// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /*********************************************************************** * COPYRIGHT: * Copyright (c) 1997-2014, International Business Machines Corporation * and others. All Rights Reserved. ***********************************************************************/ /* Test Internationalized Calendars for C++ */ #include "unicode/utypes.h" #include "cmemory.h" #include "string.h" #include "unicode/locid.h" #include "japancal.h" #include "unicode/localpointer.h" #include "unicode/datefmt.h" #include "unicode/smpdtfmt.h" #include "unicode/dtptngen.h" #if !UCONFIG_NO_FORMATTING #include #include "caltest.h" #define CHECK(status, msg) UPRV_BLOCK_MACRO_BEGIN { \ if (U_FAILURE(status)) { \ dataerrln((UnicodeString(u_errorName(status)) + UnicodeString(" : " ) )+ msg); \ return; \ } \ } UPRV_BLOCK_MACRO_END static UnicodeString escape( const UnicodeString&src) { UnicodeString dst; dst.remove(); for (int32_t i = 0; i < src.length(); ++i) { UChar c = src[i]; if(c < 0x0080) dst += c; else { dst += UnicodeString("["); char buf [8]; sprintf(buf, "%#x", c); dst += UnicodeString(buf); dst += UnicodeString("]"); } } return dst; } #include "incaltst.h" #include "unicode/gregocal.h" #include "unicode/smpdtfmt.h" #include "unicode/simpletz.h" // ***************************************************************************** // class IntlCalendarTest // ***************************************************************************** //--- move to CalendarTest? // Turn this on to dump the calendar fields #define U_DEBUG_DUMPCALS #define CASE(id,test) case id: name = #test; if (exec) { logln(#test "---"); logln((UnicodeString)""); test(); } break void IntlCalendarTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { if (exec) logln("TestSuite IntlCalendarTest"); TESTCASE_AUTO_BEGIN; TESTCASE_AUTO(TestTypes); TESTCASE_AUTO(TestGregorian); TESTCASE_AUTO(TestBuddhist); TESTCASE_AUTO(TestBug21043Indian); TESTCASE_AUTO(TestBug21044Hebrew); TESTCASE_AUTO(TestBug21045Islamic); TESTCASE_AUTO(TestBug21046IslamicUmalqura); TESTCASE_AUTO(TestJapanese); TESTCASE_AUTO(TestBuddhistFormat); TESTCASE_AUTO(TestJapaneseFormat); TESTCASE_AUTO(TestJapanese3860); TESTCASE_AUTO(TestForceGannenNumbering); TESTCASE_AUTO(TestPersian); TESTCASE_AUTO(TestPersianFormat); TESTCASE_AUTO(TestTaiwan); TESTCASE_AUTO(TestConsistencyGregorian); TESTCASE_AUTO(TestConsistencyCoptic); TESTCASE_AUTO(TestConsistencyEthiopic); TESTCASE_AUTO(TestConsistencyROC); TESTCASE_AUTO(TestConsistencyChinese); TESTCASE_AUTO(TestConsistencyDangi); TESTCASE_AUTO(TestConsistencyBuddhist); TESTCASE_AUTO(TestConsistencyEthiopicAmeteAlem); TESTCASE_AUTO(TestConsistencyHebrew); TESTCASE_AUTO(TestConsistencyIndian); TESTCASE_AUTO(TestConsistencyIslamic); TESTCASE_AUTO(TestConsistencyIslamicCivil); TESTCASE_AUTO(TestConsistencyIslamicRGSA); TESTCASE_AUTO(TestConsistencyIslamicTBLA); TESTCASE_AUTO(TestConsistencyIslamicUmalqura); TESTCASE_AUTO(TestConsistencyPersian); TESTCASE_AUTO(TestConsistencyJapanese); TESTCASE_AUTO_END; } #undef CASE // --------------------------------------------------------------------------------- /** * Test various API methods for API completeness. */ void IntlCalendarTest::TestTypes() { Calendar *c = NULL; UErrorCode status = U_ZERO_ERROR; int j; const char *locs [40] = { "en_US_VALLEYGIRL", "en_US_VALLEYGIRL@collation=phonebook;calendar=japanese", "en_US_VALLEYGIRL@collation=phonebook;calendar=gregorian", "ja_JP@calendar=japanese", "th_TH@calendar=buddhist", "th_TH_TRADITIONAL", "th_TH_TRADITIONAL@calendar=gregorian", "en_US", "th_TH", // Default calendar for th_TH is buddhist "th", // th's default region is TH and buddhist is used as default for TH "en_TH", // Default calendar for any locales with region TH is buddhist "en-TH-u-ca-gregory", NULL }; const char *types[40] = { "gregorian", "japanese", "gregorian", "japanese", "buddhist", "buddhist", "gregorian", "gregorian", "buddhist", "buddhist", "buddhist", "gregorian", NULL }; for(j=0;locs[j];j++) { logln(UnicodeString("Creating calendar of locale ") + locs[j]); status = U_ZERO_ERROR; c = Calendar::createInstance(locs[j], status); CHECK(status, "creating '" + UnicodeString(locs[j]) + "' calendar"); if(U_SUCCESS(status)) { logln(UnicodeString(" type is ") + c->getType()); if(strcmp(c->getType(), types[j])) { dataerrln(UnicodeString(locs[j]) + UnicodeString("Calendar type ") + c->getType() + " instead of " + types[j]); } } delete c; } } /** * Run a test of a quasi-Gregorian calendar. This is a calendar * that behaves like a Gregorian but has different year/era mappings. * The int[] data array should have the format: * * { era, year, gregorianYear, month, dayOfMonth, ... ... , -1 } */ void IntlCalendarTest::quasiGregorianTest(Calendar& cal, const Locale& gcl, const int32_t *data) { UErrorCode status = U_ZERO_ERROR; // As of JDK 1.4.1_01, using the Sun JDK GregorianCalendar as // a reference throws us off by one hour. This is most likely // due to the JDK 1.4 incorporation of historical time zones. //java.util.Calendar grego = java.util.Calendar.getInstance(); Calendar *grego = Calendar::createInstance(gcl, status); if (U_FAILURE(status)) { dataerrln("Error calling Calendar::createInstance"); return; } int32_t tz1 = cal.get(UCAL_ZONE_OFFSET,status); int32_t tz2 = grego -> get (UCAL_ZONE_OFFSET, status); if(tz1 != tz2) { errln((UnicodeString)"cal's tz " + tz1 + " != grego's tz " + tz2); } for (int32_t i=0; data[i]!