tztest.cpp   [plain text]

/***********************************************************************
 * COPYRIGHT: 
 * Copyright (c) 1997-2004, 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"

#define CASE(id,test) case id:                               \
                          name = #test;                      \
                          if (exec) {                        \
                              logln(#test "---"); logln(""); \
                              test();                        \
                          }                                  \
                          break

// *****************************************************************************
// class TimeZoneTest
// *****************************************************************************

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);
       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("PST");

    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;
    // --- The following test would fail outside PST now that
    // --- PST is generally set to be default timezone in format tests
    //if ((*saveDefault == *pstZone) && (tzoffset != 28800)) {
    //  errln("FAIL: t_timezone may be incorrect.  It is not 28800");
    //}

    if (tzoffset != 28800) {
        logln("***** WARNING: If testing in the PST timezone, uprv_timezone should return 28800! *****");
    }
    if ((tzoffset % 1800 != 0)) {
      errln("FAIL: t_timezone may be incorrect. It is not a multiple of 30min. It is %d", 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;
}

// ---------------------------------------------------------------------------------

/**
 * 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")) 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) {
        errln("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)) errln("FAIL: inDaylightTime returned FALSE");
    if (U_FAILURE(status)) { errln("FAIL: TimeZone::inDaylightTime failed"); return; }
    if (!time_zone->useDaylightTime()) errln("FAIL: useDaylightTime returned FALSE");
    if (time_zone->getRawOffset() != - 8 * millisPerHour) errln("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)
        errln("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; i<numIDs; ++i) {
            if (i) buf.append(", ");
            buf.append(*ids[i]);
        }
        buf.append(" } ");
        logln(buf + numIDs);
        // we own the array; the caller owns the contained strings (yuck)
        uprv_free(ids);
    }

    numIDs = -1;
    ids = TimeZone::createAvailableIDs(-8*U_MILLIS_PER_HOUR, numIDs);
    if (ids == 0 || numIDs < 1) {
        errln("FAIL: createAvailableIDs(-8:00)");
    } else {
        UnicodeString buf("TimeZone::createAvailableIDs(-8:00) = { ");
        for(i=0; i<numIDs; ++i) {
            if (i) buf.append(", ");
            buf.append(*ids[i]);
        }
        buf.append(" } ");
        logln(buf + numIDs);
        // we own the array; the caller owns the contained strings (yuck)
        uprv_free(ids);
    }
    numIDs = -1;
    ids = TimeZone::createAvailableIDs("US", numIDs);
    if (ids == 0 || numIDs < 1) {
      errln("FAIL: createAvailableIDs(US) ids=%d, numIDs=%d", ids, numIDs);
    } else {
        UnicodeString buf("TimeZone::createAvailableIDs(US) = { ");
        for(i=0; i<numIDs; ++i) {
            if (i) buf.append(", ");
            buf.append(*ids[i]);
        }
        buf.append(" } ");
        logln(buf + numIDs);
        // we own the array; the caller owns the contained strings (yuck)
        uprv_free(ids);
    }
#endif

    UnicodeString str;
    UnicodeString *buf = new UnicodeString("TimeZone::createEnumeration() = { ");
    int32_t s_length;
    StringEnumeration* s = TimeZone::createEnumeration();
    s_length = s->count(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; i<s_length; ++i) {
        const UnicodeString* id = s->snext(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
 *
 * [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()
{
    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, FALSE},
        {"EST", -300, FALSE}, // updated Aug 2003 aliu
        {"PRT", -240, FALSE},
        {"CNT", -210, TRUE},
        {"AGT", -180, FALSE}, // updated 26 Sep 2000 aliu
        {"BET", -180, TRUE},
        // "CAT", -60, FALSE, // Wrong:
        // As of bug 4130885, fix CAT (Central Africa)
        {"CAT", 120, FALSE}, // Africa/Harare
        {"GMT", 0, FALSE},
        {"UTC", 0, FALSE}, // ** srl: seems broken in C++
        {"ECT", 60, TRUE},
        {"ART", 120, TRUE},
        {"EET", 120, TRUE},
        {"EAT", 180, FALSE},
        {"MET", 60, TRUE}, // updated 12/3/99 aliu
        {"NET", 240, TRUE}, // updated 12/3/99 aliu
        {"PLT", 300, FALSE}, // updated Aug 2003 aliu
        {"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, FALSE,
        // As of bug 4130885, fix NST (New Zealand)
        {"NST", 720, TRUE}, // Pacific/Auckland
        {"",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) {
            errln("FAIL: Time Zone " + itsID + " does not exist!");
            continue;
        }

