }
3753
3754 if ( !result )
3755 {
3756 // without seconds?
3757 result = ParseFormat(time, _T("%H:%M"));
3758 }
3759
3760 if ( !result )
3761 {
3762 // just the hour and AM/PM?
3763 result = ParseFormat(time, _T("%I %p"));
3764 }
3765
3766 if ( !result )
3767 {
3768 // just the hour?
3769 result = ParseFormat(time, _T("%H"));
3770 }
3771
3772 if ( !result )
3773 {
3774 // parse the standard format: normally it is one of the formats above
3775 // but it may be set to something completely different by the user
3776 result = ParseFormat(time, _T("%X"));
3777 }
3778
3779 // TODO: parse timezones
3780
3781 return result;
3782 }
3783
3784 // ----------------------------------------------------------------------------
3785 // Workdays and holidays support
3786 // ----------------------------------------------------------------------------
3787
3788 bool wxDateTime::IsWorkDay(Country WXUNUSED(country)) const
3789 {
3790 return !wxDateTimeHolidayAuthority::IsHoliday(*this);
3791 }
3792
3793 // ============================================================================
3794 // wxTimeSpan
3795 // ============================================================================
3796
3797 // this enum is only used in wxTimeSpan::Format() below but we can't declare
3798 // it locally to the method as it provokes an internal compiler error in egcs
3799 // 2.91.60 when building with -O2
3800 enum TimeSpanPart
3801 {
3802 Part_Week,
3803 Part_Day,
3804 Part_Hour,
3805 Part_Min,
3806 Part_Sec,
3807 Part_MSec
3808 };
3809
3810 // not all strftime(3) format specifiers make sense here because, for example,
3811 // a time span doesn't have a year nor a timezone
3812 //
3813 // Here are the ones which are supported (all of them are supported by strftime
3814 // as well):
3815 // %H hour in 24 hour format
3816 // %M minute (00 - 59)
3817 // %S second (00 - 59)
3818 // %% percent sign
3819 //
3820 // Also, for MFC CTimeSpan compatibility, we support
3821 // %D number of days
3822 //
3823 // And, to be better than MFC :-), we also have
3824 // %E number of wEeks
3825 // %l milliseconds (000 - 999)
3826 wxString wxTimeSpan::Format(const wxChar *format) const
3827 {
3828 wxCHECK_MSG( format, _T(""), _T("NULL format in wxTimeSpan::Format") );
3829
3830 wxString str;
3831 str.Alloc(wxStrlen(format));
3832
3833 // Suppose we have wxTimeSpan ts(1 /* hour */, 2 /* min */, 3 /* sec */)
3834 //
3835 // Then, of course, ts.Format("%H:%M:%S") must return "01:02:03", but the
3836 // question is what should ts.Format("%S") do? The code here returns "3273"
3837 // in this case (i.e. the total number of seconds, not just seconds % 60)
3838 // because, for me, this call means "give me entire time interval in
3839 // seconds" and not "give me the seconds part of the time interval"
3840 //
3841 // If we agree that it should behave like this, it is clear that the
3842 // interpretation of each format specifier depends on the presence of the
3843 // other format specs in the string: if there was "%H" before "%M", we
3844 // should use GetMinutes() % 60, otherwise just GetMinutes() &c
3845
3846 // we remember the most important unit found so far
3847 TimeSpanPart partBiggest = Part_MSec;
3848
3849 for ( const wxChar *pch = format; *pch; pch++ )
3850 {
3851 wxChar ch = *pch;
3852
3853 if ( ch == _T('%') )
3854 {
3855 // the start of the format specification of the printf() below
3856 wxString fmtPrefix = _T('%');
3857
3858 // the number
3859 long n;
3860
3861 ch = *++pch; // get the format spec char
3862 switch ( ch )
3863 {
3864 default:
3865 wxFAIL_MSG( _T("invalid format character") );
3866 // fall through
3867
3868 case _T('%'):
3869 str += ch;
3870
3871 // skip the part below switch
3872 continue;
3873
3874 case _T('D'):
3875 n = GetDays();
3876 if ( partBiggest < Part_Day )
3877 {
3878 n %= DAYS_PER_WEEK;
3879 }
3880 else
3881 {
3882 partBiggest = Part_Day;
3883 }
3884 break;
3885
3886 case _T('E'):
3887 partBiggest = Part_Week;
3888 n = GetWeeks();
3889 break;
3890
3891 case _T('H'):
3892 n = GetHours();
3893 if ( partBiggest < Part_Hour )
3894 {
3895 n %= HOURS_PER_DAY;
3896 }
3897 else
3898 {
3899 partBiggest = Part_Hour;
3900 }
3901
3902 fmtPrefix += _T("02");
3903 break;
3904
3905 case _T('l'):
3906 n = GetMilliseconds().ToLong();
3907 if ( partBiggest < Part_MSec )
