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1// © 2016 and later: Unicode, Inc. and others.
2// License & terms of use: http://www.unicode.org/copyright.html
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3/*
4**********************************************************************
51004dcb 5* Copyright (c) 2003-2013, International Business Machines
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6* Corporation and others. All Rights Reserved.
7**********************************************************************
8* Author: Alan Liu
9* Created: July 21 2003
10* Since: ICU 2.8
11**********************************************************************
12*/
13
51004dcb 14#include "utypeinfo.h" // for 'typeid' to work
729e4ab9 15
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16#include "olsontz.h"
17
18#if !UCONFIG_NO_FORMATTING
19
20#include "unicode/ures.h"
21#include "unicode/simpletz.h"
22#include "unicode/gregocal.h"
23#include "gregoimp.h"
24#include "cmemory.h"
25#include "uassert.h"
46f4442e 26#include "uvector.h"
374ca955 27#include <float.h> // DBL_MAX
3d1f044b 28#include "uresimp.h"
4388f060 29#include "zonemeta.h"
51004dcb 30#include "umutex.h"
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31
32#ifdef U_DEBUG_TZ
33# include <stdio.h>
34# include "uresimp.h" // for debugging
35
36static void debug_tz_loc(const char *f, int32_t l)
37{
38 fprintf(stderr, "%s:%d: ", f, l);
39}
40
41static void debug_tz_msg(const char *pat, ...)
42{
43 va_list ap;
44 va_start(ap, pat);
45 vfprintf(stderr, pat, ap);
46 fflush(stderr);
47}
48// must use double parens, i.e.: U_DEBUG_TZ_MSG(("four is: %d",4));
49#define U_DEBUG_TZ_MSG(x) {debug_tz_loc(__FILE__,__LINE__);debug_tz_msg x;}
50#else
51#define U_DEBUG_TZ_MSG(x)
52#endif
53
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54static UBool arrayEqual(const void *a1, const void *a2, int32_t size) {
55 if (a1 == NULL && a2 == NULL) {
56 return TRUE;
57 }
58 if ((a1 != NULL && a2 == NULL) || (a1 == NULL && a2 != NULL)) {
59 return FALSE;
60 }
61 if (a1 == a2) {
62 return TRUE;
63 }
64
65 return (uprv_memcmp(a1, a2, size) == 0);
66}
67
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68U_NAMESPACE_BEGIN
69
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70#define kTRANS "trans"
71#define kTRANSPRE32 "transPre32"
72#define kTRANSPOST32 "transPost32"
73#define kTYPEOFFSETS "typeOffsets"
74#define kTYPEMAP "typeMap"
75#define kLINKS "links"
76#define kFINALRULE "finalRule"
77#define kFINALRAW "finalRaw"
78#define kFINALYEAR "finalYear"
79
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80#define SECONDS_PER_DAY (24*60*60)
81
82static const int32_t ZEROS[] = {0,0};
83
84UOBJECT_DEFINE_RTTI_IMPLEMENTATION(OlsonTimeZone)
85
86/**
87 * Default constructor. Creates a time zone with an empty ID and
88 * a fixed GMT offset of zero.
89 */
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90/*OlsonTimeZone::OlsonTimeZone() : finalYear(INT32_MAX), finalMillis(DBL_MAX), finalZone(0), transitionRulesInitialized(FALSE) {
91 clearTransitionRules();
374ca955 92 constructEmpty();
46f4442e 93}*/
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94
95/**
96 * Construct a GMT+0 zone with no transitions. This is done when a
97 * constructor fails so the resultant object is well-behaved.
98 */
99void OlsonTimeZone::constructEmpty() {
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100 canonicalID = NULL;
101
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102 transitionCountPre32 = transitionCount32 = transitionCountPost32 = 0;
103 transitionTimesPre32 = transitionTimes32 = transitionTimesPost32 = NULL;
104
105 typeMapData = NULL;
106
374ca955 107 typeCount = 1;
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108 typeOffsets = ZEROS;
109
110 finalZone = NULL;
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111}
112
113/**
114 * Construct from a resource bundle
115 * @param top the top-level zoneinfo resource bundle. This is used
116 * to lookup the rule that `res' may refer to, if there is one.
