]> git.saurik.com Git - apple/icu.git/blame - icuSources/i18n/calendar.cpp
ICU-6.2.15.tar.gz
[apple/icu.git] / icuSources / i18n / calendar.cpp
CommitLineData
b75a7d8f
A
1/*
2*******************************************************************************
374ca955 3* Copyright (C) 1997-2004, International Business Machines Corporation and *
b75a7d8f
A
4* others. All Rights Reserved. *
5*******************************************************************************
6*
7* File CALENDAR.CPP
8*
9* Modification History:
10*
11* Date Name Description
12* 02/03/97 clhuang Creation.
13* 04/22/97 aliu Cleaned up, fixed memory leak, made
14* setWeekCountData() more robust.
15* Moved platform code to TPlatformUtilities.
16* 05/01/97 aliu Made equals(), before(), after() arguments const.
17* 05/20/97 aliu Changed logic of when to compute fields and time
18* to fix bugs.
19* 08/12/97 aliu Added equivalentTo. Misc other fixes.
20* 07/28/98 stephen Sync up with JDK 1.2
21* 09/02/98 stephen Sync with JDK 1.2 8/31 build (getActualMin/Max)
22* 03/17/99 stephen Changed adoptTimeZone() - now fAreFieldsSet is
23* set to FALSE to force update of time.
24*******************************************************************************
25*/
26
27#include "unicode/utypes.h"
28
29#if !UCONFIG_NO_FORMATTING
30
b75a7d8f 31#include "unicode/gregocal.h"
374ca955 32#include "gregoimp.h"
b75a7d8f
A
33#include "buddhcal.h"
34#include "japancal.h"
374ca955
A
35#include "islamcal.h"
36#include "hebrwcal.h"
37#include "chnsecal.h"
b75a7d8f
A
38#include "unicode/calendar.h"
39#include "cpputils.h"
40#include "iculserv.h"
41#include "ucln_in.h"
42#include "cstring.h"
374ca955
A
43#include "locbased.h"
44#include "uresimp.h"
b75a7d8f 45
374ca955
A
46#if !UCONFIG_NO_SERVICE
47static ICULocaleService* gService = NULL;
48#endif
49
50// INTERNAL - for cleanup
51
52U_CDECL_BEGIN
53static UBool calendar_cleanup(void) {
54#if !UCONFIG_NO_SERVICE
55 if (gService) {
56 delete gService;
57 gService = NULL;
58 }
59#endif
60 return TRUE;
61}
62U_CDECL_END
b75a7d8f
A
63
64// ------------------------------------------
65//
66// Registration
67//
68//-------------------------------------------
69//#define U_DEBUG_CALSVC 1
70//
71
374ca955 72#if defined( U_DEBUG_CALSVC ) || defined (U_DEBUG_CAL)
b75a7d8f 73#include <stdio.h>
374ca955
A
74
75
76/**
77 * convert a UCalendarDateFields into a string - for debugging
78 * @param f field enum
79 * @return static string to the field name
80 * @internal
81 */
82static const char* fldName(UCalendarDateFields f) {
83 switch (f) {
84#define FIELD_NAME_STR(x) case x: return (#x+5)
85 FIELD_NAME_STR( UCAL_ERA );
86 FIELD_NAME_STR( UCAL_YEAR );
87 FIELD_NAME_STR( UCAL_MONTH );
88 FIELD_NAME_STR( UCAL_WEEK_OF_YEAR );
89 FIELD_NAME_STR( UCAL_WEEK_OF_MONTH );
90 FIELD_NAME_STR( UCAL_DATE );
91 FIELD_NAME_STR( UCAL_DAY_OF_YEAR );
92 FIELD_NAME_STR( UCAL_DAY_OF_WEEK );
93 FIELD_NAME_STR( UCAL_DAY_OF_WEEK_IN_MONTH );
94 FIELD_NAME_STR( UCAL_AM_PM );
95 FIELD_NAME_STR( UCAL_HOUR );
96 FIELD_NAME_STR( UCAL_HOUR_OF_DAY );
97 FIELD_NAME_STR( UCAL_MINUTE );
98 FIELD_NAME_STR( UCAL_SECOND );
99 FIELD_NAME_STR( UCAL_MILLISECOND );
100 FIELD_NAME_STR( UCAL_ZONE_OFFSET );
101 FIELD_NAME_STR( UCAL_DST_OFFSET );
102 FIELD_NAME_STR( UCAL_YEAR_WOY );
103 FIELD_NAME_STR( UCAL_DOW_LOCAL );
104 FIELD_NAME_STR( UCAL_EXTENDED_YEAR );
105 FIELD_NAME_STR( UCAL_JULIAN_DAY );
106 FIELD_NAME_STR( UCAL_MILLISECONDS_IN_DAY );
107#undef FIELD_NAME_STR
108 default:
109 return "??";
110 }
111}
112
b75a7d8f
A
113#endif
114
374ca955
A
115static const char * const gBasicCalendars[] = { "@calendar=gregorian", "@calendar=japanese",
116 "@calendar=buddhist", "@calendar=islamic-civil",
117 "@calendar=islamic", "@calendar=hebrew", "@calendar=chinese",
118 NULL };
119
120U_NAMESPACE_BEGIN
121
122static UBool isStandardSupportedID( const char *id, UErrorCode& status) {
123 if(U_FAILURE(status)) {
124 return FALSE;
125 }
126 for(int32_t i=0;gBasicCalendars[i] != NULL;i++) {
127 if(uprv_strcmp(gBasicCalendars[i],id) == 0) {
128 return TRUE;
129 }
130 }
131 return FALSE;
132}
133
134static Calendar *createStandardCalendar(char *calType, const Locale &canLoc, UErrorCode& status) {
135#ifdef U_DEBUG_CALSVC
136 fprintf(stderr, "BasicCalendarFactory %p: creating type for %s\n",
137 this, (const char*)curLoc.getName());
138 fflush(stderr);
139#endif
140
141 if(!calType || !*calType || !uprv_strcmp(calType,"@calendar=gregorian")) { // Gregorian (default)
142 return new GregorianCalendar(canLoc, status);
143 } else if(!uprv_strcmp(calType, "@calendar=japanese")) {
144 return new JapaneseCalendar(canLoc, status);
145 } else if(!uprv_strcmp(calType, "@calendar=buddhist")) {
146 return new BuddhistCalendar(canLoc, status);
147 } else if(!uprv_strcmp(calType, "@calendar=islamic-civil")) {
148 return new IslamicCalendar(canLoc, status, IslamicCalendar::CIVIL);
149 } else if(!uprv_strcmp(calType, "@calendar=islamic")) {
150 return new IslamicCalendar(canLoc, status, IslamicCalendar::ASTRONOMICAL);
151 } else if(!uprv_strcmp(calType, "@calendar=hebrew")) {
152 return new HebrewCalendar(canLoc, status);
153 //} else if(!uprv_strcmp(calType, "@calendar=chinese")) {
154 //return new ChineseCalendar(canLoc, status);
155 } else {
156 status = U_UNSUPPORTED_ERROR;
157 return NULL;
158 }
159}
160
161#if !UCONFIG_NO_SERVICE
b75a7d8f
A
162
163// -------------------------------------
164
165/**
166 * a Calendar Factory which creates the "basic" calendar types, that is, those
167 * shipped with ICU.
168 */
b75a7d8f
A
169class BasicCalendarFactory : public LocaleKeyFactory {
170public:
171 /**
172 * @param calendarType static const string (caller owns storage - will be aliased) to calendar type
173 */
374ca955
A
174 BasicCalendarFactory()
175 : LocaleKeyFactory(LocaleKeyFactory::INVISIBLE) { }
b75a7d8f
A
176
177 virtual ~BasicCalendarFactory() {}
178
179protected:
374ca955
A
180 virtual UBool isSupportedID( const UnicodeString& id, UErrorCode& status) const {
181 if(U_FAILURE(status)) {
182 return FALSE;
183 }
184 for(int32_t i=0;gBasicCalendars[i] != NULL;i++) {
185 UnicodeString ourId(gBasicCalendars[i],"");
186 if(ourId == id) {
187 return TRUE;
188 }
189 }
190 return FALSE;
191 }
b75a7d8f
A
192
193 virtual void updateVisibleIDs(Hashtable& result, UErrorCode& status) const
194 {
195 if (U_SUCCESS(status)) {
374ca955
A
196 for(int32_t i=0;gBasicCalendars[i] != NULL;i++) {
197 UnicodeString id(gBasicCalendars[i],"");
198 result.put(id, (void*)this, status);
199 }
b75a7d8f
A
200 }
201 }
202
203 virtual UObject* create(const ICUServiceKey& key, const ICUService* /*service*/, UErrorCode& status) const {
374ca955
A
204#ifdef U_DEBUG_CALSVC
205 if(key.getDynamicClassID() != LocaleKey::getStaticClassID()) {
206 fprintf(stderr, "::create - not a LocaleKey!\n");
207 }
208#endif
b75a7d8f
A
209 const LocaleKey& lkey = (LocaleKey&)key;
210 Locale curLoc; // current locale
211 Locale canLoc; // Canonical locale
212
213 lkey.currentLocale(curLoc);
214 lkey.canonicalLocale(canLoc);
215
216 UnicodeString str;
217 key.currentID(str);
218
374ca955
A
219 char tmp[200];
220 // Extract a char* out of it..
221 int32_t len = str.length();
222 int32_t actLen = sizeof(tmp)-1;
223 if(len > actLen) {
224 len = actLen;
225 }
226 str.extract(0,len,tmp);
227 tmp[len]=0;
228
b75a7d8f 229#ifdef U_DEBUG_CALSVC
374ca955 230 fprintf(stderr, "BasicCalendarFactory::create() - cur %s, can %s\n", (const char*)curLoc.getName(), (const char*)canLoc.getName());
b75a7d8f
A
231#endif
232
374ca955 233 if(!isStandardSupportedID(tmp,status)) { // Do we handle this type?
b75a7d8f 234#ifdef U_DEBUG_CALSVC
374ca955
A
235
236 fprintf(stderr, "BasicCalendarFactory - not handling %s.[%s]\n", (const char*) curLoc.getName(), tmp );
b75a7d8f
A
237#endif
238 return NULL;
239 }
240
374ca955 241 return createStandardCalendar(tmp, canLoc, status);
b75a7d8f 242 }
b75a7d8f
A
243};
244
245
246/**
247 * A factory which looks up the DefaultCalendar resource to determine which class of calendar to use
248 */
249
250class DefaultCalendarFactory : public ICUResourceBundleFactory {
374ca955 251 public:
b75a7d8f 252 DefaultCalendarFactory(): ICUResourceBundleFactory() { }
374ca955 253 protected:
b75a7d8f 254 virtual UObject* create(const ICUServiceKey& key, const ICUService* /*service*/, UErrorCode& status) const {
374ca955
A
255
256 LocaleKey &lkey = (LocaleKey&)key;
257 Locale loc;
258 lkey.currentLocale(loc);
259
260 UnicodeString myString;
261
262 // attempt keyword lookup
263 char keyword[128];
264
265 if(!loc.getKeywordValue("calendar", keyword, sizeof(keyword)-1, status)) {
266 // fetch default calendar id
267 char funcEquiv[ULOC_FULLNAME_CAPACITY];
268 ures_getFunctionalEquivalent(funcEquiv, sizeof(funcEquiv)-1,
269 NULL, "calendar", "calendar",
270 loc.getName(),
271 NULL, FALSE, &status);
272 uloc_getKeywordValue(funcEquiv, "calendar", keyword,
273 sizeof(keyword)-1, &status);
b75a7d8f 274#ifdef U_DEBUG_CALSVC
374ca955 275 fprintf(stderr, " getFunctionalEquivalent calendar=%s [%s]\n", keyword, u_errorName(status));
b75a7d8f 276#endif
374ca955 277 }
b75a7d8f 278#ifdef U_DEBUG_CALSVC
374ca955 279 else { fprintf(stderr, " explicit calendar=%s\n", keyword); }
b75a7d8f
A
280#endif
281
b75a7d8f 282
374ca955
A
283 if(U_FAILURE(status)) {
284 return NULL;
285 } else {
286 UnicodeString *ret = new UnicodeString();
287 ret->append((UChar)0x40); // '@' is a variant character
288 ret->append(UNICODE_STRING("calendar=", 9));
289 (*ret) += UnicodeString(keyword,-1,US_INV);
290 return ret;
291 }
b75a7d8f 292 }
b75a7d8f
A
293};
294
295// -------------------------------------
296class CalendarService : public ICULocaleService {
297public:
298 CalendarService()
374ca955 299 : ICULocaleService(UNICODE_STRING_SIMPLE("Calendar"))
b75a7d8f
A
300 {
301 UErrorCode status = U_ZERO_ERROR;
302 registerFactory(new DefaultCalendarFactory(), status);
303 }
304
305 virtual UObject* cloneInstance(UObject* instance) const {
306 if(instance->getDynamicClassID() == UnicodeString::getStaticClassID()) {
307 return ((UnicodeString*)instance)->clone();
308 } else {
309#ifdef U_DEBUG_CALSVC_F
310 UErrorCode status2 = U_ZERO_ERROR;
311 fprintf(stderr, "Cloning a %s calendar with tz=%ld\n", ((Calendar*)instance)->getType(), ((Calendar*)instance)->get(UCAL_ZONE_OFFSET, status2));
312#endif
313 return ((Calendar*)instance)->clone();
314 }
315 }
316
317 virtual UObject* handleDefault(const ICUServiceKey& key, UnicodeString* /*actualID*/, UErrorCode& status) const {
374ca955
A
318 LocaleKey& lkey = (LocaleKey&)key;
319 //int32_t kind = lkey.kind();
b75a7d8f 320
374ca955
A
321 Locale loc;
322 lkey.canonicalLocale(loc);
b75a7d8f
A
323
324#ifdef U_DEBUG_CALSVC
325 Locale loc2;
326 lkey.currentLocale(loc2);
327 fprintf(stderr, "CalSvc:handleDefault for currentLoc %s, canloc %s\n", (const char*)loc.getName(), (const char*)loc2.getName());
328#endif
374ca955 329 Calendar *nc = new GregorianCalendar(loc, status);
b75a7d8f
A
330
331#ifdef U_DEBUG_CALSVC
332 UErrorCode status2 = U_ZERO_ERROR;
333 fprintf(stderr, "New default calendar has tz=%d\n", ((Calendar*)nc)->get(UCAL_ZONE_OFFSET, status2));
334#endif
335 return nc;
336 }
337
338 virtual UBool isDefault() const {
339 return countFactories() == 1;
340 }
341};
342
343// -------------------------------------
344
374ca955
A
345static inline UBool
346isCalendarServiceUsed() {
347 Mutex mutex;
348 return (UBool)(gService != NULL);
349}
350
351// -------------------------------------
352
b75a7d8f 353static ICULocaleService*
374ca955 354getCalendarService(UErrorCode &status)
b75a7d8f
A
355{
356 UBool needInit;
357 {
358 Mutex mutex;
359 needInit = (UBool)(gService == NULL);
360 }
361 if (needInit) {
b75a7d8f
A
362#ifdef U_DEBUG_CALSVC
363 fprintf(stderr, "Spinning up Calendar Service\n");
364#endif
365 ICULocaleService * newservice = new CalendarService();
366#ifdef U_DEBUG_CALSVC
367 fprintf(stderr, "Registering classes..\n");
368#endif
369
370 // Register all basic instances.
374ca955 371 newservice->registerFactory(new BasicCalendarFactory(),status);
b75a7d8f
A
372
373#ifdef U_DEBUG_CALSVC
374 fprintf(stderr, "Done..\n");
375#endif
376
377 if(U_FAILURE(status)) {
378#ifdef U_DEBUG_CALSVC
379 fprintf(stderr, "err (%s) registering classes, deleting service.....\n", u_errorName(status));
380#endif
381 delete newservice;
382 newservice = NULL;
383 }
384
385 if (newservice) {
386 Mutex mutex;
387 if (gService == NULL) {
388 gService = newservice;
389 newservice = NULL;
390 }
391 }
392 if (newservice) {
393 delete newservice;
394 } else {
395 // we won the contention - we can register the cleanup.