        // Check daylight usage.
        UBool usesDaylight = tz->useDaylightTime();
        if (usesDaylight != kReferenceList[i].daylight) {
            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) {
            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 Aug 2003
        "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
        "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", # EST is an Olson alias now (2003)
        "HST", "Pacific/Honolulu",
        "IET", "America/Indianapolis",
        "IST", "Asia/Calcutta",
        "JST", "Asia/Tokyo",
        // MET Asia/Tehran # MET is a standard UNIX zone
        "MIT", "Pacific/Apia",
        // "MST", "America/Denver", # MST is an Olson alias now (2003)
        "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::formatMinutes(int32_t min, UnicodeString& rv)
{
        rv.remove();

        char sign = '+';
        if (min < 0) { sign = '-'; min = -min; }
        int h = min/60;
        min = min%60;

        rv += UChar(sign);
        if(h > 10)
            rv += UChar(0x0030 + (h/10));
        rv += UChar(0x0030 + (h%10));

        rv += ":";

        if(min > 10)
            rv += UChar(0x0030 + (min/10));
        else
            rv += "0";

        rv += UChar(0x0030 + (min%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.
    const UnicodeString kExpectedCustomID = "Custom";

    struct
    {
        const char *customId;
        int32_t expectedOffset;
    }
    kData[] =
    {
        // ID        Expected offset in minutes
        //"GMT",       kUnparseable,   Isn't custom. Can't test it here. [returns normal GMT]
        {"GMT-YOUR.AD.HERE", kUnparseable},
        // {"GMT0",      kUnparseable}, // ICU 2.8: An Olson zone ID
        // {"GMT+0",     (0)}, // ICU 2.8: An Olson zone ID
        {"GMT+1",     (60)},
        {"GMT-0030",  (-30)},
        {"GMT+15:99", (15*60+99)},
        {"GMT+",      kUnparseable},
        {"GMT-",      kUnparseable},
        {"GMT+0:",    kUnparseable},
        {"GMT-:",     kUnparseable},
        {"GMT-YOUR.AD.HERE",     kUnparseable},
        {"GMT+0010",  (10)}, // Interpret this as 00:10
        {"GMT-10",    (-10*60)},
        {"GMT+30",    (30)},
        {"GMT-3:30",  (-(3*60+30))},
        {"GMT-230",   (-(2*60+30))},
        {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;

        logln();
        logln("testing # " + formatMinutes(i, temp) + id);

        /*
        if(zone == NULL)
        {
            errln("FAIL: Could not createTimeZone(" + id + "). Returned NULL.");
            continue;
        }
        */


        if (! zone->getID(itsID).compare("GMT"))
        //if(zone == NULL)
        {
            logln(id + " -> generic GMT");
            // When TimeZone.getTimeZone() can't parse the id, it
            // returns GMT -- a dubious practice, but required for
            // backward compatibility.
            if (exp != kUnparseable) {
                errln("FAIL: Expected offset of " + formatMinutes(exp,temp) +
                                    " for " + id + ", got parse failure");
            }
        }
        else
        {
            zone->getID(itsID);
            int32_t ioffset = zone->getRawOffset()/60000;
            UnicodeString offset;
            formatMinutes(ioffset, offset);
            logln(id + " -> " + itsID + " GMT" + offset);
            if (exp == kUnparseable)
            {
                errln("FAIL: Expected parse failure for " + id +
                                    ", got offset of " + offset +
                                    ", id " + itsID);
            }
            else if (ioffset != exp ||
                     (itsID.compare(kExpectedCustomID) != 0))
            {
                errln("Expected offset of " + formatMinutes(exp,temp) +
                                    ", id Custom, for " + id +
                                    ", got offset of " + offset +
                                    ", id " + itsID);
            }
        }
        delete zone;
    }
}

/**
 * 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)
        errln("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::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)
            errln("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)
            errln("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))
    {
        errln("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)
        errln("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))
        errln("Couldn't get ResourceBundle for en");

    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")
            errln("Fail: Expected Pacific Standard Time");
    }


    if      (name.compare("GMT-08:00") &&
             name.compare("GMT-8:00") &&
             name.compare("GMT-0800") &&
             name.compare("GMT-800")) {
      errln(UnicodeString("Fail: Expected GMT-08:00 or something similar for PST in mt_MT but got ") + name );
        errln("************************************************************");
        errln("THE ABOVE FAILURE MAY JUST MEAN THE LOCALE DATA HAS CHANGED");
        errln("************************************************************");
    }

    // 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"))
        errln("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"))
        errln("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.");
}

/**
 * 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) {
        errln("FAIL: TimeZone::createEnumeration() returned nothing");
        return;
    }
    for (i=0; i<n; ++i) {
        const UnicodeString* id = s->snext(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; i<n; ++i) {
        const UnicodeString* id = s->snext(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;i<n;++i){
        const UnicodeString* id1 = s1->snext(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; j<n;++j){
            const UnicodeString* id2 = s2->snext(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)) {
            errln((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) {
        errln((UnicodeString)"FAIL: countEquivalentIDs(PST) = " + n);
    } else {
        UBool sawLA = FALSE;
        for (int32_t i=0; i<n; ++i) {
            UnicodeString id = TimeZone::getEquivalentID("PST", i);
            logln((UnicodeString)"" + i + " : " + id);
            if (id == UnicodeString("America/Los_Angeles")) {
                sawLA = TRUE;
            }
        }
        if (!sawLA) {
            errln("FAIL: America/Los_Angeles should be in the list");
        }
    }
}

#endif /* #if !UCONFIG_NO_FORMATTING */