117 * @param res the resource bundle of the zone to be constructed
118 * @param ec input-output error code
119 */
120OlsonTimeZone::OlsonTimeZone(const UResourceBundle* top,
121 const UResourceBundle* res,
4388f060 122 const UnicodeString& tzid,
374ca955 123 UErrorCode& ec) :
57a6839d 124 BasicTimeZone(tzid), finalZone(NULL)
374ca955 125{
46f4442e 126 clearTransitionRules();
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127 U_DEBUG_TZ_MSG(("OlsonTimeZone(%s)\n", ures_getKey((UResourceBundle*)res)));
128 if ((top == NULL || res == NULL) && U_SUCCESS(ec)) {
129 ec = U_ILLEGAL_ARGUMENT_ERROR;
130 }
131 if (U_SUCCESS(ec)) {
132 // TODO -- clean up -- Doesn't work if res points to an alias
133 // // TODO remove nonconst casts below when ures_* API is fixed
134 // setID(ures_getKey((UResourceBundle*) res)); // cast away const
135
729e4ab9 136 int32_t len;
3d1f044b 137 StackUResourceBundle r;
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138
139 // Pre-32bit second transitions
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140 ures_getByKey(res, kTRANSPRE32, r.getAlias(), &ec);
141 transitionTimesPre32 = ures_getIntVector(r.getAlias(), &len, &ec);
142 transitionCountPre32 = static_cast<int16_t>(len >> 1);
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143 if (ec == U_MISSING_RESOURCE_ERROR) {
144 // No pre-32bit transitions
145 transitionTimesPre32 = NULL;
146 transitionCountPre32 = 0;
147 ec = U_ZERO_ERROR;
148 } else if (U_SUCCESS(ec) && (len < 0 || len > 0x7FFF || (len & 1) != 0) /* len must be even */) {
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149 ec = U_INVALID_FORMAT_ERROR;
150 }
151
729e4ab9 152 // 32bit second transitions
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153 ures_getByKey(res, kTRANS, r.getAlias(), &ec);
154 transitionTimes32 = ures_getIntVector(r.getAlias(), &len, &ec);
155 transitionCount32 = static_cast<int16_t>(len);
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156 if (ec == U_MISSING_RESOURCE_ERROR) {
157 // No 32bit transitions
158 transitionTimes32 = NULL;
159 transitionCount32 = 0;
160 ec = U_ZERO_ERROR;
161 } else if (U_SUCCESS(ec) && (len < 0 || len > 0x7FFF)) {
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162 ec = U_INVALID_FORMAT_ERROR;
163 }
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164
165 // Post-32bit second transitions
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166 ures_getByKey(res, kTRANSPOST32, r.getAlias(), &ec);
167 transitionTimesPost32 = ures_getIntVector(r.getAlias(), &len, &ec);
168 transitionCountPost32 = static_cast<int16_t>(len >> 1);
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169 if (ec == U_MISSING_RESOURCE_ERROR) {
170 // No pre-32bit transitions
171 transitionTimesPost32 = NULL;
172 transitionCountPost32 = 0;
173 ec = U_ZERO_ERROR;
174 } else if (U_SUCCESS(ec) && (len < 0 || len > 0x7FFF || (len & 1) != 0) /* len must be even */) {
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175 ec = U_INVALID_FORMAT_ERROR;
176 }
374ca955 177
729e4ab9 178 // Type offsets list must be of even size, with size >= 2
3d1f044b
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179 ures_getByKey(res, kTYPEOFFSETS, r.getAlias(), &ec);
180 typeOffsets = ures_getIntVector(r.getAlias(), &len, &ec);
729e4ab9 181 if (U_SUCCESS(ec) && (len < 2 || len > 0x7FFE || (len & 1) != 0)) {
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182 ec = U_INVALID_FORMAT_ERROR;
183 }
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184 typeCount = (int16_t) len >> 1;
185
186 // Type map data must be of the same size as the transition count
187 typeMapData = NULL;
188 if (transitionCount() > 0) {
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189 ures_getByKey(res, kTYPEMAP, r.getAlias(), &ec);
190 typeMapData = ures_getBinary(r.getAlias(), &len, &ec);
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191 if (ec == U_MISSING_RESOURCE_ERROR) {
192 // no type mapping data
193 ec = U_INVALID_FORMAT_ERROR;
194 } else if (U_SUCCESS(ec) && len != transitionCount()) {
195 ec = U_INVALID_FORMAT_ERROR;
196 }
374ca955 197 }
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198
199 // Process final rule and data, if any
729e4ab9 200 const UChar *ruleIdUStr = ures_getStringByKey(res, kFINALRULE, &len, &ec);
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201 ures_getByKey(res, kFINALRAW, r.getAlias(), &ec);
202 int32_t ruleRaw = ures_getInt(r.getAlias(), &ec);
203 ures_getByKey(res, kFINALYEAR, r.getAlias(), &ec);
204 int32_t ruleYear = ures_getInt(r.getAlias(), &ec);
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205 if (U_SUCCESS(ec)) {
206 UnicodeString ruleID(TRUE, ruleIdUStr, len);
207 UResourceBundle *rule = TimeZone::loadRule(top, ruleID, NULL, ec);
208 const int32_t *ruleData = ures_getIntVector(rule, &len, &ec);
209 if (U_SUCCESS(ec) && len == 11) {
210 UnicodeString emptyStr;
211 finalZone = new SimpleTimeZone(
212 ruleRaw * U_MILLIS_PER_SECOND,
213 emptyStr,
214 (int8_t)ruleData[0], (int8_t)ruleData[1], (int8_t)ruleData[2],
215 ruleData[3] * U_MILLIS_PER_SECOND,
216 (SimpleTimeZone::TimeMode) ruleData[4],
217 (int8_t)ruleData[5], (int8_t)ruleData[6], (int8_t)ruleData[7],
218 ruleData[8] * U_MILLIS_PER_SECOND,
219 (SimpleTimeZone::TimeMode) ruleData[9],
220 ruleData[10] * U_MILLIS_PER_SECOND, ec);
221 if (finalZone == NULL) {
222 ec = U_MEMORY_ALLOCATION_ERROR;
374ca955 223 } else {
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224 finalStartYear = ruleYear;
225
226 // Note: Setting finalStartYear to the finalZone is problematic. When a date is around
227 // year boundary, SimpleTimeZone may return false result when DST is observed at the
228 // beginning of year. We could apply safe margin (day or two), but when one of recurrent
229 // rules falls around year boundary, it could return false result. Without setting the
230 // start year, finalZone works fine around the year boundary of the start year.