374ca955 396 ucln_i18n_registerCleanup(UCLN_I18N_CALENDAR, calendar_cleanup);
b75a7d8f
A
397 }
398 }
399 return gService;
400}
401
374ca955
A
402URegistryKey Calendar::registerFactory(ICUServiceFactory* toAdopt, UErrorCode& status)
403{
404 return getCalendarService(status)->registerFactory(toAdopt, status);
405}
406
407UBool Calendar::unregister(URegistryKey key, UErrorCode& status) {
408 return getCalendarService(status)->unregister(key, status);
409}
410#endif /* UCONFIG_NO_SERVICE */
411
b75a7d8f
A
412// -------------------------------------
413
374ca955
A
414static const int32_t kCalendarLimits[UCAL_FIELD_COUNT][4] = {
415 // Minimum Greatest min Least max Greatest max
416 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // ERA
417 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // YEAR
418 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // MONTH
419 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // WEEK_OF_YEAR
420 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // WEEK_OF_MONTH
421 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // DAY_OF_MONTH
422 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // DAY_OF_YEAR
423 { 1, 1, 7, 7 }, // DAY_OF_WEEK
424 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // DAY_OF_WEEK_IN_MONTH
425 { 0, 0, 1, 1 }, // AM_PM
426 { 0, 0, 11, 11 }, // HOUR
427 { 0, 0, 23, 23 }, // HOUR_OF_DAY
428 { 0, 0, 59, 59 }, // MINUTE
429 { 0, 0, 59, 59 }, // SECOND
430 { 0, 0, 999, 999 }, // MILLISECOND
431 {-12*kOneHour, -12*kOneHour, 12*kOneHour, 15*kOneHour }, // ZONE_OFFSET
432 { 0, 0, 1*kOneHour, 1*kOneHour }, // DST_OFFSET
433 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // YEAR_WOY
434 { 1, 1, 7, 7 }, // DOW_LOCAL
435 {/*N/A*/-1, /*N/A*/-1, /*N/A*/-1, /*N/A*/-1}, // EXTENDED_YEAR
436 { -0x7F000000, -0x7F000000, 0x7F000000, 0x7F000000 }, // JULIAN_DAY
437 { 0, 0, 24*kOneHour-1, 24*kOneHour-1 } // MILLISECONDS_IN_DAY
438};
b75a7d8f
A
439
440// Resource bundle tags read by this class
441const char Calendar::kDateTimeElements[] = "DateTimeElements";
b75a7d8f
A
442
443// Data flow in Calendar
444// ---------------------
445
446// The current time is represented in two ways by Calendar: as UTC
447// milliseconds from the epoch start (1 January 1970 0:00 UTC), and as local
448// fields such as MONTH, HOUR, AM_PM, etc. It is possible to compute the
449// millis from the fields, and vice versa. The data needed to do this
450// conversion is encapsulated by a TimeZone object owned by the Calendar.
451// The data provided by the TimeZone object may also be overridden if the
452// user sets the ZONE_OFFSET and/or DST_OFFSET fields directly. The class
453// keeps track of what information was most recently set by the caller, and
454// uses that to compute any other information as needed.
455
456// If the user sets the fields using set(), the data flow is as follows.
457// This is implemented by the Calendar subclass's computeTime() method.
458// During this process, certain fields may be ignored. The disambiguation
459// algorithm for resolving which fields to pay attention to is described
460// above.
461
462// local fields (YEAR, MONTH, DATE, HOUR, MINUTE, etc.)
463// |
464// | Using Calendar-specific algorithm
465// V
466// local standard millis
467// |
468// | Using TimeZone or user-set ZONE_OFFSET / DST_OFFSET
469// V
470// UTC millis (in time data member)
471
472// If the user sets the UTC millis using setTime(), the data flow is as
473// follows. This is implemented by the Calendar subclass's computeFields()
474// method.
475
476// UTC millis (in time data member)
477// |
478// | Using TimeZone getOffset()
479// V
480// local standard millis
481// |
482// | Using Calendar-specific algorithm
483// V
484// local fields (YEAR, MONTH, DATE, HOUR, MINUTE, etc.)
485
486// In general, a round trip from fields, through local and UTC millis, and
487// back out to fields is made when necessary. This is implemented by the
488// complete() method. Resolving a partial set of fields into a UTC millis
489// value allows all remaining fields to be generated from that value. If
490// the Calendar is lenient, the fields are also renormalized to standard
491// ranges when they are regenerated.
492
493// -------------------------------------
494
495Calendar::Calendar(UErrorCode& success)
496: UObject(),
497 fIsTimeSet(FALSE),
498 fAreFieldsSet(FALSE),
499 fAreAllFieldsSet(FALSE),
374ca955
A
500 fAreFieldsVirtuallySet(FALSE),
501 fNextStamp((int32_t)kMinimumUserStamp),
b75a7d8f
A
502 fTime(0),
503 fLenient(TRUE),
504 fZone(0)
505{
506 clear();
507 fZone = TimeZone::createDefault();
374ca955 508 setWeekCountData(Locale::getDefault(), NULL, success);
b75a7d8f
A
509}
510
511// -------------------------------------
512
513Calendar::Calendar(TimeZone* zone, const Locale& aLocale, UErrorCode& success)
514: UObject(),
515 fIsTimeSet(FALSE),
516 fAreFieldsSet(FALSE),
517 fAreAllFieldsSet(FALSE),
374ca955
A
518 fAreFieldsVirtuallySet(FALSE),
519 fNextStamp((int32_t)kMinimumUserStamp),
b75a7d8f
A
520 fTime(0),
521 fLenient(TRUE),
522 fZone(0)
523{
524 if(zone == 0) {
374ca955
A
525#if defined (U_DEBUG_CAL)
526 fprintf(stderr, "%s:%d: ILLEGAL ARG because timezone cannot be 0\n",
527 __FILE__, __LINE__);
528#endif
529 success = U_ILLEGAL_ARGUMENT_ERROR;
530 return;
b75a7d8f
A
531 }
532
533 clear();
534 fZone = zone;
535
374ca955 536 setWeekCountData(aLocale, NULL, success);
b75a7d8f
A
537}
538
539// -------------------------------------
540
541Calendar::Calendar(const TimeZone& zone, const Locale& aLocale, UErrorCode& success)
542: UObject(),
543 fIsTimeSet(FALSE),
544 fAreFieldsSet(FALSE),
545 fAreAllFieldsSet(FALSE),
374ca955
A
546 fAreFieldsVirtuallySet(FALSE),
547 fNextStamp((int32_t)kMinimumUserStamp),
b75a7d8f
A
548 fTime(0),
549 fLenient(TRUE),
550 fZone(0)
551{
552 clear();
553 fZone = zone.clone();
374ca955 554 setWeekCountData(aLocale, NULL, success);
b75a7d8f
A
555}
556
557// -------------------------------------
558
559Calendar::~Calendar()
560{
561 delete fZone;
562}
563
564// -------------------------------------
565
566Calendar::Calendar(const Calendar &source)
567: UObject(source)
568{
569 fZone = 0;
570 *this = source;
571}
572
573// -------------------------------------
574
575Calendar &
576Calendar::operator=(const Calendar &right)
577{
374ca955 578 if (this != &right) {
b75a7d8f
A
579 uprv_arrayCopy(right.fFields, fFields, UCAL_FIELD_COUNT);
580 uprv_arrayCopy(right.fIsSet, fIsSet, UCAL_FIELD_COUNT);
581 uprv_arrayCopy(right.fStamp, fStamp, UCAL_FIELD_COUNT);
374ca955
A
582 fTime = right.fTime;
583 fIsTimeSet = right.fIsTimeSet;
b75a7d8f 584 fAreAllFieldsSet = right.fAreAllFieldsSet;
374ca955
A
585 fAreFieldsSet = right.fAreFieldsSet;
586 fAreFieldsVirtuallySet = right.fAreFieldsVirtuallySet;
b75a7d8f
A
587 fLenient = right.fLenient;
588 delete fZone;
589 fZone = right.fZone->clone();
374ca955
A
590 fFirstDayOfWeek = right.fFirstDayOfWeek;
591 fMinimalDaysInFirstWeek = right.fMinimalDaysInFirstWeek;
592 fNextStamp = right.fNextStamp;
b75a7d8f
A
593 }
594
595 return *this;
596}
597
598// -------------------------------------
599
374ca955 600Calendar* U_EXPORT2
b75a7d8f
A
601Calendar::createInstance(UErrorCode& success)
602{
603 return createInstance(TimeZone::createDefault(), Locale::getDefault(), success);
604}
605
606// -------------------------------------
607
374ca955 608Calendar* U_EXPORT2
b75a7d8f
A
609Calendar::createInstance(const TimeZone& zone, UErrorCode& success)
610{
611 return createInstance(zone, Locale::getDefault(), success);
612}
613
614// -------------------------------------
615
374ca955 616Calendar* U_EXPORT2
b75a7d8f
A
617Calendar::createInstance(const Locale& aLocale, UErrorCode& success)
618{
619 return createInstance(TimeZone::createDefault(), aLocale, success);
620}
621
622// ------------------------------------- Adopting
623
624// Note: this is the bottleneck that actually calls the service routines.
625
374ca955 626Calendar* U_EXPORT2
b75a7d8f
A
627Calendar::createInstance(TimeZone* zone, const Locale& aLocale, UErrorCode& success)
628{
374ca955
A
629 Locale actualLoc;
630 UObject* u;
631#if !UCONFIG_NO_SERVICE
632 if (isCalendarServiceUsed()) {
633 u = getCalendarService(success)->get(aLocale, LocaleKey::KIND_ANY, &actualLoc, success);
634 }
635 else
636#endif
637 {
638 char calLocaleType[ULOC_FULLNAME_CAPACITY] = {"@calendar="};
639 int32_t calLocaleTypeLen = uprv_strlen(calLocaleType);
640 int32_t keywordCapacity = aLocale.getKeywordValue("calendar", calLocaleType+calLocaleTypeLen, sizeof(calLocaleType)-calLocaleTypeLen-1, success);
641 if (keywordCapacity == 0) {
642 char funcEquiv[ULOC_FULLNAME_CAPACITY];
643
644 // fetch default calendar id
645 ures_getFunctionalEquivalent(funcEquiv, sizeof(funcEquiv)-1,
646 NULL, "calendar", "calendar",
647 aLocale.getName(),
648 NULL, FALSE, &success);
649 keywordCapacity = uloc_getKeywordValue(funcEquiv, "calendar", calLocaleType+calLocaleTypeLen,
650 sizeof(calLocaleType)-calLocaleTypeLen-1, &success);
651 if (keywordCapacity == 0 || U_FAILURE(success)) {
652 // no calendar type. Default to nothing.
653 calLocaleType[0] = 0;
654 }
655#ifdef U_DEBUG_CALSVC
656 fprintf(stderr, " getFunctionalEquivalent calendar=%s [%s]\n", keyword, u_errorName(status));
657#endif
658 }
659#ifdef U_DEBUG_CALSVC
660 else { fprintf(stderr, " explicit calendar=%s\n", keyword); }
661#endif
662 u = createStandardCalendar(calLocaleType, aLocale, success);
663 }
664 Calendar* c = NULL;
b75a7d8f
A
665
666 if(U_FAILURE(success) || !u) {
667 delete zone;
668 if(U_SUCCESS(success)) { // Propagate some kind of err
669 success = U_INTERNAL_PROGRAM_ERROR;
670 }
671 return NULL;
672 }
374ca955
A
673
674#if !UCONFIG_NO_SERVICE
b75a7d8f
A
675 if(u->getDynamicClassID() == UnicodeString::getStaticClassID()) {
676 // It's a unicode string telling us what type of calendar to load ("gregorian", etc)
677 char tmp[200];
678 const UnicodeString& str = *(UnicodeString*)u;
679 // Extract a char* out of it..
680 int32_t len = str.length();
374ca955
A
681 int32_t actLen = sizeof(tmp)-1;
682 if(len > actLen) {
683 len = actLen;
b75a7d8f
A
684 }
685 str.extract(0,len,tmp);
686 tmp[len]=0;
687
688#ifdef U_DEBUG_CALSVC
374ca955 689 fprintf(stderr, "Calendar::createInstance(%s), fetched string %s..\n", (const char*)aLocale.getName(), tmp);
b75a7d8f
A
690#endif
691
692 // Create a Locale over this string
374ca955 693 Locale l = Locale::createFromName(tmp);
b75a7d8f 694
374ca955
A
695#ifdef U_DEBUG_CALSVC
696 fprintf(stderr, "looking up [%s].. should be %s\n",l.getName(), tmp);
697#endif
698
699 Locale actualLoc2;
b75a7d8f
A
700 delete u;
701 u = NULL;
374ca955
A
702
703 // Don't overwrite actualLoc, since the actual loc from this call
704 // may be something like "@calendar=gregorian" -- TODO investigate
705 // further...
706 c = (Calendar*)getCalendarService(success)->get(l, LocaleKey::KIND_ANY, &actualLoc2, success);
b75a7d8f
A
707
708 if(U_FAILURE(success) || !c) {
709 delete zone;
710 if(U_SUCCESS(success)) {
711 success = U_INTERNAL_PROGRAM_ERROR; // Propagate some err
712 }
713 return NULL;
714 }
715
716 if(c->getDynamicClassID() == UnicodeString::getStaticClassID()) {
717 // recursed! Second lookup returned a UnicodeString.
718 // Perhaps DefaultCalendar{} was set to another locale.
374ca955
A
719#ifdef U_DEBUG_CALSVC
720 char tmp[200];
721 const UnicodeString& str = *(UnicodeString*)c;
722 // Extract a char* out of it..
723 int32_t len = str.length();
724 int32_t actLen = sizeof(tmp)-1;
725 if(len > actLen) {
726 len = actLen;
727 }
728 str.extract(0,len,tmp);
729 tmp[len]=0;
730
731 fprintf(stderr, "err - recursed, 2nd lookup was unistring %s\n", tmp);
732#endif
b75a7d8f
A
733 success = U_MISSING_RESOURCE_ERROR; // requested a calendar type which could NOT be found.
734 delete c;
735 delete zone;
736 return NULL;
737 }
738#ifdef U_DEBUG_CALSVC
374ca955 739 fprintf(stderr, "%p: setting week count data to locale %s, actual locale %s\n", c, (const char*)aLocale.getName(), (const char *)actualLoc.getName());
b75a7d8f 740#endif
374ca955
A
741 c->setWeekCountData(aLocale, c->getType(), success); // set the correct locale (this was an indirected calendar)
742 }
743 else
744#endif /* UCONFIG_NO_SERVICE */
745 {
b75a7d8f
A
746 // a calendar was returned - we assume the factory did the right thing.
747 c = (Calendar*)u;
748 }
749
750 // Now, reset calendar to default state:
751 c->adoptTimeZone(zone); // Set the correct time zone
752 c->setTimeInMillis(getNow(), success); // let the new calendar have the current time.
374ca955 753
b75a7d8f
A
754 return c;
755}
756
757// -------------------------------------
758
374ca955 759Calendar* U_EXPORT2
b75a7d8f
A
760Calendar::createInstance(const TimeZone& zone, const Locale& aLocale, UErrorCode& success)
761{
762 Calendar* c = createInstance(aLocale, success);
763 if(U_SUCCESS(success) && c) {
764 c->setTimeZone(zone);
765 }
766 return c;
767}
768
769// -------------------------------------
770
771UBool
772Calendar::operator==(const Calendar& that) const
773{
774 UErrorCode status = U_ZERO_ERROR;
775 return isEquivalentTo(that) &&
776 getTimeInMillis(status) == that.getTimeInMillis(status) &&
777 U_SUCCESS(status);
778}
779
780UBool
781Calendar::isEquivalentTo(const Calendar& other) const
782{
783 return getDynamicClassID() == other.getDynamicClassID() &&
784 fLenient == other.fLenient &&
785 fFirstDayOfWeek == other.fFirstDayOfWeek &&
786 fMinimalDaysInFirstWeek == other.fMinimalDaysInFirstWeek &&
787 *fZone == *other.fZone;
788}
789
790// -------------------------------------
791
792UBool
793Calendar::equals(const Calendar& when, UErrorCode& status) const
794{
795 return (this == &when ||
796 getTime(status) == when.getTime(status));
797}
798
799// -------------------------------------
800
801UBool
802Calendar::before(const Calendar& when, UErrorCode& status) const
803{
804 return (this != &when &&
805 getTimeInMillis(status) < when.getTimeInMillis(status));
806}
807
808// -------------------------------------
809
810UBool
811Calendar::after(const Calendar& when, UErrorCode& status) const
812{
813 return (this != &when &&
814 getTimeInMillis(status) > when.getTimeInMillis(status));
815}
816
817// -------------------------------------
818
819
374ca955 820const Locale* U_EXPORT2
b75a7d8f
A
821Calendar::getAvailableLocales(int32_t& count)
822{
823 return Locale::getAvailableLocales(count);
824}
825
826// -------------------------------------
827
374ca955 828UDate U_EXPORT2
b75a7d8f
A
829Calendar::getNow()
830{
374ca955 831 return uprv_getUTCtime(); // return as milliseconds
b75a7d8f
A
832}
833
834// -------------------------------------
835
836/**
837 * Gets this Calendar's current time as a long.
