/*********************************************************************** * COPYRIGHT: * Copyright (c) 1997-2010, International Business Machines Corporation * and others. All Rights Reserved. ***********************************************************************/ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "unicode/timezone.h" #include "unicode/simpletz.h" #include "unicode/calendar.h" #include "unicode/gregocal.h" #include "unicode/resbund.h" #include "unicode/strenum.h" #include "tztest.h" #include "cmemory.h" #include "putilimp.h" #include "cstring.h" #include "olsontz.h" #define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof((array)[0])) #define CASE(id,test) case id: \ name = #test; \ if (exec) { \ logln(#test "---"); logln(""); \ test(); \ } \ break // ***************************************************************************** // class TimeZoneTest // ***************************************************************************** // TODO: We should probably read following data at runtime, so we can update // these values every release with necessary data changes. const int32_t TimeZoneTest::REFERENCE_YEAR = 2009; const char * TimeZoneTest::REFERENCE_DATA_VERSION = "2009d"; void TimeZoneTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { if (exec) logln("TestSuite TestTimeZone"); switch (index) { CASE(0, TestPRTOffset); CASE(1, TestVariousAPI518); CASE(2, TestGetAvailableIDs913); CASE(3, TestGenericAPI); CASE(4, TestRuleAPI); CASE(5, TestShortZoneIDs); CASE(6, TestCustomParse); CASE(7, TestDisplayName); CASE(8, TestDSTSavings); CASE(9, TestAlternateRules); CASE(10,TestCountries); CASE(11,TestHistorical); CASE(12,TestEquivalentIDs); CASE(13, TestAliasedNames); CASE(14, TestFractionalDST); CASE(15, TestFebruary); CASE(16, TestCanonicalID); CASE(17, TestDisplayNamesMeta); default: name = ""; break; } } const int32_t TimeZoneTest::millisPerHour = 3600000; // --------------------------------------------------------------------------------- /** * Generic API testing for API coverage. */ void TimeZoneTest::TestGenericAPI() { UnicodeString id("NewGMT"); int32_t offset = 12345; SimpleTimeZone *zone = new SimpleTimeZone(offset, id); if (zone->useDaylightTime()) errln("FAIL: useDaylightTime should return FALSE"); TimeZone* zoneclone = zone->clone(); if (!(*zoneclone == *zone)) errln("FAIL: clone or operator== failed"); zoneclone->setID("abc"); if (!(*zoneclone != *zone)) errln("FAIL: clone or operator!= failed"); delete zoneclone; zoneclone = zone->clone(); if (!(*zoneclone == *zone)) errln("FAIL: clone or operator== failed"); zoneclone->setRawOffset(45678); if (!(*zoneclone != *zone)) errln("FAIL: clone or operator!= failed"); SimpleTimeZone copy(*zone); if (!(copy == *zone)) errln("FAIL: copy constructor or operator== failed"); copy = *(SimpleTimeZone*)zoneclone; if (!(copy == *zoneclone)) errln("FAIL: assignment operator or operator== failed"); TimeZone* saveDefault = TimeZone::createDefault(); logln((UnicodeString)"TimeZone::createDefault() => " + saveDefault->getID(id)); TimeZone* pstZone = TimeZone::createTimeZone("America/Los_Angeles"); logln("call uprv_timezone() which uses the host"); logln("to get the difference in seconds between coordinated universal"); logln("time and local time. E.g., -28,800 for PST (GMT-8hrs)"); int32_t tzoffset = uprv_timezone(); logln(UnicodeString("Value returned from uprv_timezone = ") + tzoffset); // Invert sign because UNIX semantics are backwards if (tzoffset < 0) tzoffset = -tzoffset; if ((*saveDefault == *pstZone) && (tzoffset != 28800)) { errln("FAIL: t_timezone may be incorrect. It is not 28800"); } if ((tzoffset % 900) != 0) { /* * Ticket#6364 and #7648 * A few time zones are using GMT offests not a multiple of 15 minutes. * Therefore, we should not interpret such case as an error. * We downgrade this from errln to infoln. When we see this message, * we should examine if it is ignorable or not. */ infoln("WARNING: t_timezone may be incorrect. It is not a multiple of 15min.", tzoffset); } TimeZone::adoptDefault(zone); TimeZone* defaultzone = TimeZone::createDefault(); if (defaultzone == zone || !(*defaultzone == *zone)) errln("FAIL: createDefault failed"); TimeZone::adoptDefault(saveDefault); delete defaultzone; delete zoneclone; delete pstZone; UErrorCode status = U_ZERO_ERROR; const char* tzver = TimeZone::getTZDataVersion(status); if (U_FAILURE(status)) { errcheckln(status, "FAIL: getTZDataVersion failed - %s", u_errorName(status)); } else if (uprv_strlen(tzver) != 5 /* 4 digits + 1 letter */) { errln((UnicodeString)"FAIL: getTZDataVersion returned " + tzver); } else { logln((UnicodeString)"tzdata version: " + tzver); } } // --------------------------------------------------------------------------------- /** * Test the setStartRule/setEndRule API calls. */ void TimeZoneTest::TestRuleAPI() { UErrorCode status = U_ZERO_ERROR; UDate offset = 60*60*1000*1.75; // Pick a weird offset SimpleTimeZone *zone = new SimpleTimeZone((int32_t)offset, "TestZone"); if (zone->useDaylightTime()) errln("FAIL: useDaylightTime should return FALSE"); // Establish our expected transition times. Do this with a non-DST // calendar with the (above) declared local offset. GregorianCalendar *gc = new GregorianCalendar(*zone, status); if (failure(status, "new GregorianCalendar", TRUE)) return; gc->clear(); gc->set(1990, UCAL_MARCH, 1); UDate marchOneStd = gc->getTime(status); // Local Std time midnight gc->clear(); gc->set(1990, UCAL_JULY, 1); UDate julyOneStd = gc->getTime(status); // Local Std time midnight if (failure(status, "GregorianCalendar::getTime")) return; // Starting and ending hours, WALL TIME int32_t startHour = (int32_t)(2.25 * 3600000); int32_t endHour = (int32_t)(3.5 * 3600000); zone->setStartRule(UCAL_MARCH, 1, 0, startHour, status); zone->setEndRule (UCAL_JULY, 1, 0, endHour, status); delete gc; gc = new GregorianCalendar(*zone, status); if (failure(status, "new GregorianCalendar")) return; UDate marchOne = marchOneStd + startHour; UDate julyOne = julyOneStd + endHour - 3600000; // Adjust from wall to Std time UDate expMarchOne = 636251400000.0; if (marchOne != expMarchOne) { errln((UnicodeString)"FAIL: Expected start computed as " + marchOne + " = " + dateToString(marchOne)); logln((UnicodeString)" Should be " + expMarchOne + " = " + dateToString(expMarchOne)); } UDate expJulyOne = 646793100000.0; if (julyOne != expJulyOne) { errln((UnicodeString)"FAIL: Expected start computed as " + julyOne + " = " + dateToString(julyOne)); logln((UnicodeString)" Should be " + expJulyOne + " = " + dateToString(expJulyOne)); } testUsingBinarySearch(*zone, date(90, UCAL_JANUARY, 1), date(90, UCAL_JUNE, 15), marchOne); testUsingBinarySearch(*zone, date(90, UCAL_JUNE, 1), date(90, UCAL_DECEMBER, 31), julyOne); if (zone->inDaylightTime(marchOne - 1000, status) || !zone->inDaylightTime(marchOne, status)) errln("FAIL: Start rule broken"); if (!zone->inDaylightTime(julyOne - 1000, status) || zone->inDaylightTime(julyOne, status)) errln("FAIL: End rule broken"); zone->setStartYear(1991); if (zone->inDaylightTime(marchOne, status) || zone->inDaylightTime(julyOne - 1000, status)) errln("FAIL: Start year broken"); failure(status, "TestRuleAPI"); delete gc; delete zone; } void TimeZoneTest::findTransition(const TimeZone& tz, UDate min, UDate max) { UErrorCode ec = U_ZERO_ERROR; UnicodeString id,s; UBool startsInDST = tz.inDaylightTime(min, ec); if (failure(ec, "TimeZone::inDaylightTime")) return; if (tz.inDaylightTime(max, ec) == startsInDST) { logln("Error: " + tz.getID(id) + ".inDaylightTime(" + dateToString(min) + ") = " + (startsInDST?"TRUE":"FALSE") + ", inDaylightTime(" + dateToString(max) + ") = " + (startsInDST?"TRUE":"FALSE")); return; } if (failure(ec, "TimeZone::inDaylightTime")) return; while ((max - min) > INTERVAL) { UDate mid = (min + max) / 2; if (tz.inDaylightTime(mid, ec) == startsInDST) { min = mid; } else { max = mid; } if (failure(ec, "TimeZone::inDaylightTime")) return; } min = 1000.0 * uprv_floor(min/1000.0); max = 1000.0 * uprv_floor(max/1000.0); logln(tz.getID(id) + " Before: " + min/1000 + " = " + dateToString(min,s,tz)); logln(tz.getID(id) + " After: " + max/1000 + " = " + dateToString(max,s,tz)); } void TimeZoneTest::testUsingBinarySearch(const TimeZone& tz, UDate min, UDate max, UDate expectedBoundary) { UErrorCode status = U_ZERO_ERROR; UBool startsInDST = tz.inDaylightTime(min, status); if (failure(status, "TimeZone::inDaylightTime")) return; if (tz.inDaylightTime(max, status) == startsInDST) { logln("Error: inDaylightTime(" + dateToString(max) + ") != " + ((!startsInDST)?"TRUE":"FALSE")); return; } if (failure(status, "TimeZone::inDaylightTime")) return; while ((max - min) > INTERVAL) { UDate mid = (min + max) / 2; if (tz.inDaylightTime(mid, status) == startsInDST) { min = mid; } else { max = mid; } if (failure(status, "TimeZone::inDaylightTime")) return; } logln(UnicodeString("Binary Search Before: ") + uprv_floor(0.5 + min) + " = " + dateToString(min)); logln(UnicodeString("Binary Search After: ") + uprv_floor(0.5 + max) + " = " + dateToString(max)); UDate mindelta = expectedBoundary - min; UDate maxdelta = max - expectedBoundary; if (mindelta >= 0 && mindelta <= INTERVAL && maxdelta >= 0 && maxdelta <= INTERVAL) logln(UnicodeString("PASS: Expected bdry: ") + expectedBoundary + " = " + dateToString(expectedBoundary)); else errln(UnicodeString("FAIL: Expected bdry: ") + expectedBoundary + " = " + dateToString(expectedBoundary)); } const UDate TimeZoneTest::INTERVAL = 100; // --------------------------------------------------------------------------------- // ------------------------------------- /** * Test the offset of the PRT timezone. */ void TimeZoneTest::TestPRTOffset() { TimeZone* tz = TimeZone::createTimeZone("PRT"); if (tz == 0) { errln("FAIL: TimeZone(PRT) is null"); } else { int32_t expectedHour = -4; double expectedOffset = (((double)expectedHour) * millisPerHour); double foundOffset = tz->getRawOffset(); int32_t foundHour = (int32_t)foundOffset / millisPerHour; if (expectedOffset != foundOffset) { dataerrln("FAIL: Offset for PRT should be %d, found %d", expectedHour, foundHour); } else { logln("PASS: Offset for PRT should be %d, found %d", expectedHour, foundHour); } } delete tz; } // ------------------------------------- /** * Regress a specific bug with a sequence of API calls. */ void TimeZoneTest::TestVariousAPI518() { UErrorCode status = U_ZERO_ERROR; TimeZone* time_zone = TimeZone::createTimeZone("PST"); UDate d = date(97, UCAL_APRIL, 30); UnicodeString str; logln("The timezone is " + time_zone->getID(str)); if (!time_zone->inDaylightTime(d, status)) dataerrln("FAIL: inDaylightTime returned FALSE"); if (failure(status, "TimeZone::inDaylightTime", TRUE)) return; if (!time_zone->useDaylightTime()) dataerrln("FAIL: useDaylightTime returned FALSE"); if (time_zone->getRawOffset() != - 8 * millisPerHour) dataerrln("FAIL: getRawOffset returned wrong value"); GregorianCalendar *gc = new GregorianCalendar(status); if (U_FAILURE(status)) { errln("FAIL: Couldn't create GregorianCalendar"); return; } gc->setTime(d, status); if (U_FAILURE(status)) { errln("FAIL: GregorianCalendar::setTime failed"); return; } if (time_zone->getOffset(gc->AD, gc->get(UCAL_YEAR, status), gc->get(UCAL_MONTH, status), gc->get(UCAL_DATE, status), (uint8_t)gc->get(UCAL_DAY_OF_WEEK, status), 0, status) != - 7 * millisPerHour) dataerrln("FAIL: getOffset returned wrong value"); if (U_FAILURE(status)) { errln("FAIL: GregorianCalendar::set failed"); return; } delete gc; delete time_zone; } // ------------------------------------- /** * Test the call which retrieves the available IDs. */ void TimeZoneTest::TestGetAvailableIDs913() { UErrorCode ec = U_ZERO_ERROR; int32_t i; #ifdef U_USE_TIMEZONE_OBSOLETE_2_8 // Test legacy API -- remove these tests when the corresponding API goes away (duh) int32_t numIDs = -1; const UnicodeString** ids = TimeZone::createAvailableIDs(numIDs); if (ids == 0 || numIDs < 1) { errln("FAIL: createAvailableIDs()"); } else { UnicodeString buf("TimeZone::createAvailableIDs() = { "); for(i=0; icount(ec); for (i = 0; i < s_length;++i) { if (i > 0) *buf += ", "; if ((i & 1) == 0) { *buf += *s->snext(ec); } else { *buf += UnicodeString(s->next(NULL, ec), ""); } if((i % 5) == 4) { // replace s with a clone of itself StringEnumeration *s2 = s->clone(); if(s2 == NULL || s_length != s2->count(ec)) { errln("TimezoneEnumeration.clone() failed"); } else { delete s; s = s2; } } } *buf += " };"; logln(*buf); /* Confirm that the following zones can be retrieved: The first * zone, the last zone, and one in-between. This tests the binary * search through the system zone data. */ s->reset(ec); int32_t middle = s_length/2; for (i=0; isnext(ec); if (i==0 || i==middle || i==(s_length-1)) { TimeZone *z = TimeZone::createTimeZone(*id); if (z == 0) { errln(UnicodeString("FAIL: createTimeZone(") + *id + ") -> 0"); } else if (z->getID(str) != *id) { errln(UnicodeString("FAIL: createTimeZone(") + *id + ") -> zone " + str); } else { logln(UnicodeString("OK: createTimeZone(") + *id + ") succeeded"); } delete z; } } delete s; buf->truncate(0); *buf += "TimeZone::createEnumeration(GMT+01:00) = { "; s = TimeZone::createEnumeration(1 * U_MILLIS_PER_HOUR); s_length = s->count(ec); for (i = 0; i < s_length;++i) { if (i > 0) *buf += ", "; *buf += *s->snext(ec); } delete s; *buf += " };"; logln(*buf); buf->truncate(0); *buf += "TimeZone::createEnumeration(US) = { "; s = TimeZone::createEnumeration("US"); s_length = s->count(ec); for (i = 0; i < s_length;++i) { if (i > 0) *buf += ", "; *buf += *s->snext(ec); } *buf += " };"; logln(*buf); TimeZone *tz = TimeZone::createTimeZone("PST"); if (tz != 0) logln("getTimeZone(PST) = " + tz->getID(str)); else errln("FAIL: getTimeZone(PST) = null"); delete tz; tz = TimeZone::createTimeZone("America/Los_Angeles"); if (tz != 0) logln("getTimeZone(America/Los_Angeles) = " + tz->getID(str)); else errln("FAIL: getTimeZone(PST) = null"); delete tz; // @bug 4096694 tz = TimeZone::createTimeZone("NON_EXISTENT"); UnicodeString temp; if (tz == 0) errln("FAIL: getTimeZone(NON_EXISTENT) = null"); else if (tz->getID(temp) != "GMT") errln("FAIL: getTimeZone(NON_EXISTENT) = " + temp); delete tz; delete