// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2016, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "dtfmrgts.h" #include "unicode/timezone.h" #include "unicode/gregocal.h" #include "unicode/smpdtfmt.h" #include "unicode/datefmt.h" #include "unicode/simpletz.h" #include "unicode/resbund.h" #include "cmemory.h" // ***************************************************************************** // class DateFormatRegressionTest // ***************************************************************************** #define CASE(id,test) case id: name = #test; if (exec) { logln(#test "---"); logln((UnicodeString)""); test(); } break; void DateFormatRegressionTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { // if (exec) logln((UnicodeString)"TestSuite DateFormatRegressionTest"); switch (index) { CASE(0,Test4029195) CASE(1,Test4052408) CASE(2,Test4056591) CASE(3,Test4059917) CASE(4,Test4060212) CASE(5,Test4061287) CASE(6,Test4065240) CASE(7,Test4071441) CASE(8,Test4073003) CASE(9,Test4089106) CASE(10,Test4100302) CASE(11,Test4101483) CASE(12,Test4103340) CASE(13,Test4103341) CASE(14,Test4104136) CASE(15,Test4104522) CASE(16,Test4106807) CASE(17,Test4108407) CASE(18,Test4134203) CASE(19,Test4151631) CASE(20,Test4151706) CASE(21,Test4162071) CASE(22,Test4182066) CASE(23,Test4210209) CASE(24,Test714) CASE(25,Test1684) CASE(26,Test5554) CASE(27,Test9237) CASE(28,TestParsing) CASE(29,Test12902_yWithGregoCalInThaiLoc) CASE(30,TestT10334) CASE(31,TestT10619) CASE(32,TestT10855) CASE(33,TestT10858) CASE(34,TestT10906) CASE(35,TestT13380) default: name = ""; break; } } /** * @bug 4029195 */ void DateFormatRegressionTest::Test4029195(void) { UErrorCode status = U_ZERO_ERROR; UDate today = Calendar::getNow(); logln((UnicodeString) "today: " + today); SimpleDateFormat *sdf = (SimpleDateFormat*) DateFormat::createDateInstance(); if (failure(status, "SimpleDateFormat::createDateInstance")) { return; } UnicodeString pat; if(sdf == NULL){ dataerrln("Error calling DateFormat::createDateTimeInstance"); return; } pat = sdf->toPattern(pat); logln("pattern: " + pat); UnicodeString fmtd; FieldPosition pos(FieldPosition::DONT_CARE); fmtd = sdf->format(today, fmtd, pos); logln("today: " + fmtd); sdf->applyPattern("G yyyy DDD"); UnicodeString todayS; todayS = sdf->format(today, todayS, pos); logln("today: " + todayS); //try { today = sdf->parse(todayS, status); failure(status, "sdf->parse"); logln((UnicodeString)"today date: " + today); /*} catch(Exception e) { logln("Error reparsing date: " + e.getMessage()); }*/ //try { UnicodeString rt; rt = sdf->format(sdf->parse(todayS, status), rt, pos); failure(status, "sdf->parse"); logln("round trip: " + rt); if(rt != todayS) errln("Fail: Want " + todayS + " Got " + rt); /*} catch (ParseException e) { errln("Fail: " + e); e.printStackTrace(); }*/ delete sdf; } /** * @bug 4052408 */ void DateFormatRegressionTest::Test4052408(void) { DateFormat *fmt = DateFormat::createDateTimeInstance(DateFormat::SHORT, DateFormat::SHORT, Locale::getUS()); if (fmt == NULL) { dataerrln("Error calling DateFormat::createDateTimeInstance"); return; } UDate dt = date(97, UCAL_MAY, 3, 8, 55); UnicodeString str; str = fmt->format(dt, str); logln(str); if(str != "5/3/97, 8:55 AM") errln("Fail: Test broken; Want 5/3/97 8:55 AM Got " + str); UnicodeString expected[] = { (UnicodeString) "", //"ERA_FIELD", (UnicodeString) "97", //"YEAR_FIELD", (UnicodeString) "5", //"MONTH_FIELD", (UnicodeString) "3", //"DATE_FIELD", (UnicodeString) "", //"HOUR_OF_DAY1_FIELD", (UnicodeString) "", //"HOUR_OF_DAY0_FIELD", (UnicodeString) "55", //"MINUTE_FIELD", (UnicodeString) "", //"SECOND_FIELD", (UnicodeString) "", //"MILLISECOND_FIELD", (UnicodeString) "", //"DAY_OF_WEEK_FIELD", (UnicodeString) "", //"DAY_OF_YEAR_FIELD", (UnicodeString) "", //"DAY_OF_WEEK_IN_MONTH_FIELD", (UnicodeString) "", //"WEEK_OF_YEAR_FIELD", (UnicodeString) "", //"WEEK_OF_MONTH_FIELD", (UnicodeString) "AM", //"AM_PM_FIELD", (UnicodeString) "8", //"HOUR1_FIELD", (UnicodeString) "", //"HOUR0_FIELD", (UnicodeString) "" //"TIMEZONE_FIELD" }; //Hashtable