838 * @return the current time as UTC milliseconds from the epoch.
839 */
840double
841Calendar::getTimeInMillis(UErrorCode& status) const
842{
843 if(U_FAILURE(status))
844 return 0.0;
845
846 if ( ! fIsTimeSet)
847 ((Calendar*)this)->updateTime(status);
848
849 /* Test for buffer overflows */
850 if(U_FAILURE(status)) {
851 return 0.0;
852 }
853 return fTime;
854}
855
856// -------------------------------------
857
858/**
859 * Sets this Calendar's current time from the given long value.
860 * @param date the new time in UTC milliseconds from the epoch.
861 */
862void
863Calendar::setTimeInMillis( double millis, UErrorCode& status ) {
864 if(U_FAILURE(status))
865 return;
866
374ca955
A
867 if (millis > MAX_MILLIS) {
868 millis = MAX_MILLIS;
869 } else if (millis < MIN_MILLIS) {
870 millis = MIN_MILLIS;
b75a7d8f 871 }
374ca955
A
872
873 fTime = millis;
874 fAreFieldsSet = fAreAllFieldsSet = FALSE;
875 fIsTimeSet = fAreFieldsVirtuallySet = TRUE;
b75a7d8f
A
876}
877
878// -------------------------------------
879
880int32_t
881Calendar::get(UCalendarDateFields field, UErrorCode& status) const
882{
883 // field values are only computed when actually requested; for more on when computation
884 // of various things happens, see the "data flow in Calendar" description at the top
885 // of this file
886 if (U_SUCCESS(status)) ((Calendar*)this)->complete(status); // Cast away const
887 return U_SUCCESS(status) ? fFields[field] : 0;
888}
889
890// -------------------------------------
891
892void
893Calendar::set(UCalendarDateFields field, int32_t value)
894{
374ca955
A
895 if (fAreFieldsVirtuallySet) {
896 UErrorCode ec = U_ZERO_ERROR;
897 computeFields(ec);
898 }
b75a7d8f
A
899 fFields[field] = value;
900 fStamp[field] = fNextStamp++;
b75a7d8f 901 fIsSet[field] = TRUE; // Remove later
374ca955 902 fIsTimeSet = fAreFieldsSet = fAreFieldsVirtuallySet = FALSE;
b75a7d8f
A
903}
904
905// -------------------------------------
906
907void
908Calendar::set(int32_t year, int32_t month, int32_t date)
909{
910 set(UCAL_YEAR, year);
911 set(UCAL_MONTH, month);
912 set(UCAL_DATE, date);
913}
914
915// -------------------------------------
916
917void
918Calendar::set(int32_t year, int32_t month, int32_t date, int32_t hour, int32_t minute)
919{
920 set(UCAL_YEAR, year);
921 set(UCAL_MONTH, month);
922 set(UCAL_DATE, date);
923 set(UCAL_HOUR_OF_DAY, hour);
924 set(UCAL_MINUTE, minute);
925}
926
927// -------------------------------------
928
929void
930Calendar::set(int32_t year, int32_t month, int32_t date, int32_t hour, int32_t minute, int32_t second)
931{
932 set(UCAL_YEAR, year);
933 set(UCAL_MONTH, month);
934 set(UCAL_DATE, date);
935 set(UCAL_HOUR_OF_DAY, hour);
936 set(UCAL_MINUTE, minute);
937 set(UCAL_SECOND, second);
938}
939
940// -------------------------------------
941
942void
943Calendar::clear()
944{
945 for (int32_t i=0; i<UCAL_FIELD_COUNT; ++i) {
946 fFields[i] = 0; // Must do this; other code depends on it
b75a7d8f 947 fStamp[i] = kUnset;
374ca955 948 fIsSet[i] = FALSE; // Remove later
b75a7d8f 949 }
374ca955 950 fIsTimeSet = fAreFieldsSet = fAreAllFieldsSet = fAreFieldsVirtuallySet = FALSE;
b75a7d8f
A
951}
952
953// -------------------------------------
954
955void
956Calendar::clear(UCalendarDateFields field)
957{
374ca955
A
958 if (fAreFieldsVirtuallySet) {
959 UErrorCode ec = U_ZERO_ERROR;
960 computeFields(ec);
961 }
b75a7d8f
A
962 fFields[field] = 0;
963 fStamp[field] = kUnset;
b75a7d8f 964 fIsSet[field] = FALSE; // Remove later
374ca955 965 fIsTimeSet = fAreFieldsSet = fAreAllFieldsSet = fAreFieldsVirtuallySet = FALSE;
b75a7d8f
A
966}
967
968// -------------------------------------
969
970UBool
971Calendar::isSet(UCalendarDateFields field) const
972{
374ca955
A
973 return fAreFieldsVirtuallySet || (fStamp[field] != kUnset);
974}
975
976
977int32_t Calendar::newestStamp(UCalendarDateFields first, UCalendarDateFields last, int32_t bestStampSoFar) const
978{
979 int32_t bestStamp = bestStampSoFar;
980 for (int32_t i=(int32_t)first; i<=(int32_t)last; ++i) {
981 if (fStamp[i] > bestStamp) {
982 bestStamp = fStamp[i];
983 }
984 }
985 return bestStamp;
b75a7d8f
A
986}
987
374ca955 988
b75a7d8f
A
989// -------------------------------------
990
991void
992Calendar::complete(UErrorCode& status)
993{
994 if (!fIsTimeSet) {
995 updateTime(status);
996 /* Test for buffer overflows */
997 if(U_FAILURE(status)) {
998 return;
999 }
1000 }
1001 if (!fAreFieldsSet) {
1002 computeFields(status); // fills in unset fields
1003 /* Test for buffer overflows */
1004 if(U_FAILURE(status)) {
1005 return;
1006 }
1007 fAreFieldsSet = TRUE;
1008 fAreAllFieldsSet = TRUE;
1009 }
1010}
1011
374ca955
A
1012 //-------------------------------------------------------------------------
1013 // Protected utility methods for use by subclasses. These are very handy
1014 // for implementing add, roll, and computeFields.
1015 //-------------------------------------------------------------------------
1016
1017 /**
1018 * Adjust the specified field so that it is within
1019 * the allowable range for the date to which this calendar is set.
1020 * For example, in a Gregorian calendar pinning the {@link #DAY_OF_MONTH DAY_OF_MONTH}
1021 * field for a calendar set to April 31 would cause it to be set
1022 * to April 30.
1023 * <p>
1024 * <b>Subclassing:</b>
1025 * <br>
1026 * This utility method is intended for use by subclasses that need to implement
1027 * their own overrides of {@link #roll roll} and {@link #add add}.
1028 * <p>
1029 * <b>Note:</b>
1030 * <code>pinField</code> is implemented in terms of
1031 * {@link #getActualMinimum getActualMinimum}
1032 * and {@link #getActualMaximum getActualMaximum}. If either of those methods uses
1033 * a slow, iterative algorithm for a particular field, it would be
1034 * unwise to attempt to call <code>pinField</code> for that field. If you
1035 * really do need to do so, you should override this method to do
1036 * something more efficient for that field.
1037 * <p>
1038 * @param field The calendar field whose value should be pinned.
1039 *
1040 * @see #getActualMinimum
1041 * @see #getActualMaximum
1042 * @stable ICU 2.0
1043 */
1044void Calendar::pinField(UCalendarDateFields field, UErrorCode& status) {
1045 int32_t max = getActualMaximum(field, status);
1046 int32_t min = getActualMinimum(field, status);
1047
1048 if (fFields[field] > max) {
1049 set(field, max);
1050 } else if (fFields[field] < min) {
1051 set(field, min);
1052 }
1053}
1054
1055
1056void Calendar::computeFields(UErrorCode &ec)
1057{
1058 if (U_FAILURE(ec)) {
1059 return;
1060 }
1061 // Compute local wall millis
1062 double localMillis = internalGetTime();
1063 int32_t rawOffset, dstOffset;
1064 getTimeZone().getOffset(localMillis, FALSE, rawOffset, dstOffset, ec);
1065 localMillis += rawOffset;
1066
1067 // Mark fields as set. Do this before calling handleComputeFields().
1068 uint32_t mask = //fInternalSetMask;
1069 (1 << ERA) |
1070 (1 << UCAL_YEAR) |
1071 (1 << UCAL_MONTH) |
1072 (1 << UCAL_DAY_OF_MONTH) | // = UCAL_DATE
1073 (1 << UCAL_DAY_OF_YEAR) |
1074 (1 << UCAL_EXTENDED_YEAR);
1075
1076 for (int32_t i=0; i<UCAL_FIELD_COUNT; ++i) {
1077 if ((mask & 1) == 0) {
1078 fStamp[i] = kInternallySet;
1079 fIsSet[i] = TRUE; // Remove later
1080 } else {
1081 fStamp[i] = kUnset;
1082 fIsSet[i] = FALSE; // Remove later
1083 }
1084 mask >>= 1;
1085 }
1086
1087 // We used to check for and correct extreme millis values (near
1088 // Long.MIN_VALUE or Long.MAX_VALUE) here. Such values would cause
1089 // overflows from positive to negative (or vice versa) and had to
1090 // be manually tweaked. We no longer need to do this because we
1091 // have limited the range of supported dates to those that have a
1092 // Julian day that fits into an int. This allows us to implement a
1093 // JULIAN_DAY field and also removes some inelegant code. - Liu
1094 // 11/6/00
1095
1096 int32_t days = (int32_t)Math::floorDivide(localMillis, (double)kOneDay);
1097
1098 internalSet(UCAL_JULIAN_DAY,days + kEpochStartAsJulianDay);
1099
1100#if defined (U_DEBUG_CAL)
1101 //fprintf(stderr, "%s:%d- Hmm! Jules @ %d, as per %.0lf millis\n",
1102 //__FILE__, __LINE__, fFields[UCAL_JULIAN_DAY], localMillis);
1103#endif
1104
1105 // In some cases we will have to call this method again below to
1106 // adjust for DST pushing us into the next Julian day.
1107 computeGregorianAndDOWFields(fFields[UCAL_JULIAN_DAY], ec);
1108
1109 int32_t millisInDay = (int32_t) (localMillis - (days * kOneDay));
1110 if (millisInDay < 0) millisInDay += (int32_t)kOneDay;
1111
1112 // Adjust our millisInDay for DST. dstOffset will be zero if DST
1113 // is not in effect at this time of year, or if our zone does not
1114 // use DST.
1115 millisInDay += dstOffset;
1116
1117 // If DST has pushed us into the next day, we must call
1118 // computeGregorianAndDOWFields() again. This happens in DST between
1119 // 12:00 am and 1:00 am every day. The first call to
1120 // computeGregorianAndDOWFields() will give the wrong day, since the
1121 // Standard time is in the previous day.
1122 if (millisInDay >= (int32_t)kOneDay) {
1123 millisInDay -= (int32_t)kOneDay; // ASSUME dstOffset < 24:00
1124
1125 // We don't worry about overflow of JULIAN_DAY because the
1126 // allowable range of JULIAN_DAY has slop at the ends (that is,
1127 // the max is less that 0x7FFFFFFF and the min is greater than
1128 // -0x80000000).
1129 computeGregorianAndDOWFields(++fFields[UCAL_JULIAN_DAY], ec);
1130 }
1131
1132 // Call framework method to have subclass compute its fields.
1133 // These must include, at a minimum, MONTH, DAY_OF_MONTH,
1134 // EXTENDED_YEAR, YEAR, DAY_OF_YEAR. This method will call internalSet(),
1135 // which will update stamp[].
1136 handleComputeFields(fFields[UCAL_JULIAN_DAY], ec);
1137
1138 // Compute week-related fields, based on the subclass-computed
1139 // fields computed by handleComputeFields().
1140 computeWeekFields(ec);
1141
1142 // Compute time-related fields. These are indepent of the date and
1143 // of the subclass algorithm. They depend only on the local zone
1144 // wall milliseconds in day.
1145 fFields[UCAL_MILLISECONDS_IN_DAY] = millisInDay;
1146 fFields[UCAL_MILLISECOND] = millisInDay % 1000;
1147 millisInDay /= 1000;
1148 fFields[UCAL_SECOND] = millisInDay % 60;
1149 millisInDay /= 60;
1150 fFields[UCAL_MINUTE] = millisInDay % 60;
1151 millisInDay /= 60;
1152 fFields[UCAL_HOUR_OF_DAY] = millisInDay;
1153 fFields[UCAL_AM_PM] = millisInDay / 12; // Assume AM == 0
1154 fFields[UCAL_HOUR] = millisInDay % 12;
1155 fFields[UCAL_ZONE_OFFSET] = rawOffset;
1156 fFields[UCAL_DST_OFFSET] = dstOffset;
1157}
1158
1159uint8_t Calendar::julianDayToDayOfWeek(double julian)
1160{
1161 // If julian is negative, then julian%7 will be negative, so we adjust
1162 // accordingly. We add 1 because Julian day 0 is Monday.
1163 int8_t dayOfWeek = (int8_t) uprv_fmod(julian + 1, 7);
1164
1165 uint8_t result = (uint8_t)(dayOfWeek + ((dayOfWeek < 0) ? (7+UCAL_SUNDAY ) : UCAL_SUNDAY));
1166 return result;
1167}
1168
1169/**
1170 * Compute the Gregorian calendar year, month, and day of month from
1171 * the given Julian day. These values are not stored in fields, but in
1172 * member variables gregorianXxx. Also compute the DAY_OF_WEEK and
1173 * DOW_LOCAL fields.
1174 */
1175void Calendar::computeGregorianAndDOWFields(int32_t julianDay, UErrorCode &ec)
1176{
1177 computeGregorianFields(julianDay, ec);
1178
1179 // Compute day of week: JD 0 = Monday
1180 int32_t dow = julianDayToDayOfWeek(julianDay);
1181 internalSet(UCAL_DAY_OF_WEEK,dow);
1182
1183 // Calculate 1-based localized day of week
1184 int32_t dowLocal = dow - getFirstDayOfWeek() + 1;
1185 if (dowLocal < 1) {
1186 dowLocal += 7;
1187 }
1188 internalSet(UCAL_DOW_LOCAL,dowLocal);
1189 fFields[UCAL_DOW_LOCAL] = dowLocal;
1190}
1191
1192/**
1193 * Compute the Gregorian calendar year, month, and day of month from the
1194 * Julian day. These values are not stored in fields, but in member
1195 * variables gregorianXxx. They are used for time zone computations and by
1196 * subclasses that are Gregorian derivatives. Subclasses may call this
1197 * method to perform a Gregorian calendar millis->fields computation.
1198 * To perform a Gregorian calendar fields->millis computation, call
1199 * computeGregorianMonthStart().
1200 * @see #computeGregorianMonthStart
1201 */
1202void Calendar::computeGregorianFields(int32_t julianDay, UErrorCode & /* ec */) {
1203 int32_t gregorianDayOfWeekUnused;
1204 Grego::dayToFields(julianDay - kEpochStartAsJulianDay, fGregorianYear, fGregorianMonth, fGregorianDayOfMonth, gregorianDayOfWeekUnused, fGregorianDayOfYear);
1205}
1206
1207/**
1208 * Compute the fields WEEK_OF_YEAR, YEAR_WOY, WEEK_OF_MONTH,
1209 * DAY_OF_WEEK_IN_MONTH, and DOW_LOCAL from EXTENDED_YEAR, YEAR,
1210 * DAY_OF_WEEK, and DAY_OF_YEAR. The latter fields are computed by the
1211 * subclass based on the calendar system.