buf; delete s; } /** * NOTE: As of ICU 2.8, this test confirms that the "tz.alias" * file, used to build ICU alias zones, is working. It also * looks at some genuine Olson compatibility IDs. [aliu] * * This test is problematic. It should really just confirm that * the list of compatibility zone IDs exist and are somewhat * meaningful (that is, they aren't all aliases of GMT). It goes a * bit further -- it hard-codes expectations about zone behavior, * when in fact zones are redefined quite frequently. ICU's build * process means that it is easy to update ICU to contain the * latest Olson zone data, but if a zone tested here changes, then * this test will fail. I have updated the test for 1999j data, * but further updates will probably be required. Note that some * of the concerts listed below no longer apply -- in particular, * we do NOT overwrite real UNIX zones with 3-letter IDs. There * are two points of overlap as of 1999j: MET and EET. These are * both real UNIX zones, so we just use the official * definition. This test has been updated to reflect this. * 12/3/99 aliu * * Added tests for additional zones and aliases from the icuzones file. * Markus Scherer 2006-nov-06 * * [srl - from java - 7/5/1998] * @bug 4130885 * Certain short zone IDs, used since 1.1.x, are incorrect. * * The worst of these is: * * "CAT" (Central African Time) should be GMT+2:00, but instead returns a * zone at GMT-1:00. The zone at GMT-1:00 should be called EGT, CVT, EGST, * or AZOST, depending on which zone is meant, but in no case is it CAT. * * Other wrong zone IDs: * * ECT (European Central Time) GMT+1:00: ECT is Ecuador Time, * GMT-5:00. European Central time is abbreviated CEST. * * SST (Solomon Island Time) GMT+11:00. SST is actually Samoa Standard Time, * GMT-11:00. Solomon Island time is SBT. * * NST (New Zealand Time) GMT+12:00. NST is the abbreviation for * Newfoundland Standard Time, GMT-3:30. New Zealanders use NZST. * * AST (Alaska Standard Time) GMT-9:00. [This has already been noted in * another bug.] It should be "AKST". AST is Atlantic Standard Time, * GMT-4:00. * * PNT (Phoenix Time) GMT-7:00. PNT usually means Pitcairn Time, * GMT-8:30. There is no standard abbreviation for Phoenix time, as distinct * from MST with daylight savings. * * In addition to these problems, a number of zones are FAKE. That is, they * don't match what people use in the real world. * * FAKE zones: * * EET (should be EEST) * ART (should be EEST) * MET (should be IRST) * NET (should be AMST) * PLT (should be PKT) * BST (should be BDT) * VST (should be ICT) * CTT (should be CST) + * ACT (should be CST) + * AET (should be EST) + * MIT (should be WST) + * IET (should be EST) + * PRT (should be AST) + * CNT (should be NST) * AGT (should be ARST) * BET (should be EST) + * * + A zone with the correct name already exists and means something * else. E.g., EST usually indicates the US Eastern zone, so it cannot be * used for Brazil (BET). */ void TimeZoneTest::TestShortZoneIDs() { UErrorCode status = U_ZERO_ERROR; // This test case is tzdata version sensitive. UBool isNonReferenceTzdataVersion = FALSE; const char *tzdataVer = TimeZone::getTZDataVersion(status); if (failure(status, "getTZDataVersion")) return; if (uprv_strcmp(tzdataVer, TimeZoneTest::REFERENCE_DATA_VERSION) != 0) { // Note: We want to display a warning message here if // REFERENCE_DATA_VERSION is out of date - so we // do not forget to update the value before GA. isNonReferenceTzdataVersion = TRUE; logln(UnicodeString("Warning: Active tzdata version (") + tzdataVer + ") does not match the reference tzdata version (" + REFERENCE_DATA_VERSION + ") for this test case data."); } // Note: useDaylightTime returns true if DST is observed // in the time zone in the current calendar year. The test // data is valid for the date after the reference year below. // If system clock is before the year, some test cases may // fail. GregorianCalendar cal(*TimeZone::getGMT(), status); if (failure(status, "GregorianCalendar")) return; cal.set(TimeZoneTest::REFERENCE_YEAR, UCAL_JANUARY, 2); // day 2 in GMT UBool isDateBeforeReferenceYear = ucal_getNow() < cal.getTime(status); if (failure(status, "Calendar::getTime")) return; if (isDateBeforeReferenceYear) { logln("Warning: Past time is set to the system clock. Some test cases may not return expected results."); } int32_t i; // Create a small struct to hold the array struct { const char *id; int32_t offset; UBool daylight; } kReferenceList [] = { {"MIT", -660, FALSE}, {"HST", -600, FALSE}, {"AST", -540, TRUE}, {"PST", -480, TRUE}, {"PNT", -420, FALSE}, {"MST", -420, FALSE}, // updated Aug 2003 aliu {"CST", -360, TRUE}, {"IET", -300, TRUE}, // updated Jan 2006 srl {"EST", -300, FALSE}, // updated Aug 2003 aliu {"PRT", -240, FALSE}, {"CNT", -210, TRUE}, {"AGT", -180, TRUE}, // updated by tzdata2007k {"BET", -180, TRUE}, {"GMT", 0, FALSE}, {"UTC", 0, FALSE}, // ** srl: seems broken in C++ {"ECT", 60, TRUE}, {"MET", 60, TRUE}, // updated 12/3/99 aliu {"ART", 120, TRUE}, {"EET", 120, TRUE}, {"CAT", 120, FALSE}, // Africa/Harare {"EAT", 180, FALSE}, {"NET", 240, TRUE}, // updated 12/3/99 aliu {"PLT", 300, FALSE}, // updated by 2008c - no DST after 2008 {"IST", 330, FALSE}, {"BST", 360, FALSE}, {"VST", 420, FALSE}, {"CTT", 480, FALSE}, // updated Aug 2003 aliu {"JST", 540, FALSE}, {"ACT", 570, FALSE}, // updated Aug 2003 aliu {"AET", 600, TRUE}, {"SST", 660, FALSE}, {"NST", 720, TRUE}, // Pacific/Auckland // From icuzones: {"Etc/Unknown", 0, FALSE}, {"SystemV/AST4ADT", -240, TRUE}, {"SystemV/EST5EDT", -300, TRUE}, {"SystemV/CST6CDT", -360, TRUE}, {"SystemV/MST7MDT", -420, TRUE}, {"SystemV/PST8PDT", -480, TRUE}, {"SystemV/YST9YDT", -540, TRUE}, {"SystemV/AST4", -240, FALSE}, {"SystemV/EST5", -300, FALSE}, {"SystemV/CST6", -360, FALSE}, {"SystemV/MST7", -420, FALSE}, {"SystemV/PST8", -480, FALSE}, {"SystemV/YST9", -540, FALSE}, {"SystemV/HST10", -600, FALSE}, {"",0,FALSE} }; for(i=0;kReferenceList[i].id[0];i++) { UnicodeString itsID(kReferenceList[i].id); UBool ok = TRUE; // Check existence. TimeZone *tz = TimeZone::createTimeZone(itsID); if (!tz || (kReferenceList[i].offset != 0 && *tz == *TimeZone::getGMT())) { errln("FAIL: Time Zone " + itsID + " does not exist!"); continue; } // Check daylight usage. UBool usesDaylight = tz->useDaylightTime(); if (usesDaylight != kReferenceList[i].daylight) { if (isNonReferenceTzdataVersion || isDateBeforeReferenceYear) { logln("Warning: Time Zone " + itsID + " use daylight is " + (usesDaylight?"TRUE":"FALSE") + " but it should be " + ((kReferenceList[i].daylight)?"TRUE":"FALSE")); } else { errln("FAIL: Time Zone " + itsID + " use daylight is " + (usesDaylight?"TRUE":"FALSE") + " but it should be " + ((kReferenceList[i].daylight)?"TRUE":"FALSE")); } ok = FALSE; } // Check offset int32_t offsetInMinutes = tz->getRawOffset()/60000; if (offsetInMinutes != kReferenceList[i].offset) { if (isNonReferenceTzdataVersion || isDateBeforeReferenceYear) { logln("FAIL: Time Zone " + itsID + " raw offset is " + offsetInMinutes + " but it should be " + kReferenceList[i].offset); } else { errln("FAIL: Time Zone " + itsID + " raw offset is " + offsetInMinutes + " but it should be " + kReferenceList[i].offset); } ok = FALSE; } if (ok) { logln("OK: " + itsID + " useDaylightTime() & getRawOffset() as expected"); } delete tz; } // OK now test compat logln("Testing for compatibility zones"); const char* compatibilityMap[] = { // This list is copied from tz.alias. If tz.alias // changes, this list must be updated. Current as of Mar 2007 "ACT", "Australia/Darwin", "AET", "Australia/Sydney", "AGT", "America/Buenos_Aires", "ART", "Africa/Cairo", "AST", "America/Anchorage", "BET", "America/Sao_Paulo", "BST", "Asia/Dhaka", // # spelling changed in 2000h; was Asia/Dacca "CAT", "Africa/Harare", "CNT", "America/St_Johns", "CST", "America/Chicago", "CTT", "Asia/Shanghai", "EAT", "Africa/Addis_Ababa", "ECT", "Europe/Paris", // EET Europe/Istanbul # EET is a standard UNIX zone // "EST", "America/New_York", # Defined as -05:00 // "HST", "Pacific/Honolulu", # Defined as -10:00 "IET", "America/Indianapolis", "IST", "Asia/Calcutta", "JST", "Asia/Tokyo", // MET Asia/Tehran # MET is a standard UNIX zone "MIT", "Pacific/Apia", // "MST", "America/Denver", # Defined as -07:00 "NET", "Asia/Yerevan", "NST", "Pacific/Auckland", "PLT", "Asia/Karachi", "PNT", "America/Phoenix", "PRT", "America/Puerto_Rico", "PST", "America/Los_Angeles", "SST", "Pacific/Guadalcanal", "UTC", "Etc/GMT", "VST", "Asia/Saigon", "","","" }; for (i=0;*compatibilityMap[i];i+=2) { UnicodeString itsID; const char *zone1 = compatibilityMap[i]; const char *zone2 = compatibilityMap[i+1]; TimeZone *tz1 = TimeZone::createTimeZone(zone1); TimeZone *tz2 = TimeZone::createTimeZone(zone2); if (!tz1) { errln(UnicodeString("FAIL: Could not find short ID zone ") + zone1); } if (!tz2) { errln(UnicodeString("FAIL: Could not find long ID zone ") + zone2); } if (tz1 && tz2) { // make NAME same so comparison will only look at the rest tz2->setID(tz1->getID(itsID)); if (*tz1 != *tz2) { errln("FAIL: " + UnicodeString(zone1) + " != " + UnicodeString(zone2)); } else { logln("OK: " + UnicodeString(zone1) + " == " + UnicodeString(zone2)); } } delete tz1; delete tz2; } } /** * Utility function for TestCustomParse */ UnicodeString& TimeZoneTest::formatOffset(int32_t offset, UnicodeString &rv) { rv.remove(); UChar sign = 0x002B; if (offset < 0) { sign = 0x002D; offset = -offset; } int32_t s = offset % 60; offset /= 60; int32_t m = offset % 60; int32_t h = offset / 60; rv += (UChar)(sign); if (h >= 10) { rv += (UChar)(0x0030 + (h/10)); } else { rv += (UChar)0x0030; } rv += (UChar)(0x0030 + (h%10)); rv += (UChar)0x003A; /* ':' */ if (m >= 10) { rv += (UChar)(0x0030 + (m/10)); } else { rv += (UChar)0x0030; } rv += (UChar)(0x0030 + (m%10)); if (s) { rv += (UChar)0x003A; /* ':' */ if (s >= 10) { rv += (UChar)(0x0030 + (s/10)); } else { rv += (UChar)0x0030; } rv += (UChar)(0x0030 + (s%10)); } return rv; } /** * Utility function for TestCustomParse, generating time zone ID * string for the give offset. */ UnicodeString& TimeZoneTest::formatTZID(int32_t offset, UnicodeString &rv) { rv.remove(); UChar sign = 0x002B; if (offset < 0) { sign = 0x002D; offset = -offset; } int32_t s = offset % 60; offset /= 60; int32_t m = offset % 60; int32_t h = offset / 60; rv += "GMT"; rv += (UChar)(sign); if (h >= 10) { rv += (UChar)(0x0030 + (h/10)); } else { rv += (UChar)0x0030; } rv += (UChar)(0x0030 + (h%10)); rv += (UChar)0x003A; if (m >= 10) { rv += (UChar)(0x0030 + (m/10)); } else { rv += (UChar)0x0030; } rv += (UChar)(0x0030 + (m%10)); if (s) { rv += (UChar)0x003A; if (s >= 10) { rv += (UChar)(0x0030 + (s/10)); } else { rv += (UChar)0x0030; } rv += (UChar)(0x0030 + (s%10)); } return rv; } /** * As part of the VM fix (see CCC approved RFE 4028006, bug * 4044013), TimeZone.getTimeZone() has been modified to recognize * generic IDs of the form GMT[+-]hh:mm, GMT[+-]hhmm, and * GMT[+-]hh. Test this behavior here. * * @bug 4044013 */ void TimeZoneTest::TestCustomParse() { int32_t i; const int32_t kUnparseable = 604800; // the number of seconds in a week. More than any offset should be. struct { const char *customId; int32_t expectedOffset; } kData[] = { // ID Expected offset in seconds {"GMT", kUnparseable}, //Isn't custom. [returns normal GMT] {"GMT-YOUR.AD.HERE", kUnparseable}, {"GMT0", kUnparseable}, {"GMT+0", (0)}, {"GMT+1", (1*60*60)}, {"GMT-0030", (-30*60)}, {"GMT+15:99", kUnparseable}, {"GMT+", kUnparseable}, {"GMT-", kUnparseable}, {"GMT+0:", kUnparseable}, {"GMT-:", kUnparseable}, {"GMT-YOUR.AD.HERE", kUnparseable}, {"GMT+0010", (10*60)}, // Interpret this as 00:10 {"GMT-10", (-10*60*60)}, {"GMT+30", kUnparseable}, {"GMT-3:30", (-(3*60+30)*60)}, {"GMT-230", (-(2*60+30)*60)}, {"GMT+05:13:05", ((5*60+13)*60+5)}, {"GMT-71023", (-((7*60+10)*60+23))}, {"GMT+01:23:45:67", kUnparseable}, {"GMT+01:234", kUnparseable}, {"GMT-2:31:123", kUnparseable}, {"GMT+3:75", kUnparseable}, {"GMT-01010101", kUnparseable}, {0, 0} }; for (i=0; kData[i].customId != 0; i++) { UnicodeString id(kData[i].customId); int32_t exp = kData[i].expectedOffset; TimeZone *zone = TimeZone::createTimeZone(id); UnicodeString itsID, temp; if (dynamic_cast(zone) != NULL) { logln(id + " -> Olson time zone"); } else { zone->getID(itsID); int32_t ioffset = zone->getRawOffset()/1000; UnicodeString offset, expectedID; formatOffset(ioffset, offset); formatTZID(ioffset, expectedID); logln(id + " -> " + itsID + " " + offset); if (exp == kUnparseable && itsID != "GMT") { errln("Expected parse failure for " + id + ", got offset of " + offset + ", id " + itsID); } // JDK 1.3 creates custom zones with the ID "Custom" // JDK 1.4 creates custom zones with IDs of the form "GMT+02:00" // ICU creates custom zones with IDs of the form "GMT+02:00" else if (exp != kUnparseable && (ioffset != exp || itsID != expectedID)) { dataerrln("Expected offset of " + formatOffset(exp, temp) + ", id " + expectedID + ", for " + id + ", got offset of " + offset + ", id " + itsID); } } delete zone; } } void TimeZoneTest::TestAliasedNames() { struct { const char *from; const char *to; } kData[] = { /* Generated by org.unicode.cldr.tool.CountItems */ /* zoneID, canonical zoneID */ {"Africa/Timbuktu", "Africa/Bamako"}, {"America/Argentina/Buenos_Aires", "America/Buenos_Aires"}, {"America/Argentina/Catamarca", "America/Catamarca"}, {"America/Argentina/ComodRivadavia", "America/Catamarca"}, {"America/Argentina/Cordoba", "America/Cordoba"}, {"America/Argentina/Jujuy", "America/Jujuy"}, {"America/Argentina/Mendoza", "America/Mendoza"}, {"America/Atka", "America/Adak"}, {"America/Ensenada", "America/Tijuana"}, {"America/Fort_Wayne", "America/Indiana/Indianapolis"}, {"America/Indianapolis", "America/Indiana/Indianapolis"}, {"America/Knox_IN", "America/Indiana/Knox"}, {"America/Louisville", "America/Kentucky/Louisville"}, {"America/Porto_Acre", "America/Rio_Branco"}, {"America/Rosario", "America/Cordoba"}, {"America/Virgin", "America/St_Thomas"}, {"Asia/Ashkhabad", "Asia/Ashgabat"}, {"Asia/Chungking", "Asia/Chongqing"}, {"Asia/Dacca", "Asia/Dhaka"}, {"Asia/Istanbul", "Europe/Istanbul"}, {"Asia/Macao", "Asia/Macau"}, {"Asia/Tel_Aviv", "Asia/Jerusalem"}, {"Asia/Thimbu", "Asia/Thimphu"}, {"Asia/Ujung_Pandang", "Asia/Makassar"}, {"Asia/Ulan_Bator", "Asia/Ulaanbaatar"}, {"Australia/ACT", "Australia/Sydney"}, {"Australia/Canberra", "Australia/Sydney"}, {"Australia/LHI", "Australia/Lord_Howe"}, {"Australia/NSW", "Australia/Sydney"}, {"Australia/North", "Australia/Darwin"}, {"Australia/Queensland", "Australia/Brisbane"}, {"Australia/South", "Australia/Adelaide"}, {"Australia/Tasmania", "Australia/Hobart"}, {"Australia/Victoria", "Australia/Melbourne"}, {"Australia/West", "Australia/Perth"}, {"Australia/Yancowinna", "Australia/Broken_Hill"}, {"Brazil/Acre", "America/Rio_Branco"}, {"Brazil/DeNoronha", "America/Noronha"}, {"Brazil/East", "America/Sao_Paulo"}, {"Brazil/West", "America/Manaus"}, {"Canada/Atlantic", "America/Halifax"}, {"Canada/Central", "America/Winnipeg"}, {"Canada/East-Saskatchewan", "America/Regina"}, {"Canada/Eastern", "America/Toronto"}, {"Canada/Mountain", "America/Edmonton"}, {"Canada/Newfoundland", "America/St_Johns"}, {"Canada/Pacific", "America/Vancouver"}, {"Canada/Saskatchewan", "America/Regina"}, {"Canada/Yukon", "America/Whitehorse"}, {"Chile/Continental", "America/Santiago"}, {"Chile/EasterIsland", "Pacific/Easter"}, {"Cuba", "America/Havana"}, {"Egypt", "Africa/Cairo"}, {"Eire", "Europe/Dublin"}, {"Etc/GMT+0", "Etc/GMT"}, {"Etc/GMT-0", "Etc/GMT"}, {"Etc/GMT0", "Etc/GMT"}, {"Etc/Greenwich", "Etc/GMT"}, {"Etc/UCT", "Etc/GMT"}, {"Etc/UTC", "Etc/GMT"}, {"Etc/Universal", "Etc/GMT"}, {"Etc/Zulu", "Etc/GMT"}, {"Europe/Belfast", "Europe/London"}, {"Europe/Nicosia", "Asia/Nicosia"}, {"Europe/Tiraspol", "Europe/Chisinau"}, {"GB", "Europe/London"}, {"GB-Eire", "Europe/London"}, {"GMT", "Etc/GMT"}, {"GMT+0", "Etc/GMT"}, {"GMT-0", "Etc/GMT"}, {"GMT0", "Etc/GMT"}, {"Greenwich", "Etc/GMT"}, {"Hongkong", "Asia/Hong_Kong"}, {"Iceland", "Atlantic/Reykjavik"}, {"Iran", "Asia/Tehran"}, {"Israel", "Asia/Jerusalem"}, {"Jamaica", "America/Jamaica"}, {"Japan", "Asia/Tokyo"}, {"Kwajalein", "Pacific/Kwajalein"}, {"Libya", "Africa/Tripoli"}, {"Mexico/BajaNorte", "America/Tijuana"}, {"Mexico/BajaSur", "America/Mazatlan"}, {"Mexico/General", "America/Mexico_City"}, {"NZ", "Pacific/Auckland"}, {"NZ-CHAT", "Pacific/Chatham"}, {"Navajo", "America/Shiprock"}, {"PRC", "Asia/Shanghai"}, {"Pacific/Samoa", "Pacific/Pago_Pago"}, {"Pacific/Yap", "Pacific/Truk"}, {"Poland", "Europe/Warsaw"}, {"Portugal", "Europe/Lisbon"}, {"ROC", "Asia/Taipei"}, {"ROK", "Asia/Seoul"}, {"Singapore", "Asia/Singapore"}, {"Turkey", "Europe/Istanbul"}, {"UCT", "Etc/GMT"}, {"US/Alaska", "America/Anchorage"}, {"US/Aleutian", "America/Adak"}, {"US/Arizona", "America/Phoenix"}, {"US/Central", "America/Chicago"}, {"US/East-Indiana", "America/Indiana/Indianapolis"}, {"US/Eastern", "America/New_York"}, {"US/Hawaii", "Pacific/Honolulu"}, {"US/Indiana-Starke", "America/Indiana/Knox"}, {"US/Michigan", "America/Detroit"}, {"US/Mountain", "America/Denver"}, {"US/Pacific", "America/Los_Angeles"}, {"US/Pacific-New", "America/Los_Angeles"}, {"US/Samoa", "Pacific/Pago_Pago"}, {"UTC", "Etc/GMT"}, {"Universal", "Etc/GMT"}, {"W-SU", "Europe/Moscow"}, {"Zulu", "Etc/GMT"}, /* Total: 113 */ }; TimeZone::EDisplayType styles[] = { TimeZone::SHORT, TimeZone::LONG }; UBool useDst[] = { FALSE, TRUE }; int32_t noLoc = uloc_countAvailable(); int32_t i, j, k, loc; UnicodeString fromName, toName; TimeZone *from = NULL, *to = NULL; for(i = 0; i < (int32_t)(sizeof(kData)/sizeof(kData[0])); i++) { from = TimeZone::createTimeZone(kData[i].from); to = TimeZone::createTimeZone(kData[i].to); if(!from->hasSameRules(*to)) { errln("different at %i\n", i); } if(!quick) { for(loc = 0; loc < noLoc; loc++) { const char* locale = uloc_getAvailable(loc); for(j = 0; j < (int32_t)(sizeof(styles)/sizeof(styles[0])); j++) { for(k = 0; k < (int32_t)(sizeof(useDst)/sizeof(useDst[0])); k++) { fromName.remove(); toName.remove(); from->getDisplayName(useDst[k], styles[j],locale, fromName); to->getDisplayName(useDst[k], styles[j], locale, toName); if(fromName.compare(toName) != 0) { errln("Fail: Expected "+toName+" but got " + prettify(fromName) + " for locale: " + locale + " index: "+ loc + " to id "+ kData[i].to + " from id " + kData[i].from); } } } } } else { fromName.remove(); toName.remove(); from->getDisplayName(fromName); to->getDisplayName(toName); if(fromName.compare(toName) != 0) { errln("Fail: Expected "+toName+" but got " + fromName); } } delete from; delete to; } } /** * Test the basic functionality of the getDisplayName() API. * * @bug 4112869 * @bug 4028006 * * See also API change request A41. * * 4/21/98 - make smarter, so the test works if the ext resources * are present or not. */ void TimeZoneTest::TestDisplayName() { UErrorCode status = U_ZERO_ERROR; int32_t i; TimeZone *zone = TimeZone::createTimeZone("PST"); UnicodeString name; zone->getDisplayName(Locale::getEnglish(), name); logln("PST->" + name); if (name.compare("Pacific Standard Time") != 0) dataerrln("Fail: Expected \"Pacific Standard Time\" but got " + name); //***************************************************************** // THE FOLLOWING LINES MUST BE UPDATED IF THE LOCALE DATA CHANGES // THE FOLLOWING LINES MUST BE UPDATED IF THE LOCALE DATA CHANGES // THE FOLLOWING LINES MUST BE UPDATED IF THE LOCALE DATA CHANGES //***************************************************************** struct { UBool useDst; TimeZone::EDisplayType style; const char *expect; } kData[] = { {FALSE, TimeZone::SHORT, "PST"}, {TRUE, TimeZone::SHORT, "PDT"}, {FALSE, TimeZone::LONG, "Pacific Standard Time"}, {TRUE, TimeZone::LONG, "Pacific Daylight Time"}, {FALSE, TimeZone::SHORT_GENERIC, "PT"}, {TRUE, TimeZone::SHORT_GENERIC, "PT"}, {FALSE, TimeZone::LONG_GENERIC, "Pacific Time"}, {TRUE, TimeZone::LONG_GENERIC, "Pacific Time"}, {FALSE, TimeZone::SHORT_GMT, "-0800"}, {TRUE, TimeZone::SHORT_GMT, "-0700"}, {FALSE, TimeZone::LONG_GMT, "GMT-08:00"}, {TRUE, TimeZone::LONG_GMT, "GMT-07:00"}, {FALSE, TimeZone::SHORT_COMMONLY_USED, "PST"}, {TRUE, TimeZone::SHORT_COMMONLY_USED, "PDT"}, {FALSE, TimeZone::GENERIC_LOCATION, "United States (Los Angeles)"}, {TRUE, TimeZone::GENERIC_LOCATION, "United States (Los Angeles)"}, {FALSE, TimeZone::LONG, ""} }; for (i=0; kData[i].expect[0] != '\0'; i++) { name.remove(); name = zone->getDisplayName(kData[i].useDst, kData[i].style, Locale::getEnglish(), name); if (name.compare(kData[i].expect) != 0) dataerrln("Fail: Expected " + UnicodeString(kData[i].expect) + "; got " + name); logln("PST [with options]->" + name); } for (i=0; kData[i].expect[0] != '\0'; i++) { name.remove(); name = zone->getDisplayName(kData[i].useDst, kData[i].style, name); if (name.compare(kData[i].expect) != 0) dataerrln("Fail: Expected " + UnicodeString(kData[i].expect) + "; got " + name); logln("PST [with options]->" + name); } // Make sure that we don't display the DST name by constructing a fake // PST zone that has DST all year long. SimpleTimeZone *zone2 = new SimpleTimeZone(0, "PST"); zone2->setStartRule(UCAL_JANUARY, 1, 0, 0, status); zone2->setEndRule(UCAL_DECEMBER, 31, 0, 0, status); UnicodeString inDaylight; if (zone2->inDaylightTime(UDate(0), status)) { inDaylight = UnicodeString("TRUE"); } else { inDaylight = UnicodeString("FALSE"); } logln(UnicodeString("Modified PST inDaylightTime->") + inDaylight ); if(U_FAILURE(status)) { dataerrln("Some sort of error..." + UnicodeString(u_errorName(status))); // REVISIT } name.remove(); name = zone2->getDisplayName(Locale::getEnglish(),name); logln("Modified PST->" + name); if (name.compare("Pacific Standard Time") != 0) dataerrln("Fail: Expected \"Pacific Standard Time\""); // Make sure we get the default display format for Locales // with no display name data. Locale mt_MT("mt_MT"); name.remove(); name = zone->getDisplayName(mt_MT,name); //***************************************************************** // THE FOLLOWING LINE MUST BE UPDATED IF THE LOCALE DATA CHANGES // THE FOLLOWING LINE MUST BE UPDATED IF THE LOCALE DATA CHANGES // THE FOLLOWING LINE MUST BE UPDATED IF THE LOCALE DATA CHANGES //***************************************************************** logln("PST(mt_MT)->" + name); // *** REVISIT SRL how in the world do I check this? looks java specific. // Now be smart -- check to see if zh resource is even present. // If not, we expect the en fallback behavior. ResourceBundle enRB(NULL, Locale::getEnglish(), status); if(U_FAILURE(status)) dataerrln("Couldn't get ResourceBundle for en - %s", u_errorName(status)); ResourceBundle mtRB(NULL, mt_MT, status); //if(U_FAILURE(status)) // errln("Couldn't get ResourceBundle for mt_MT"); UBool noZH = U_FAILURE(status); if (noZH) { logln("Warning: Not testing the mt_MT behavior because resource is absent"); if (name != "Pacific Standard Time") dataerrln("Fail: Expected Pacific Standard Time"); } if (name.compare("GMT-08:00") && name.compare("GMT-8:00") && name.compare("GMT-0800") && name.compare("GMT-800")) { dataerrln(UnicodeString("Fail: Expected GMT-08:00 or something similar for PST in mt_MT but got ") + name ); dataerrln("************************************************************"); dataerrln("THE ABOVE FAILURE MAY JUST MEAN THE LOCALE DATA HAS CHANGED"); dataerrln("************************************************************"); } // Now try a non-existent zone delete zone2; zone2 = new SimpleTimeZone(90*60*1000, "xyzzy"); name.remove(); name = zone2->getDisplayName(Locale::getEnglish(),name); logln("GMT+90min->" + name); if (name.compare("GMT+01:30") && name.compare("GMT+1:30") && name.compare("GMT+0130") && name.compare("GMT+130")) dataerrln("Fail: Expected GMT+01:30 or something similar"); name.truncate(0); zone2->getDisplayName(name); logln("GMT+90min->" + name); if (name.compare("GMT+01:30") && name.compare("GMT+1:30") && name.compare("GMT+0130") && name.compare("GMT+130")) dataerrln("Fail: Expected GMT+01:30 or something similar"); // clean up delete zone; delete zone2; } /** * @bug 4107276 */ void TimeZoneTest::TestDSTSavings() { UErrorCode status = U_ZERO_ERROR; // It might be better to find a way to integrate this test into the main TimeZone // tests above, but I don't have time to figure out how to do this (or if it's // even really a good idea). Let's consider that a future. --rtg 1/27/98 SimpleTimeZone *tz = new SimpleTimeZone(-5 * U_MILLIS_PER_HOUR, "dstSavingsTest", UCAL_MARCH, 1, 0, 0, UCAL_SEPTEMBER, 1, 0, 0, (int32_t)(0.5 * U_MILLIS_PER_HOUR), status); if(U_FAILURE(status)) errln("couldn't create TimeZone"); if (tz->getRawOffset() != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("Got back a raw offset of ") + (tz->getRawOffset() / U_MILLIS_PER_HOUR) + " hours instead of -5 hours."); if (!tz->useDaylightTime()) errln("Test time zone should use DST but claims it doesn't."); if (tz->getDSTSavings() != 0.5 * U_MILLIS_PER_HOUR) errln(UnicodeString("Set DST offset to 0.5 hour, but got back ") + (tz->getDSTSavings() / U_MILLIS_PER_HOUR) + " hours instead."); int32_t offset = tz->getOffset(GregorianCalendar::AD, 1998, UCAL_JANUARY, 1, UCAL_THURSDAY, 10 * U_MILLIS_PER_HOUR,status); if (offset != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10 AM, 1/1/98 should have been -5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz->getOffset(GregorianCalendar::AD, 1998, UCAL_JUNE, 1, UCAL_MONDAY, 10 * U_MILLIS_PER_HOUR,status); if (offset != -4.5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10 AM, 6/1/98 should have been -4.5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); tz->setDSTSavings(U_MILLIS_PER_HOUR, status); offset = tz->getOffset(GregorianCalendar::AD, 1998, UCAL_JANUARY, 1, UCAL_THURSDAY, 10 * U_MILLIS_PER_HOUR,status); if (offset != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10 AM, 1/1/98 should have been -5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz->getOffset(GregorianCalendar::AD, 1998, UCAL_JUNE, 1, UCAL_MONDAY, 10 * U_MILLIS_PER_HOUR,status); if (offset != -4 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10 AM, 6/1/98 (with a 1-hour DST offset) should have been -4 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); delete tz; } /** * @bug 4107570 */ void TimeZoneTest::TestAlternateRules() { // Like TestDSTSavings, this test should probably be integrated somehow with the main // test at the top of this class, but I didn't have time to figure out how to do that. // --rtg 1/28/98 SimpleTimeZone tz(-5 * U_MILLIS_PER_HOUR, "alternateRuleTest"); // test the day-of-month API UErrorCode status = U_ZERO_ERROR; tz.setStartRule(UCAL_MARCH, 10, 12 * U_MILLIS_PER_HOUR, status); if(U_FAILURE(status)) errln("tz.setStartRule failed"); tz.setEndRule(UCAL_OCTOBER, 20, 12 * U_MILLIS_PER_HOUR, status); if(U_FAILURE(status)) errln("tz.setStartRule failed"); int32_t offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_MARCH, 5, UCAL_THURSDAY, 10 * U_MILLIS_PER_HOUR,status); if (offset != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 3/5/98 should have been -5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_MARCH, 15, UCAL_SUNDAY, 10 * millisPerHour,status); if (offset != -4 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 3/15/98 should have been -4 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_OCTOBER, 15, UCAL_THURSDAY, 10 * millisPerHour,status); if (offset != -4 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 10/15/98 should have been -4 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_OCTOBER, 25, UCAL_SUNDAY, 10 * millisPerHour,status); if (offset != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 10/25/98 should have been -5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); // test the day-of-week-after-day-in-month API tz.setStartRule(UCAL_MARCH, 10, UCAL_FRIDAY, 12 * millisPerHour, TRUE, status); if(U_FAILURE(status)) errln("tz.setStartRule failed"); tz.setEndRule(UCAL_OCTOBER, 20, UCAL_FRIDAY, 12 * millisPerHour, FALSE, status); if(U_FAILURE(status)) errln("tz.setStartRule failed"); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_MARCH, 11, UCAL_WEDNESDAY, 10 * millisPerHour,status); if (offset != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 3/11/98 should have been -5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_MARCH, 14, UCAL_SATURDAY, 10 * millisPerHour,status); if (offset != -4 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 3/14/98 should have been -4 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_OCTOBER, 15, UCAL_THURSDAY, 10 * millisPerHour,status); if (offset != -4 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 10/15/98 should have been -4 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); offset = tz.getOffset(GregorianCalendar::AD, 1998, UCAL_OCTOBER, 17, UCAL_SATURDAY, 10 * millisPerHour,status); if (offset != -5 * U_MILLIS_PER_HOUR) errln(UnicodeString("The offset for 10AM, 10/17/98 should have been -5 hours, but we got ") + (offset / U_MILLIS_PER_HOUR) + " hours."); } void TimeZoneTest::TestFractionalDST() { const char* tzName = "Australia/Lord_Howe"; // 30 min offset TimeZone* tz_icu = TimeZone::createTimeZone(tzName); int dst_icu = tz_icu->getDSTSavings(); UnicodeString id; int32_t expected = 1800000; if (expected != dst_icu) { dataerrln(UnicodeString("java reports dst savings of ") + expected + " but icu reports " + dst_icu + " for tz " + tz_icu->getID(id)); } else { logln(UnicodeString("both java and icu report dst savings of ") + expected + " for tz " + tz_icu->getID(id)); } delete tz_icu; } /** * Test country code support. Jitterbug 776. */ void TimeZoneTest::TestCountries() { // Make sure America/Los_Angeles is in the "US" group, and // Asia/Tokyo isn't. Vice versa for the "JP" group. UErrorCode ec = U_ZERO_ERROR; int32_t n; StringEnumeration* s = TimeZone::createEnumeration("US"); n = s->count(ec); UBool la = FALSE, tokyo = FALSE; UnicodeString laZone("America/Los_Angeles", ""); UnicodeString tokyoZone("Asia/Tokyo", ""); int32_t i; if (s == NULL || n <= 0) { dataerrln("FAIL: TimeZone::createEnumeration() returned nothing"); return; } for (i=0; isnext(ec); if (*id == (laZone)) { la = TRUE; } if (*id == (tokyoZone)) { tokyo = TRUE; } } if (!la || tokyo) { errln("FAIL: " + laZone + " in US = " + la); errln("FAIL: " + tokyoZone + " in US = " + tokyo); } delete s; s = TimeZone::createEnumeration("JP"); n = s->count(ec); la = FALSE; tokyo = FALSE; for (i=0; isnext(ec); if (*id == (laZone)) { la = TRUE; } if (*id == (tokyoZone)) { tokyo = TRUE; } } if (la || !tokyo) { errln("FAIL: " + laZone + " in JP = " + la); errln("FAIL: " + tokyoZone + " in JP = " + tokyo); } StringEnumeration* s1 = TimeZone::createEnumeration("US"); StringEnumeration* s2 = TimeZone::createEnumeration("US"); for(i=0;isnext(ec); if(id1==NULL || U_FAILURE(ec)){ errln("Failed to fetch next from TimeZone enumeration. Length returned : %i Current Index: %i", n,i); } TimeZone* tz1 = TimeZone::createTimeZone(*id1); for(int j=0; jsnext(ec); if(id2==NULL || U_FAILURE(ec)){ errln("Failed to fetch next from TimeZone enumeration. Length returned : %i Current Index: %i", n,i); } TimeZone* tz2 = TimeZone::createTimeZone(*id2); if(tz1->hasSameRules(*tz2)){ logln("ID1 : " + *id1+" == ID2 : " +*id2); } delete tz2; } delete tz1; } delete s1; delete s2; delete s; } void TimeZoneTest::TestHistorical() { const int32_t H = U_MILLIS_PER_HOUR; struct { const char* id; int32_t time; // epoch seconds int32_t offset; // total offset (millis) } DATA[] = { // Add transition points (before/after) as desired to test historical // behavior. {"America/Los_Angeles", 638963999, -8*H}, // Sun Apr 01 01:59:59 GMT-08:00 1990 {"America/Los_Angeles", 638964000, -7*H}, // Sun Apr 01 03:00:00 GMT-07:00 1990 {"America/Los_Angeles", 657104399, -7*H}, // Sun Oct 28 01:59:59 GMT-07:00 1990 {"America/Los_Angeles", 657104400, -8*H}, // Sun Oct 28 01:00:00 GMT-08:00 1990 {"America/Goose_Bay", -116445601, -4*H}, // Sun Apr 24 01:59:59 GMT-04:00 1966 {"America/Goose_Bay", -116445600, -3*H}, // Sun Apr 24 03:00:00 GMT-03:00 1966 {"America/Goose_Bay", -100119601, -3*H}, // Sun Oct 30 01:59:59 GMT-03:00 1966 {"America/Goose_Bay", -100119600, -4*H}, // Sun Oct 30 01:00:00 GMT-04:00 1966 {"America/Goose_Bay", -84391201, -4*H}, // Sun Apr 30 01:59:59 GMT-04:00 1967 {"America/Goose_Bay", -84391200, -3*H}, // Sun Apr 30 03:00:00 GMT-03:00 1967 {"America/Goose_Bay", -68670001, -3*H}, // Sun Oct 29 01:59:59 GMT-03:00 1967 {"America/Goose_Bay", -68670000, -4*H}, // Sun Oct 29 01:00:00 GMT-04:00 1967 {0, 0, 0} }; for (int32_t i=0; DATA[i].id!=0; ++i) { const char* id = DATA[i].id; TimeZone *tz = TimeZone::createTimeZone(id); UnicodeString s; if (tz == 0) { errln("FAIL: Cannot create %s", id); } else if (tz->getID(s) != UnicodeString(id)) { dataerrln((UnicodeString)"FAIL: createTimeZone(" + id + ") => " + s); } else { UErrorCode ec = U_ZERO_ERROR; int32_t raw, dst; UDate when = (double) DATA[i].time * U_MILLIS_PER_SECOND; tz->getOffset(when, FALSE, raw, dst, ec); if (U_FAILURE(ec)) { errln("FAIL: getOffset"); } else if ((raw+dst) != DATA[i].offset) { errln((UnicodeString)"FAIL: " + DATA[i].id + ".getOffset(" + //when + " = " + dateToString(when) + ") => " + raw + ", " + dst); } else { logln((UnicodeString)"Ok: " + DATA[i].id + ".getOffset(" + //when + " = " + dateToString(when) + ") => " + raw + ", " + dst); } } delete tz; } } void TimeZoneTest::TestEquivalentIDs() { int32_t n = TimeZone::countEquivalentIDs("PST"); if (n < 2) { dataerrln((UnicodeString)"FAIL: countEquivalentIDs(PST) = " + n); } else { UBool sawLA = FALSE; for (int32_t i=0; igetOffset(dt, FALSE, raw, dst, status); if (U_FAILURE(status)) { errln("test case %d.%d: tz.getOffset(%04d-%02d-%02d %02d:%02d:%02d) fails: %s", t, i, data[i].year, data[i].month + 1, data[i].day, data[i].hour, data[i].minute, data[i].second, u_errorName(status)); status = U_ZERO_ERROR; } else if ((raw + dst) != data[i].offsetHours * U_MILLIS_PER_HOUR) { errln("test case %d.%d: tz.getOffset(%04d-%02d-%02d %02d:%02d:%02d) returns %d+%d != %d", t, i, data[i].year, data[i].month + 1, data[i].day, data[i].hour, data[i].minute, data[i].second, raw, dst, data[i].offsetHours * U_MILLIS_PER_HOUR); } } } } void TimeZoneTest::TestCanonicalID() { // Some canonical IDs in CLDR are defined as "Link" // in Olson tzdata. static const struct { const char *alias; const char *zone; } excluded1[] = { {"America/Shiprock", "America/Denver"}, // America/Shiprock is defined as a Link to America/Denver in tzdata {"America/Marigot", "America/Guadeloupe"}, {"America/St_Barthelemy", "America/Guadeloupe"}, {"Antarctica/South_Pole", "Antarctica/McMurdo"}, {"Atlantic/Jan_Mayen", "Europe/Oslo"}, {"Arctic/Longyearbyen", "Europe/Oslo"}, {"Europe/Guernsey", "Europe/London"}, {"Europe/Isle_of_Man", "Europe/London"}, {"Europe/Jersey", "Europe/London"}, {"Europe/Ljubljana", "Europe/Belgrade"}, {"Europe/Podgorica", "Europe/Belgrade"}, {"Europe/Sarajevo", "Europe/Belgrade"}, {"Europe/Skopje", "Europe/Belgrade"}, {"Europe/Zagreb", "Europe/Belgrade"}, {"Europe/Bratislava", "Europe/Prague"}, {"Europe/Mariehamn", "Europe/Helsinki"}, {"Europe/San_Marino", "Europe/Rome"}, {"Europe/Vatican", "Europe/Rome"}, {0, 0} }; // Following IDs are aliases of Etc/GMT in CLDR, // but Olson tzdata has 3 independent definitions // for Etc/GMT, Etc/UTC, Etc/UCT. // Until we merge them into one equivalent group // in zoneinfo.res, we exclude them in the test // below. static const char* excluded2[] = { "Etc/UCT", "UCT", "Etc/UTC", "UTC", "Etc/Universal", "Universal", "Etc/Zulu", "Zulu", 