231
232 // finalZone->setStartYear(finalStartYear);
233
234
235 // Compute the millis for Jan 1, 0:00 GMT of the finalYear
236
237 // Note: finalStartMillis is used for detecting either if
238 // historic transition data or finalZone to be used. In an
239 // extreme edge case - for example, two transitions fall into
240 // small windows of time around the year boundary, this may
241 // result incorrect offset computation. But I think it will
242 // never happen practically. Yoshito - Feb 20, 2010
243 finalStartMillis = Grego::fieldsToDay(finalStartYear, 0, 1) * U_MILLIS_PER_DAY;
374ca955 244 }
729e4ab9
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245 } else {
246 ec = U_INVALID_FORMAT_ERROR;
374ca955 247 }
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248 ures_close(rule);
249 } else if (ec == U_MISSING_RESOURCE_ERROR) {
250 // No final zone
251 ec = U_ZERO_ERROR;
374ca955 252 }
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253
254 // initialize canonical ID
255 canonicalID = ZoneMeta::getCanonicalCLDRID(tzid, ec);
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256 }
257
258 if (U_FAILURE(ec)) {
259 constructEmpty();
260 }
261}
262
263/**
264 * Copy constructor
265 */
266OlsonTimeZone::OlsonTimeZone(const OlsonTimeZone& other) :
46f4442e 267 BasicTimeZone(other), finalZone(0) {
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268 *this = other;
269}
270
271/**
272 * Assignment operator
273 */
274OlsonTimeZone& OlsonTimeZone::operator=(const OlsonTimeZone& other) {
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275 canonicalID = other.canonicalID;
276
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277 transitionTimesPre32 = other.transitionTimesPre32;
278 transitionTimes32 = other.transitionTimes32;
279 transitionTimesPost32 = other.transitionTimesPost32;
280
281 transitionCountPre32 = other.transitionCountPre32;
282 transitionCount32 = other.transitionCount32;
283 transitionCountPost32 = other.transitionCountPost32;
284
374ca955 285 typeCount = other.typeCount;
374ca955 286 typeOffsets = other.typeOffsets;
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287 typeMapData = other.typeMapData;
288
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289 delete finalZone;
290 finalZone = (other.finalZone != 0) ?
291 (SimpleTimeZone*) other.finalZone->clone() : 0;
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292
293 finalStartYear = other.finalStartYear;
294 finalStartMillis = other.finalStartMillis;
295
46f4442e 296 clearTransitionRules();
729e4ab9 297
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298 return *this;
299}
300
301/**
302 * Destructor
303 */
304OlsonTimeZone::~OlsonTimeZone() {
46f4442e 305 deleteTransitionRules();
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306 delete finalZone;
307}
308
309/**
310 * Returns true if the two TimeZone objects are equal.
311 */
312UBool OlsonTimeZone::operator==(const TimeZone& other) const {
46f4442e 313 return ((this == &other) ||
729e4ab9 314 (typeid(*this) == typeid(other) &&
46f4442e
A
315 TimeZone::operator==(other) &&
316 hasSameRules(other)));
374ca955
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317}
318
319/**
320 * TimeZone API.
321 */
322TimeZone* OlsonTimeZone::clone() const {
323 return new OlsonTimeZone(*this);
324}
325
326/**
327 * TimeZone API.
328 */
329int32_t OlsonTimeZone::getOffset(uint8_t era, int32_t year, int32_t month,
330 int32_t dom, uint8_t dow,
331 int32_t millis, UErrorCode& ec) const {
332 if (month < UCAL_JANUARY || month > UCAL_DECEMBER) {
333 if (U_SUCCESS(ec)) {
334 ec = U_ILLEGAL_ARGUMENT_ERROR;
335 }
336 return 0;
337 } else {
338 return getOffset(era, year, month, dom, dow, millis,
339 Grego::monthLength(year, month),
340 ec);
341 }
342}
343
344/**
345 * TimeZone API.
346 */
347int32_t OlsonTimeZone::getOffset(uint8_t era, int32_t year, int32_t month,
348 int32_t dom, uint8_t dow,
349 int32_t millis, int32_t monthLength,
350 UErrorCode& ec) const {
351 if (U_FAILURE(ec)) {
352 return 0;
353 }
354
355 if ((era != GregorianCalendar::AD && era != GregorianCalendar::BC)
356 || month < UCAL_JANUARY
357 || month > UCAL_DECEMBER
358 || dom < 1
359 || dom > monthLength
360 || dow < UCAL_SUNDAY
361 || dow > UCAL_SATURDAY
362 || millis < 0
363 || millis >= U_MILLIS_PER_DAY
364 || monthLength < 28
365 || monthLength > 31) {
366 ec = U_ILLEGAL_ARGUMENT_ERROR;
367 return 0;
368 }
369
370 if (era == GregorianCalendar::BC) {
371 year = -year;
372 }
373
729e4ab9 374 if (finalZone != NULL && year >= finalStartYear) {
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375 return finalZone->getOffset(era, year, month, dom, dow,
376 millis, monthLength, ec);
377 }
378
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379 // Compute local epoch millis from input fields
380 UDate date = (UDate)(Grego::fieldsToDay(year, month, dom) * U_MILLIS_PER_DAY + millis);
381 int32_t rawoff, dstoff;
382 getHistoricalOffset(date, TRUE, kDaylight, kStandard, rawoff, dstoff);
383 return rawoff + dstoff;
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384}
385
386/**
387 * TimeZone API.
388 */
389void OlsonTimeZone::getOffset(UDate date, UBool local, int32_t& rawoff,
390 int32_t& dstoff, UErrorCode& ec) const {
391 if (U_FAILURE(ec)) {
392 return;
393 }
729e4ab9 394 if (finalZone != NULL && date >= finalStartMillis) {
46f4442e
A
395 finalZone->getOffset(date, local, rawoff, dstoff, ec);
396 } else {
397 getHistoricalOffset(date, local, kFormer, kLatter, rawoff, dstoff);
398 }
399}
374ca955 400
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401void
402OlsonTimeZone::getOffsetFromLocal(UDate date, int32_t nonExistingTimeOpt, int32_t duplicatedTimeOpt,
51004dcb 403 int32_t& rawoff, int32_t& dstoff, UErrorCode& ec) const {
46f4442e 404 if (U_FAILURE(ec)) {
374ca955
A
405 return;
406 }
729e4ab9 407 if (finalZone != NULL && date >= finalStartMillis) {
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A
408 finalZone->getOffsetFromLocal(date, nonExistingTimeOpt, duplicatedTimeOpt, rawoff, dstoff, ec);
409 } else {
410 getHistoricalOffset(date, TRUE, nonExistingTimeOpt, duplicatedTimeOpt, rawoff, dstoff);
411 }
374ca955
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412}
413
46f4442e 414
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415/**
416 * TimeZone API.