expected;// = new Hashtable(); //expected.put(new LongKey(DateFormat.MONTH_FIELD), "5"); //expected.put(new LongKey(DateFormat.DATE_FIELD), "3"); //expected.put(new LongKey(DateFormat.YEAR_FIELD), "97"); //expected.put(new LongKey(DateFormat.HOUR1_FIELD), "8"); //expected.put(new LongKey(DateFormat.MINUTE_FIELD), "55"); //expected.put(new LongKey(DateFormat.AM_PM_FIELD), "AM"); //StringBuffer buf = new StringBuffer(); UnicodeString fieldNames[] = { (UnicodeString) "ERA_FIELD", (UnicodeString) "YEAR_FIELD", (UnicodeString) "MONTH_FIELD", (UnicodeString) "DATE_FIELD", (UnicodeString) "HOUR_OF_DAY1_FIELD", (UnicodeString) "HOUR_OF_DAY0_FIELD", (UnicodeString) "MINUTE_FIELD", (UnicodeString) "SECOND_FIELD", (UnicodeString) "MILLISECOND_FIELD", (UnicodeString) "DAY_OF_WEEK_FIELD", (UnicodeString) "DAY_OF_YEAR_FIELD", (UnicodeString) "DAY_OF_WEEK_IN_MONTH_FIELD", (UnicodeString) "WEEK_OF_YEAR_FIELD", (UnicodeString) "WEEK_OF_MONTH_FIELD", (UnicodeString) "AM_PM_FIELD", (UnicodeString) "HOUR1_FIELD", (UnicodeString) "HOUR0_FIELD", (UnicodeString) "TIMEZONE_FIELD" }; UBool pass = TRUE; for(int i = 0; i <= 17; ++i) { FieldPosition pos(i); UnicodeString buf; fmt->format(dt, buf, pos); //char[] dst = new char[pos.getEndIndex() - pos.getBeginIndex()]; UnicodeString dst; buf.extractBetween(pos.getBeginIndex(), pos.getEndIndex(), dst); UnicodeString str(dst); logln((UnicodeString)"" + i + (UnicodeString)": " + fieldNames[i] + (UnicodeString)", \"" + str + (UnicodeString)"\", " + pos.getBeginIndex() + (UnicodeString)", " + pos.getEndIndex()); UnicodeString exp = expected[i]; if((exp.length() == 0 && str.length() == 0) || str == exp) logln(" ok"); else { errln(UnicodeString(" expected ") + exp); pass = FALSE; } } if( ! pass) errln("Fail: FieldPosition not set right by DateFormat"); delete fmt; } /** * @bug 4056591 * Verify the function of the [s|g]et2DigitYearStart() API. */ void DateFormatRegressionTest::Test4056591(void) { UErrorCode status = U_ZERO_ERROR; //try { SimpleDateFormat *fmt = new SimpleDateFormat(UnicodeString("yyMMdd"), Locale::getUS(), status); if (failure(status, "new SimpleDateFormat", TRUE)) { delete fmt; return; } UDate start = date(1809-1900, UCAL_DECEMBER, 25); fmt->set2DigitYearStart(start, status); failure(status, "fmt->setTwoDigitStartDate"); if( (fmt->get2DigitYearStart(status) != start) || failure(status, "get2DigitStartDate")) errln("get2DigitYearStart broken"); UDate dates [] = { date(1809-1900, UCAL_DECEMBER, 25), date(1909-1900, UCAL_DECEMBER, 24), date(1809-1900, UCAL_DECEMBER, 26), date(1861-1900, UCAL_DECEMBER, 25), }; UnicodeString strings [] = { (UnicodeString) "091225", (UnicodeString) "091224", (UnicodeString) "091226", (UnicodeString) "611225" }; /*Object[] DATA = { "091225", new Date(1809-1900, Calendar.DECEMBER, 25), "091224", new Date(1909-1900, Calendar.DECEMBER, 24), "091226", new Date(1809-1900, Calendar.DECEMBER, 26), "611225", new Date(1861-1900, Calendar.DECEMBER, 25), };*/ for(int i = 0; i < 4; i++) { UnicodeString s = strings[i]; UDate exp = dates[i]; UDate got = fmt->parse(s, status); failure(status, "fmt->parse"); logln(s + " -> " + got + "; exp " + exp); if(got != exp) errln("set2DigitYearStart broken"); } /*} catch (ParseException e) { errln("Fail: " + e); e.printStackTrace(); }*/ delete fmt; } /** * @bug 4059917 */ void