1212 *
1213 * <p>The YEAR_WOY field is computed simplistically. It is equal to YEAR
1214 * most of the time, but at the year boundary it may be adjusted to YEAR-1
1215 * or YEAR+1 to reflect the overlap of a week into an adjacent year. In
1216 * this case, a simple increment or decrement is performed on YEAR, even
1217 * though this may yield an invalid YEAR value. For instance, if the YEAR
1218 * is part of a calendar system with an N-year cycle field CYCLE, then
1219 * incrementing the YEAR may involve incrementing CYCLE and setting YEAR
1220 * back to 0 or 1. This is not handled by this code, and in fact cannot be
1221 * simply handled without having subclasses define an entire parallel set of
1222 * fields for fields larger than or equal to a year. This additional
1223 * complexity is not warranted, since the intention of the YEAR_WOY field is
1224 * to support ISO 8601 notation, so it will typically be used with a
1225 * proleptic Gregorian calendar, which has no field larger than a year.
1226 */
1227void Calendar::computeWeekFields(UErrorCode &ec) {
1228 if(U_FAILURE(ec)) {
1229 return;
1230 }
1231 int32_t eyear = fFields[UCAL_EXTENDED_YEAR];
1232 int32_t year = fFields[UCAL_YEAR];
1233 int32_t dayOfWeek = fFields[UCAL_DAY_OF_WEEK];
1234 int32_t dayOfYear = fFields[UCAL_DAY_OF_YEAR];
1235
1236 // WEEK_OF_YEAR start
1237 // Compute the week of the year. For the Gregorian calendar, valid week
1238 // numbers run from 1 to 52 or 53, depending on the year, the first day
1239 // of the week, and the minimal days in the first week. For other
1240 // calendars, the valid range may be different -- it depends on the year
1241 // length. Days at the start of the year may fall into the last week of
1242 // the previous year; days at the end of the year may fall into the
1243 // first week of the next year. ASSUME that the year length is less than
1244 // 7000 days.
1245 int32_t yearOfWeekOfYear = year;
1246 int32_t relDow = (dayOfWeek + 7 - getFirstDayOfWeek()) % 7; // 0..6
1247 int32_t relDowJan1 = (dayOfWeek - dayOfYear + 7001 - getFirstDayOfWeek()) % 7; // 0..6
1248 int32_t woy = (dayOfYear - 1 + relDowJan1) / 7; // 0..53
1249 if ((7 - relDowJan1) >= getMinimalDaysInFirstWeek()) {
1250 ++woy;
1251 }
1252
1253 // Adjust for weeks at the year end that overlap into the previous or
1254 // next calendar year.
1255 if (woy == 0) {
1256 // We are the last week of the previous year.
1257 // Check to see if we are in the last week; if so, we need
1258 // to handle the case in which we are the first week of the
1259 // next year.
1260
1261 int32_t prevDoy = dayOfYear + handleGetYearLength(eyear - 1);
1262 woy = weekNumber(prevDoy, dayOfWeek);
1263 yearOfWeekOfYear--;
1264 } else {
1265 int32_t lastDoy = handleGetYearLength(eyear);
1266 // Fast check: For it to be week 1 of the next year, the DOY
1267 // must be on or after L-5, where L is yearLength(), then it
1268 // cannot possibly be week 1 of the next year:
1269 // L-5 L
1270 // doy: 359 360 361 362 363 364 365 001
1271 // dow: 1 2 3 4 5 6 7
1272 if (dayOfYear >= (lastDoy - 5)) {
1273 int32_t lastRelDow = (relDow + lastDoy - dayOfYear) % 7;
1274 if (lastRelDow < 0) {
1275 lastRelDow += 7;
1276 }
1277 if (((6 - lastRelDow) >= getMinimalDaysInFirstWeek()) &&
1278 ((dayOfYear + 7 - relDow) > lastDoy)) {
1279 woy = 1;
1280 yearOfWeekOfYear++;
1281 }
1282 }
1283 }
1284 fFields[UCAL_WEEK_OF_YEAR] = woy;
1285 fFields[UCAL_YEAR_WOY] = yearOfWeekOfYear;
1286 // WEEK_OF_YEAR end
1287
1288 int32_t dayOfMonth = fFields[UCAL_DAY_OF_MONTH];
1289 fFields[UCAL_WEEK_OF_MONTH] = weekNumber(dayOfMonth, dayOfWeek);
1290 fFields[UCAL_DAY_OF_WEEK_IN_MONTH] = (dayOfMonth-1) / 7 + 1;
1291#if defined (U_DEBUG_CAL)
1292 if(fFields[UCAL_DAY_OF_WEEK_IN_MONTH]==0) fprintf(stderr, "%s:%d: DOWIM %d on %g\n",
1293 __FILE__, __LINE__,fFields[UCAL_DAY_OF_WEEK_IN_MONTH], fTime);
1294#endif
1295}
1296
1297
1298int32_t Calendar::weekNumber(int32_t desiredDay, int32_t dayOfPeriod, int32_t dayOfWeek)
1299{
1300 // Determine the day of the week of the first day of the period
1301 // in question (either a year or a month). Zero represents the
1302 // first day of the week on this calendar.
1303 int32_t periodStartDayOfWeek = (dayOfWeek - getFirstDayOfWeek() - dayOfPeriod + 1) % 7;
1304 if (periodStartDayOfWeek < 0) periodStartDayOfWeek += 7;
1305
1306 // Compute the week number. Initially, ignore the first week, which
1307 // may be fractional (or may not be). We add periodStartDayOfWeek in
1308 // order to fill out the first week, if it is fractional.
1309 int32_t weekNo = (desiredDay + periodStartDayOfWeek - 1)/7;
1310
1311 // If the first week is long enough, then count it. If
1312 // the minimal days in the first week is one, or if the period start
1313 // is zero, we always increment weekNo.
1314 if ((7 - periodStartDayOfWeek) >= getMinimalDaysInFirstWeek()) ++weekNo;
1315
1316 return weekNo;
1317}
1318
1319void Calendar::handleComputeFields(int32_t /* julianDay */, UErrorCode &/* status */)
1320{
1321 internalSet(UCAL_MONTH, getGregorianMonth());
1322 internalSet(UCAL_DAY_OF_MONTH, getGregorianDayOfMonth());
1323 internalSet(UCAL_DAY_OF_YEAR, getGregorianDayOfYear());
1324 int32_t eyear = getGregorianYear();
1325 internalSet(UCAL_EXTENDED_YEAR, eyear);
1326 int32_t era = GregorianCalendar::AD;
1327 if (eyear < 1) {
1328 era = GregorianCalendar::BC;
1329 eyear = 1 - eyear;
1330 }
1331 internalSet(UCAL_ERA, era);
1332 internalSet(UCAL_YEAR, eyear);
1333}
b75a7d8f 1334// -------------------------------------
b75a7d8f 1335
b75a7d8f 1336
374ca955
A
1337void Calendar::roll(EDateFields field, int32_t amount, UErrorCode& status)
1338{
1339 roll((UCalendarDateFields)field, amount, status);
b75a7d8f
A
1340}
1341
374ca955
A
1342void Calendar::roll(UCalendarDateFields field, int32_t amount, UErrorCode& status)
1343{
1344 if (amount == 0) {
1345 return; // Nothing to do
1346 }
b75a7d8f 1347
374ca955
A
1348 complete(status);
1349
1350 if(U_FAILURE(status)) {
1351 return;
1352 }
1353 switch (field) {
1354 case UCAL_DAY_OF_MONTH:
1355 case UCAL_AM_PM:
1356 case UCAL_MINUTE:
1357 case UCAL_SECOND:
1358 case UCAL_MILLISECOND:
1359 case UCAL_MILLISECONDS_IN_DAY:
1360 case UCAL_ERA:
1361 // These are the standard roll instructions. These work for all
1362 // simple cases, that is, cases in which the limits are fixed, such
1363 // as the hour, the day of the month, and the era.
1364 {
1365 int32_t min = getActualMinimum(field,status);
1366 int32_t max = getActualMaximum(field,status);
1367 int32_t gap = max - min + 1;
1368
1369 int32_t value = internalGet(field) + amount;
1370 value = (value - min) % gap;
1371 if (value < 0) {
1372 value += gap;
1373 }
1374 value += min;
1375
1376 set(field, value);
1377 return;
1378 }
1379
1380 case UCAL_HOUR:
1381 case UCAL_HOUR_OF_DAY:
1382 // Rolling the hour is difficult on the ONSET and CEASE days of
1383 // daylight savings. For example, if the change occurs at
1384 // 2 AM, we have the following progression:
1385 // ONSET: 12 Std -> 1 Std -> 3 Dst -> 4 Dst
1386 // CEASE: 12 Dst -> 1 Dst -> 1 Std -> 2 Std
1387 // To get around this problem we don't use fields; we manipulate
1388 // the time in millis directly.
1389 {
1390 // Assume min == 0 in calculations below
1391 double start = getTimeInMillis(status);
1392 int32_t oldHour = internalGet(field);
1393 int32_t max = getMaximum(field);
1394 int32_t newHour = (oldHour + amount) % (max + 1);
1395 if (newHour < 0) {
1396 newHour += max + 1;
1397 }
1398 setTimeInMillis(start + kOneHour * (newHour - oldHour),status);
1399 return;
1400 }
1401
1402 case UCAL_MONTH:
1403 // Rolling the month involves both pinning the final value
1404 // and adjusting the DAY_OF_MONTH if necessary. We only adjust the
1405 // DAY_OF_MONTH if, after updating the MONTH field, it is illegal.
1406 // E.g., <jan31>.roll(MONTH, 1) -> <feb28> or <feb29>.
1407 {
1408 int32_t max = getActualMaximum(UCAL_MONTH, status);
1409 int32_t mon = (internalGet(UCAL_MONTH) + amount) % (max+1);
1410
1411 if (mon < 0) {
1412 mon += (max + 1);
1413 }
1414 set(UCAL_MONTH, mon);
1415
1416 // Keep the day of month in range. We don't want to spill over
1417 // into the next month; e.g., we don't want jan31 + 1 mo -> feb31 ->
1418 // mar3.
1419 pinField(UCAL_DAY_OF_MONTH,status);
1420 return;
1421 }
1422
1423 case UCAL_YEAR:
1424 case UCAL_YEAR_WOY:
1425 case UCAL_EXTENDED_YEAR:
1426 // Rolling the year can involve pinning the DAY_OF_MONTH.
1427 set(field, internalGet(field) + amount);
1428 pinField(UCAL_MONTH,status);
1429 pinField(UCAL_DAY_OF_MONTH,status);
1430 return;
1431
1432 case UCAL_WEEK_OF_MONTH:
1433 {
1434 // This is tricky, because during the roll we may have to shift
1435 // to a different day of the week. For example:
1436
1437 // s m t w r f s
1438 // 1 2 3 4 5
1439 // 6 7 8 9 10 11 12
1440
1441 // When rolling from the 6th or 7th back one week, we go to the
1442 // 1st (assuming that the first partial week counts). The same
1443 // thing happens at the end of the month.
1444
1445 // The other tricky thing is that we have to figure out whether
1446 // the first partial week actually counts or not, based on the
1447 // minimal first days in the week. And we have to use the
1448 // correct first day of the week to delineate the week
1449 // boundaries.
1450
1451 // Here's our algorithm. First, we find the real boundaries of
1452 // the month. Then we discard the first partial week if it
1453 // doesn't count in this locale. Then we fill in the ends with
1454 // phantom days, so that the first partial week and the last
1455 // partial week are full weeks. We then have a nice square
1456 // block of weeks. We do the usual rolling within this block,
1457 // as is done elsewhere in this method. If we wind up on one of
1458 // the phantom days that we added, we recognize this and pin to
1459 // the first or the last day of the month. Easy, eh?
1460
1461 // Normalize the DAY_OF_WEEK so that 0 is the first day of the week
1462 // in this locale. We have dow in 0..6.
1463 int32_t dow = internalGet(UCAL_DAY_OF_WEEK) - getFirstDayOfWeek();
1464 if (dow < 0) dow += 7;
1465
1466 // Find the day of the week (normalized for locale) for the first
1467 // of the month.
1468 int32_t fdm = (dow - internalGet(UCAL_DAY_OF_MONTH) + 1) % 7;
1469 if (fdm < 0) fdm += 7;
1470
1471 // Get the first day of the first full week of the month,
1472 // including phantom days, if any. Figure out if the first week
1473 // counts or not; if it counts, then fill in phantom days. If
1474 // not, advance to the first real full week (skip the partial week).
1475 int32_t start;
1476 if ((7 - fdm) < getMinimalDaysInFirstWeek())
1477 start = 8 - fdm; // Skip the first partial week
1478 else
1479 start = 1 - fdm; // This may be zero or negative
1480
1481 // Get the day of the week (normalized for locale) for the last
1482 // day of the month.
1483 int32_t monthLen = getActualMaximum(UCAL_DAY_OF_MONTH, status);
1484 int32_t ldm = (monthLen - internalGet(UCAL_DAY_OF_MONTH) + dow) % 7;
1485 // We know monthLen >= DAY_OF_MONTH so we skip the += 7 step here.
1486
1487 // Get the limit day for the blocked-off rectangular month; that
1488 // is, the day which is one past the last day of the month,
1489 // after the month has already been filled in with phantom days
1490 // to fill out the last week. This day has a normalized DOW of 0.
1491 int32_t limit = monthLen + 7 - ldm;
1492
1493 // Now roll between start and (limit - 1).
1494 int32_t gap = limit - start;
1495 int32_t day_of_month = (internalGet(UCAL_DAY_OF_MONTH) + amount*7 -
1496 start) % gap;
1497 if (day_of_month < 0) day_of_month += gap;
1498 day_of_month += start;
1499
1500 // Finally, pin to the real start and end of the month.
1501 if (day_of_month < 1) day_of_month = 1;
1502 if (day_of_month > monthLen) day_of_month = monthLen;
1503
1504 // Set the DAY_OF_MONTH. We rely on the fact that this field
1505 // takes precedence over everything else (since all other fields
1506 // are also set at this point). If this fact changes (if the
1507 // disambiguation algorithm changes) then we will have to unset
1508 // the appropriate fields here so that DAY_OF_MONTH is attended
1509 // to.
1510 set(UCAL_DAY_OF_MONTH, day_of_month);
1511 return;
1512 }
1513 case UCAL_WEEK_OF_YEAR:
1514 {
1515 // This follows the outline of WEEK_OF_MONTH, except it applies
1516 // to the whole year. Please see the comment for WEEK_OF_MONTH
1517 // for general notes.
1518
1519 // Normalize the DAY_OF_WEEK so that 0 is the first day of the week
1520 // in this locale. We have dow in 0..6.
1521 int32_t dow = internalGet(UCAL_DAY_OF_WEEK) - getFirstDayOfWeek();
1522 if (dow < 0) dow += 7;
1523
1524 // Find the day of the week (normalized for locale) for the first
1525 // of the year.
1526 int32_t fdy = (dow - internalGet(UCAL_DAY_OF_YEAR) + 1) % 7;
1527 if (fdy < 0) fdy += 7;
1528
1529 // Get the first day of the first full week of the year,
1530 // including phantom days, if any. Figure out if the first week
1531 // counts or not; if it counts, then fill in phantom days. If
1532 // not, advance to the first real full week (skip the partial week).
1533 int32_t start;
1534 if ((7 - fdy) < getMinimalDaysInFirstWeek())
1535 start = 8 - fdy; // Skip the first partial week
1536 else
1537 start = 1 - fdy; // This may be zero or negative
1538
1539 // Get the day of the week (normalized for locale) for the last
1540 // day of the year.
1541 int32_t yearLen = getActualMaximum(UCAL_DAY_OF_YEAR,status);
1542 int32_t ldy = (yearLen - internalGet(UCAL_DAY_OF_YEAR) + dow) % 7;
1543 // We know yearLen >= DAY_OF_YEAR so we skip the += 7 step here.