=-1; ) { int32_t era = data[i++]; int32_t year = data[i++]; int32_t gregorianYear = data[i++]; int32_t month = data[i++]; int32_t dayOfMonth = data[i++]; grego->clear(); grego->set(gregorianYear, month, dayOfMonth); UDate D = grego->getTime(status); cal.clear(); cal.set(UCAL_ERA, era); cal.set(year, month, dayOfMonth); UDate d = cal.getTime(status); #ifdef U_DEBUG_DUMPCALS logln((UnicodeString)"cal : " + CalendarTest::calToStr(cal)); logln((UnicodeString)"grego: " + CalendarTest::calToStr(*grego)); #endif if (d == D) { logln(UnicodeString("OK: ") + era + ":" + year + "/" + (month+1) + "/" + dayOfMonth + " => " + d + " (" + UnicodeString(cal.getType()) + ")"); } else { errln(UnicodeString("Fail: (fields to millis)") + era + ":" + year + "/" + (month+1) + "/" + dayOfMonth + " => " + d + ", expected " + D + " (" + UnicodeString(cal.getType()) + "Off by: " + (d-D)); } // Now, set the gregorian millis on the other calendar cal.clear(); cal.setTime(D, status); int e = cal.get(UCAL_ERA, status); int y = cal.get(UCAL_YEAR, status); #ifdef U_DEBUG_DUMPCALS logln((UnicodeString)"cal : " + CalendarTest::calToStr(cal)); logln((UnicodeString)"grego: " + CalendarTest::calToStr(*grego)); #endif if (y == year && e == era) { logln((UnicodeString)"OK: " + D + " => " + cal.get(UCAL_ERA, status) + ":" + cal.get(UCAL_YEAR, status) + "/" + (cal.get(UCAL_MONTH, status)+1) + "/" + cal.get(UCAL_DATE, status) + " (" + UnicodeString(cal.getType()) + ")"); } else { errln((UnicodeString)"Fail: (millis to fields)" + D + " => " + cal.get(UCAL_ERA, status) + ":" + cal.get(UCAL_YEAR, status) + "/" + (cal.get(UCAL_MONTH, status)+1) + "/" + cal.get(UCAL_DATE, status) + ", expected " + era + ":" + year + "/" + (month+1) + "/" + dayOfMonth + " (" + UnicodeString(cal.getType())); } } delete grego; CHECK(status, "err during quasiGregorianTest()"); } // Verify that Gregorian works like Gregorian void IntlCalendarTest::TestGregorian() { UDate timeA = Calendar::getNow(); int32_t data[] = { GregorianCalendar::AD, 1868, 1868, UCAL_SEPTEMBER, 8, GregorianCalendar::AD, 1868, 1868, UCAL_SEPTEMBER, 9, GregorianCalendar::AD, 1869, 1869, UCAL_JUNE, 4, GregorianCalendar::AD, 1912, 1912, UCAL_JULY, 29, GregorianCalendar::AD, 1912, 1912, UCAL_JULY, 30, GregorianCalendar::AD, 1912, 1912, UCAL_AUGUST, 1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; Calendar *cal; UErrorCode status = U_ZERO_ERROR; cal = Calendar::createInstance(/*"de_DE", */ status); CHECK(status, UnicodeString("Creating de_CH calendar")); // Sanity check the calendar UDate timeB = Calendar::getNow(); UDate timeCal = cal->getTime(status); if(!(timeA <= timeCal) || !(timeCal <= timeB)) { errln((UnicodeString)"Error: Calendar time " + timeCal + " is not within sampled times [" + timeA + " to " + timeB + "]!"); } // end sanity check // Note, the following is a good way to test the sanity of the constructed calendars, // using Collation as a delay-loop: // // $ intltest format/IntlCalendarTest collate/G7CollationTest format/IntlCalendarTest quasiGregorianTest(*cal,Locale("fr_FR"),data); delete cal; } /** * Verify that BuddhistCalendar shifts years to Buddhist Era but otherwise * behaves like GregorianCalendar. */ void IntlCalendarTest::TestBuddhist() { // BE 2542 == 1999 CE UDate timeA = Calendar::getNow(); int32_t data[] = { 0, // B. era [928479600000] 2542, // B. year 1999, // G. year UCAL_JUNE, // month 4, // day 0, // B. era [-79204842000000] 3, // B. year -540, // G. year UCAL_FEBRUARY, // month 12, // day 0, // test month calculation: 4795 BE = 4252 AD is a leap year, but 4795 AD is not. 4795, // BE [72018057600000] 4252, // AD UCAL_FEBRUARY, 29, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; Calendar *cal; UErrorCode status = U_ZERO_ERROR; cal = Calendar::createInstance("th_TH@calendar=buddhist", status); CHECK(status, UnicodeString("Creating th_TH@calendar=buddhist calendar")); // Sanity check the calendar UDate timeB = Calendar::getNow(); UDate timeCal = cal->getTime(status); if(!(timeA <= timeCal) || !