417 */
418void OlsonTimeZone::setRawOffset(int32_t /*offsetMillis*/) {
419 // We don't support this operation, since OlsonTimeZones are
420 // immutable (except for the ID, which is in the base class).
421
422 // Nothing to do!
423}
424
425/**
426 * TimeZone API.
427 */
428int32_t OlsonTimeZone::getRawOffset() const {
429 UErrorCode ec = U_ZERO_ERROR;
430 int32_t raw, dst;
431 getOffset((double) uprv_getUTCtime() * U_MILLIS_PER_SECOND,
432 FALSE, raw, dst, ec);
433 return raw;
434}
435
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A
436#if defined U_DEBUG_TZ
437void printTime(double ms) {
438 int32_t year, month, dom, dow;
439 double millis=0;
729e4ab9 440 double days = ClockMath::floorDivide(((double)ms), (double)U_MILLIS_PER_DAY, millis);
73c04bcf
A
441
442 Grego::dayToFields(days, year, month, dom, dow);
46f4442e 443 U_DEBUG_TZ_MSG((" getHistoricalOffset: time %.1f (%04d.%02d.%02d+%.1fh)\n", ms,
73c04bcf
A
444 year, month+1, dom, (millis/kOneHour)));
445 }
446#endif
447
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448int64_t
449OlsonTimeZone::transitionTimeInSeconds(int16_t transIdx) const {
450 U_ASSERT(transIdx >= 0 && transIdx < transitionCount());
451
452 if (transIdx < transitionCountPre32) {
453 return (((int64_t)((uint32_t)transitionTimesPre32[transIdx << 1])) << 32)
454 | ((int64_t)((uint32_t)transitionTimesPre32[(transIdx << 1) + 1]));
455 }
456
457 transIdx -= transitionCountPre32;
458 if (transIdx < transitionCount32) {
459 return (int64_t)transitionTimes32[transIdx];
460 }
461
462 transIdx -= transitionCount32;
463 return (((int64_t)((uint32_t)transitionTimesPost32[transIdx << 1])) << 32)
464 | ((int64_t)((uint32_t)transitionTimesPost32[(transIdx << 1) + 1]));
465}
466
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467// Maximum absolute offset in seconds (86400 seconds = 1 day)
468// getHistoricalOffset uses this constant as safety margin of
469// quick zone transition checking.
470#define MAX_OFFSET_SECONDS 86400
471
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A
472void
473OlsonTimeZone::getHistoricalOffset(UDate date, UBool local,
474 int32_t NonExistingTimeOpt, int32_t DuplicatedTimeOpt,
475 int32_t& rawoff, int32_t& dstoff) const {
476 U_DEBUG_TZ_MSG(("getHistoricalOffset(%.1f, %s, %d, %d, raw, dst)\n",
477 date, local?"T":"F", NonExistingTimeOpt, DuplicatedTimeOpt));
73c04bcf 478#if defined U_DEBUG_TZ
46f4442e 479 printTime(date*1000.0);
73c04bcf 480#endif
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481 int16_t transCount = transitionCount();
482
483 if (transCount > 0) {
46f4442e 484 double sec = uprv_floor(date / U_MILLIS_PER_SECOND);
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A
485 if (!local && sec < transitionTimeInSeconds(0)) {
486 // Before the first transition time
487 rawoff = initialRawOffset() * U_MILLIS_PER_SECOND;
488 dstoff = initialDstOffset() * U_MILLIS_PER_SECOND;
489 } else {
490 // Linear search from the end is the fastest approach, since
491 // most lookups will happen at/near the end.
492 int16_t transIdx;
493 for (transIdx = transCount - 1; transIdx >= 0; transIdx--) {
494 int64_t transition = transitionTimeInSeconds(transIdx);
495
57a6839d 496 if (local && (sec >= (transition - MAX_OFFSET_SECONDS))) {
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A
497 int32_t offsetBefore = zoneOffsetAt(transIdx - 1);
498 UBool dstBefore = dstOffsetAt(transIdx - 1) != 0;
499
500 int32_t offsetAfter = zoneOffsetAt(transIdx);
501 UBool dstAfter = dstOffsetAt(transIdx) != 0;
502
503 UBool dstToStd = dstBefore && !dstAfter;
504 UBool stdToDst = !dstBefore && dstAfter;
505
506 if (offsetAfter - offsetBefore >= 0) {
507 // Positive transition, which makes a non-existing local time range
508 if (((NonExistingTimeOpt & kStdDstMask) == kStandard && dstToStd)
509 || ((NonExistingTimeOpt & kStdDstMask) == kDaylight && stdToDst)) {
510 transition += offsetBefore;
511 } else if (((NonExistingTimeOpt & kStdDstMask) == kStandard && stdToDst)
512 || ((NonExistingTimeOpt & kStdDstMask) == kDaylight && dstToStd)) {
513 transition += offsetAfter;
514 } else if ((NonExistingTimeOpt & kFormerLatterMask) == kLatter) {
515 transition += offsetBefore;
516 } else {
517 // Interprets the time with rule before the transition,
518 // default for non-existing time range
519 transition += offsetAfter;
520 }
46f4442e 521 } else {
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522 // Negative transition, which makes a duplicated local time range
523 if (((DuplicatedTimeOpt & kStdDstMask) == kStandard && dstToStd)
524 || ((DuplicatedTimeOpt & kStdDstMask) == kDaylight && stdToDst)) {
525 transition += offsetAfter;
526 } else if (((DuplicatedTimeOpt & kStdDstMask) == kStandard && stdToDst)
527 || ((DuplicatedTimeOpt & kStdDstMask) == kDaylight && dstToStd)) {
528 transition += offsetBefore;
529 } else if ((DuplicatedTimeOpt & kFormerLatterMask) == kFormer) {
530 transition += offsetBefore;
531 } else {
532 // Interprets the time with rule after the transition,
533 // default for duplicated local time range
534 transition += offsetAfter;
535 }
46f4442e 536 }
73c04bcf 537 }
729e4ab9
A
538 if (sec >= transition) {
539 break;
540 }
374ca955 541 }
729e4ab9
A
542 // transIdx could be -1 when local=true
543 rawoff = rawOffsetAt(transIdx) * U_MILLIS_PER_SECOND;
544 dstoff = dstOffsetAt(transIdx) * U_MILLIS_PER_SECOND;
374ca955 545 }
46f4442e
A
546 } else {
547 // No transitions, single pair of offsets only
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548 rawoff = initialRawOffset() * U_MILLIS_PER_SECOND;
549 dstoff = initialDstOffset() * U_MILLIS_PER_SECOND;
374ca955 550 }
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A
551 U_DEBUG_TZ_MSG(("getHistoricalOffset(%.1f, %s, %d, %d, raw, dst) - raw=%d, dst=%d\n",
552 date, local?"T":"F", NonExistingTimeOpt, DuplicatedTimeOpt, rawoff, dstoff));
374ca955
A
553}
554
555/**
556 * TimeZone API.