1544
1545 // Get the limit day for the blocked-off rectangular year; that
1546 // is, the day which is one past the last day of the year,
1547 // after the year has already been filled in with phantom days
1548 // to fill out the last week. This day has a normalized DOW of 0.
1549 int32_t limit = yearLen + 7 - ldy;
1550
1551 // Now roll between start and (limit - 1).
1552 int32_t gap = limit - start;
1553 int32_t day_of_year = (internalGet(UCAL_DAY_OF_YEAR) + amount*7 -
1554 start) % gap;
1555 if (day_of_year < 0) day_of_year += gap;
1556 day_of_year += start;
1557
1558 // Finally, pin to the real start and end of the month.
1559 if (day_of_year < 1) day_of_year = 1;
1560 if (day_of_year > yearLen) day_of_year = yearLen;
1561
1562 // Make sure that the year and day of year are attended to by
1563 // clearing other fields which would normally take precedence.
1564 // If the disambiguation algorithm is changed, this section will
1565 // have to be updated as well.
1566 set(UCAL_DAY_OF_YEAR, day_of_year);
1567 clear(UCAL_MONTH);
1568 return;
1569 }
1570 case UCAL_DAY_OF_YEAR:
1571 {
1572 // Roll the day of year using millis. Compute the millis for
1573 // the start of the year, and get the length of the year.
1574 double delta = amount * kOneDay; // Scale up from days to millis
1575 double min2 = internalGet(UCAL_DAY_OF_YEAR)-1;
1576 min2 *= kOneDay;
1577 min2 = internalGetTime() - min2;
1578
1579 // double min2 = internalGetTime() - (internalGet(UCAL_DAY_OF_YEAR) - 1.0) * kOneDay;
1580 double newtime;
1581
1582 double yearLength = getActualMaximum(UCAL_DAY_OF_YEAR,status);
1583 double oneYear = yearLength;
1584 oneYear *= kOneDay;
1585 newtime = uprv_fmod((internalGetTime() + delta - min2), oneYear);
1586 if (newtime < 0) newtime += oneYear;
1587 setTimeInMillis(newtime + min2, status);
1588 return;
1589 }
1590 case UCAL_DAY_OF_WEEK:
1591 case UCAL_DOW_LOCAL:
1592 {
1593 // Roll the day of week using millis. Compute the millis for
1594 // the start of the week, using the first day of week setting.
1595 // Restrict the millis to [start, start+7days).
1596 double delta = amount * kOneDay; // Scale up from days to millis
1597 // Compute the number of days before the current day in this
1598 // week. This will be a value 0..6.
1599 int32_t leadDays = internalGet(field);
1600 leadDays -= (field == UCAL_DAY_OF_WEEK) ? getFirstDayOfWeek() : 1;
1601 if (leadDays < 0) leadDays += 7;
1602 double min2 = internalGetTime() - leadDays * kOneDay;
1603 double newtime = uprv_fmod((internalGetTime() + delta - min2), kOneWeek);
1604 if (newtime < 0) newtime += kOneWeek;
1605 setTimeInMillis(newtime + min2, status);
1606 return;
1607 }
1608 case UCAL_DAY_OF_WEEK_IN_MONTH:
1609 {
1610 // Roll the day of week in the month using millis. Determine
1611 // the first day of the week in the month, and then the last,
1612 // and then roll within that range.
1613 double delta = amount * kOneWeek; // Scale up from weeks to millis
1614 // Find the number of same days of the week before this one
1615 // in this month.
1616 int32_t preWeeks = (internalGet(UCAL_DAY_OF_MONTH) - 1) / 7;
1617 // Find the number of same days of the week after this one
1618 // in this month.
1619 int32_t postWeeks = (getActualMaximum(UCAL_DAY_OF_MONTH,status) -
1620 internalGet(UCAL_DAY_OF_MONTH)) / 7;
1621 // From these compute the min and gap millis for rolling.
1622 double min2 = internalGetTime() - preWeeks * kOneWeek;
1623 double gap2 = kOneWeek * (preWeeks + postWeeks + 1); // Must add 1!
1624 // Roll within this range
1625 double newtime = uprv_fmod((internalGetTime() + delta - min2), gap2);
1626 if (newtime < 0) newtime += gap2;
1627 setTimeInMillis(newtime + min2, status);
1628 return;
1629 }
1630 case UCAL_JULIAN_DAY:
1631 set(field, internalGet(field) + amount);
1632 return;
1633 default:
1634 // Other fields cannot be rolled by this method
1635#if defined (U_DEBUG_CAL)
1636 fprintf(stderr, "%s:%d: ILLEGAL ARG because of roll on non-rollable field %s\n",
1637 __FILE__, __LINE__,fldName(field));
1638#endif
1639 status = U_ILLEGAL_ARGUMENT_ERROR;
1640 }
1641}
1642
1643void Calendar::add(EDateFields field, int32_t amount, UErrorCode& status)
1644{
1645 Calendar::add((UCalendarDateFields)field, amount, status);
1646}
1647
1648// -------------------------------------
1649void Calendar::add(UCalendarDateFields field, int32_t amount, UErrorCode& status)
1650{
1651 if (amount == 0) {
1652 return; // Do nothing!
1653 }
1654
1655 // We handle most fields in the same way. The algorithm is to add
1656 // a computed amount of millis to the current millis. The only
1657 // wrinkle is with DST -- for some fields, like the DAY_OF_MONTH,
1658 // we don't want the HOUR to shift due to changes in DST. If the
1659 // result of the add operation is to move from DST to Standard, or
1660 // vice versa, we need to adjust by an hour forward or back,
1661 // respectively. For such fields we set keepHourInvariant to TRUE.
1662
1663 // We only adjust the DST for fields larger than an hour. For
1664 // fields smaller than an hour, we cannot adjust for DST without
1665 // causing problems. for instance, if you add one hour to April 5,
1666 // 1998, 1:00 AM, in PST, the time becomes "2:00 AM PDT" (an
1667 // illegal value), but then the adjustment sees the change and
1668 // compensates by subtracting an hour. As a result the time
1669 // doesn't advance at all.
1670
1671 // For some fields larger than a day, such as a UCAL_MONTH, we pin the
1672 // UCAL_DAY_OF_MONTH. This allows <March 31>.add(UCAL_MONTH, 1) to be
1673 // <April 30>, rather than <April 31> => <May 1>.
1674
1675 double delta = amount; // delta in ms
1676 UBool keepHourInvariant = TRUE;
1677
1678 switch (field) {
1679 case UCAL_ERA:
1680 set(field, get(field, status) + amount);
1681 pinField(UCAL_ERA, status);
1682 return;
1683
1684 case UCAL_YEAR:
1685 case UCAL_EXTENDED_YEAR:
1686 case UCAL_YEAR_WOY:
1687 case UCAL_MONTH:
1688 set(field, get(field, status) + amount);
1689 pinField(UCAL_DAY_OF_MONTH, status);
1690 return;
1691
1692 case UCAL_WEEK_OF_YEAR:
1693 case UCAL_WEEK_OF_MONTH:
1694 case UCAL_DAY_OF_WEEK_IN_MONTH:
1695 delta *= kOneWeek;
1696 break;
1697
1698 case UCAL_AM_PM:
1699 delta *= 12 * kOneHour;
1700 break;
1701
1702 case UCAL_DAY_OF_MONTH:
1703 case UCAL_DAY_OF_YEAR:
1704 case UCAL_DAY_OF_WEEK:
1705 case UCAL_DOW_LOCAL:
1706 case UCAL_JULIAN_DAY:
1707 delta *= kOneDay;
1708 break;
1709
1710 case UCAL_HOUR_OF_DAY:
1711 case UCAL_HOUR:
1712 delta *= kOneHour;
1713 keepHourInvariant = FALSE;
1714 break;
1715
1716 case UCAL_MINUTE:
1717 delta *= kOneMinute;
1718 keepHourInvariant = FALSE;
1719 break;
1720
1721 case UCAL_SECOND:
1722 delta *= kOneSecond;
1723 keepHourInvariant = FALSE;
1724 break;
1725
1726 case UCAL_MILLISECOND:
1727 case UCAL_MILLISECONDS_IN_DAY:
1728 keepHourInvariant = FALSE;
1729 break;
1730
1731 default:
1732#if defined (U_DEBUG_CAL)
1733 fprintf(stderr, "%s:%d: ILLEGAL ARG because field %s not addable",
1734 __FILE__, __LINE__, fldName(field));
1735#endif
1736 status = U_ILLEGAL_ARGUMENT_ERROR;
1737 return;
1738 // throw new IllegalArgumentException("Calendar.add(" + fieldName(field) +
1739 // ") not supported");
1740 }
1741
1742 // In order to keep the hour invariant (for fields where this is
1743 // appropriate), record the DST_OFFSET before and after the add()
1744 // operation. If it has changed, then adjust the millis to
1745 // compensate.
1746 int32_t dst = 0;
1747 int32_t hour = 0;
1748 if (keepHourInvariant) {
1749 dst = get(UCAL_DST_OFFSET, status);
1750 hour = internalGet(UCAL_HOUR_OF_DAY);
1751 }
1752
1753 setTimeInMillis(getTimeInMillis(status) + delta, status);
1754
1755 if (keepHourInvariant) {
1756 dst -= get(UCAL_DST_OFFSET, status);
1757 if (dst != 0) {
1758 // We have done an hour-invariant adjustment but the
1759 // DST offset has altered. We adjust millis to keep
1760 // the hour constant. In cases such as midnight after
1761 // a DST change which occurs at midnight, there is the
1762 // danger of adjusting into a different day. To avoid
1763 // this we make the adjustment only if it actually
1764 // maintains the hour.
1765 double t = internalGetTime();
1766 setTimeInMillis(t + dst, status);
1767 if (get(UCAL_HOUR_OF_DAY, status) != hour) {
1768 setTimeInMillis(t, status);
1769 }
1770 }
1771 }
1772}
1773
1774// -------------------------------------
1775int32_t Calendar::fieldDifference(UDate when, EDateFields field, UErrorCode& status) {
1776 return fieldDifference(when, (UCalendarDateFields) field, status);
1777}
1778
1779int32_t Calendar::fieldDifference(UDate targetMs, UCalendarDateFields field, UErrorCode& ec) {
1780 if (U_FAILURE(ec)) return 0;
1781 int32_t min = 0;
1782 double startMs = getTimeInMillis(ec);
1783 // Always add from the start millis. This accomodates
1784 // operations like adding years from February 29, 2000 up to
1785 // February 29, 2004. If 1, 1, 1, 1 is added to the year
1786 // field, the DOM gets pinned to 28 and stays there, giving an
1787 // incorrect DOM difference of 1. We have to add 1, reset, 2,
1788 // reset, 3, reset, 4.
1789 if (startMs < targetMs) {
1790 int32_t max = 1;
1791 // Find a value that is too large
1792 while (U_SUCCESS(ec)) {
1793 setTimeInMillis(startMs, ec);
1794 add(field, max, ec);
1795 double ms = getTimeInMillis(ec);
1796 if (ms == targetMs) {
1797 return max;
1798 } else if (ms > targetMs) {
1799 break;
1800 } else {
1801 max <<= 1;
b75a7d8f
A
1802 if (max < 0) {
1803 // Field difference too large to fit into int32_t
374ca955
A
1804#if defined (U_DEBUG_CAL)
1805 fprintf(stderr, "%s:%d: ILLEGAL ARG because field %s's max too large for int32_t\n",
1806 __FILE__, __LINE__, fldName(field));
1807#endif
b75a7d8f
A
1808 ec = U_ILLEGAL_ARGUMENT_ERROR;
1809 }
1810 }
1811 }
1812 // Do a binary search
1813 while ((max - min) > 1 && U_SUCCESS(ec)) {
1814 int32_t t = (min + max) / 2;
1815 setTimeInMillis(startMs, ec);
1816 add(field, t, ec);
1817 double ms = getTimeInMillis(ec);
1818 if (ms == targetMs) {
1819 return t;
1820 } else if (ms > targetMs) {
1821 max = t;
1822 } else {
1823 min = t;
1824 }
1825 }
1826 } else if (startMs > targetMs) {
1827 int32_t max = -1;
1828 // Find a value that is too small
1829 while (U_SUCCESS(ec)) {
1830 setTimeInMillis(startMs, ec);
1831 add(field, max, ec);
1832 double ms = getTimeInMillis(ec);
1833 if (ms == targetMs) {
1834 return max;
1835 } else if (ms < targetMs) {
1836 break;
1837 } else {
1838 max <<= 1;
1839 if (max == 0) {
1840 // Field difference too large to fit into int32_t
374ca955
A
1841#if defined (U_DEBUG_CAL)
1842 fprintf(stderr, "%s:%d: ILLEGAL ARG because field %s's max too large for int32_t\n",
1843 __FILE__, __LINE__, fldName(field));
1844#endif
b75a7d8f
A
1845 ec = U_ILLEGAL_ARGUMENT_ERROR;
1846 }
1847 }
1848 }
1849 // Do a binary search
1850 while ((min - max) > 1 && U_SUCCESS(ec)) {
1851 int32_t t = (min + max) / 2;
1852 setTimeInMillis(startMs, ec);
1853 add(field, t, ec);
1854 double ms = getTimeInMillis(ec);
1855 if (ms == targetMs) {
1856 return t;
1857 } else if (ms < targetMs) {
1858 max = t;
1859 } else {
1860 min = t;
1861 }
1862 }
1863 }
1864 // Set calendar to end point
1865 setTimeInMillis(startMs, ec);
1866 add(field, min, ec);
1867
1868 /* Test for buffer overflows */
1869 if(U_FAILURE(ec)) {
1870 return 0;
1871 }
1872 return min;
1873}
1874
1875// -------------------------------------
1876
1877void
1878Calendar::adoptTimeZone(TimeZone* zone)
1879{
1880 // Do nothing if passed-in zone is NULL
1881 if (zone == NULL) return;
1882
1883 // fZone should always be non-null
1884 if (fZone != NULL) delete fZone;
1885 fZone = zone;
1886
1887 // if the zone changes, we need to recompute the time fields
1888 fAreFieldsSet = FALSE;
1889}
1890
1891// -------------------------------------
1892void
1893Calendar::setTimeZone(const TimeZone& zone)
1894{
1895 adoptTimeZone(zone.clone());
1896}
1897
1898// -------------------------------------
1899
1900const TimeZone&
1901Calendar::getTimeZone() const
1902{
1903 return *fZone;
1904}
1905
1906// -------------------------------------
1907
1908TimeZone*
1909Calendar::orphanTimeZone()
1910{
1911 TimeZone *z = fZone;
1912 // we let go of the time zone; the new time zone is the system default time zone
1913 fZone = TimeZone::createDefault();
1914 return z;
1915}
1916
1917// -------------------------------------
1918
1919void
1920Calendar::setLenient(UBool lenient)
1921{
1922 fLenient = lenient;
1923}
1924
1925// -------------------------------------
1926
1927UBool
1928Calendar::isLenient() const
1929{
1930 return fLenient;
1931}
1932
1933// -------------------------------------
1934
1935void
1936Calendar::setFirstDayOfWeek(UCalendarDaysOfWeek value)
1937{
1938 if (fFirstDayOfWeek != value &&
1939 value >= UCAL_SUNDAY && value <= UCAL_SATURDAY) {
1940 fFirstDayOfWeek = value;
1941 fAreFieldsSet = FALSE;
1942 }
1943}
1944
1945// -------------------------------------
1946
1947Calendar::EDaysOfWeek
1948Calendar::getFirstDayOfWeek() const
1949{
1950 return (Calendar::EDaysOfWeek)fFirstDayOfWeek;
1951}
1952
1953UCalendarDaysOfWeek
1954Calendar::getFirstDayOfWeek(UErrorCode & /*status*/) const
1955{
1956 return fFirstDayOfWeek;
1957}
1958// -------------------------------------
1959
1960void
1961Calendar::setMinimalDaysInFirstWeek(uint8_t value)
1962{
1963 // Values less than 1 have the same effect as 1; values greater
1964 // than 7 have the same effect as 7. However, we normalize values
1965 // so operator== and so forth work.