(timeCal <= timeB)) { errln((UnicodeString)"Error: Calendar time " + timeCal + " is not within sampled times [" + timeA + " to " + timeB + "]!"); } // end sanity check quasiGregorianTest(*cal,Locale("th_TH@calendar=gregorian"),data); delete cal; } /** * Verify that TaiWanCalendar shifts years to Minguo Era but otherwise * behaves like GregorianCalendar. */ void IntlCalendarTest::TestTaiwan() { // MG 1 == 1912 AD UDate timeA = Calendar::getNow(); // TODO port these to the data items int32_t data[] = { 1, // B. era [928479600000] 1, // B. year 1912, // G. year UCAL_JUNE, // month 4, // day 1, // B. era [-79204842000000] 3, // B. year 1914, // G. year UCAL_FEBRUARY, // month 12, // day 1, // B. era [-79204842000000] 96, // B. year 2007, // G. year UCAL_FEBRUARY, // month 12, // day -1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; Calendar *cal; UErrorCode status = U_ZERO_ERROR; cal = Calendar::createInstance("en_US@calendar=roc", status); CHECK(status, UnicodeString("Creating en_US@calendar=roc calendar")); // Sanity check the calendar UDate timeB = Calendar::getNow(); UDate timeCal = cal->getTime(status); if(!(timeA <= timeCal) || !(timeCal <= timeB)) { errln((UnicodeString)"Error: Calendar time " + timeCal + " is not within sampled times [" + timeA + " to " + timeB + "]!"); } // end sanity check quasiGregorianTest(*cal,Locale("en_US"),data); delete cal; } /** * Verify that JapaneseCalendar shifts years to Japanese Eras but otherwise * behaves like GregorianCalendar. */ void IntlCalendarTest::TestJapanese() { UDate timeA = Calendar::getNow(); /* Sorry.. japancal.h is private! */ #define JapaneseCalendar_MEIJI 232 #define JapaneseCalendar_TAISHO 233 #define JapaneseCalendar_SHOWA 234 #define JapaneseCalendar_HEISEI 235 // BE 2542 == 1999 CE int32_t data[] = { // Jera Jyr Gyear m d JapaneseCalendar_MEIJI, 1, 1868, UCAL_SEPTEMBER, 8, JapaneseCalendar_MEIJI, 1, 1868, UCAL_SEPTEMBER, 9, JapaneseCalendar_MEIJI, 2, 1869, UCAL_JUNE, 4, JapaneseCalendar_MEIJI, 45, 1912, UCAL_JULY, 29, JapaneseCalendar_TAISHO, 1, 1912, UCAL_JULY, 30, JapaneseCalendar_TAISHO, 1, 1912, UCAL_AUGUST, 1, // new tests (not in java) JapaneseCalendar_SHOWA, 64, 1989, UCAL_JANUARY, 7, // Test current era transition (different code path than others) JapaneseCalendar_HEISEI, 1, 1989, UCAL_JANUARY, 8, JapaneseCalendar_HEISEI, 1, 1989, UCAL_JANUARY, 9, JapaneseCalendar_HEISEI, 1, 1989, UCAL_DECEMBER, 20, JapaneseCalendar_HEISEI, 15, 2003, UCAL_MAY, 22, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; Calendar *cal; UErrorCode status = U_ZERO_ERROR; cal = Calendar::createInstance("ja_JP@calendar=japanese", status); CHECK(status, UnicodeString("Creating ja_JP@calendar=japanese calendar")); // Sanity check the calendar UDate timeB = Calendar::getNow(); UDate timeCal = cal->getTime(status); if(!(timeA <= timeCal) || !(timeCal <= timeB)) { errln((UnicodeString)"Error: Calendar time " + timeCal + " is not within sampled times [" + timeA + " to " + timeB + "]!"); } // end sanity check quasiGregorianTest(*cal,Locale("ja_JP"),data); delete cal; } void IntlCalendarTest::TestBuddhistFormat() { UErrorCode status = U_ZERO_ERROR; // Test simple parse/format with adopt // First, a contrived English test.. UDate aDate = 999932400000.0; SimpleDateFormat fmt(UnicodeString("MMMM d, yyyy G"), Locale("en_US@calendar=buddhist"), status); CHECK(status, "creating date format instance"); SimpleDateFormat fmt2(UnicodeString("MMMM d, yyyy G"), Locale("en_US@calendar=gregorian"), status); CHECK(status, "creating gregorian date format instance"); UnicodeString str; fmt2.format(aDate, str); logln(UnicodeString() + "Test Date: " + str); str.remove(); fmt.format(aDate, str); logln(UnicodeString() + "as Buddhist Calendar: " + escape(str)); UnicodeString expected("September 8, 2544 BE"); if(str != expected) { errln("Expected " + escape(expected) + " but got " + escape(str)); } UDate otherDate = fmt.parse(expected, status); if(otherDate != aDate) { UnicodeString str3; fmt.format(otherDate, str3); errln("Parse incorrect of " + escape(expected) + " - wanted " + aDate + " but got " + otherDate + ", " + escape(str3)); } else { logln("Parsed OK: " + expected); } CHECK(status, "Error occurred testing Buddhist Calendar in English "); status = U_ZERO_ERROR; // Now, try in Thai { UnicodeString expect = CharsToUnicodeString("\\u0E27\\u0E31\\u0E19\\u0E40\\u0E2A\\u0E32\\u0E23\\u0E4C\\u0E17\\u0E35\\u0E48" " 8 \\u0E01\\u0E31\\u0e19\\u0e22\\u0e32\\u0e22\\u0e19 \\u0e1e.\\u0e28. 2544"); UDate expectDate = 999932400000.0; Locale loc("th_TH_TRADITIONAL"); // legacy simpleTest(loc, expect, expectDate, status); } status = U_ZERO_ERROR; { UnicodeString expect = CharsToUnicodeString("\\u0E27\\u0E31\\u0E19\\u0E40\\u0E2A\\u0E32\\u0E23\\u0E4C\\u0E17\\u0E35\\u0E48" " 8 \\u0E01\\u0E31\\u0e19\\u0e22\\u0e32\\u0e22\\u0e19 \\u0e1e.\\u0e28. 2544"); UDate expectDate = 999932400000.0; Locale loc("th_TH@calendar=buddhist"); simpleTest(loc, expect, expectDate, status); } status = U_ZERO_ERROR; { UnicodeString expect = CharsToUnicodeString("\\u0E27\\u0E31\\u0E19\\u0E40\\u0E2A\\u0E32\\u0E23\\u0E4C\\u0E17\\u0E35\\u0E48" " 8 \\u0E01\\u0E31\\u0e19\\u0e22\\u0e32\\u0e22\\u0e19 \\u0e04.