557 */
558UBool OlsonTimeZone::useDaylightTime() const {
559 // If DST was observed in 1942 (for example) but has never been
560 // observed from 1943 to the present, most clients will expect
561 // this method to return FALSE. This method determines whether
562 // DST is in use in the current year (at any point in the year)
563 // and returns TRUE if so.
564
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565 UDate current = uprv_getUTCtime();
566 if (finalZone != NULL && current >= finalStartMillis) {
567 return finalZone->useDaylightTime();
374ca955
A
568 }
569
729e4ab9
A
570 int32_t year, month, dom, dow, doy, mid;
571 Grego::timeToFields(current, year, month, dom, dow, doy, mid);
572
374ca955 573 // Find start of this year, and start of next year
729e4ab9
A
574 double start = Grego::fieldsToDay(year, 0, 1) * SECONDS_PER_DAY;
575 double limit = Grego::fieldsToDay(year+1, 0, 1) * SECONDS_PER_DAY;
374ca955
A
576
577 // Return TRUE if DST is observed at any time during the current
578 // year.
729e4ab9 579 for (int16_t i = 0; i < transitionCount(); ++i) {
51004dcb 580 double transition = (double)transitionTimeInSeconds(i);
729e4ab9 581 if (transition >= limit) {
374ca955
A
582 break;
583 }
729e4ab9
A
584 if ((transition >= start && dstOffsetAt(i) != 0)
585 || (transition > start && dstOffsetAt(i - 1) != 0)) {
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A
586 return TRUE;
587 }
588 }
589 return FALSE;
590}
73c04bcf
A
591int32_t
592OlsonTimeZone::getDSTSavings() const{
729e4ab9 593 if (finalZone != NULL){
73c04bcf
A
594 return finalZone->getDSTSavings();
595 }
596 return TimeZone::getDSTSavings();
597}
374ca955
A
598/**
599 * TimeZone API.
600 */
601UBool OlsonTimeZone::inDaylightTime(UDate date, UErrorCode& ec) const {
602 int32_t raw, dst;
603 getOffset(date, FALSE, raw, dst, ec);
604 return dst != 0;
605}
606
46f4442e
A
607UBool
608OlsonTimeZone::hasSameRules(const TimeZone &other) const {
609 if (this == &other) {
610 return TRUE;
611 }
729e4ab9
A
612 const OlsonTimeZone* z = dynamic_cast<const OlsonTimeZone*>(&other);
613 if (z == NULL) {
46f4442e
A
614 return FALSE;
615 }
46f4442e 616
729e4ab9 617 // [sic] pointer comparison: typeMapData points into
46f4442e
A
618 // memory-mapped or DLL space, so if two zones have the same
619 // pointer, they are equal.
729e4ab9 620 if (typeMapData == z->typeMapData) {
46f4442e
A
621 return TRUE;
622 }
623
729e4ab9
A
624 // If the pointers are not equal, the zones may still
625 // be equal if their rules and transitions are equal
626 if ((finalZone == NULL && z->finalZone != NULL)
627 || (finalZone != NULL && z->finalZone == NULL)
628 || (finalZone != NULL && z->finalZone != NULL && *finalZone != *z->finalZone)) {
629 return FALSE;
630 }
631
632 if (finalZone != NULL) {
633 if (finalStartYear != z->finalStartYear || finalStartMillis != z->finalStartMillis) {
634 return FALSE;
635 }
636 }
637 if (typeCount != z->typeCount
638 || transitionCountPre32 != z->transitionCountPre32
639 || transitionCount32 != z->transitionCount32
640 || transitionCountPost32 != z->transitionCountPost32) {
641 return FALSE;
642 }
643
46f4442e 644 return
729e4ab9
A
645 arrayEqual(transitionTimesPre32, z->transitionTimesPre32, sizeof(transitionTimesPre32[0]) * transitionCountPre32 << 1)
646 && arrayEqual(transitionTimes32, z->transitionTimes32, sizeof(transitionTimes32[0]) * transitionCount32)
647 && arrayEqual(transitionTimesPost32, z->transitionTimesPost32, sizeof(transitionTimesPost32[0]) * transitionCountPost32 << 1)
648 && arrayEqual(typeOffsets, z->typeOffsets, sizeof(typeOffsets[0]) * typeCount << 1)
649 && arrayEqual(typeMapData, z->typeMapData, sizeof(typeMapData[0]) * transitionCount());
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A
650}
651
652void
653OlsonTimeZone::clearTransitionRules(void) {
654 initialRule = NULL;
655 firstTZTransition = NULL;
656 firstFinalTZTransition = NULL;
657 historicRules = NULL;
658 historicRuleCount = 0;
659 finalZoneWithStartYear = NULL;
660 firstTZTransitionIdx = 0;
57a6839d 661 transitionRulesInitOnce.reset();
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A
662}
663
664void
665OlsonTimeZone::deleteTransitionRules(void) {
666 if (initialRule != NULL) {
667 delete initialRule;
668 }
669 if (firstTZTransition != NULL) {
670 delete firstTZTransition;
671 }
672 if (firstFinalTZTransition != NULL) {
673 delete firstFinalTZTransition;
674 }
675 if (finalZoneWithStartYear != NULL) {
676 delete finalZoneWithStartYear;
677 }
678 if (historicRules != NULL) {
679 for (int i = 0; i < historicRuleCount; i++) {