3908 {
3909 n %= 1000;
3910 }
3911 //else: no need to reset partBiggest to Part_MSec, it is
3912 // the least significant one anyhow
3913
3914 fmtPrefix += _T("03");
3915 break;
3916
3917 case _T('M'):
3918 n = GetMinutes();
3919 if ( partBiggest < Part_Min )
3920 {
3921 n %= MIN_PER_HOUR;
3922 }
3923 else
3924 {
3925 partBiggest = Part_Min;
3926 }
3927
3928 fmtPrefix += _T("02");
3929 break;
3930
3931 case _T('S'):
3932 n = GetSeconds().ToLong();
3933 if ( partBiggest < Part_Sec )
3934 {
3935 n %= SEC_PER_MIN;
3936 }
3937 else
3938 {
3939 partBiggest = Part_Sec;
3940 }
3941
3942 fmtPrefix += _T("02");
3943 break;
3944 }
3945
3946 str += wxString::Format(fmtPrefix + _T("ld"), n);
3947 }
3948 else
3949 {
3950 // normal character, just copy
3951 str += ch;
3952 }
3953 }
3954
3955 return str;
3956 }
3957
3958 // ============================================================================
3959 // wxDateTimeHolidayAuthority and related classes
3960 // ============================================================================
3961
3962 #include "wx/arrimpl.cpp"
3963
3964 WX_DEFINE_OBJARRAY(wxDateTimeArray);
3965
3966 static int wxCMPFUNC_CONV
3967 wxDateTimeCompareFunc(wxDateTime **first, wxDateTime **second)
3968 {
3969 wxDateTime dt1 = **first,
3970 dt2 = **second;
3971
3972 return dt1 == dt2 ? 0 : dt1 < dt2 ? -1 : +1;
3973 }
3974
3975 // ----------------------------------------------------------------------------
3976 // wxDateTimeHolidayAuthority
3977 // ----------------------------------------------------------------------------
3978
3979 wxHolidayAuthoritiesArray wxDateTimeHolidayAuthority::ms_authorities;
3980
3981 /* static */
3982 bool wxDateTimeHolidayAuthority::IsHoliday(const wxDateTime& dt)
3983 {
3984 size_t count = ms_authorities.size();
3985 for ( size_t n = 0; n < count; n++ )
3986 {
3987 if ( ms_authorities[n]->DoIsHoliday(dt) )
3988 {
3989 return true;
3990 }
3991 }
3992
3993 return false;
3994 }
3995
3996 /* static */
3997 size_t
3998 wxDateTimeHolidayAuthority::GetHolidaysInRange(const wxDateTime& dtStart,
3999 const wxDateTime& dtEnd,
4000 wxDateTimeArray& holidays)
4001 {
4002 wxDateTimeArray hol;
4003
4004 holidays.Clear();
4005
4006 size_t count = ms_authorities.size();
4007 for ( size_t nAuth = 0; nAuth < count; nAuth++ )
4008 {
4009 ms_authorities[nAuth]->DoGetHolidaysInRange(dtStart, dtEnd, hol);
4010
4011 WX_APPEND_ARRAY(holidays, hol);
4012 }
4013
4014 holidays.Sort(wxDateTimeCompareFunc);
4015
4016 return holidays.size();
4017 }
4018
4019 /* static */
4020 void wxDateTimeHolidayAuthority::ClearAllAuthorities()
4021 {
4022 WX_CLEAR_ARRAY(ms_authorities);
4023 }
4024
4025 /* static */
4026 void wxDateTimeHolidayAuthority::AddAuthority(wxDateTimeHolidayAuthority *auth)
4027 {
4028 ms_authorities.push_back(auth);
4029 }
4030
4031 wxDateTimeHolidayAuthority::~wxDateTimeHolidayAuthority()
4032 {
4033 // nothing to do here
4034 }
4035
4036 // ----------------------------------------------------------------------------
4037 // wxDateTimeWorkDays
4038 // ----------------------------------------------------------------------------
4039
4040 bool wxDateTimeWorkDays::DoIsHoliday(const wxDateTime& dt) const
4041 {
4042 wxDateTime::WeekDay wd = dt.GetWeekDay();
4043
4044 return (wd == wxDateTime::Sun) || (wd == wxDateTime::Sat);
4045 }
4046
4047 size_t wxDateTimeWorkDays::DoGetHolidaysInRange(const wxDateTime& dtStart,
4048 const wxDateTime& dtEnd,
4049 wxDateTimeArray& holidays) const
4050 {
4051 if ( dtStart > dtEnd )
4052 {
4053 wxFAIL_MSG( _T("invalid date range in GetHolidaysInRange") );
4054
4055 return 0u;
4056 }
4057
4058 holidays.Empty();
4059
4060 // instead of checking all days, start with the first Sat after dtStart and
4061 // end with the last Sun before dtEnd
4062 wxDateTime dtSatFirst = dtStart.GetNextWeekDay(wxDateTime::Sat),
4063 dtSatLast = dtEnd.GetPrevWeekDay(wxDateTime::Sat),
4064 dtSunFirst = dtStart.GetNextWeekDay(wxDateTime::Sun),
4065 dtSunLast = dtEnd.GetPrevWeekDay(wxDateTime::Sun),
4066 dt;
4067
4068 for ( dt = dtSatFirst; dt <= dtSatLast; dt += wxDateSpan::Week() )
4069 {
4070 holidays.Add(dt);
4071 }
4072
4073 for ( dt = dtSunFirst; dt <= dtSunLast; dt += wxDateSpan::Week() )
4074 {
4075 holidays.Add(dt);
4076 }
4077
4078 return holidays.GetCount();
4079 }
4080
4081 #endif // wxUSE_DATETIME