\\u0e28. 2001"); UDate expectDate = 999932400000.0; Locale loc("th_TH@calendar=gregorian"); simpleTest(loc, expect, expectDate, status); } status = U_ZERO_ERROR; { UnicodeString expect = CharsToUnicodeString("\\u0E27\\u0E31\\u0E19\\u0E40\\u0E2A\\u0E32\\u0E23\\u0E4C\\u0E17\\u0E35\\u0E48" " 8 \\u0E01\\u0E31\\u0e19\\u0e22\\u0e32\\u0e22\\u0e19 \\u0e04.\\u0e28. 2001"); UDate expectDate = 999932400000.0; Locale loc("th_TH_TRADITIONAL@calendar=gregorian"); simpleTest(loc, expect, expectDate, status); } } // TaiwanFormat has been moved to testdata/format.txt void IntlCalendarTest::TestJapaneseFormat() { LocalPointer cal; UErrorCode status = U_ZERO_ERROR; cal.adoptInstead(Calendar::createInstance("ja_JP@calendar=japanese", status)); CHECK(status, UnicodeString("Creating ja_JP@calendar=japanese calendar")); LocalPointer cal2(cal->clone()); cal.adoptInstead(nullptr); // Test simple parse/format with adopt UDate aDate = 999932400000.0; SimpleDateFormat fmt(UnicodeString("MMMM d, yy G"), Locale("en_US@calendar=japanese"), status); SimpleDateFormat fmt2(UnicodeString("MMMM d, yyyy G"), Locale("en_US@calendar=gregorian"), status); CHECK(status, "creating date format instance"); UnicodeString str; fmt2.format(aDate, str); logln(UnicodeString() + "Test Date: " + str); str.remove(); fmt.format(aDate, str); logln(UnicodeString() + "as Japanese Calendar: " + str); UnicodeString expected("September 8, 13 Heisei"); if(str != expected) { errln("Expected " + expected + " but got " + str); } UDate otherDate = fmt.parse(expected, status); if(otherDate != aDate) { UnicodeString str3; ParsePosition pp; fmt.parse(expected, *cal2, pp); fmt.format(otherDate, str3); errln("Parse incorrect of " + expected + " - wanted " + aDate + " but got " + " = " + otherDate + ", " + str3 + " = " + CalendarTest::calToStr(*cal2) ); } else { logln("Parsed OK: " + expected); } // Test parse with incomplete information SimpleDateFormat fmti(UnicodeString("G y"), Locale("en_US@calendar=japanese"), status); aDate = -3197117222000.0; CHECK(status, "creating date format instance"); str.remove(); fmt2.format(aDate, str); logln(UnicodeString() + "Test Date: " + str); str.remove(); fmti.format(aDate, str); logln(UnicodeString() + "as Japanese Calendar: " + str); expected = u"Meiji 1"; if(str != expected) { errln("Expected " + expected + " but got " + str); } otherDate = fmti.parse(expected, status); if(otherDate != aDate) { UnicodeString str3; ParsePosition pp; fmti.parse(expected, *cal2, pp); fmti.format(otherDate, str3); errln("Parse incorrect of " + expected + " - wanted " + aDate + " but got " + " = " + otherDate + ", " + str3 + " = " + CalendarTest::calToStr(*cal2) ); } else { logln("Parsed OK: " + expected); } CHECK(status, "Error occurred"); // Now, try in Japanese { UnicodeString expect = CharsToUnicodeString("\\u5e73\\u621013\\u5e749\\u67088\\u65e5\\u571f\\u66dc\\u65e5"); UDate expectDate = 999932400000.0; // Testing a recent date Locale loc("ja_JP@calendar=japanese"); status = U_ZERO_ERROR; simpleTest(loc, expect, expectDate, status); } { UnicodeString expect = CharsToUnicodeString("\\u5e73\\u621013\\u5e749\\u67088\\u65e5\\u571f\\u66dc\\u65e5"); UDate expectDate = 999932400000.0; // Testing a recent date Locale loc("ja_JP@calendar=japanese"); status = U_ZERO_ERROR; simpleTest(loc, expect, expectDate, status); } { UnicodeString expect = CharsToUnicodeString("\\u5b89\\u6c385\\u5e747\\u67084\\u65e5\\u6728\\u66dc\\u65e5"); UDate expectDate = -6106032422000.0; // 1776-07-04T00:00:00Z-075258 Locale loc("ja_JP@calendar=japanese"); status = U_ZERO_ERROR; simpleTest(loc, expect, expectDate, status); } { // Jitterbug 1869 - this is an ambiguous era. (Showa 64 = Jan 6 1989, but Showa could be 2 other eras) ) UnicodeString expect = CharsToUnicodeString("\\u662d\\u548c64\\u5e741\\u67086\\u65e5\\u91d1\\u66dc\\u65e5"); UDate expectDate = 600076800000.0; Locale loc("ja_JP@calendar=japanese"); status = U_ZERO_ERROR; simpleTest(loc, expect, expectDate, status); } { // 1989 Jan 9 Monday = Heisei 1; full is Gy年M月d日EEEE => 平成元年1月9日月曜日 UnicodeString expect = CharsToUnicodeString("\\u5E73\\u6210\\u5143\\u5E741\\u67089\\u65E5\\u6708\\u66DC\\u65E5"); UDate expectDate = 600336000000.0; Locale loc("ja_JP@calendar=japanese"); status = U_ZERO_ERROR; simpleTest(loc, expect, expectDate, status); } { // This Feb 29th falls on a leap year by gregorian year, but not by Japanese year. UnicodeString expect = CharsToUnicodeString("\\u5EB7\\u6B632\\u5e742\\u670829\\u65e5\\u65e5\\u66dc\\u65e5"); UDate expectDate = -16214400422000.0; // 1456-03-09T00:00Z-075258 Locale loc("ja_JP@calendar=japanese"); status = U_ZERO_ERROR; simpleTest(loc, expect, expectDate, status); } } void IntlCalendarTest::TestJapanese3860() { LocalPointer cal; UErrorCode status = U_ZERO_ERROR; cal.adoptInstead(Calendar::createInstance("ja_JP@calendar=japanese", status)); CHECK(status, UnicodeString("Creating