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author | vvvv <vvvv@yandex-team.ru> | 2022-03-03 23:09:11 +0300 |
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committer | vvvv <vvvv@yandex-team.ru> | 2022-03-03 23:09:11 +0300 |
commit | 8dbdbab054b6eb352cfffdad09991052008062fc (patch) | |
tree | 71befed92d327f2cc409bff4986ec510d0530d92 /contrib/libs/icu/i18n/olsontz.cpp | |
parent | ed3f4e21f3a3837059607ec2606e1dc910269ac0 (diff) | |
download | ydb-8dbdbab054b6eb352cfffdad09991052008062fc.tar.gz |
YQL-13710 try to switch to new shiny PG
ref:2bed0445c8e8bd6c575883632adf19445f0a72a7
Diffstat (limited to 'contrib/libs/icu/i18n/olsontz.cpp')
-rw-r--r-- | contrib/libs/icu/i18n/olsontz.cpp | 1080 |
1 files changed, 1080 insertions, 0 deletions
diff --git a/contrib/libs/icu/i18n/olsontz.cpp b/contrib/libs/icu/i18n/olsontz.cpp new file mode 100644 index 0000000000..d21e6e9929 --- /dev/null +++ b/contrib/libs/icu/i18n/olsontz.cpp @@ -0,0 +1,1080 @@ +// © 2016 and later: Unicode, Inc. and others. +// License & terms of use: http://www.unicode.org/copyright.html +/* +********************************************************************** +* Copyright (c) 2003-2013, International Business Machines +* Corporation and others. All Rights Reserved. +********************************************************************** +* Author: Alan Liu +* Created: July 21 2003 +* Since: ICU 2.8 +********************************************************************** +*/ + +#include "utypeinfo.h" // for 'typeid' to work + +#include "olsontz.h" + +#if !UCONFIG_NO_FORMATTING + +#include "unicode/ures.h" +#include "unicode/simpletz.h" +#include "unicode/gregocal.h" +#include "gregoimp.h" +#include "cmemory.h" +#include "uassert.h" +#include "uvector.h" +#include <float.h> // DBL_MAX +#include "uresimp.h" +#include "zonemeta.h" +#include "umutex.h" + +#ifdef U_DEBUG_TZ +# include <stdio.h> +# include "uresimp.h" // for debugging + +static void debug_tz_loc(const char *f, int32_t l) +{ + fprintf(stderr, "%s:%d: ", f, l); +} + +static void debug_tz_msg(const char *pat, ...) +{ + va_list ap; + va_start(ap, pat); + vfprintf(stderr, pat, ap); + fflush(stderr); +} +// must use double parens, i.e.: U_DEBUG_TZ_MSG(("four is: %d",4)); +#define U_DEBUG_TZ_MSG(x) {debug_tz_loc(__FILE__,__LINE__);debug_tz_msg x;} +#else +#define U_DEBUG_TZ_MSG(x) +#endif + +static UBool arrayEqual(const void *a1, const void *a2, int32_t size) { + if (a1 == NULL && a2 == NULL) { + return TRUE; + } + if ((a1 != NULL && a2 == NULL) || (a1 == NULL && a2 != NULL)) { + return FALSE; + } + if (a1 == a2) { + return TRUE; + } + + return (uprv_memcmp(a1, a2, size) == 0); +} + +U_NAMESPACE_BEGIN + +#define kTRANS "trans" +#define kTRANSPRE32 "transPre32" +#define kTRANSPOST32 "transPost32" +#define kTYPEOFFSETS "typeOffsets" +#define kTYPEMAP "typeMap" +#define kLINKS "links" +#define kFINALRULE "finalRule" +#define kFINALRAW "finalRaw" +#define kFINALYEAR "finalYear" + +#define SECONDS_PER_DAY (24*60*60) + +static const int32_t ZEROS[] = {0,0}; + +UOBJECT_DEFINE_RTTI_IMPLEMENTATION(OlsonTimeZone) + +/** + * Default constructor. Creates a time zone with an empty ID and + * a fixed GMT offset of zero. + */ +/*OlsonTimeZone::OlsonTimeZone() : finalYear(INT32_MAX), finalMillis(DBL_MAX), finalZone(0), transitionRulesInitialized(FALSE) { + clearTransitionRules(); + constructEmpty(); +}*/ + +/** + * Construct a GMT+0 zone with no transitions. This is done when a + * constructor fails so the resultant object is well-behaved. + */ +void OlsonTimeZone::constructEmpty() { + canonicalID = NULL; + + transitionCountPre32 = transitionCount32 = transitionCountPost32 = 0; + transitionTimesPre32 = transitionTimes32 = transitionTimesPost32 = NULL; + + typeMapData = NULL; + + typeCount = 1; + typeOffsets = ZEROS; + + finalZone = NULL; +} + +/** + * Construct from a resource bundle + * @param top the top-level zoneinfo resource bundle. This is used + * to lookup the rule that `res' may refer to, if there is one. + * @param res the resource bundle of the zone to be constructed + * @param ec input-output error code + */ +OlsonTimeZone::OlsonTimeZone(const