680 if (historicRules[i] != NULL) {
681 delete historicRules[i];
682 }
683 }
684 uprv_free(historicRules);
685 }
686 clearTransitionRules();
687}
688
51004dcb
A
689/*
690 * Lazy transition rules initializer
691 */
51004dcb 692
57a6839d
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693static void U_CALLCONV initRules(OlsonTimeZone *This, UErrorCode &status) {
694 This->initTransitionRules(status);
695}
696
51004dcb
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697void
698OlsonTimeZone::checkTransitionRules(UErrorCode& status) const {
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A
699 OlsonTimeZone *ncThis = const_cast<OlsonTimeZone *>(this);
700 umtx_initOnce(ncThis->transitionRulesInitOnce, &initRules, ncThis, status);
51004dcb
A
701}
702
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A
703void
704OlsonTimeZone::initTransitionRules(UErrorCode& status) {
705 if(U_FAILURE(status)) {
706 return;
707 }
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A
708 deleteTransitionRules();
709 UnicodeString tzid;
710 getID(tzid);
711
712 UnicodeString stdName = tzid + UNICODE_STRING_SIMPLE("(STD)");
713 UnicodeString dstName = tzid + UNICODE_STRING_SIMPLE("(DST)");
714
715 int32_t raw, dst;
46f4442e 716
729e4ab9
A
717 // Create initial rule
718 raw = initialRawOffset() * U_MILLIS_PER_SECOND;
719 dst = initialDstOffset() * U_MILLIS_PER_SECOND;
720 initialRule = new InitialTimeZoneRule((dst == 0 ? stdName : dstName), raw, dst);
721 // Check to make sure initialRule was created
722 if (initialRule == NULL) {
723 status = U_MEMORY_ALLOCATION_ERROR;
724 deleteTransitionRules();
725 return;
726 }
46f4442e 727
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A
728 int32_t transCount = transitionCount();
729 if (transCount > 0) {
730 int16_t transitionIdx, typeIdx;
46f4442e 731
729e4ab9
A
732 // We probably no longer need to check the first "real" transition
733 // here, because the new tzcode remove such transitions already.
734 // For now, keeping this code for just in case. Feb 19, 2010 Yoshito
46f4442e 735 firstTZTransitionIdx = 0;
729e4ab9
A
736 for (transitionIdx = 0; transitionIdx < transCount; transitionIdx++) {
737 if (typeMapData[transitionIdx] != 0) { // type 0 is the initial type
46f4442e
A
738 break;
739 }
729e4ab9 740 firstTZTransitionIdx++;
46f4442e 741 }
729e4ab9 742 if (transitionIdx == transCount) {
46f4442e
A
743 // Actually no transitions...
744 } else {
745 // Build historic rule array
729e4ab9 746 UDate* times = (UDate*)uprv_malloc(sizeof(UDate)*transCount); /* large enough to store all transition times */
46f4442e
A
747 if (times == NULL) {
748 status = U_MEMORY_ALLOCATION_ERROR;
749 deleteTransitionRules();
750 return;
751 }
752 for (typeIdx = 0; typeIdx < typeCount; typeIdx++) {
753 // Gather all start times for each pair of offsets
754 int32_t nTimes = 0;
729e4ab9
A
755 for (transitionIdx = firstTZTransitionIdx; transitionIdx < transCount; transitionIdx++) {
756 if (typeIdx == (int16_t)typeMapData[transitionIdx]) {
757 UDate tt = (UDate)transitionTime(transitionIdx);
758 if (finalZone == NULL || tt <= finalStartMillis) {
46f4442e
A
759 // Exclude transitions after finalMillis
760 times[nTimes++] = tt;
761 }
762 }
763 }
764 if (nTimes > 0) {
765 // Create a TimeArrayTimeZoneRule
729e4ab9
A
766 raw = typeOffsets[typeIdx << 1] * U_MILLIS_PER_SECOND;
767 dst = typeOffsets[(typeIdx << 1) + 1] * U_MILLIS_PER_SECOND;
46f4442e
A
768 if (historicRules == NULL) {
769 historicRuleCount = typeCount;
770 historicRules = (TimeArrayTimeZoneRule**)uprv_malloc(sizeof(TimeArrayTimeZoneRule*)*historicRuleCount);
771 if (historicRules == NULL) {
772 status = U_MEMORY_ALLOCATION_ERROR;
773 deleteTransitionRules();
774 uprv_free(times);
775 return;
776 }
777 for (int i = 0; i < historicRuleCount; i++) {
778 // Initialize TimeArrayTimeZoneRule pointers as NULL
779 historicRules[i] = NULL;
780 }
781 }
782 historicRules[typeIdx] = new TimeArrayTimeZoneRule((dst == 0 ? stdName : dstName),
783 raw, dst, times, nTimes, DateTimeRule::UTC_TIME);
784 // Check for memory allocation error
785 if (historicRules[typeIdx] == NULL) {
786 status = U_MEMORY_ALLOCATION_ERROR;
787 deleteTransitionRules();
788 return;
789 }
790 }
791 }
792 uprv_free(times);
793
794 // Create initial transition
729e4ab9
A
795 typeIdx = (int16_t)typeMapData[firstTZTransitionIdx];
796 firstTZTransition = new TimeZoneTransition((UDate)transitionTime(firstTZTransitionIdx),
46f4442e
A
797 *initialRule, *historicRules[typeIdx]);
798 // Check to make sure firstTZTransition was created.