ja_JP@calendar=japanese calendar")); LocalPointer cal2(cal->clone()); SimpleDateFormat fmt2(UnicodeString("HH:mm:ss.S MMMM d, yyyy G"), Locale("en_US@calendar=gregorian"), status); UnicodeString str; { // Test simple parse/format with adopt UDate aDate = 0; // Test parse with missing era (should default to current era, heisei) // Test parse with incomplete information logln("Testing parse w/ missing era..."); SimpleDateFormat fmt(UnicodeString("y/M/d"), Locale("ja_JP@calendar=japanese"), status); CHECK(status, "creating date format instance"); UErrorCode s2 = U_ZERO_ERROR; cal2->clear(); UnicodeString samplestr("1/5/9"); logln(UnicodeString() + "Test Year: " + samplestr); aDate = fmt.parse(samplestr, s2); ParsePosition pp=0; fmt.parse(samplestr, *cal2, pp); CHECK(s2, "parsing the 1/5/9 string"); logln("*cal2 after 159 parse:"); str.remove(); fmt2.format(aDate, str); logln(UnicodeString() + "as Gregorian Calendar: " + str); cal2->setTime(aDate, s2); int32_t gotYear = cal2->get(UCAL_YEAR, s2); int32_t gotEra = cal2->get(UCAL_ERA, s2); int32_t expectYear = 1; int32_t expectEra = JapaneseCalendar::getCurrentEra(); if((gotYear!=1) || (gotEra != expectEra)) { errln(UnicodeString("parse "+samplestr+" of 'y/M/d' as Japanese Calendar, expected year ") + expectYear + UnicodeString(" and era ") + expectEra +", but got year " + gotYear + " and era " + gotEra + " (Gregorian:" + str +")"); } else { logln(UnicodeString() + " year: " + gotYear + ", era: " + gotEra); } } { // Test simple parse/format with adopt UDate aDate = 0; // Test parse with missing era (should default to current era, heisei) // Test parse with incomplete information logln("Testing parse w/ just year..."); SimpleDateFormat fmt(UnicodeString("y"), Locale("ja_JP@calendar=japanese"), status); CHECK(status, "creating date format instance"); UErrorCode s2 = U_ZERO_ERROR; cal2->clear(); UnicodeString samplestr("1"); logln(UnicodeString() + "Test Year: " + samplestr); aDate = fmt.parse(samplestr, s2); ParsePosition pp=0; fmt.parse(samplestr, *cal2, pp); CHECK(s2, "parsing the 1 string"); logln("*cal2 after 1 parse:"); str.remove(); fmt2.format(aDate, str); logln(UnicodeString() + "as Gregorian Calendar: " + str); cal2->setTime(aDate, s2); int32_t gotYear = cal2->get(UCAL_YEAR, s2); int32_t gotEra = cal2->get(UCAL_ERA, s2); int32_t expectYear = 1; int32_t expectEra = JapaneseCalendar::getCurrentEra(); if((gotYear!=1) || (gotEra != expectEra)) { errln(UnicodeString("parse "+samplestr+" of 'y' as Japanese Calendar, expected year ") + expectYear + UnicodeString(" and era ") + expectEra +", but got year " + gotYear + " and era " + gotEra + " (Gregorian:" + str +")"); } else { logln(UnicodeString() + " year: " + gotYear + ", era: " + gotEra); } } } void IntlCalendarTest::TestForceGannenNumbering() { UErrorCode status; const char* locID = "ja_JP@calendar=japanese"; Locale loc(locID); UDate refDate = 600336000000.0; // 1989 Jan 9 Monday = Heisei 1 UnicodeString patText(u"Gy年M月d日",-1); UnicodeString patNumr(u"GGGGGy/MM/dd",-1); UnicodeString skelText(u"yMMMM",-1); // Test Gannen year forcing status = U_ZERO_ERROR; LocalPointer testFmt1(new SimpleDateFormat(patText, loc, status)); LocalPointer testFmt2(new SimpleDateFormat(patNumr, loc, status)); if (U_FAILURE(status)) { dataerrln("Fail in new SimpleDateFormat locale %s: %s", locID, u_errorName(status)); } else { UnicodeString testString1, testString2; testString1 = testFmt1->format(refDate, testString1); if (testString1.length() < 3 || testString1.charAt(2) != 0x5143) { errln(UnicodeString("Formatting year 1 in created text style, got " + testString1 + " but expected 3rd char to be 0x5143")); } testString2 = testFmt2->format(refDate, testString2); if (testString2.length() < 2 || testString2.charAt(1) != 0x0031) { errln(UnicodeString("Formatting year 1 in created numeric style, got " + testString2 + " but expected 2nd char to be 1")); } // Now switch the patterns and verify that Gannen use follows the pattern testFmt1->applyPattern(patNumr); testString1.remove(); testString1 = testFmt1->format(refDate, testString1); if (testString1.length() < 2 || testString1.charAt(1) != 0x0031) { errln(UnicodeString("Formatting year 1 in applied numeric style, got " + testString1 + " but expected 2nd char to be 1")); } testFmt2->applyPattern(patText); testString2.remove(); testString2 = testFmt2->format(refDate, testString2); if (testString2.length() < 3 || testString2.charAt(2) != 0x5143) { errln(UnicodeString("Formatting year 1 in applied text style, got " + testString2 + " but expected 3rd char to be 0x5143")); } } // Test disabling of Gannen year forcing status = U_ZERO_ERROR; LocalPointer dtpgen(DateTimePatternGenerator::createInstance(loc, status)); if (U_FAILURE(status)) { dataerrln("Fail in DateTimePatternGenerator::createInstance locale %s: %s", locID, u_errorName(status)); } else { UnicodeString pattern = dtpgen->getBestPattern(skelText, status); if (U_FAILURE(status)) { dataerrln("Fail in DateTimePatternGenerator::getBestPattern locale %s: %s", locID, u_errorName(status)); } else { // Use override string of "" LocalPointer testFmt3(new SimpleDateFormat(pattern, UnicodeString(""), loc, status)); if (U_FAILURE(status)) { dataerrln("Fail in new SimpleDateFormat locale %s: %s", locID, u_errorName(status)); } else { UnicodeString testString3; testString3 = testFmt3->format(refDate, testString3); if (testString3.length() < 3 || testString3.charAt(2) != 0x0031) { errln(UnicodeString("Formatting year 1 with Gannen disabled, got " + testString3 + " but expected 3rd char to be 1")); } } } } } /** * Verify the Persian Calendar. */ void IntlCalendarTest::TestPersian() { UDate timeA = Calendar::getNow(); Calendar *cal; UErrorCode status = U_ZERO_ERROR; cal = Calendar::createInstance("fa_IR@calendar=persian", status); CHECK(status, UnicodeString("Creating fa_IR@calendar=persian calendar")); // Sanity check the calendar UDate timeB = Calendar::getNow(); UDate timeCal = cal->getTime(status); if(!(timeA <= timeCal) || !(timeCal <= timeB)) { errln((UnicodeString)"Error: Calendar time " + timeCal + " is not within sampled times [" + timeA + " to " + timeB + "]!"); } // end sanity check // Test various dates to be sure of validity int32_t data[] = { 1925, 4, 24, 1304, 2, 4, 2011, 1, 11, 1389, 10, 21, 1986, 2, 25, 1364, 12, 6, 1934, 3, 14, 1312, 12, 23, 2090, 3, 19, 1468, 12, 29, 2007, 2, 22, 1385, 12, 3, 1969, 12, 31, 1348, 10, 10, 1945, 11, 12, 1324, 8, 21, 1925, 3, 31, 1304, 1, 11, 1996, 3, 19, 1374, 12, 29, 1996, 3, 20, 1375, 1, 1, 1997, 3, 20, 1375, 12, 30, 1997, 3, 21, 1376, 1, 1, 2008, 3, 19, 1386, 12, 29, 2008, 3, 20, 1387, 1, 1, 2004, 3, 19, 1382, 12, 29, 2004, 3, 20, 1383, 1, 1, 2006, 3, 20, 1384, 12, 29, 2006, 3, 21, 1385, 1, 1, 2005, 4, 20, 1384, 1, 31, 2005, 4, 21, 1384, 2, 1, 2005, 5, 21, 1384, 2, 31, 2005, 5, 22, 1384, 3, 1, 2005, 6, 21, 1384, 3, 31, 2005, 6, 22, 1384, 4, 1, 2005, 7, 22, 1384, 4, 31, 2005, 7, 23, 1384, 5, 1, 2005, 8, 22, 1384, 5, 31, 2005, 8, 23, 1384, 6, 1, 2005, 9, 22, 1384, 6, 31, 2005, 9, 23, 1384, 7, 1, 2005, 10, 22, 1384, 7, 30, 2005, 10, 23, 1384, 8, 1, 2005, 11, 21, 1384, 8, 30, 2005, 11, 22, 1384, 9, 1, 2005, 12, 21, 1384, 9, 30, 2005, 12, 22, 1384, 10, 1, 2006, 1, 20, 1384, 10, 30, 2006, 1, 21, 1384, 11, 1, 2006, 2, 19, 1384, 11, 30, 2006, 2, 20, 1384, 12, 1, 2006, 3, 20, 1384, 12, 29, 2006, 3, 21, 1385, 1, 1, // The 2820-year cycle arithmetical algorithm would fail this one. 2025, 3, 21, 1404, 1, 1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; Calendar *grego = Calendar::createInstance("fa_IR@calendar=gregorian", status); for (int32_t i=0; data[i]!=-1; ) { int32_t gregYear = data[i++]; int32_t gregMonth = data[i++]-1; int32_t gregDay = data[i++]; int32_t persYear = data[i++]; int32_t persMonth = data[i++]-1; int32_t persDay = data[i++]; // Test conversion from Persian dates grego->clear(); grego->set(gregYear, gregMonth, gregDay); cal->clear(); cal->set(persYear, persMonth, persDay); UDate persTime = cal->getTime(status); UDate gregTime = grego->getTime(status); if (persTime != gregTime) { errln(UnicodeString("Expected ") + gregTime + " but got " + persTime); } // Test conversion to Persian dates cal->clear(); cal->setTime(gregTime, status); int32_t computedYear = cal->get(UCAL_YEAR, status); int32_t computedMonth = cal->get(UCAL_MONTH, status); int32_t computedDay = cal->get(UCAL_DATE, status); if ((persYear != computedYear) || (persMonth != computedMonth) || (persDay != computedDay)) { errln(UnicodeString("Expected ") + persYear + "/" + (persMonth+1) + "/" + persDay + " but got " + computedYear + "/" + (computedMonth+1) + "/" + computedDay); } } delete cal; delete grego; } void IntlCalendarTest::TestPersianFormat() { UErrorCode status = U_ZERO_ERROR; SimpleDateFormat fmt(UnicodeString("MMMM d, yyyy G"), Locale(" en_US@calendar=persian"), status); CHECK(status, "creating date format instance"); SimpleDateFormat fmt2(UnicodeString("MMMM d, yyyy G"), Locale("en_US@calendar=gregorian"), status); CHECK(status, "creating gregorian date format instance"); UnicodeString gregorianDate("January 18, 2007 AD"); UDate aDate = fmt2.parse(gregorianDate, status); UnicodeString str; fmt.format(aDate, str); logln(UnicodeString() + "as Persian Calendar: " + escape(str)); UnicodeString expected("Dey 28, 1385 AP"); if(str != expected) { errln("Expected " + escape(expected) + " but got " + escape(str)); } UDate otherDate = fmt.parse(expected, status); if(otherDate != aDate) { UnicodeString str3; fmt.format(otherDate, str3); errln("Parse incorrect of " + escape(expected) + " - wanted " + aDate + " but got " + otherDate + ", " + escape(str3)); } else { logln("Parsed OK: " + expected); } // Two digit year parsing problem #4732 fmt.applyPattern("yy-MM-dd"); str.remove(); fmt.format(aDate, str); expected.setTo("85-10-28"); if(str != expected) { errln("Expected " + escape(expected) + " but got " + escape(str)); } otherDate = fmt.parse(expected, status); if (otherDate != aDate) { errln("Parse incorrect of " + escape(expected) + " - wanted " + aDate + " but got " + otherDate); } else { logln("Parsed OK: " + expected); } CHECK(status, "Error occurred testing Persian Calendar in English "); } void IntlCalendarTest::TestConsistencyGregorian() { checkConsistency("en@calendar=gregorian"); } void IntlCalendarTest::TestConsistencyIndian() { checkConsistency("en@calendar=indian"); } void IntlCalendarTest::TestConsistencyHebrew() { checkConsistency("en@calendar=hebrew"); } void IntlCalendarTest::TestConsistencyIslamic() { checkConsistency("en@calendar=islamic"); } void IntlCalendarTest::TestConsistencyIslamicRGSA() { checkConsistency("en@calendar=islamic-rgsa"); } void IntlCalendarTest::TestConsistencyIslamicTBLA() { checkConsistency("en@calendar=islamic-tbla"); } void IntlCalendarTest::TestConsistencyIslamicUmalqura() { checkConsistency("en@calendar=islamic-umalqura"); } void IntlCalendarTest::TestConsistencyIslamicCivil() { checkConsistency("en@calendar=islamic-civil"); } void IntlCalendarTest::TestConsistencyCoptic() { checkConsistency("en@calendar=coptic"); } void IntlCalendarTest::TestConsistencyEthiopic() { checkConsistency("en@calendar=ethiopic"); } void IntlCalendarTest::TestConsistencyROC() { checkConsistency("en@calendar=roc"); } void IntlCalendarTest::TestConsistencyChinese() { checkConsistency("en@calendar=chinese"); } void IntlCalendarTest::TestConsistencyDangi() { checkConsistency("en@calendar=dangi"); } void IntlCalendarTest::TestConsistencyPersian() { checkConsistency("en@calendar=persian"); } void IntlCalendarTest::TestConsistencyBuddhist() { checkConsistency("en@calendar=buddhist"); } void IntlCalendarTest::TestConsistencyJapanese() { checkConsistency("en@calendar=japanese"); } void IntlCalendarTest::TestConsistencyEthiopicAmeteAlem() { checkConsistency("en@calendar=ethiopic-amete-alem"); } void IntlCalendarTest::checkConsistency(const char* locale) { // Check 2.5 years in quick mode and 8000 years in exhaustive mode. int32_t numOfDaysToTest = static_cast((quick ? 2.5 : 8000) * 365); constexpr int32_t msInADay = 1000*60*60*24; std::string msg("TestConsistency"); IcuTestErrorCode status(*this, (msg + locale).c_str()); // g is just for debugging messages. std::unique_ptr g(Calendar::createInstance("en", status)); g->setTimeZone(*(TimeZone::getGMT())); std::unique_ptr base(Calendar::createInstance(locale, status)); if (status.errIfFailureAndReset("Cannot create calendar %s", locale)) { return; } UDate test = Calendar::getNow(); base->setTimeZone(*(TimeZone::getGMT())); int32_t j; int lastDay = 1; std::unique_ptr r(base->clone()); for (j = 0; j < numOfDaysToTest; j++, test -= msInADay) { status.errIfFailureAndReset(); g->setTime(test, status); if (status.errIfFailureAndReset("Cannot set time")) { return; } base->clear(); base->setTime(test, status); if (status.errIfFailureAndReset("Cannot set time")) { return; } // First, we verify the date from base is decrease one day from the // last day unless the last day is 1. int32_t cday = base->get(UCAL_DATE, status); if (U_FAILURE(status)) { UErrorCode localStatus = U_ZERO_ERROR; if (status.errIfFailureAndReset( "Cannot get the %dth date for %f %d %d/%d/%d\n", j, test, g->get(UCAL_ERA, localStatus), g->get(UCAL_YEAR, localStatus), (g->get(UCAL_MONTH, localStatus) + 1), g->get(UCAL_DATE, localStatus))) { return; } } if (lastDay == 1) { lastDay = cday; } else { if (cday != lastDay-1) { // Ignore if it is the last day before Gregorian Calendar switch on // 1582 Oct 4 if (g->get(UCAL_YEAR, status) == 1582 && (g->get(UCAL_MONTH, status) + 1) == 10 && g->get(UCAL_DATE, status) == 4) { lastDay = 5; } else { errln((UnicodeString) "Day is not one less from previous date for " "Gregorian(e=" + g->get(UCAL_ERA, status) + " " + g->get(UCAL_YEAR, status) + "/" + (g->get(UCAL_MONTH, status) + 1) + "/" + g->get(UCAL_DATE, status) + ") " + locale + "(" + base->get(UCAL_ERA, status) + " " + base->get(UCAL_YEAR, status) + "/" + (base->get(UCAL_MONTH, status) + 1 ) + "/" + base->get(UCAL_DATE, status) + ")"); status.errIfFailureAndReset(); return; } } lastDay--; } // Second, we verify the month is in reasonale range. int32_t cmonth = base->get(UCAL_MONTH, status); if (cmonth < 0 || cmonth > 13) { errln((UnicodeString) "Month is out of range Gregorian(e=" + g->get(UCAL_ERA, status) + " " + g->get(UCAL_YEAR, status) + "/" + (g->get(UCAL_MONTH, status) + 1) + "/" + g->get(UCAL_DATE, status) + ") " + locale + "(" + base->get(UCAL_ERA, status) + " " + base->get(UCAL_YEAR, status) + "/" + (base->get(UCAL_MONTH, status) + 1 ) + "/" + base->get(UCAL_DATE, status) + ")"); status.errIfFailureAndReset(); return; } // Third, we verify the set function can round