UResourceBundle* top, + const UResourceBundle* res, + const UnicodeString& tzid, + UErrorCode& ec) : + BasicTimeZone(tzid), finalZone(NULL) +{ + clearTransitionRules(); + U_DEBUG_TZ_MSG(("OlsonTimeZone(%s)\n", ures_getKey((UResourceBundle*)res))); + if ((top == NULL || res == NULL) && U_SUCCESS(ec)) { + ec = U_ILLEGAL_ARGUMENT_ERROR; + } + if (U_SUCCESS(ec)) { + // TODO -- clean up -- Doesn't work if res points to an alias + // // TODO remove nonconst casts below when ures_* API is fixed + // setID(ures_getKey((UResourceBundle*) res)); // cast away const + + int32_t len; + StackUResourceBundle r; + + // Pre-32bit second transitions + ures_getByKey(res, kTRANSPRE32, r.getAlias(), &ec); + transitionTimesPre32 = ures_getIntVector(r.getAlias(), &len, &ec); + transitionCountPre32 = static_cast<int16_t>(len >> 1); + if (ec == U_MISSING_RESOURCE_ERROR) { + // No pre-32bit transitions + transitionTimesPre32 = NULL; + transitionCountPre32 = 0; + ec = U_ZERO_ERROR; + } else if (U_SUCCESS(ec) && (len < 0 || len > 0x7FFF || (len & 1) != 0) /* len must be even */) { + ec = U_INVALID_FORMAT_ERROR; + } + + // 32bit second transitions + ures_getByKey(res, kTRANS, r.getAlias(), &ec); + transitionTimes32 = ures_getIntVector(r.getAlias(), &len, &ec); + transitionCount32 = static_cast<int16_t>(len); + if (ec == U_MISSING_RESOURCE_ERROR) { + // No 32bit transitions + transitionTimes32 = NULL; + transitionCount32 = 0; + ec = U_ZERO_ERROR; + } else if (U_SUCCESS(ec) && (len < 0 || len > 0x7FFF)) { + ec = U_INVALID_FORMAT_ERROR; + } + + // Post-32bit second transitions + ures_getByKey(res, kTRANSPOST32, r.getAlias(), &ec); + transitionTimesPost32 = ures_getIntVector(r.getAlias(), &len, &ec); + transitionCountPost32 = static_cast<int16_t>(len >> 1); + if (ec == U_MISSING_RESOURCE_ERROR) { + // No pre-32bit transitions + transitionTimesPost32 = NULL; + transitionCountPost32 = 0; + ec = U_ZERO_ERROR; + } else if (U_SUCCESS(ec) && (len < 0 || len > 0x7FFF || (len & 1) != 0) /* len must be even */) { + ec = U_INVALID_FORMAT_ERROR; + } + + // Type offsets list must be of even size, with size >= 2 + ures_getByKey(res, kTYPEOFFSETS, r.getAlias(), &ec); + typeOffsets = ures_getIntVector(r.getAlias(), &len, &ec); + if (U_SUCCESS(ec) && (len < 2 || len > 0x7FFE || (len & 1) != 0)) { + ec = U_INVALID_FORMAT_ERROR; + } + typeCount = (int16_t) len >> 1; + + // Type map data must be of the same size as the transition count + typeMapData = NULL; + if (transitionCount() > 0) { + ures_getByKey(res, kTYPEMAP, r.getAlias(), &ec); + typeMapData = ures_getBinary(r.getAlias(), &len, &ec); + if (ec == U_MISSING_RESOURCE_ERROR) { + // no type mapping data + ec = U_INVALID_FORMAT_ERROR; + } else if (U_SUCCESS(ec) && len != transitionCount()) { + ec = U_INVALID_FORMAT_ERROR; + } + } + + // Process final rule and data, if any + const UChar *ruleIdUStr = ures_getStringByKey(res, kFINALRULE, &len, &ec); + ures_getByKey(res, kFINALRAW, r.getAlias(), &ec); + int32_t ruleRaw = ures_getInt(r.getAlias(), &ec); + ures_getByKey(res, kFINALYEAR, r.getAlias(), &ec); + int32_t ruleYear = ures_getInt(r.getAlias(), &ec); + if (U_SUCCESS(ec)) { + UnicodeString ruleID(TRUE, ruleIdUStr, len); + UResourceBundle *rule = TimeZone::loadRule(top, ruleID, NULL, ec); + const int32_t *ruleData = ures_getIntVector(rule, &len, &ec); + if (U_SUCCESS(ec) && len == 11) { + UnicodeString emptyStr; + finalZone = new SimpleTimeZone( + ruleRaw * U_MILLIS_PER_SECOND, + emptyStr, + (int8_t)ruleData[0], (int8_t)ruleData[1], (int8_t)ruleData[2], + ruleData[3] * U_MILLIS_PER_SECOND, + (SimpleTimeZone::TimeMode) ruleData[4], + (int8_t)ruleData[5], (int8_t)ruleData[6], (int8_t)ruleData[7], + ruleData[8] * U_MILLIS_PER_SECOND, + (SimpleTimeZone::TimeMode) ruleData[9], + ruleData[10] * U_MILLIS_PER_SECOND, ec); + if (finalZone == NULL) { + ec = U_MEMORY_ALLOCATION_ERROR; + } else { + finalStartYear = ruleYear; + + // Note: Setting finalStartYear to the finalZone is problematic. When a date is around + // year boundary, SimpleTimeZone may return false result when DST is observed at the + // beginning of year. We could apply safe margin (day or two), but when one of recurrent + // rules falls around year boundary, it could return false result. Without setting the + // start year, finalZone works fine around the year boundary of the start year. + + // finalZone->setStartYear(finalStartYear); + + + // Compute the millis for Jan 1, 0:00 GMT of the finalYear + + // Note: finalStartMillis is used for detecting either if + // historic transition data or finalZone to be used. In an + // extreme edge case - for example, two transitions fall into + // small windows of time around the year boundary, this may + // result incorrect offset computation. But I think it will + // never happen practically. Yoshito - Feb 20, 2010 + finalStartMillis = Grego::fieldsToDay(finalStartYear, 0, 1) * U_MILLIS_PER_DAY; + } + } else { + ec = U_INVALID_FORMAT_ERROR; + } + ures_close(rule); + } else if (ec == U_MISSING_RESOURCE_ERROR) { + // No final zone + ec = U_ZERO_ERROR; + } + + // initialize canonical ID + canonicalID = ZoneMeta::getCanonicalCLDRID(tzid, ec); + } + + if (U_FAILURE(ec)) { + constructEmpty(); + } +} + +/** + * Copy constructor + */ +OlsonTimeZone::OlsonTimeZone(const OlsonTimeZone& other) : + BasicTimeZone(other), finalZone(0) { + *this = other; +} + +/** + * Assignment operator + */ +OlsonTimeZone& OlsonTimeZone::operator=(const OlsonTimeZone& other) { + canonicalID = other.canonicalID; + + transitionTimesPre32 = other.transitionTimesPre32; + transitionTimes32 = other.transitionTimes32; + transitionTimesPost32 = other.transitionTimesPost32; + + transitionCountPre32 = other.transitionCountPre32; + transitionCount32 = other.transitionCount32; + transitionCountPost32 = other.transitionCountPost32; + + typeCount = other.typeCount; + typeOffsets = other.typeOffsets; + typeMapData = other.typeMapData; + + delete finalZone; + finalZone = (other.finalZone != 0) ? other.finalZone->clone() : 0; + + finalStartYear = other.finalStartYear; + finalStartMillis = other.finalStartMillis; + + clearTransitionRules(); + + return *this; +} + +/** + * Destructor + */ +OlsonTimeZone::~OlsonTimeZone() { + deleteTransitionRules(); + delete finalZone; +} + +/** + * Returns true if the two TimeZone objects are equal. + */ +UBool OlsonTimeZone::operator==(const TimeZone& other) const { + return ((this == &other) || + (typeid(*this) == typeid(other) && + TimeZone::operator==(other) && + hasSameRules(other))); +} + +/** + * TimeZone API. + */ +OlsonTimeZone* OlsonTimeZone::clone() const { + return new OlsonTimeZone(*this); +} + +/** + * TimeZone API. + */ +int32_t OlsonTimeZone::getOffset(uint8_t era, int32_t year, int32_t month, + int32_t dom, uint8_t dow, + int32_t millis, UErrorCode& ec) const { + if (month < UCAL_JANUARY || month > UCAL_DECEMBER) { + if (U_SUCCESS(ec)) { + ec = U_ILLEGAL_ARGUMENT_ERROR; + } + return 0; + } else { + return getOffset(era, year, month, dom, dow, millis, + Grego::monthLength(year, month), + ec); + } +} + +/** + * TimeZone API. + */ +int32_t OlsonTimeZone::getOffset(uint8_t era, int32_t year, int32_t month, + int32_t dom, uint8_t dow, + int32_t millis, int32_t monthLength, + UErrorCode& ec) const { + if (U_FAILURE(ec)) { + return 0; + } + + if ((era != GregorianCalendar::AD && era != GregorianCalendar::BC) + || month < UCAL_JANUARY + || month > UCAL_DECEMBER + || dom < 1 + || dom > monthLength + || dow < UCAL_SUNDAY + || dow > UCAL_SATURDAY + || millis < 0 + || millis >= U_MILLIS_PER_DAY + || monthLength < 28 + || monthLength > 31) { + ec = U_ILLEGAL_ARGUMENT_ERROR; + return 0; + } + + if (era == GregorianCalendar::BC) { + year = -year; + } + + if (finalZone != NULL && year >= finalStartYear) { + return finalZone->getOffset(era, year, month, dom, dow, + millis, monthLength, ec); + } + + // Compute local epoch millis from input fields + UDate date = (UDate)(Grego::fieldsToDay(year, month, dom) * U_MILLIS_PER_DAY + millis); + int32_t rawoff, dstoff; + getHistoricalOffset(date, TRUE, kDaylight, kStandard, rawoff, dstoff); + return rawoff + dstoff; +} + +/** + * TimeZone API. + */ +void OlsonTimeZone::getOffset(UDate date, UBool local, int32_t& rawoff, + int32_t& dstoff, UErrorCode& ec) const { + if (U_FAILURE(ec)) { + return; + } + if (finalZone != NULL && date >= finalStartMillis) { + finalZone->getOffset(date, local, rawoff, dstoff, ec); + } else { + getHistoricalOffset(date, local, kFormer, kLatter, rawoff, dstoff); + } +} + +void +OlsonTimeZone::getOffsetFromLocal(UDate date, int32_t nonExistingTimeOpt, int32_t duplicatedTimeOpt, + int32_t& rawoff, int32_t& dstoff, UErrorCode& ec) const { + if (U_FAILURE(ec)) { + return; + } + if (finalZone != NULL && date >= finalStartMillis) { + finalZone->getOffsetFromLocal(date, nonExistingTimeOpt, duplicatedTimeOpt, rawoff, dstoff, ec); + } else { + getHistoricalOffset(date, TRUE, nonExistingTimeOpt, duplicatedTimeOpt, rawoff, dstoff); + } +} + + +/** + * TimeZone API. + */ +void OlsonTimeZone::setRawOffset(int32_t /*offsetMillis*/) { + // We don't support this operation, since OlsonTimeZones are + // immutable (except for the ID, which is in the base class). + + // Nothing to do! +} + +/** + * TimeZone API. + */ +int32_t OlsonTimeZone::getRawOffset() const { + UErrorCode ec = U_ZERO_ERROR; + int32_t raw, dst; + getOffset((double) uprv_getUTCtime() * U_MILLIS_PER_SECOND, + FALSE, raw, dst, ec); + return raw; +} + +#if defined U_DEBUG_TZ +void printTime(double ms) { + int32_t year, month, dom, dow; + double millis=0; + double days = ClockMath::floorDivide(((double)ms), (double)U_MILLIS_PER_DAY, millis); + + Grego::dayToFields(days, year, month, dom, dow); + U_DEBUG_TZ_MSG((" getHistoricalOffset: time %.1f (%04d.%02d.%02d+%.1fh)\n", ms, + year, month+1, dom, (millis/kOneHour))); + } +#endif + +int64_t +OlsonTimeZone::transitionTimeInSeconds(int16_t transIdx) const { + U_ASSERT(transIdx >= 0 && transIdx < transitionCount()); + + if (transIdx < transitionCountPre32) { + return (((int64_t)((uint32_t)transitionTimesPre32[transIdx << 1])) << 32) + | ((int64_t)((uint32_t)transitionTimesPre32[(transIdx << 1) + 1])); + } + + transIdx -= transitionCountPre32; + if (transIdx < transitionCount32) { + return (int64_t)transitionTimes32[transIdx]; + } + + transIdx -= transitionCount32; + return (((int64_t)((uint32_t)transitionTimesPost32[transIdx << 1])) << 32) + | ((int64_t)((uint32_t)transitionTimesPost32[(transIdx << 1) + 1])); +} + +// Maximum absolute offset in seconds (86400 seconds = 1 day) +// getHistoricalOffset uses this constant as safety margin of +// quick zone transition checking. +#define MAX_OFFSET_SECONDS 86400 + +void +OlsonTimeZone::getHistoricalOffset(UDate date, UBool local, + int32_t NonExistingTimeOpt, int32_t DuplicatedTimeOpt, + int32_t& rawoff, int32_t& dstoff) const { + U_DEBUG_TZ_MSG(("getHistoricalOffset(%.1f, %s, %d, %d, raw, dst)\n", + date, local?"T":"F", NonExistingTimeOpt, DuplicatedTimeOpt)); +#if defined U_DEBUG_TZ + printTime(date*1000.0); +#endif + int16_t transCount = transitionCount(); + + if (transCount > 0) { + double sec = uprv_floor(date / U_MILLIS_PER_SECOND); + if (!local && sec < transitionTimeInSeconds(0)) { + // Before the first transition time + rawoff = initialRawOffset() * U_MILLIS_PER_SECOND; + dstoff = initialDstOffset() * U_MILLIS_PER_SECOND; + } else { + // Linear search from the end is the fastest approach, since + // most lookups will happen at/near the end. + int16_t transIdx; + for (transIdx = transCount - 1; transIdx >= 0; transIdx--) { + int64_t transition = transitionTimeInSeconds(transIdx); + + if (local && (sec >= (transition - MAX_OFFSET_SECONDS))) { + int32_t offsetBefore = zoneOffsetAt(transIdx - 1); + UBool dstBefore = dstOffsetAt(transIdx - 1) != 0; + + int32_t offsetAfter = zoneOffsetAt(transIdx); + UBool dstAfter = dstOffsetAt(transIdx) != 0; + + UBool dstToStd = dstBefore && !dstAfter; + UBool stdToDst = !dstBefore && dstAfter; + + if (offsetAfter - offsetBefore >= 0) { + // Positive transition, which makes a non-existing local time range + if (((NonExistingTimeOpt & kStdDstMask) == kStandard && dstToStd) + || ((NonExistingTimeOpt & kStdDstMask) == kDaylight && stdToDst)) { + transition += offsetBefore; + } else if (((NonExistingTimeOpt & kStdDstMask) == kStandard && stdToDst) + || ((NonExistingTimeOpt & kStdDstMask) == kDaylight && dstToStd)) { + transition += offsetAfter; + } else if ((NonExistingTimeOpt & kFormerLatterMask) == kLatter) { + transition += offsetBefore; + } else { + // Interprets the time with rule before the transition, + // default for non-existing time range + transition += offsetAfter; + } + } else { + // Negative transition, which makes a duplicated local time range + if (((DuplicatedTimeOpt & kStdDstMask) == kStandard && dstToStd) + || ((DuplicatedTimeOpt & kStdDstMask) == kDaylight && stdToDst)) { + transition += offsetAfter; + } else if (((DuplicatedTimeOpt & kStdDstMask) == kStandard && stdToDst) + || ((DuplicatedTimeOpt & kStdDstMask) == kDaylight && dstToStd)) { + transition += offsetBefore; + } else if ((DuplicatedTimeOpt & kFormerLatterMask) == kFormer) { + transition += offsetBefore; + } else { + // Interprets the time with rule after the transition, + // default for duplicated local time range + transition += offsetAfter; + } + } + } + if (sec >= transition) { + break; + } + } + // transIdx could be -1 when local=true + rawoff = rawOffsetAt(transIdx) * U_MILLIS_PER_SECOND; + dstoff = dstOffsetAt(transIdx) * U_MILLIS_PER_SECOND; + } + } else { + // No transitions, single pair of offsets only + rawoff = initialRawOffset() * U_MILLIS_PER_SECOND; + dstoff = initialDstOffset() * U_MILLIS_PER_SECOND; + } + U_DEBUG_TZ_MSG(("getHistoricalOffset(%.1f, %s, %d, %d, raw, dst) - raw=%d, dst=%d\n", + date, local?"T":"F", NonExistingTimeOpt, DuplicatedTimeOpt, rawoff, dstoff)); +} + +/** + * TimeZone API. + */ +UBool OlsonTimeZone::useDaylightTime() const { + // If DST was observed in 1942 (for example) but has never been + // observed from 1943 to the present, most clients will expect + // this method to return FALSE. This method determines whether + // DST is in use in the current year (at any point in the year) + // and returns TRUE if so. + + UDate current = uprv_getUTCtime(); + if (finalZone != NULL && current >= finalStartMillis) { + return finalZone->useDaylightTime(); + } + + int32_t year, month, dom, dow, doy, mid; + Grego::timeToFields(current, year, month, dom, dow, doy, mid); + + // Find start of this year, and start of next year + double start = Grego::fieldsToDay(year, 0, 1) * SECONDS_PER_DAY; + double limit = Grego::fieldsToDay(year+1, 0, 1) * SECONDS_PER_DAY; + + // Return TRUE if DST is observed at any time during the current + // year. + for (int16_t i = 0; i < transitionCount(); ++i) { + double transition = (double)transitionTimeInSeconds(i); + if (transition >= limit) { + break; + } + if ((transition >= start && dstOffsetAt(i) != 0) + || (transition > start && dstOffsetAt(i - 1) != 0)) { + return TRUE; + } + } + return FALSE; +} +int32_t +OlsonTimeZone::getDSTSavings() const{ + if (finalZone != NULL){ + return finalZone->getDSTSavings(); + } + return TimeZone::getDSTSavings(); +} +/** + * TimeZone API. + */ +UBool OlsonTimeZone::inDaylightTime(UDate date, UErrorCode& ec) const { + int32_t raw, dst; + getOffset(date, FALSE, raw, dst, ec); + return dst != 0; +} + +UBool +OlsonTimeZone::hasSameRules(const TimeZone &other) const { + if (this == &other) { + return TRUE; + } + const OlsonTimeZone* z = dynamic_cast<const OlsonTimeZone*>(&other); + if (z == NULL) { + return FALSE; + } + + // [sic] pointer comparison: typeMapData points into + // memory-mapped or DLL space, so if two zones have the same + // pointer, they are equal. + if (typeMapData == z->typeMapData) { + return TRUE; + } + + // If the pointers are not equal, the zones may still + // be equal if their rules and transitions are equal + if ((finalZone == NULL && z->finalZone != NULL) + || (finalZone != NULL && z->finalZone == NULL) + || (finalZone != NULL && z->finalZone != NULL && *finalZone != *z->finalZone)) { + return FALSE; + } + + if (finalZone != NULL) { + if (finalStartYear != z->finalStartYear || finalStartMillis != z->finalStartMillis) { + return FALSE; + } + } + if (typeCount != z->typeCount + || transitionCountPre32 != z->transitionCountPre32 + || transitionCount32 != z->transitionCount32 + || transitionCountPost32 != z->transitionCountPost32) { + return FALSE; + } + + return + arrayEqual(transitionTimesPre32, z->transitionTimesPre32, sizeof(transitionTimesPre32[0]) * transitionCountPre32 << 