1966 if (value < 1) {
1967 value = 1;
1968 } else if (value > 7) {
1969 value = 7;
1970 }
1971 if (fMinimalDaysInFirstWeek != value) {
1972 fMinimalDaysInFirstWeek = value;
1973 fAreFieldsSet = FALSE;
1974 }
1975}
1976
1977// -------------------------------------
1978
1979uint8_t
1980Calendar::getMinimalDaysInFirstWeek() const
1981{
1982 return fMinimalDaysInFirstWeek;
1983}
1984
374ca955
A
1985// ------------------------------------- limits
1986
1987int32_t
1988Calendar::getMinimum(EDateFields field) const {
1989 return getLimit((UCalendarDateFields) field,UCAL_LIMIT_MINIMUM);
1990}
1991
1992int32_t
1993Calendar::getMinimum(UCalendarDateFields field) const
1994{
1995 return getLimit(field,UCAL_LIMIT_MINIMUM);
1996}
1997
1998// -------------------------------------
1999int32_t
2000Calendar::getMaximum(EDateFields field) const
2001{
2002 return getLimit((UCalendarDateFields) field,UCAL_LIMIT_MAXIMUM);
2003}
2004
2005int32_t
2006Calendar::getMaximum(UCalendarDateFields field) const
2007{
2008 return getLimit(field,UCAL_LIMIT_MAXIMUM);
2009}
2010
b75a7d8f 2011// -------------------------------------
374ca955
A
2012int32_t
2013Calendar::getGreatestMinimum(EDateFields field) const
2014{
2015 return getLimit((UCalendarDateFields)field,UCAL_LIMIT_GREATEST_MINIMUM);
2016}
2017
2018int32_t
2019Calendar::getGreatestMinimum(UCalendarDateFields field) const
2020{
2021 return getLimit(field,UCAL_LIMIT_GREATEST_MINIMUM);
2022}
2023
2024// -------------------------------------
2025int32_t
2026Calendar::getLeastMaximum(EDateFields field) const
2027{
2028 return getLimit((UCalendarDateFields) field,UCAL_LIMIT_LEAST_MAXIMUM);
2029}
2030
2031int32_t
2032Calendar::getLeastMaximum(UCalendarDateFields field) const
2033{
2034 return getLimit( field,UCAL_LIMIT_LEAST_MAXIMUM);
2035}
2036
2037// -------------------------------------
2038int32_t
2039Calendar::getActualMinimum(EDateFields field, UErrorCode& status) const
2040{
2041 return getActualMinimum((UCalendarDateFields) field, status);
2042}
2043
2044int32_t Calendar::getLimit(UCalendarDateFields field, ELimitType limitType) const {
2045 switch (field) {
2046 case UCAL_DAY_OF_WEEK:
2047 case UCAL_AM_PM:
2048 case UCAL_HOUR:
2049 case UCAL_HOUR_OF_DAY:
2050 case UCAL_MINUTE:
2051 case UCAL_SECOND:
2052 case UCAL_MILLISECOND:
2053 case UCAL_ZONE_OFFSET:
2054 case UCAL_DST_OFFSET:
2055 case UCAL_DOW_LOCAL:
2056 case UCAL_JULIAN_DAY:
2057 case UCAL_MILLISECONDS_IN_DAY:
2058 return kCalendarLimits[field][limitType];
2059 default:
2060 return handleGetLimit(field, limitType);
2061 }
2062}
2063
b75a7d8f
A
2064
2065int32_t
2066Calendar::getActualMinimum(UCalendarDateFields field, UErrorCode& status) const
2067{
2068 int32_t fieldValue = getGreatestMinimum(field);
2069 int32_t endValue = getMinimum(field);
2070
2071 // if we know that the minimum value is always the same, just return it
2072 if (fieldValue == endValue) {
2073 return fieldValue;
2074 }
2075
2076 // clone the calendar so we don't mess with the real one, and set it to
2077 // accept anything for the field values
2078 Calendar *work = (Calendar*)this->clone();
2079 work->setLenient(TRUE);
2080
2081 // now try each value from getLeastMaximum() to getMaximum() one by one until
2082 // we get a value that normalizes to another value. The last value that
2083 // normalizes to itself is the actual minimum for the current date
2084 int32_t result = fieldValue;
2085
2086 do {
2087 work->set(field, fieldValue);
2088 if (work->get(field, status) != fieldValue) {
2089 break;
2090 }
2091 else {
2092 result = fieldValue;
2093 fieldValue--;
2094 }
2095 } while (fieldValue >= endValue);
2096
2097 delete work;
2098
2099 /* Test for buffer overflows */
2100 if(U_FAILURE(status)) {
2101 return 0;
2102 }
2103 return result;
2104}
2105
2106// -------------------------------------
2107
374ca955
A
2108
2109
2110/**
2111 * Ensure that each field is within its valid range by calling {@link
2112 * #validateField(int)} on each field that has been set. This method
2113 * should only be called if this calendar is not lenient.
2114 * @see #isLenient
2115 * @see #validateField(int)
2116 * @draft ICU 2.8
2117 */
2118void Calendar::validateFields(UErrorCode &status) {
2119 for (int32_t field = 0; U_SUCCESS(status) && (field < UCAL_FIELD_COUNT); field++) {
2120 if (isSet((UCalendarDateFields)field)) {
2121 validateField((UCalendarDateFields)field, status);
2122 }
2123 }
2124}
2125
2126/**
2127 * Validate a single field of this calendar. Subclasses should
2128 * override this method to validate any calendar-specific fields.
2129 * Generic fields can be handled by
2130 * <code>Calendar.validateField()</code>.
2131 * @see #validateField(int, int, int)
2132 * @draft ICU 2.8
2133 */
2134void Calendar::validateField(UCalendarDateFields field, UErrorCode &status) {
2135 int32_t y;
2136 switch (field) {
2137 case UCAL_DAY_OF_MONTH:
2138 y = handleGetExtendedYear();
2139 validateField(field, 1, handleGetMonthLength(y, internalGet(UCAL_MONTH)), status);
2140 break;
2141 case UCAL_DAY_OF_YEAR:
2142 y = handleGetExtendedYear();
2143 validateField(field, 1, handleGetYearLength(y), status);
2144 break;
2145 case UCAL_DAY_OF_WEEK_IN_MONTH:
2146 if (internalGet(field) == 0) {
2147#if defined (U_DEBUG_CAL)
2148 fprintf(stderr, "%s:%d: ILLEGAL ARG because DOW in month cannot be 0\n",
2149 __FILE__, __LINE__);
2150#endif
2151 status = U_ILLEGAL_ARGUMENT_ERROR; // "DAY_OF_WEEK_IN_MONTH cannot be zero"
2152 return;
2153 }
2154 validateField(field, getMinimum(field), getMaximum(field), status);
2155 break;
2156 default:
2157 validateField(field, getMinimum(field), getMaximum(field), status);
2158 break;
2159 }
2160}
2161
2162/**
2163 * Validate a single field of this calendar given its minimum and
2164 * maximum allowed value. If the field is out of range, throw a
2165 * descriptive <code>IllegalArgumentException</code>. Subclasses may
2166 * use this method in their implementation of {@link
2167 * #validateField(int)}.
2168 * @draft ICU 2.8
2169 */
2170void Calendar::validateField(UCalendarDateFields field, int32_t min, int32_t max, UErrorCode& status)
2171{
2172 int32_t value = fFields[field];
2173 if (value < min || value > max) {
2174#if defined (U_DEBUG_CAL)
2175 fprintf(stderr, "%s:%d: ILLEGAL ARG because of field %s out of range %d..%d at %d\n",
2176 __FILE__, __LINE__,fldName(field),min,max,value);
2177#endif
2178 status = U_ILLEGAL_ARGUMENT_ERROR;
2179 return;
2180 }
2181}
2182
2183// -------------------------
2184
2185const UFieldResolutionTable* Calendar::getFieldResolutionTable() const {
2186 return kDatePrecedence;
2187}
2188
2189
2190UCalendarDateFields Calendar::newerField(UCalendarDateFields defaultField, UCalendarDateFields alternateField) const
2191{
2192 if (fStamp[alternateField] > fStamp[defaultField]) {
2193 return alternateField;
2194 }
2195 return defaultField;
2196}
2197
2198UCalendarDateFields Calendar::resolveFields(const UFieldResolutionTable* precedenceTable) {
2199 int32_t bestField = UCAL_FIELD_COUNT;
2200 for (int32_t g=0; precedenceTable[g][0][0] != -1 && (bestField == UCAL_FIELD_COUNT); ++g) {
2201 int32_t bestStamp = kUnset;
2202 for (int32_t l=0; precedenceTable[g][l][0] != -1; ++l) {
2203 int32_t lineStamp = kUnset;
2204 // Skip over first entry if it is negative
2205 for (int32_t i=((precedenceTable[g][l][0]>=kResolveRemap)?1:0); precedenceTable[g][l][i]!=-1; ++i) {
2206 int32_t s = fStamp[precedenceTable[g][l][i]];
2207 // If any field is unset then don't use this line
2208 if (s == kUnset) {
2209 goto linesInGroup;
2210 } else if(s > lineStamp) {
2211 lineStamp = s;
2212 }
2213 }
2214 // Record new maximum stamp & field no.
2215 if (lineStamp > bestStamp) {
2216 bestStamp = lineStamp;
2217 bestField = precedenceTable[g][l][0]; // First field refers to entire line
2218 }
2219 linesInGroup:
2220 ;
2221 }
2222 }
2223 return (UCalendarDateFields)( (bestField>=kResolveRemap)?(bestField&(kResolveRemap-1)):bestField );
2224}
2225
2226const UFieldResolutionTable Calendar::kDatePrecedence[] =
2227 {
2228 {
2229 { UCAL_DAY_OF_MONTH, kResolveSTOP },
2230 { UCAL_WEEK_OF_YEAR, UCAL_DAY_OF_WEEK, kResolveSTOP },
2231 { UCAL_WEEK_OF_MONTH, UCAL_DAY_OF_WEEK, kResolveSTOP },
2232 { UCAL_DAY_OF_WEEK_IN_MONTH, UCAL_DAY_OF_WEEK, kResolveSTOP },
2233 { UCAL_WEEK_OF_YEAR, UCAL_DOW_LOCAL, kResolveSTOP },
2234 { UCAL_WEEK_OF_MONTH, UCAL_DOW_LOCAL, kResolveSTOP },
2235 { UCAL_DAY_OF_WEEK_IN_MONTH, UCAL_DOW_LOCAL, kResolveSTOP },
2236 { UCAL_DAY_OF_YEAR, kResolveSTOP },
2237 { kResolveRemap | UCAL_DAY_OF_MONTH, UCAL_YEAR, kResolveSTOP }, // if YEAR is set over YEAR_WOY use DAY_OF_MONTH
2238 { kResolveRemap | UCAL_WEEK_OF_YEAR, UCAL_YEAR_WOY, kResolveSTOP }, // if YEAR_WOY is set, calc based on WEEK_OF_YEAR
2239 { kResolveSTOP }
2240 },
2241 {
2242 { UCAL_WEEK_OF_YEAR, kResolveSTOP },
2243 { UCAL_WEEK_OF_MONTH, kResolveSTOP },
2244 { UCAL_DAY_OF_WEEK_IN_MONTH, kResolveSTOP },
2245 { kResolveRemap | UCAL_DAY_OF_WEEK_IN_MONTH, UCAL_DAY_OF_WEEK, kResolveSTOP },
2246 { kResolveRemap | UCAL_DAY_OF_WEEK_IN_MONTH, UCAL_DOW_LOCAL, kResolveSTOP },
2247 { kResolveSTOP }
2248 },
2249 {{kResolveSTOP}}
2250 };
2251
2252
2253const UFieldResolutionTable Calendar::kDOWPrecedence[] =
2254{
2255 {
2256 { UCAL_DAY_OF_WEEK,kResolveSTOP, kResolveSTOP },
2257 { UCAL_DOW_LOCAL,kResolveSTOP, kResolveSTOP },
2258 {kResolveSTOP}
2259 },
2260 {{kResolveSTOP}}
2261};
2262
2263// precedence for calculating a year
2264const UFieldResolutionTable Calendar::kYearPrecedence[] =
2265{
2266 {
2267 { UCAL_YEAR, kResolveSTOP },
2268 { UCAL_EXTENDED_YEAR, kResolveSTOP },
2269 { UCAL_YEAR_WOY, UCAL_WEEK_OF_YEAR, kResolveSTOP }, // YEAR_WOY is useless without WEEK_OF_YEAR
2270 { kResolveSTOP }
2271 },
2272 {{kResolveSTOP}}
2273};
2274
2275
2276// -------------------------
2277
2278
2279void Calendar::computeTime(UErrorCode& status) {
2280 if (!isLenient()) {
2281 validateFields(status);
2282 }
2283
2284 // Compute the Julian day
2285 int32_t julianDay = computeJulianDay();
2286
2287 double millis = Grego::julianDayToMillis(julianDay);
2288
2289#if defined (U_DEBUG_CAL)
2290 // int32_t julianInsanityCheck = (int32_t)Math::floorDivide(millis, kOneDay);
2291 // julianInsanityCheck += kEpochStartAsJulianDay;
2292 // if(1 || julianInsanityCheck != julianDay) {
2293 // fprintf(stderr, "%s:%d- D'oh- computed jules %d, to mills (%s)%.lf, recomputed %d\n",
2294 // __FILE__, __LINE__, julianDay, millis<0.0?"NEG":"", millis, julianInsanityCheck);
2295 // }
2296#endif
2297
2298 int32_t millisInDay;
2299
2300 // We only use MILLISECONDS_IN_DAY if it has been set by the user.
2301 // This makes it possible for the caller to set the calendar to a
2302 // time and call clear(MONTH) to reset the MONTH to January. This
2303 // is legacy behavior. Without this, clear(MONTH) has no effect,
2304 // since the internally set JULIAN_DAY is used.
2305 if (fStamp[UCAL_MILLISECONDS_IN_DAY] >= ((int32_t)kMinimumUserStamp) &&
2306 newestStamp(UCAL_AM_PM, UCAL_MILLISECOND, kUnset) <= fStamp[UCAL_MILLISECONDS_IN_DAY]) {
2307 millisInDay = internalGet(UCAL_MILLISECONDS_IN_DAY);
2308 } else {
2309 millisInDay = computeMillisInDay();
2310 }
2311
2312 // Compute the time zone offset and DST offset. There are two potential
2313 // ambiguities here. We'll assume a 2:00 am (wall time) switchover time
2314 // for discussion purposes here.
2315 // 1. The transition into DST. Here, a designated time of 2:00 am - 2:59 am
2316 // can be in standard or in DST depending. However, 2:00 am is an invalid
2317 // representation (the representation jumps from 1:59:59 am Std to 3:00:00 am DST).
2318 // We assume standard time.
2319 // 2. The transition out of DST. Here, a designated time of 1:00 am - 1:59 am
2320 // can be in standard or DST. Both are valid representations (the rep
2321 // jumps from 1:59:59 DST to 1:00:00 Std).
2322 // Again, we assume standard time.
2323 // We use the TimeZone object, unless the user has explicitly set the ZONE_OFFSET
2324 // or DST_OFFSET fields; then we use those fields.
2325 if (fStamp[UCAL_ZONE_OFFSET] >= ((int32_t)kMinimumUserStamp) ||
2326 fStamp[UCAL_DST_OFFSET] >= ((int32_t)kMinimumUserStamp)) {
2327 millisInDay -= internalGet(UCAL_ZONE_OFFSET) + internalGet(UCAL_DST_OFFSET);
2328 } else {
2329 millisInDay -= computeZoneOffset(millis, millisInDay,status);
2330 }
2331
2332 internalSetTime(millis + millisInDay);
2333}
2334
2335/**
2336 * Compute the milliseconds in the day from the fields. This is a
2337 * value from 0 to 23:59:59.999 inclusive, unless fields are out of
2338 * range, in which case it can be an arbitrary value. This value
2339 * reflects local zone wall time.
2340 * @stable ICU 2.0
2341 */
2342int32_t Calendar::computeMillisInDay() {
2343 // Do the time portion of the conversion.