0 }; // Walk through equivalency groups UErrorCode ec = U_ZERO_ERROR; int32_t s_length, i, j, k; StringEnumeration* s = TimeZone::createEnumeration(); UnicodeString canonicalID, tmpCanonical; s_length = s->count(ec); for (i = 0; i < s_length;++i) { const UnicodeString *tzid = s->snext(ec); int32_t nEquiv = TimeZone::countEquivalentIDs(*tzid); if (nEquiv == 0) { continue; } UBool bFoundCanonical = FALSE; // Make sure getCanonicalID returns the exact same result // for all entries within a same equivalency group with some // exceptions listed in exluded1. // Also, one of them must be canonical id. for (j = 0; j < nEquiv; j++) { UnicodeString tmp = TimeZone::getEquivalentID(*tzid, j); TimeZone::getCanonicalID(tmp, tmpCanonical, ec); if (U_FAILURE(ec)) { errln((UnicodeString)"FAIL: getCanonicalID(" + tmp + ") failed."); ec = U_ZERO_ERROR; continue; } // Some exceptional cases for (k = 0; excluded1[k].alias != 0; k++) { if (tmpCanonical == excluded1[k].alias) { tmpCanonical = excluded1[k].zone; break; } } if (j == 0) { canonicalID = tmpCanonical; } else if (canonicalID != tmpCanonical) { errln("FAIL: getCanonicalID(" + tmp + ") returned " + tmpCanonical + " expected:" + canonicalID); } if (canonicalID == tmp) { bFoundCanonical = TRUE; } } // At least one ID in an equvalency group must match the // canonicalID if (bFoundCanonical == FALSE) { // test exclusion because of differences between Olson tzdata and CLDR UBool isExcluded = FALSE; for (k = 0; excluded2[k] != 0; k++) { if (*tzid == UnicodeString(excluded2[k])) { isExcluded = TRUE; break; } } if (isExcluded) { continue; } errln((UnicodeString)"FAIL: No timezone ids match the canonical ID " + canonicalID); } } delete s; // Testing some special cases static const struct { const char *id; const char *expected; UBool isSystem; } data[] = { {"GMT-03", "GMT-03:00", FALSE}, {"GMT+4", "GMT+04:00", FALSE}, {"GMT-055", "GMT-00:55", FALSE}, {"GMT+430", "GMT+04:30", FALSE}, {"GMT-12:15", "GMT-12:15", FALSE}, {"GMT-091015", "GMT-09:10:15", FALSE}, {"GMT+1:90", 0, FALSE}, {"America/Argentina/Buenos_Aires", "America/Buenos_Aires", TRUE}, {"bogus", 0, FALSE}, {"", 0, FALSE}, {0, 0, FALSE} }; UBool isSystemID; for (i = 0; data[i].id != 0; i++) { TimeZone::getCanonicalID(UnicodeString(data[i].id), canonicalID, isSystemID, ec); if (U_FAILURE(ec)) { if (ec != U_ILLEGAL_ARGUMENT_ERROR || data[i].expected != 0) { errln((UnicodeString)"FAIL: getCanonicalID(\"" + data[i].id + "\") returned status U_ILLEGAL_ARGUMENT_ERROR"); } ec = U_ZERO_ERROR; continue; } if (canonicalID != data[i].expected) { dataerrln((UnicodeString)"FAIL: getCanonicalID(\"" + data[i].id + "\") returned " + canonicalID + " - expected: " + data[i].expected); } if (isSystemID != data[i].isSystem) { dataerrln((UnicodeString)"FAIL: getCanonicalID(\"" + data[i].id + "\") set " + isSystemID + " to isSystemID"); } } } // // Test Display Names, choosing zones and lcoales where there are multiple // meta-zones defined. // static struct { const char *zoneName; const char *localeName; UBool summerTime; TimeZone::EDisplayType style; const char *expectedDisplayName; } zoneDisplayTestData [] = { // zone id locale summer format expected display name {"Europe/London", "en", FALSE, TimeZone::SHORT, "GMT"}, {"Europe/London", "en", FALSE, TimeZone::LONG, "Greenwich Mean Time"}, {"Europe/London", "en", TRUE, TimeZone::SHORT, "GMT+01:00" /*"BST"*/}, {"Europe/London", "en", TRUE, TimeZone::LONG, "British Summer Time"}, {"America/Anchorage", "en", FALSE, TimeZone::SHORT, "AKST"}, {"America/Anchorage", "en", FALSE, TimeZone::LONG, "Alaska Standard Time"}, {"America/Anchorage", "en", TRUE, TimeZone::SHORT, "AKDT"}, {"America/Anchorage", "en", TRUE, TimeZone::LONG, "Alaska Daylight Time"}, // Southern Hemisphere, all data from meta:Australia_Western {"Australia/Perth", "en", FALSE, TimeZone::SHORT, "GMT+08:00"/*"AWST"*/}, {"Australia/Perth", "en", FALSE, TimeZone::LONG, "Australian Western Standard Time"}, {"Australia/Perth", "en", TRUE, TimeZone::SHORT, "GMT+09:00"/*"AWDT"*/}, {"Australia/Perth", "en", TRUE, TimeZone::LONG, "Australian Western Daylight Time"}, {"America/Sao_Paulo", "en", FALSE, TimeZone::SHORT, "GMT-03:00"/*"BRT"*/}, {"America/Sao_Paulo", "en", FALSE, TimeZone::LONG, "Brasilia Time"}, {"America/Sao_Paulo", "en", TRUE, TimeZone::SHORT, "GMT-02:00"/*"BRST"*/}, {"America/Sao_Paulo", "en", TRUE, TimeZone::LONG, "Brasilia Summer Time"}, // No Summer Time, but had it before 1983. {"Pacific/Honolulu", "en", FALSE, TimeZone::SHORT, "HST"}, {"Pacific/Honolulu", "en", FALSE, TimeZone::LONG, "Hawaii-Aleutian Standard Time"}, {"Pacific/Honolulu", "en", TRUE, TimeZone::SHORT, "HST"}, {"Pacific/Honolulu", "en", TRUE, TimeZone::LONG, "Hawaii-Aleutian Standard Time"}, // Northern, has Summer, not commonly used. {"Europe/Helsinki", "en", FALSE, TimeZone::SHORT, "GMT+02:00"/*"EET"*/}, {"Europe/Helsinki", "en", FALSE, TimeZone::LONG, "Eastern European Time"}, {"Europe/Helsinki", "en", TRUE, TimeZone::SHORT, "GMT+03:00"/*"EEST"*/}, {"Europe/Helsinki", "en", true, TimeZone::LONG, "Eastern European Summer Time"}, {NULL, NULL, FALSE, TimeZone::SHORT, NULL} // NULL values terminate list }; void TimeZoneTest::TestDisplayNamesMeta() { UErrorCode status = U_ZERO_ERROR; GregorianCalendar cal(*TimeZone::getGMT(), status); if (failure(status, "GregorianCalendar", TRUE)) return; UBool isReferenceYear = TRUE; if (cal.get(UCAL_YEAR, status) != TimeZoneTest::REFERENCE_YEAR) { isReferenceYear = FALSE; } UBool sawAnError = FALSE; for (int testNum = 0; zoneDisplayTestData[testNum].zoneName != NULL; testNum++) { Locale locale = Locale::createFromName(zoneDisplayTestData[testNum].localeName); TimeZone *zone = TimeZone::createTimeZone(zoneDisplayTestData[testNum].zoneName); UnicodeString displayName; zone->getDisplayName(zoneDisplayTestData[testNum].summerTime, zoneDisplayTestData[testNum].style, locale, displayName); if (displayName != zoneDisplayTestData[testNum].expectedDisplayName) { char name[100]; UErrorCode status = U_ZERO_ERROR; displayName.extract(name, 100, NULL, status); if (isReferenceYear) { sawAnError = TRUE; dataerrln("Incorrect time zone display name. zone = \"%s\",\n" " locale = \"%s\", style = %s, Summertime = %d\n" " Expected \"%s\", " " Got \"%s\"\n Error: %s", zoneDisplayTestData[testNum].zoneName, zoneDisplayTestData[testNum].localeName, zoneDisplayTestData[testNum].style==TimeZone::SHORT ? "SHORT" : "LONG", zoneDisplayTestData[testNum].summerTime, zoneDisplayTestData[testNum].expectedDisplayName, name, u_errorName(status)); } else { logln("Incorrect time zone display name. zone = \"%s\",\n" " locale = \"%s\", style = %s, Summertime = %d\n" " Expected \"%s\", " " Got \"%s\"\n", zoneDisplayTestData[testNum].zoneName, zoneDisplayTestData[testNum].localeName, zoneDisplayTestData[testNum].style==TimeZone::SHORT ? "SHORT" : "LONG", zoneDisplayTestData[testNum].summerTime, zoneDisplayTestData[testNum].expectedDisplayName, name); } } delete zone; } if (sawAnError) { dataerrln("***Note: Errors could be the result of changes to zoneStrings locale data"); } } #endif /* #if !UCONFIG_NO_FORMATTING */