1) + && arrayEqual(transitionTimes32, z->transitionTimes32, sizeof(transitionTimes32[0]) * transitionCount32) + && arrayEqual(transitionTimesPost32, z->transitionTimesPost32, sizeof(transitionTimesPost32[0]) * transitionCountPost32 << 1) + && arrayEqual(typeOffsets, z->typeOffsets, sizeof(typeOffsets[0]) * typeCount << 1) + && arrayEqual(typeMapData, z->typeMapData, sizeof(typeMapData[0]) * transitionCount()); +} + +void +OlsonTimeZone::clearTransitionRules(void) { + initialRule = NULL; + firstTZTransition = NULL; + firstFinalTZTransition = NULL; + historicRules = NULL; + historicRuleCount = 0; + finalZoneWithStartYear = NULL; + firstTZTransitionIdx = 0; + transitionRulesInitOnce.reset(); +} + +void +OlsonTimeZone::deleteTransitionRules(void) { + if (initialRule != NULL) { + delete initialRule; + } + if (firstTZTransition != NULL) { + delete firstTZTransition; + } + if (firstFinalTZTransition != NULL) { + delete firstFinalTZTransition; + } + if (finalZoneWithStartYear != NULL) { + delete finalZoneWithStartYear; + } + if (historicRules != NULL) { + for (int i = 0; i < historicRuleCount; i++) { + if (historicRules[i] != NULL) { + delete historicRules[i]; + } + } + uprv_free(historicRules); + } + clearTransitionRules(); +} + +/* + * Lazy transition rules initializer + */ + +static void U_CALLCONV initRules(OlsonTimeZone *This, UErrorCode &status) { + This->initTransitionRules(status); +} + +void +OlsonTimeZone::checkTransitionRules(UErrorCode& status) const { + OlsonTimeZone *ncThis = const_cast<OlsonTimeZone *>(this); + umtx_initOnce(ncThis->transitionRulesInitOnce, &initRules, ncThis, status); +} + +void +OlsonTimeZone::initTransitionRules(UErrorCode& status) { + if(U_FAILURE(status)) { + return; + } + deleteTransitionRules(); + UnicodeString tzid; + getID(tzid); + + UnicodeString stdName = tzid + UNICODE_STRING_SIMPLE("(STD)"); + UnicodeString dstName = tzid + UNICODE_STRING_SIMPLE("(DST)"); + + int32_t raw, dst; + + // Create initial rule + raw = initialRawOffset() * U_MILLIS_PER_SECOND; + dst = initialDstOffset() * U_MILLIS_PER_SECOND; + initialRule = new InitialTimeZoneRule((dst == 0 ? stdName : dstName), raw, dst); + // Check to make sure initialRule was created + if (initialRule == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + + int32_t transCount = transitionCount(); + if (transCount > 0) { + int16_t transitionIdx, typeIdx; + + // We probably no longer need to check the first "real" transition + // here, because the new tzcode remove such transitions already. + // For now, keeping this code for just in case. Feb 19, 2010 Yoshito + firstTZTransitionIdx = 0; + for (transitionIdx = 0; transitionIdx < transCount; transitionIdx++) { + if (typeMapData[transitionIdx] != 0) { // type 0 is the initial type + break; + } + firstTZTransitionIdx++; + } + if (transitionIdx == transCount) { + // Actually no transitions... + } else { + // Build historic rule array + UDate* times = (UDate*)uprv_malloc(sizeof(UDate)*transCount); /* large enough to store all transition times */ + if (times == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + for (typeIdx = 0; typeIdx < typeCount; typeIdx++) { + // Gather all start times for each pair of offsets + int32_t nTimes = 0; + for (transitionIdx = firstTZTransitionIdx; transitionIdx < transCount; transitionIdx++) { + if (typeIdx == (int16_t)typeMapData[transitionIdx]) { + UDate tt = (UDate)transitionTime(transitionIdx); + if (finalZone == NULL || tt <= finalStartMillis) { + // Exclude transitions after finalMillis + times[nTimes++] = tt; + } + } + } + if (nTimes > 0) { + // Create a TimeArrayTimeZoneRule + raw = typeOffsets[typeIdx << 1] * U_MILLIS_PER_SECOND; + dst = typeOffsets[(typeIdx << 1) + 1] * U_MILLIS_PER_SECOND; + if (historicRules == NULL) { + historicRuleCount = typeCount; + historicRules = (TimeArrayTimeZoneRule**)uprv_malloc(sizeof(TimeArrayTimeZoneRule*)*historicRuleCount); + if (historicRules == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + uprv_free(times); + return; + } + for (int i = 0; i < historicRuleCount; i++) { + // Initialize TimeArrayTimeZoneRule pointers as NULL + historicRules[i] = NULL; + } + } + historicRules[typeIdx] = new