2344
2345 int32_t millisInDay = 0;
2346
2347 // Find the best set of fields specifying the time of day. There
2348 // are only two possibilities here; the HOUR_OF_DAY or the
2349 // AM_PM and the HOUR.
2350 int32_t hourOfDayStamp = fStamp[UCAL_HOUR_OF_DAY];
2351 int32_t hourStamp = (fStamp[UCAL_HOUR] > fStamp[UCAL_AM_PM])?fStamp[UCAL_HOUR]:fStamp[UCAL_AM_PM];
2352 int32_t bestStamp = (hourStamp > hourOfDayStamp) ? hourStamp : hourOfDayStamp;
2353
2354 // Hours
2355 if (bestStamp != kUnset) {
2356 if (bestStamp == hourOfDayStamp) {
2357 // Don't normalize here; let overflow bump into the next period.
2358 // This is consistent with how we handle other fields.
2359 millisInDay += internalGet(UCAL_HOUR_OF_DAY);
2360 } else {
2361 // Don't normalize here; let overflow bump into the next period.
2362 // This is consistent with how we handle other fields.
2363 millisInDay += internalGet(UCAL_HOUR);
2364 millisInDay += 12 * internalGet(UCAL_AM_PM); // Default works for unset AM_PM
2365 }
2366 }
2367
2368 // We use the fact that unset == 0; we start with millisInDay
2369 // == HOUR_OF_DAY.
2370 millisInDay *= 60;
2371 millisInDay += internalGet(UCAL_MINUTE); // now have minutes
2372 millisInDay *= 60;
2373 millisInDay += internalGet(UCAL_SECOND); // now have seconds
2374 millisInDay *= 1000;
2375 millisInDay += internalGet(MILLISECOND); // now have millis
2376
2377 return millisInDay;
2378}
2379
2380/**
2381 * This method can assume EXTENDED_YEAR has been set.
2382 * @param millis milliseconds of the date fields
2383 * @param millisInDay milliseconds of the time fields; may be out
2384 * or range.
2385 * @stable ICU 2.0
2386 */
2387int32_t Calendar::computeZoneOffset(double millis, int32_t millisInDay, UErrorCode &ec) {
2388 int32_t rawOffset, dstOffset;
2389 getTimeZone().getOffset(millis+millisInDay, TRUE, rawOffset, dstOffset, ec);
2390 return rawOffset + dstOffset;
2391 // Note: Because we pass in wall millisInDay, rather than
2392 // standard millisInDay, we interpret "1:00 am" on the day
2393 // of cessation of DST as "1:00 am Std" (assuming the time
2394 // of cessation is 2:00 am).
2395}
2396
2397int32_t Calendar::computeJulianDay()
2398{
2399 // We want to see if any of the date fields is newer than the
2400 // JULIAN_DAY. If not, then we use JULIAN_DAY. If so, then we do
2401 // the normal resolution. We only use JULIAN_DAY if it has been
2402 // set by the user. This makes it possible for the caller to set
2403 // the calendar to a time and call clear(MONTH) to reset the MONTH
2404 // to January. This is legacy behavior. Without this,
2405 // clear(MONTH) has no effect, since the internally set JULIAN_DAY
2406 // is used.
2407 if (fStamp[UCAL_JULIAN_DAY] >= (int32_t)kMinimumUserStamp) {
2408 int32_t bestStamp = newestStamp(UCAL_ERA, UCAL_DAY_OF_WEEK_IN_MONTH, kUnset);
2409 bestStamp = newestStamp(UCAL_YEAR_WOY, UCAL_EXTENDED_YEAR, bestStamp);
2410 if (bestStamp <= fStamp[UCAL_JULIAN_DAY]) {
2411 return internalGet(UCAL_JULIAN_DAY);
2412 }
2413 }
2414
2415 UCalendarDateFields bestField = resolveFields(getFieldResolutionTable());
2416 if (bestField == UCAL_FIELD_COUNT) {
2417 bestField = UCAL_DAY_OF_MONTH;
2418 }
2419
2420 return handleComputeJulianDay(bestField);
2421}
2422
2423// -------------------------------------------
2424
2425int32_t Calendar::handleComputeJulianDay(UCalendarDateFields bestField) {
2426 UBool useMonth = (bestField == UCAL_DAY_OF_MONTH ||
2427 bestField == UCAL_WEEK_OF_MONTH ||
2428 bestField == UCAL_DAY_OF_WEEK_IN_MONTH);
2429 int32_t year;
2430
2431 if (bestField == UCAL_WEEK_OF_YEAR) {
2432 year = internalGet(UCAL_YEAR_WOY, handleGetExtendedYear());
2433 internalSet(UCAL_EXTENDED_YEAR, year);
2434 } else {
2435 year = handleGetExtendedYear();
2436 internalSet(UCAL_EXTENDED_YEAR, year);
2437 }
2438
2439#if defined (U_DEBUG_CAL)
2440 fprintf(stderr, "%s:%d - bf= %s - y=%d\n", __FILE__, __LINE__, fldName(bestField), year);
2441#endif
2442
2443 // Get the Julian day of the day BEFORE the start of this year.
2444 // If useMonth is true, get the day before the start of the month.
2445
2446 // give calendar subclass a chance to have a default 'first' month
03115e54 2447 int32_t month;
374ca955
A
2448
2449 if(isSet(UCAL_MONTH)) {
03115e54 2450 month = internalGet(UCAL_MONTH);
374ca955 2451 } else {
03115e54 2452 month = getDefaultMonthInYear();
374ca955
A
2453 }
2454
2455 int32_t julianDay = handleComputeMonthStart(year, useMonth ? month : 0, useMonth);
2456
2457 if (bestField == UCAL_DAY_OF_MONTH) {
2458
2459 // give calendar subclass a chance to have a default 'first' dom
2460 int32_t dayOfMonth;
2461 if(isSet(UCAL_DAY_OF_MONTH)) {
2462 dayOfMonth = internalGet(UCAL_DAY_OF_MONTH,1);
2463 } else {
2464 dayOfMonth = getDefaultDayInMonth(month);
2465 }
2466 return julianDay + dayOfMonth;
2467 }
2468
2469 if (bestField == UCAL_DAY_OF_YEAR) {
2470 return julianDay + internalGet(UCAL_DAY_OF_YEAR);
2471 }
2472
2473 int32_t firstDayOfWeek = getFirstDayOfWeek(); // Localized fdw
2474
2475 // At this point julianDay is the 0-based day BEFORE the first day of
2476 // January 1, year 1 of the given calendar. If julianDay == 0, it
2477 // specifies (Jan. 1, 1) - 1, in whatever calendar we are using (Julian
2478 // or Gregorian). (or it is before the month we are in, if useMonth is True)
2479
2480 // At this point we need to process the WEEK_OF_MONTH or
2481 // WEEK_OF_YEAR, which are similar, or the DAY_OF_WEEK_IN_MONTH.
2482 // First, perform initial shared computations. These locate the
2483 // first week of the period.
2484
2485 // Get the 0-based localized DOW of day one of the month or year.
2486 // Valid range 0..6.
2487 int32_t first = julianDayToDayOfWeek(julianDay + 1) - firstDayOfWeek;
2488 if (first < 0) {
2489 first += 7;
2490 }
2491
2492 int32_t dowLocal = getLocalDOW();
2493
2494 // Find the first target DOW (dowLocal) in the month or year.
2495 // Actually, it may be just before the first of the month or year.
2496 // It will be an integer from -5..7.
2497 int32_t date = 1 - first + dowLocal;
2498
2499 if (bestField == UCAL_DAY_OF_WEEK_IN_MONTH) {
2500 // Adjust the target DOW to be in the month or year.
2501 if (date < 1) {
2502 date += 7;
2503 }
2504
2505 // The only trickiness occurs if the day-of-week-in-month is
2506 // negative.
2507 int32_t dim = internalGet(UCAL_DAY_OF_WEEK_IN_MONTH, 1);
2508 if (dim >= 0) {
2509 date += 7*(dim - 1);
2510
2511 } else {
2512 // Move date to the last of this day-of-week in this month,
2513 // then back up as needed. If dim==-1, we don't back up at
2514 // all. If dim==-2, we back up once, etc. Don't back up
2515 // past the first of the given day-of-week in this month.
2516 // Note that we handle -2, -3, etc. correctly, even though
2517 // values < -1 are technically disallowed.
2518 int32_t m = internalGet(UCAL_MONTH, UCAL_JANUARY);
2519 int32_t monthLength = handleGetMonthLength(year, m);
2520 date += ((monthLength - date) / 7 + dim + 1) * 7;
2521 }
2522 } else {
2523#if defined (U_DEBUG_CAL)
2524 fprintf(stderr, "%s:%d - bf= %s\n", __FILE__, __LINE__, fldName(bestField));
2525#endif
2526
2527 if(bestField == UCAL_WEEK_OF_YEAR) { // ------------------------------------- WOY -------------
2528 if(!isSet(UCAL_YEAR_WOY) || // YWOY not set at all or
2529 ( (resolveFields(kYearPrecedence) != UCAL_YEAR_WOY) // YWOY doesn't have precedence
2530 && (fStamp[UCAL_YEAR_WOY]!=kInternallySet) ) ) { // (excluding where all fields are internally set - then YWOY is used)
2531 // need to be sure to stay in 'real' year.
2532 int32_t woy = internalGet(bestField);
2533
2534 int32_t nextJulianDay = handleComputeMonthStart(year+1, 0, FALSE); // jd of day before jan 1
2535 int32_t nextFirst = julianDayToDayOfWeek(nextJulianDay + 1) - firstDayOfWeek;
2536
2537 if (nextFirst < 0) { // 0..6 ldow of Jan 1
2538 nextFirst += 7;
2539 }
2540
2541 if(woy==1) { // FIRST WEEK ---------------------------------
2542#if defined (U_DEBUG_CAL)
2543 fprintf(stderr, "%s:%d - woy=%d, yp=%d, nj(%d)=%d, nf=%d", __FILE__, __LINE__,
2544 internalGet(bestField), resolveFields(kYearPrecedence), year+1,
2545 nextJulianDay, nextFirst);
2546
2547 fprintf(stderr, " next: %d DFW, min=%d \n", (7-nextFirst), getMinimalDaysInFirstWeek() );
2548#endif
2549
2550 // nextFirst is now the localized DOW of Jan 1 of y-woy+1
2551 if((nextFirst > 0) && // Jan 1 starts on FDOW
2552 (7-nextFirst) >= getMinimalDaysInFirstWeek()) { // or enough days in the week
2553 // Jan 1 of (yearWoy+1) is in yearWoy+1 - recalculate JD to next year
2554#if defined (U_DEBUG_CAL)
2555 fprintf(stderr, "%s:%d - was going to move JD from %d to %d [d%d]\n", __FILE__, __LINE__,
2556 julianDay, nextJulianDay, (nextJulianDay-julianDay));
2557#endif
2558 julianDay = nextJulianDay;
2559
2560 // recalculate 'first' [0-based local dow of jan 1]
2561 first = julianDayToDayOfWeek(julianDay + 1) - firstDayOfWeek;
2562 if (first < 0) {
2563 first += 7;
2564 }
2565 // recalculate date.
2566 date = 1 - first + dowLocal;
2567 }
2568 } else if(woy>=getLeastMaximum(bestField)) {
2569 // could be in the last week- find out if this JD would overstep
2570 int32_t testDate = date;
2571 if ((7 - first) < getMinimalDaysInFirstWeek()) {
2572 testDate += 7;
2573 }
2574
2575 // Now adjust for the week number.
2576 testDate += 7 * (woy - 1);
2577
2578#if defined (U_DEBUG_CAL)
2579 fprintf(stderr, "%s:%d - y=%d, y-1=%d doy%d, njd%d (C.F. %d)\n",
2580 __FILE__, __LINE__, year, year-1, testDate, julianDay+testDate, nextJulianDay);
2581#endif
2582 if(julianDay+testDate > nextJulianDay) { // is it past Dec 31? (nextJulianDay is day BEFORE year+1's Jan 1)
2583 // Fire up the calculating engines.. retry YWOY = (year-1)
2584 julianDay = handleComputeMonthStart(year-1, 0, FALSE); // jd before Jan 1 of previous year
2585 first = julianDayToDayOfWeek(julianDay + 1) - firstDayOfWeek; // 0 based local dow of first week
2586
2587 if(first < 0) { // 0..6
2588 first += 7;
2589 }
2590 date = 1 - first + dowLocal;
2591
2592#if defined (U_DEBUG_CAL)
2593 fprintf(stderr, "%s:%d - date now %d, jd%d, ywoy%d\n",
2594 __FILE__, __LINE__, date, julianDay, year-1);
2595#endif
2596
2597
2598 } /* correction needed */
2599 } /* leastmaximum */
2600 } /* resolvefields(year) != year_woy */
2601 } /* bestfield != week_of_year */
2602
2603 // assert(bestField == WEEK_OF_MONTH || bestField == WEEK_OF_YEAR)
2604 // Adjust for minimal days in first week
2605 if ((7 - first) < getMinimalDaysInFirstWeek()) {
2606 date += 7;
2607 }
2608
2609 // Now adjust for the week number.
2610 date += 7 * (internalGet(bestField) - 1);
2611 }
2612
2613 return julianDay + date;
2614}
2615
2616int32_t
2617Calendar::getDefaultMonthInYear()
2618{
2619 return 0;
2620}
2621
2622int32_t
2623Calendar::getDefaultDayInMonth(int32_t /*month*/)
2624{
2625 return 1;
2626}
2627
2628
2629int32_t Calendar::getLocalDOW()
2630{
2631 // Get zero-based localized DOW, valid range 0..6. This is the DOW
2632 // we are looking for.
2633 int32_t dowLocal = 0;
2634 switch (resolveFields(kDOWPrecedence)) {
2635 case DAY_OF_WEEK:
2636 dowLocal = internalGet(UCAL_DAY_OF_WEEK) - fFirstDayOfWeek;
2637 break;
2638 case DOW_LOCAL:
2639 dowLocal = internalGet(UCAL_DOW_LOCAL) - 1;
2640 break;
2641 default:
2642 break;
2643 }
2644 dowLocal = dowLocal % 7;
2645 if (dowLocal < 0) {
2646 dowLocal += 7;
2647 }
2648 return dowLocal;
2649}
2650
2651int32_t Calendar::handleGetExtendedYearFromWeekFields(int32_t yearWoy, int32_t woy)
2652{
2653 // We have UCAL_YEAR_WOY and UCAL_WEEK_OF_YEAR - from those, determine
2654 // what year we fall in, so that other code can set it properly.
2655 // (code borrowed from computeWeekFields and handleComputeJulianDay)
2656 //return yearWoy;
2657
2658 // First, we need a reliable DOW.
2659 UCalendarDateFields bestField = resolveFields(kDatePrecedence); // !! Note: if subclasses have a different table, they should override handleGetExtendedYearFromWeekFields
2660
2661 // Now, a local DOW
2662 int32_t dowLocal = getLocalDOW(); // 0..6
2663 int32_t firstDayOfWeek = getFirstDayOfWeek(); // Localized fdw
2664 int32_t jan1Start = handleComputeMonthStart(yearWoy, 0, FALSE);
2665 int32_t nextJan1Start = handleComputeMonthStart(yearWoy+1, 0, FALSE); // next year's Jan1 start
2666
2667 // At this point julianDay is the 0-based day BEFORE the first day of
2668 // January 1, year 1 of the given calendar. If julianDay == 0, it
2669 // specifies (Jan. 1, 1) - 1, in whatever calendar we are using (Julian
2670 // or Gregorian). (or it is before the month we are in, if useMonth is True)
2671
2672 // At this point we need to process the WEEK_OF_MONTH or
2673 // WEEK_OF_YEAR, which are similar, or the DAY_OF_WEEK_IN_MONTH.
2674 // First, perform initial shared computations. These locate the
2675 // first week of the period.
2676
2677 // Get the 0-based localized DOW of day one of the month or year.
2678 // Valid range 0..6.