799 if (firstTZTransition == NULL) {
800 status = U_MEMORY_ALLOCATION_ERROR;
801 deleteTransitionRules();
802 return;
803 }
804 }
805 }
46f4442e
A
806 if (finalZone != NULL) {
807 // Get the first occurence of final rule starts
729e4ab9 808 UDate startTime = (UDate)finalStartMillis;
46f4442e 809 TimeZoneRule *firstFinalRule = NULL;
729e4ab9 810
46f4442e
A
811 if (finalZone->useDaylightTime()) {
812 /*
813 * Note: When an OlsonTimeZone is constructed, we should set the final year
814 * as the start year of finalZone. However, the bounday condition used for
729e4ab9
A
815 * getting offset from finalZone has some problems.
816 * For now, we do not set the valid start year when the construction time
817 * and create a clone and set the start year when extracting rules.
46f4442e
A
818 */
819 finalZoneWithStartYear = (SimpleTimeZone*)finalZone->clone();
820 // Check to make sure finalZone was actually cloned.
821 if (finalZoneWithStartYear == NULL) {
822 status = U_MEMORY_ALLOCATION_ERROR;
823 deleteTransitionRules();
824 return;
825 }
729e4ab9 826 finalZoneWithStartYear->setStartYear(finalStartYear);
46f4442e
A
827
828 TimeZoneTransition tzt;
829 finalZoneWithStartYear->getNextTransition(startTime, false, tzt);
830 firstFinalRule = tzt.getTo()->clone();
831 // Check to make sure firstFinalRule received proper clone.
832 if (firstFinalRule == NULL) {
833 status = U_MEMORY_ALLOCATION_ERROR;
834 deleteTransitionRules();
835 return;
836 }
837 startTime = tzt.getTime();
838 } else {
729e4ab9 839 // final rule with no transitions
46f4442e 840 finalZoneWithStartYear = (SimpleTimeZone*)finalZone->clone();
729e4ab9 841 // Check to make sure finalZone was actually cloned.
46f4442e
A
842 if (finalZoneWithStartYear == NULL) {
843 status = U_MEMORY_ALLOCATION_ERROR;
844 deleteTransitionRules();
845 return;
846 }
847 finalZone->getID(tzid);
848 firstFinalRule = new TimeArrayTimeZoneRule(tzid,
849 finalZone->getRawOffset(), 0, &startTime, 1, DateTimeRule::UTC_TIME);
850 // Check firstFinalRule was properly created.
851 if (firstFinalRule == NULL) {
852 status = U_MEMORY_ALLOCATION_ERROR;
853 deleteTransitionRules();
854 return;
855 }
856 }
857 TimeZoneRule *prevRule = NULL;
729e4ab9
A
858 if (transCount > 0) {
859 prevRule = historicRules[typeMapData[transCount - 1]];
46f4442e
A
860 }
861 if (prevRule == NULL) {
862 // No historic transitions, but only finalZone available
863 prevRule = initialRule;
864 }
865 firstFinalTZTransition = new TimeZoneTransition();
866 // Check to make sure firstFinalTZTransition was created before dereferencing
867 if (firstFinalTZTransition == NULL) {
868 status = U_MEMORY_ALLOCATION_ERROR;
869 deleteTransitionRules();
870 return;
871 }
872 firstFinalTZTransition->setTime(startTime);
873 firstFinalTZTransition->adoptFrom(prevRule->clone());
874 firstFinalTZTransition->adoptTo(firstFinalRule);
875 }
46f4442e
A
876}
877
878UBool
51004dcb 879OlsonTimeZone::getNextTransition(UDate base, UBool inclusive, TimeZoneTransition& result) const {
46f4442e 880 UErrorCode status = U_ZERO_ERROR;
51004dcb 881 checkTransitionRules(status);
46f4442e
A
882 if (U_FAILURE(status)) {
883 return FALSE;
884 }
885
886 if (finalZone != NULL) {
887 if (inclusive && base == firstFinalTZTransition->getTime()) {
888 result = *firstFinalTZTransition;
889 return TRUE;
890 } else if (base >= firstFinalTZTransition->getTime()) {
891 if (finalZone->useDaylightTime()) {
892 //return finalZone->getNextTransition(base, inclusive, result);
893 return finalZoneWithStartYear->getNextTransition(base, inclusive, result);
894 } else {
895 // No more transitions
896 return FALSE;
897 }
898 }
899 }
900 if (historicRules != NULL) {
901 // Find a historical transition
729e4ab9
A
902 int16_t transCount = transitionCount();
903 int16_t ttidx = transCount - 1;
46f4442e 904 for (; ttidx >= firstTZTransitionIdx; ttidx--) {
729e4ab9 905 UDate t = (UDate)transitionTime(ttidx);
46f4442e
A
906 if (base > t || (!inclusive && base == t)) {
907 break;
908 }
909 }
729e4ab9 910 if (ttidx == transCount - 1) {
46f4442e
A
911 if (firstFinalTZTransition != NULL) {
912 result = *firstFinalTZTransition;
913 return TRUE;
914 } else {
915 return FALSE;
916 }
917 } else if (ttidx < firstTZTransitionIdx) {
918 result = *firstTZTransition;
919 return TRUE;
920 } else {
921 // Create a TimeZoneTransition
729e4ab9
A
922 TimeZoneRule *to = historicRules[typeMapData[ttidx + 1]];
923 TimeZoneRule *from = historicRules[typeMapData[ttidx]];
924 UDate startTime = (UDate)transitionTime(ttidx+1);
46f4442e
A
925