trip the time back. r->clear(); for (int32_t f = 0; f < UCAL_FIELD_COUNT; f++) { UCalendarDateFields ut = (UCalendarDateFields)f; r->set(ut, base->get(ut, status)); } UDate result = r->getTime(status); if (status.errIfFailureAndReset("Cannot get time %s", locale)) { return; } if (test != result) { errln((UnicodeString)"Round trip conversion produces different " "time from " + test + " to " + result + " delta: " + (result - test) + " Gregorian(e=" + g->get(UCAL_ERA, status) + " " + g->get(UCAL_YEAR, status) + "/" + (g->get(UCAL_MONTH, status) + 1) + "/" + g->get(UCAL_DATE, status) + ") "); status.errIfFailureAndReset(); return; } } status.errIfFailureAndReset(); } void IntlCalendarTest::simpleTest(const Locale& loc, const UnicodeString& expect, UDate expectDate, UErrorCode& status) { UnicodeString tmp; UDate d; DateFormat *fmt0 = DateFormat::createDateTimeInstance(DateFormat::kFull, DateFormat::kFull); logln("Try format/parse of " + (UnicodeString)loc.getName()); DateFormat *fmt2 = DateFormat::createDateInstance(DateFormat::kFull, loc); if(fmt2) { fmt2->format(expectDate, tmp); logln(escape(tmp) + " ( in locale " + loc.getName() + ")"); if(tmp != expect) { errln(UnicodeString("Failed to format " ) + loc.getName() + " expected " + escape(expect) + " got " + escape(tmp) ); } d = fmt2->parse(expect,status); CHECK(status, "Error occurred parsing " + UnicodeString(loc.getName())); if(d != expectDate) { fmt2->format(d,tmp); errln(UnicodeString("Failed to parse " ) + escape(expect) + ", " + loc.getName() + " expect " + (double)expectDate + " got " + (double)d + " " + escape(tmp)); logln( "wanted " + escape(fmt0->format(expectDate,tmp.remove())) + " but got " + escape(fmt0->format(d,tmp.remove()))); } delete fmt2; } else { errln((UnicodeString)"Can't create " + loc.getName() + " date instance"); } delete fmt0; } void IntlCalendarTest::TestBug21043Indian() { IcuTestErrorCode status(*this, "TestBug21043Indian"); std::unique_ptr cal( Calendar::createInstance("en@calendar=indian", status)); std::unique_ptr g( Calendar::createInstance("en@calendar=gregorian", status)); // set to 10 BC g->set(UCAL_ERA, 0); g->set(UCAL_YEAR, 10); g->set(UCAL_MONTH, 1); g->set(UCAL_DATE, 1); cal->setTime(g->getTime(status), status); int32_t m = cal->get(UCAL_MONTH, status); if (m < 0 || m > 11) { errln( u"Month should be between 0 and 11 in India calendar"); } } void IntlCalendarTest::TestBug21044Hebrew() { IcuTestErrorCode status(*this, "TestBug21044Hebrew"); std::unique_ptr cal( Calendar::createInstance("en@calendar=hebrew", status)); std::unique_ptr g( Calendar::createInstance("en@calendar=gregorian", status)); // set to 3771/10/27 BC which is before 3760 BC. g->set(UCAL_ERA, 0); g->set(UCAL_YEAR, 3771); g->set(UCAL_MONTH, 9); g->set(UCAL_DATE, 27); cal->setTime(g->getTime(status), status); if (status.errIfFailureAndReset( "Cannot set date. Got error %s", u_errorName(status))) { return; } int32_t y = cal->get(UCAL_YEAR, status); int32_t m = cal->get(UCAL_MONTH, status); int32_t d = cal->get(UCAL_DATE, status); if (status.errIfFailureAndReset( "Cannot get date. Got error %s", u_errorName(status))) { return; } if (y > 0 || m < 0 || m > 12 || d < 0 || d > 32) { errln((UnicodeString)"Out of rage!\nYear " + y + " should be " + "negative number before 1AD.\nMonth " + m + " should " + "be between 0 and 12 in Hebrew calendar.\nDate " + d + " should be between 0 and 32 in Islamic calendar."); } } void IntlCalendarTest::TestBug21045Islamic() { IcuTestErrorCode status(*this, "TestBug21045Islamic"); std::unique_ptr cal( Calendar::createInstance("en@calendar=islamic", status)); std::unique_ptr g( Calendar::createInstance("en@calendar=gregorian", status)); // set to 500 AD before 622 AD. g->set(UCAL_ERA, 1); g->set(UCAL_YEAR, 500); g->set(UCAL_MONTH, 1); g->set(UCAL_DATE, 1); cal->setTime(g->getTime(status), status); int32_t m = cal->get(UCAL_MONTH, status); if (m < 0 || m > 11) { errln(u"Month should be between 1 and 12 in Islamic calendar"); } } void IntlCalendarTest::TestBug21046IslamicUmalqura() { IcuTestErrorCode status(*this, "TestBug21046IslamicUmalqura"); std::unique_ptr cal( Calendar::createInstance("en@calendar=islamic-umalqura", status)); std::unique_ptr g( Calendar::createInstance("en@calendar=gregorian", status)); // set to 195366 BC g->set(UCAL_ERA, 0); g->set(UCAL_YEAR, 195366); g->set(UCAL_MONTH, 1); g->set(UCAL_DATE, 1); cal->setTime(g->getTime(status), status); int32_t y = cal->get(UCAL_YEAR, status); int32_t m = cal->get(UCAL_MONTH, status); int32_t d = cal->get(UCAL_DATE, status); if (y > 0 || m < 0 || m > 11 || d < 0 || d > 32) { errln((UnicodeString)"Out of rage!\nYear " + y + " should be " + "negative number before 1AD.\nMonth " + m + " should " + "be between 0 and 11 in Islamic calendar.\nDate " + d + " should be between 0 and 32 in Islamic calendar."); } } #undef CHECK #endif /* #if !UCONFIG_NO_FORMATTING */ //eof