TimeArrayTimeZoneRule((dst == 0 ? stdName : dstName), + raw, dst, times, nTimes, DateTimeRule::UTC_TIME); + // Check for memory allocation error + if (historicRules[typeIdx] == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + } + } + uprv_free(times); + + // Create initial transition + typeIdx = (int16_t)typeMapData[firstTZTransitionIdx]; + firstTZTransition = new TimeZoneTransition((UDate)transitionTime(firstTZTransitionIdx), + *initialRule, *historicRules[typeIdx]); + // Check to make sure firstTZTransition was created. + if (firstTZTransition == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + } + } + if (finalZone != NULL) { + // Get the first occurence of final rule starts + UDate startTime = (UDate)finalStartMillis; + TimeZoneRule *firstFinalRule = NULL; + + if (finalZone->useDaylightTime()) { + /* + * Note: When an OlsonTimeZone is constructed, we should set the final year + * as the start year of finalZone. However, the bounday condition used for + * getting offset from finalZone has some problems. + * For now, we do not set the valid start year when the construction time + * and create a clone and set the start year when extracting rules. + */ + finalZoneWithStartYear = finalZone->clone(); + // Check to make sure finalZone was actually cloned. + if (finalZoneWithStartYear == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + finalZoneWithStartYear->setStartYear(finalStartYear); + + TimeZoneTransition tzt; + finalZoneWithStartYear->getNextTransition(startTime, false, tzt); + firstFinalRule = tzt.getTo()->clone(); + // Check to make sure firstFinalRule received proper clone. + if (firstFinalRule == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + startTime = tzt.getTime(); + } else { + // final rule with no transitions + finalZoneWithStartYear = finalZone->clone(); + // Check to make sure finalZone was actually cloned. + if (finalZoneWithStartYear == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + finalZone->getID(tzid); + firstFinalRule = new TimeArrayTimeZoneRule(tzid, + finalZone->getRawOffset(), 0, &startTime, 1, DateTimeRule::UTC_TIME); + // Check firstFinalRule was properly created. + if (firstFinalRule == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + } + TimeZoneRule *prevRule = NULL; + if (transCount > 0) { + prevRule = historicRules[typeMapData[transCount - 1]]; + } + if (prevRule == NULL) { + // No historic transitions, but only finalZone available + prevRule = initialRule; + } + firstFinalTZTransition = new TimeZoneTransition(); + // Check to make sure firstFinalTZTransition was created before dereferencing + if (firstFinalTZTransition == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + deleteTransitionRules(); + return; + } + firstFinalTZTransition->setTime(startTime); + firstFinalTZTransition->adoptFrom(prevRule->clone()); + firstFinalTZTransition->adoptTo(firstFinalRule); + } +} + +UBool +OlsonTimeZone::getNextTransition(UDate base, UBool inclusive, TimeZoneTransition& result) const { + UErrorCode status = U_ZERO_ERROR; + checkTransitionRules(status); + if (U_FAILURE(status)) { + return FALSE; + } + + if (finalZone != NULL) { + if (inclusive && base == firstFinalTZTransition->getTime()) { + result = *firstFinalTZTransition; + return TRUE; + } else if (base >= firstFinalTZTransition->getTime()) { + if (finalZone->useDaylightTime()) { + //return finalZone->getNextTransition(base, inclusive, result); + return finalZoneWithStartYear->getNextTransition(base, inclusive, result); + } else { + // No more transitions + return FALSE; + } + } + } + if (historicRules != NULL) { + // Find a historical transition + int16_t transCount = transitionCount(); + int16_t ttidx = transCount - 1; + for (; ttidx >= firstTZTransitionIdx; ttidx--) { + UDate t = (UDate)transitionTime(ttidx); + if (base > t || (!inclusive && base == t)) { + break; + } + } + if (ttidx == transCount - 1) { + if (firstFinalTZTransition != NULL) { + result = *firstFinalTZTransition; + return TRUE; + } else { + return FALSE; + } + } else if (ttidx < firstTZTransitionIdx) { + result = *firstTZTransition; + return TRUE; + } else { + // Create a TimeZoneTransition + TimeZoneRule *to = historicRules[typeMapData[ttidx + 1]]; + TimeZoneRule *from = historicRules[typeMapData[ttidx]]; + UDate startTime = (UDate)transitionTime(ttidx+1); + + // The transitions loaded from zoneinfo.res may contain non-transition data + UnicodeString fromName, toName; + from->getName(fromName); + to->getName(toName); + if (fromName == toName && from->getRawOffset() == to->getRawOffset() + && from->getDSTSavings() == to->getDSTSavings()) { + return getNextTransition(startTime, false, result); + } + result.setTime(startTime); + result.adoptFrom(from->clone()); + result.adoptTo(to->clone()); + return TRUE; + } + } + return FALSE; +} + +UBool +OlsonTimeZone::getPreviousTransition(UDate base, UBool inclusive, TimeZoneTransition& result) const { + UErrorCode status = U_ZERO_ERROR; + checkTransitionRules(status); + if (U_FAILURE(status)) { + return FALSE; + } + + if (finalZone != NULL) { + if (inclusive && base == firstFinalTZTransition->getTime()) { + result = *firstFinalTZTransition; + return TRUE; + } else if (base > firstFinalTZTransition->getTime()) { + if (finalZone->useDaylightTime()) { + //return finalZone->getPreviousTransition(base, inclusive, result); + return finalZoneWithStartYear->getPreviousTransition(base, inclusive, result); + } else { + result = *firstFinalTZTransition; + return TRUE; + } + } + } + + if (historicRules != NULL) { + // Find a historical transition + int16_t ttidx = transitionCount() - 1; + for (; ttidx >= firstTZTransitionIdx; ttidx--) { + UDate t = (UDate)transitionTime(ttidx); + if (base > t || (inclusive && base == t)) { + break; + } + } + if (ttidx < firstTZTransitionIdx) { + // No more transitions + return FALSE; + } else if (ttidx == firstTZTransitionIdx) { + result = *firstTZTransition; + return TRUE; + } else { + // Create a TimeZoneTransition + TimeZoneRule *to = historicRules[typeMapData[ttidx]]; + TimeZoneRule *from = historicRules[typeMapData[ttidx-1]]; + UDate startTime = (UDate)transitionTime(ttidx); + + // The transitions loaded from zoneinfo.res may contain non-transition data + UnicodeString fromName, toName; + from->getName(fromName); + to->getName(toName); + if (fromName == toName && from->getRawOffset() == to->getRawOffset() + && from->getDSTSavings() == to->getDSTSavings()) { + return getPreviousTransition(startTime, false, result); + } + result.setTime(startTime); + result.adoptFrom(from->clone()); + result.adoptTo(to->clone()); + return TRUE; + } + } + return FALSE; +} + +int32_t +OlsonTimeZone::countTransitionRules(UErrorCode& status) const { + if (U_FAILURE(status)) { + return 0; + } + checkTransitionRules(status); + if (U_FAILURE(status)) { + return 0; + } + + int32_t count = 0; + if (historicRules != NULL) { + // historicRules may contain null entries when original zoneinfo data + // includes non transition data. + for (int32_t i = 0; i < historicRuleCount; i++) { + if (historicRules[i] != NULL) { + count++; + } + } + } + if (finalZone != NULL) { + if (finalZone->useDaylightTime()) { + count += 2; + } else { + count++; + } + } + return count; +} + +void +OlsonTimeZone::getTimeZoneRules(const InitialTimeZoneRule*& initial, + const TimeZoneRule* trsrules[], + int32_t& trscount, + UErrorCode& status) const { + if (U_FAILURE(status)) { + return; + } + checkTransitionRules(status); + if (U_FAILURE(status)) { + return; + } + + // Initial rule + initial = initialRule; + + // Transition rules + int32_t cnt = 0; + if (historicRules != NULL && trscount > cnt) { + // historicRules may contain null entries when original zoneinfo data + // includes non transition data. + for (int32_t i = 0; i < historicRuleCount; i++) { + if (historicRules[i] != NULL) { + trsrules[cnt++] = historicRules[i]; + if (cnt >= trscount) { + break; + } + } + } + } + if (finalZoneWithStartYear != NULL && trscount > cnt) { + const InitialTimeZoneRule *tmpini; + int32_t tmpcnt = trscount - cnt; + finalZoneWithStartYear->getTimeZoneRules(tmpini, &trsrules[cnt], tmpcnt, status); + if (U_FAILURE(status)) { + return; + } + cnt += tmpcnt; + } + // Set the result length + trscount = cnt; +} + +U_NAMESPACE_END + +#endif // !UCONFIG_NO_FORMATTING + +//eof |