926 // The transitions loaded from zoneinfo.res may contain non-transition data
927 UnicodeString fromName, toName;
928 from->getName(fromName);
929 to->getName(toName);
930 if (fromName == toName && from->getRawOffset() == to->getRawOffset()
931 && from->getDSTSavings() == to->getDSTSavings()) {
932 return getNextTransition(startTime, false, result);
933 }
934 result.setTime(startTime);
935 result.adoptFrom(from->clone());
936 result.adoptTo(to->clone());
937 return TRUE;
938 }
939 }
940 return FALSE;
941}
942
943UBool
51004dcb 944OlsonTimeZone::getPreviousTransition(UDate base, UBool inclusive, TimeZoneTransition& result) const {
46f4442e 945 UErrorCode status = U_ZERO_ERROR;
51004dcb 946 checkTransitionRules(status);
46f4442e
A
947 if (U_FAILURE(status)) {
948 return FALSE;
949 }
950
951 if (finalZone != NULL) {
952 if (inclusive && base == firstFinalTZTransition->getTime()) {
953 result = *firstFinalTZTransition;
954 return TRUE;
955 } else if (base > firstFinalTZTransition->getTime()) {
956 if (finalZone->useDaylightTime()) {
957 //return finalZone->getPreviousTransition(base, inclusive, result);
958 return finalZoneWithStartYear->getPreviousTransition(base, inclusive, result);
959 } else {
960 result = *firstFinalTZTransition;
961 return TRUE;
729e4ab9 962 }
46f4442e
A
963 }
964 }
965
966 if (historicRules != NULL) {
967 // Find a historical transition
729e4ab9 968 int16_t ttidx = transitionCount() - 1;
46f4442e 969 for (; ttidx >= firstTZTransitionIdx; ttidx--) {
729e4ab9 970 UDate t = (UDate)transitionTime(ttidx);
46f4442e
A
971 if (base > t || (inclusive && base == t)) {
972 break;
973 }
974 }
975 if (ttidx < firstTZTransitionIdx) {
976 // No more transitions
977 return FALSE;
978 } else if (ttidx == firstTZTransitionIdx) {
979 result = *firstTZTransition;
980 return TRUE;
981 } else {
982 // Create a TimeZoneTransition
729e4ab9
A
983 TimeZoneRule *to = historicRules[typeMapData[ttidx]];
984 TimeZoneRule *from = historicRules[typeMapData[ttidx-1]];
985 UDate startTime = (UDate)transitionTime(ttidx);
46f4442e
A
986
987 // The transitions loaded from zoneinfo.res may contain non-transition data
988 UnicodeString fromName, toName;
989 from->getName(fromName);
990 to->getName(toName);
991 if (fromName == toName && from->getRawOffset() == to->getRawOffset()
992 && from->getDSTSavings() == to->getDSTSavings()) {
993 return getPreviousTransition(startTime, false, result);
994 }
995 result.setTime(startTime);
996 result.adoptFrom(from->clone());
997 result.adoptTo(to->clone());
998 return TRUE;
999 }
1000 }
1001 return FALSE;
1002}
1003
1004int32_t
51004dcb 1005OlsonTimeZone::countTransitionRules(UErrorCode& status) const {
46f4442e
A
1006 if (U_FAILURE(status)) {
1007 return 0;
1008 }
51004dcb 1009 checkTransitionRules(status);
46f4442e
A
1010 if (U_FAILURE(status)) {
1011 return 0;
1012 }
1013
1014 int32_t count = 0;
1015 if (historicRules != NULL) {
1016 // historicRules may contain null entries when original zoneinfo data
1017 // includes non transition data.
1018 for (int32_t i = 0; i < historicRuleCount; i++) {
1019 if (historicRules[i] != NULL) {
1020 count++;
1021 }
1022 }
1023 }
1024 if (finalZone != NULL) {
1025 if (finalZone->useDaylightTime()) {
1026 count += 2;
1027 } else {
1028 count++;
1029 }
1030 }
1031 return count;
1032}
1033
1034void
1035OlsonTimeZone::getTimeZoneRules(const InitialTimeZoneRule*& initial,
1036 const TimeZoneRule* trsrules[],
1037 int32_t& trscount,
51004dcb 1038 UErrorCode& status) const {
46f4442e
A
1039 if (U_FAILURE(status)) {
1040 return;
1041 }
51004dcb 1042 checkTransitionRules(status);
46f4442e
A
1043 if (U_FAILURE(status)) {
1044 return;
1045 }
1046
1047 // Initial rule
1048 initial = initialRule;
1049
1050 // Transition rules
1051 int32_t cnt = 0;
1052 if (historicRules != NULL && trscount > cnt) {
1053 // historicRules may contain null entries when original zoneinfo data
1054 // includes non transition data.
1055 for (int32_t i = 0; i < historicRuleCount; i++) {
1056 if (historicRules[i] != NULL) {
1057 trsrules[cnt++] = historicRules[i];
1058 if (cnt >= trscount) {
1059 break;
1060 }
1061 }
1062 }
1063 }
1064 if (finalZoneWithStartYear != NULL && trscount > cnt) {
1065 const InitialTimeZoneRule *tmpini;
1066 int32_t tmpcnt = trscount - cnt;
1067 finalZoneWithStartYear->getTimeZoneRules(tmpini, &trsrules[cnt], tmpcnt, status);
1068 if (U_FAILURE(status)) {
1069 return;
1070 }
1071 cnt += tmpcnt;
1072 }
1073 // Set the result length
1074 trscount = cnt;
1075}
1076
374ca955
A
1077U_NAMESPACE_END
1078
1079#endif // !UCONFIG_NO_FORMATTING
1080
1081//eof