2679 int32_t first = julianDayToDayOfWeek(jan1Start + 1) - firstDayOfWeek;
2680 if (first < 0) {
2681 first += 7;
2682 }
2683 int32_t nextFirst = julianDayToDayOfWeek(nextJan1Start + 1) - firstDayOfWeek;
2684 if (nextFirst < 0) {
2685 nextFirst += 7;
2686 }
2687
2688 int32_t minDays = getMinimalDaysInFirstWeek();
2689 UBool jan1InPrevYear = FALSE; // January 1st in the year of WOY is the 1st week? (i.e. first week is < minimal )
2690 UBool nextJan1InPrevYear = FALSE; // January 1st of Year of WOY + 1 is in the first week?
2691
2692 if((7 - first) < minDays) {
2693 jan1InPrevYear = TRUE;
2694 }
2695
2696 if((7 - nextFirst) < minDays) {
2697 nextJan1InPrevYear = TRUE;
2698 }
2699
2700 switch(bestField) {
2701 case UCAL_WEEK_OF_YEAR:
2702 if(woy == 1) {
2703 if(jan1InPrevYear == TRUE) {
2704 // the first week of January is in the previous year
2705 // therefore WOY1 is always solidly within yearWoy
2706 return yearWoy;
2707 } else {
2708 // First WOY is split between two years
2709 if( dowLocal < first) { // we are prior to Jan 1
2710 return yearWoy-1; // previous year
2711 } else {
2712 return yearWoy; // in this year
2713 }
2714 }
2715 } else if(woy >= getLeastMaximum(bestField)) {
2716 // we _might_ be in the last week..
2717 int32_t jd = // Calculate JD of our target day:
2718 jan1Start + // JD of Jan 1
2719 (7-first) + // days in the first week (Jan 1.. )
2720 (woy-1)*7 + // add the weeks of the year
2721 dowLocal; // the local dow (0..6) of last week
2722 if(jan1InPrevYear==FALSE) {
2723 jd -= 7; // woy already includes Jan 1's week.
2724 }
2725
2726 if( (jd+1) >= nextJan1Start ) {
2727 // we are in week 52 or 53 etc. - actual year is yearWoy+1
2728 return yearWoy+1;
2729 } else {
2730 // still in yearWoy;
2731 return yearWoy;
2732 }
2733 } else {
2734 // we're not possibly in the last week -must be ywoy
2735 return yearWoy;
2736 }
2737 break;
2738
2739 case UCAL_DATE:
2740 if((internalGet(UCAL_MONTH)==0) &&
2741 (woy >= getLeastMaximum(UCAL_WEEK_OF_YEAR))) {
2742 return yearWoy+1; // month 0, late woy = in the next year
2743 } else if(woy==1) {
2744 //if(nextJan1InPrevYear) {
2745 if(internalGet(UCAL_MONTH)==0) {
2746 return yearWoy;
2747 } else {
2748 return yearWoy-1;
2749 }
2750 //}
2751 }
2752
2753 //(internalGet(UCAL_DATE) <= (7-first)) /* && in minDow */ ) {
2754 //within 1st week and in this month..
2755 //return yearWoy+1;
2756 return yearWoy;
2757 break;
2758
2759 default: // assume the year is appropriate
2760 return yearWoy;
2761 break;
2762 }
2763
2764#if defined (U_DEBUG_CAL)
2765 fprintf(stderr, "%s:%d - forgot a return on field %s\n", __FILE__, __LINE__, fldName(bestField));
2766#endif
2767
2768 return yearWoy;
2769}
2770
2771int32_t Calendar::handleGetMonthLength(int32_t extendedYear, int32_t month) const
2772{
2773 return handleComputeMonthStart(extendedYear, month+1, TRUE) -
2774 handleComputeMonthStart(extendedYear, month, TRUE);
2775}
2776
2777int32_t Calendar::handleGetYearLength(int32_t eyear) const {
2778 return handleComputeMonthStart(eyear+1, 0, FALSE) -
2779 handleComputeMonthStart(eyear, 0, FALSE);
2780}
2781
b75a7d8f
A
2782int32_t
2783Calendar::getActualMaximum(UCalendarDateFields field, UErrorCode& status) const
2784{
374ca955
A
2785 int32_t result;
2786 switch (field) {
2787 case UCAL_DATE:
2788 {
2789 if(U_FAILURE(status)) return 0;
2790 Calendar *cal = clone();
2791 if(!cal) { status = U_MEMORY_ALLOCATION_ERROR; return 0; }
2792 cal->prepareGetActual(field,FALSE,status);
2793 result = handleGetMonthLength(cal->get(UCAL_EXTENDED_YEAR, status), cal->get(UCAL_MONTH, status));
2794 delete cal;
2795 }
2796 break;
b75a7d8f 2797
374ca955
A
2798 case UCAL_DAY_OF_YEAR:
2799 {
2800 if(U_FAILURE(status)) return 0;
2801 Calendar *cal = clone();
2802 if(!cal) { status = U_MEMORY_ALLOCATION_ERROR; return 0; }
2803 cal->prepareGetActual(field,FALSE,status);
2804 result = handleGetYearLength(cal->get(UCAL_EXTENDED_YEAR, status));
2805 delete cal;
2806 }
2807 break;
2808
2809 case DAY_OF_WEEK:
2810 case AM_PM:
2811 case HOUR:
2812 case HOUR_OF_DAY:
2813 case MINUTE:
2814 case SECOND:
2815 case MILLISECOND:
2816 case ZONE_OFFSET:
2817 case DST_OFFSET:
2818 case DOW_LOCAL:
2819 case UCAL_JULIAN_DAY:
2820 case UCAL_MILLISECONDS_IN_DAY:
2821 // These fields all have fixed minima/maxima
2822 result = getMaximum(field);
2823 break;
2824
2825 default:
2826 // For all other fields, do it the hard way....
2827 result = getActualHelper(field, getLeastMaximum(field), getMaximum(field),status);
2828 break;
2829 }
2830 return result;
2831}
2832
2833
2834/**
2835* Prepare this calendar for computing the actual minimum or maximum.
2836* This method modifies this calendar's fields; it is called on a
2837* temporary calendar.
2838*
2839* <p>Rationale: The semantics of getActualXxx() is to return the
2840* maximum or minimum value that the given field can take, taking into
2841* account other relevant fields. In general these other fields are
2842* larger fields. For example, when computing the actual maximum
2843* DATE, the current value of DATE itself is ignored,
2844* as is the value of any field smaller.
2845*
2846* <p>The time fields all have fixed minima and maxima, so we don't
2847* need to worry about them. This also lets us set the
2848* MILLISECONDS_IN_DAY to zero to erase any effects the time fields
2849* might have when computing date fields.
2850*
2851* <p>DAY_OF_WEEK is adjusted specially for the WEEK_OF_MONTH and
2852* WEEK_OF_YEAR fields to ensure that they are computed correctly.
2853* @internal
2854*/
2855void Calendar::prepareGetActual(UCalendarDateFields field, UBool isMinimum, UErrorCode &status)
2856 {
2857 set(UCAL_MILLISECONDS_IN_DAY, 0);
2858
2859 switch (field) {
2860 case UCAL_YEAR:
2861 case UCAL_YEAR_WOY:
2862 case UCAL_EXTENDED_YEAR:
2863 set(UCAL_DAY_OF_YEAR, getGreatestMinimum(UCAL_DAY_OF_YEAR));
2864 break;
2865
2866 case UCAL_MONTH:
2867 set(UCAL_DATE, getGreatestMinimum(UCAL_DATE));
2868 break;
2869
2870 case UCAL_DAY_OF_WEEK_IN_MONTH:
2871 // For dowim, the maximum occurs for the DOW of the first of the
2872 // month.
2873 set(UCAL_DATE, 1);
2874 set(UCAL_DAY_OF_WEEK, get(UCAL_DAY_OF_WEEK, status)); // Make this user set
2875 break;
2876
2877 case UCAL_WEEK_OF_MONTH:
2878 case UCAL_WEEK_OF_YEAR:
2879 // If we're counting weeks, set the day of the week to either the
2880 // first or last localized DOW. We know the last week of a month
2881 // or year will contain the first day of the week, and that the
2882 // first week will contain the last DOW.
2883 {
2884 int32_t dow = fFirstDayOfWeek;
2885 if (isMinimum) {
2886 dow = (dow + 6) % 7; // set to last DOW
2887 if (dow < UCAL_SUNDAY) {
2888 dow += 7;
2889 }
2890 }
2891#if defined (U_DEBUG_CAL)
2892 fprintf(stderr, "prepareGetActualHelper(WOM/WOY) - dow=%d\n", dow);
2893#endif
2894 set(UCAL_DAY_OF_WEEK, dow);
2895 }
2896 break;
2897 default:
2898 ;
b75a7d8f
A
2899 }
2900
374ca955
A
2901 // Do this last to give it the newest time stamp
2902 set(field, getGreatestMinimum(field));
2903}
2904
2905int32_t Calendar::getActualHelper(UCalendarDateFields field, int32_t startValue, int32_t endValue, UErrorCode &status) const
2906{
2907#if defined (U_DEBUG_CAL)
2908 fprintf(stderr, "getActualHelper(%d,%d .. %d, %s)\n", field, startValue, endValue, u_errorName(status));
2909#endif
2910 if (startValue == endValue) {
2911 // if we know that the maximum value is always the same, just return it
2912 return startValue;
2913 }
2914
2915 int32_t delta = (endValue > startValue) ? 1 : -1;
2916
b75a7d8f
A
2917 // clone the calendar so we don't mess with the real one, and set it to
2918 // accept anything for the field values
374ca955
A
2919 if(U_FAILURE(status)) return startValue;
2920 Calendar *work = clone();
2921 if(!work) { status = U_MEMORY_ALLOCATION_ERROR; return startValue; }
b75a7d8f 2922 work->setLenient(TRUE);
374ca955
A
2923#if defined (U_DEBUG_CAL)
2924 fprintf(stderr, "%s:%d - getActualHelper - %s\n", __FILE__, __LINE__, u_errorName(status));
2925#endif
2926 work->prepareGetActual(field, delta < 0, status);
2927#if defined (U_DEBUG_CAL)
2928 fprintf(stderr, "%s:%d - getActualHelper - %s\n", __FILE__, __LINE__, u_errorName(status));
2929#endif
b75a7d8f 2930
374ca955 2931 // now try each value from the start to the end one by one until
b75a7d8f
A
2932 // we get a value that normalizes to another value. The last value that
2933 // normalizes to itself is the actual maximum for the current date
374ca955 2934 int32_t result = startValue;
b75a7d8f 2935 do {
374ca955
A
2936#if defined (U_DEBUG_CAL)
2937 fprintf(stderr, "%s:%d - getActualHelper - %s\n", __FILE__, __LINE__, u_errorName(status));
2938#endif
2939 work->set(field, startValue);
2940#if defined (U_DEBUG_CAL)
2941 fprintf(stderr, "%s:%d - getActualHelper - %s (set to %d)\n", __FILE__, __LINE__, u_errorName(status), startValue);
2942#endif
2943 if (work->get(field, status) != startValue) {
2944#if defined (U_DEBUG_CAL)
2945 fprintf(stderr, "getActualHelper(fld %d) - got %d (not %d), BREAK - %s\n", field, work->get(field,status), startValue, u_errorName(status));
2946#endif
b75a7d8f 2947 break;
374ca955
A
2948 } else {
2949 result = startValue;
2950 startValue += delta;
2951#if defined (U_DEBUG_CAL)
2952 fprintf(stderr, "getActualHelper(%d) result=%d (start), start += %d to %d\n", field, result, delta, startValue);
2953#endif
b75a7d8f 2954 }
374ca955 2955 } while (result != endValue && U_SUCCESS(status));
b75a7d8f 2956 delete work;
374ca955
A
2957#if defined (U_DEBUG_CAL)
2958 fprintf(stderr, "getActualHelper(%d) = %d\n", field, result);
2959#endif
b75a7d8f
A
2960 return result;
2961}
2962
374ca955
A
2963
2964
2965
b75a7d8f
A
2966// -------------------------------------
2967
2968void
374ca955 2969Calendar::setWeekCountData(const Locale& desiredLocale, const char *type, UErrorCode& status)
b75a7d8f
A
2970{
2971 // Read the week count data from the resource bundle. This should
2972 // have the form:
2973 //
2974 // DateTimeElements:intvector {
2975 // 1, // first day of week
2976 // 1 // min days in week
2977 // }
2978 // Both have a range of 1..7
2979
2980
2981 if (U_FAILURE(status)) return;
2982
2983 fFirstDayOfWeek = UCAL_SUNDAY;
2984 fMinimalDaysInFirstWeek = 1;
2985
374ca955 2986 CalendarData calData(desiredLocale, type, status);
b75a7d8f
A
2987 // If the resource data doesn't seem to be present at all, then use last-resort
2988 // hard-coded data.
374ca955
A
2989 UResourceBundle *dateTimeElements = calData.getByKey(kDateTimeElements, status);
2990
b75a7d8f
A
2991 if (U_FAILURE(status))
2992 {
374ca955
A
2993#if defined (U_DEBUG_CALDATA)
2994 fprintf(stderr, " Failure loading dateTimeElements = %s\n", u_errorName(status));
2995#endif
b75a7d8f 2996 status = U_USING_FALLBACK_WARNING;
b75a7d8f
A
2997 return;
2998 }
2999
374ca955
A
3000 U_LOCALE_BASED(locBased, *this);
3001 locBased.setLocaleIDs(ures_getLocaleByType(dateTimeElements, ULOC_VALID_LOCALE, &status),
3002 ures_getLocaleByType(dateTimeElements, ULOC_ACTUAL_LOCALE, &status));
b75a7d8f 3003 if (U_SUCCESS(status)) {
374ca955
A
3004#if defined (U_DEBUG_CAL)
3005 fprintf(stderr, " Valid=%s, Actual=%s\n", validLocale, actualLocale);
3006#endif
b75a7d8f
A
3007 int32_t arrLen;
3008 const int32_t *dateTimeElementsArr = ures_getIntVector(dateTimeElements, &arrLen, &status);
3009
3010 if(U_SUCCESS(status) && arrLen == 2
3011 && 1 <= dateTimeElementsArr[0] && dateTimeElementsArr[0] <= 7
3012 && 1 <= dateTimeElementsArr[1] && dateTimeElementsArr[1] <= 7)
3013 {
3014 fFirstDayOfWeek = (UCalendarDaysOfWeek)dateTimeElementsArr[0];
3015 fMinimalDaysInFirstWeek = (uint8_t)dateTimeElementsArr[1];
3016 }
3017 else {
3018 status = U_INVALID_FORMAT_ERROR;
3019 }
3020 }
374ca955
A
3021
3022 // do NOT close dateTimeElements
b75a7d8f
A
3023}
3024
3025/**
3026 * Recompute the time and update the status fields isTimeSet
3027 * and areFieldsSet. Callers should check isTimeSet and only
3028 * call this method if isTimeSet is false.
3029 */
3030void
3031Calendar::updateTime(UErrorCode& status)
3032{
3033 computeTime(status);
3034 if(U_FAILURE(status))
3035 return;
3036
3037 // If we are lenient, we need to recompute the fields to normalize
3038 // the values. Also, if we haven't set all the fields yet (i.e.,
3039 // in a newly-created object), we need to fill in the fields. [LIU]
3040 if (isLenient() || ! fAreAllFieldsSet)
3041 fAreFieldsSet = FALSE;
3042
3043 fIsTimeSet = TRUE;
374ca955 3044 fAreFieldsVirtuallySet = FALSE;
b75a7d8f
A
3045}
3046
374ca955
A
3047Locale
3048Calendar::getLocale(ULocDataLocaleType type, UErrorCode& status) const {
3049 U_LOCALE_BASED(locBased, *this);
3050 return locBased.getLocale(type, status);
3051}
b75a7d8f 3052
374ca955
A
3053const char *
3054Calendar::getLocaleID(ULocDataLocaleType type, UErrorCode& status) const {
3055 U_LOCALE_BASED(locBased, *this);
3056 return locBased.getLocaleID(type, status);
b75a7d8f
A
3057}
3058
374ca955 3059U_NAMESPACE_END
b75a7d8f
A
3060
3061#endif /* #if !UCONFIG_NO_FORMATTING */
3062
374ca955 3063
b75a7d8f 3064//eof