DateFormatRegressionTest::Test4059917(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString myDate; SimpleDateFormat fmt(UnicodeString(u"yyyy/MM/dd"), status ); if (failure(status, "new SimpleDateFormat", TRUE)) return; myDate = "1997/01/01"; aux917( &fmt, myDate ); SimpleDateFormat fmt2( UnicodeString(u"yyyyMMdd"), status ); if(failure(status, "new SimpleDateFormat")) return; myDate = "19970101"; aux917(&fmt2, myDate ); } void DateFormatRegressionTest::aux917( SimpleDateFormat *fmt, UnicodeString& str ) { //try { UnicodeString pat; pat = fmt->toPattern(pat); logln( "==================" ); logln( "testIt: pattern=" + pat + " string=" + str ); Formattable o; //Object o; ParsePosition pos(0); fmt->parseObject( str, o, pos ); //logln( UnicodeString("Parsed object: ") + o ); UErrorCode status = U_ZERO_ERROR; UnicodeString formatted; FieldPosition poss(FieldPosition::DONT_CARE); formatted = fmt->format( o, formatted, poss, status ); failure(status, "fmt->format"); logln( "Formatted string: " + formatted ); if( formatted != str) errln("Fail: Want " + str + " Got " + formatted); /*} catch (ParseException e) { errln("Fail: " + e); e.printStackTrace(); }*/ } /** * @bug 4060212 */ void DateFormatRegressionTest::Test4060212(void) { UnicodeString dateString = "1995-040.05:01:29"; logln( "dateString= " + dateString ); logln("Using yyyy-DDD.hh:mm:ss"); UErrorCode status = U_ZERO_ERROR; SimpleDateFormat formatter(UnicodeString("yyyy-DDD.hh:mm:ss"), status); if (failure(status, "new SimpleDateFormat", TRUE)) return; ParsePosition pos(0); UDate myDate = formatter.parse( dateString, pos ); UnicodeString myString; LocalPointer fmt(DateFormat::createDateTimeInstance( DateFormat::FULL, DateFormat::LONG)); if (!fmt.isValid()) { dataerrln("Error calling DateFormat::createDateTimeInstance"); return; } myString = fmt->format( myDate, myString); logln( myString ); LocalPointer cal(new GregorianCalendar(status)); failure(status, "new GregorianCalendar"); cal->setTime(myDate, status); failure(status, "cal->setTime"); if ((cal->get(UCAL_DAY_OF_YEAR, status) != 40) || failure(status, "cal->get")) errln((UnicodeString) "Fail: Got " + cal->get(UCAL_DAY_OF_YEAR, status) + " Want 40"); // this is an odd usage of "ddd" and it doesn't // work now that date values are range checked per #3579. logln("Using yyyy-ddd.hh:mm:ss"); SimpleDateFormat formatter2(UnicodeString(u"yyyy-ddd.hh:mm:ss"), status); if(failure(status, "new SimpleDateFormat")) return; pos.setIndex(0); myDate = formatter2.parse( dateString, pos ); myString = fmt->format( myDate, myString ); logln( myString ); cal->setTime(myDate, status); failure(status, "cal->setTime"); if ((cal->get(UCAL_DAY_OF_YEAR, status) != 40) || failure(status, "cal->get")) errln((UnicodeString) "Fail: Got " + cal->get(UCAL_DAY_OF_YEAR, status) + " Want 40"); } /** * @bug 4061287 */ void DateFormatRegressionTest::Test4061287(void) { UErrorCode status = U_ZERO_ERROR; SimpleDateFormat *df = new SimpleDateFormat(UnicodeString("dd/MM/yyyy"), status); if (U_FAILURE(status)) { dataerrln("Fail new SimpleDateFormat: %s", u_errorName(status)); delete df; return; } failure(status, "new SimpleDateFormat"); //try { logln(UnicodeString("") + df->parse("35/01/1971", status)); failure(status, "df->parse(\"35/01/1971\")"); //logln(df.parse("35/01/1971").toString()); //} /*catch (ParseException e) { errln("Fail: " + e); e.printStackTrace(); }*/ df->setLenient(FALSE); UBool ok = FALSE; //try { logln(UnicodeString("") + df->parse("35/01/1971", status)); if(U_FAILURE(status)) ok = TRUE; //logln(df.parse("35/01/1971").toString()); //} catch (ParseException e) {ok=TRUE;} if(!ok) errln("Fail: Lenient not working"); delete df; } /** * @bug 4065240 */ void DateFormatRegressionTest::Test4065240(void) { UDate curDate; DateFormat *shortdate, *fulldate; UnicodeString strShortDate, strFullDate; Locale saveLocale = Locale::getDefault(); TimeZone *saveZone = TimeZone::createDefault(); UErrorCode status = U_ZERO_ERROR; //try { Locale *curLocale = new Locale("de","DE"); Locale::setDefault(*curLocale, status); failure(status, "Locale::setDefault"); // {sfb} adoptDefault instead of setDefault //TimeZone::setDefault(TimeZone::createTimeZone("EST")); TimeZone::adoptDefault(TimeZone::createTimeZone("EST")); curDate = date(98, 0, 1); shortdate = DateFormat::createDateInstance(DateFormat::SHORT); if (shortdate == NULL){ dataerrln("Error calling DateFormat::createDateInstance"); return; } fulldate = DateFormat::createDateTimeInstance(DateFormat::LONG, DateFormat::LONG); if (fulldate == NULL){ dataerrln("Error calling DateFormat::createDateTimeInstance"); return; } strShortDate = "The current date (short form) is "; UnicodeString temp; temp = shortdate->format(curDate, temp); strShortDate += temp; strFullDate = "The current date (long form) is "; UnicodeString temp2; fulldate->format(curDate, temp2); strFullDate += temp2; logln(strShortDate); logln(strFullDate); // {sfb} What to do with resource bundle stuff????? // Check to see if the resource is present; if not, we can't test ResourceBundle *bundle = new ResourceBundle( NULL, *curLocale, status); failure(status, "new ResourceBundle"); //(UnicodeString) "java.text.resources.DateFormatZoneData", curLocale); // {sfb} API change to ResourceBundle -- add getLocale() /*if (bundle->getLocale().getLanguage(temp) == UnicodeString("de")) { // UPDATE THIS AS ZONE NAME RESOURCE FOR in de_DE is updated if (!strFullDate.endsWith(UnicodeString("GMT-05:00"))) errln("Fail: Want GMT-05:00"); } else { logln("*** TEST COULD NOT BE COMPLETED BECAUSE DateFormatZoneData ***"); logln("*** FOR LOCALE de OR de_DE IS MISSING ***"); }*/ //} //finally { Locale::setDefault(saveLocale, status); failure(status, "Locale::setDefault"); TimeZone::setDefault(*saveZone); //} delete shortdate; delete fulldate; delete saveZone; delete curLocale; delete bundle; } /* DateFormat.equals is too narrowly defined. As a result, MessageFormat does not work correctly. DateFormat.equals needs to be written so that the Calendar sub-object is not compared using Calendar.equals, but rather compared for equivalency. This may necessitate adding a (package private) method to Calendar to test for equivalency. Currently this bug breaks MessageFormat.toPattern */ /** * @bug 4071441 */ void DateFormatRegressionTest::Test4071441(void) { DateFormat *fmtA = DateFormat::createInstance(); DateFormat *fmtB = DateFormat::createInstance(); if (fmtA == NULL || fmtB == NULL){ dataerrln("Error calling DateFormat::createInstance"); delete fmtA; delete fmtB; return; } // {sfb} Is it OK to cast away const here? Calendar *calA = (Calendar*) fmtA->getCalendar(); Calendar *calB = (Calendar*) fmtB->getCalendar(); if(!calA || !calB) { errln("Couldn't get proper calendars, exiting"); delete fmtA; delete fmtB; return; } UDate epoch = date(0, 0, 0); UDate xmas = date(61, UCAL_DECEMBER, 25); UErrorCode status = U_ZERO_ERROR; calA->setTime(epoch, status); failure(status, "calA->setTime"); calB->setTime(epoch, status); failure(status, "calB->setTime"); if (*calA != *calB) errln("Fail: Can't complete test; Calendar instances unequal"); if (*fmtA != *fmtB) errln("Fail: DateFormat unequal when Calendars equal"); calB->setTime(xmas, status); failure(status, "calB->setTime"); if (*calA == *calB) errln("Fail: Can't complete test; Calendar instances equal"); if (*fmtA != *fmtB) errln("Fail: DateFormat unequal when Calendars equivalent"); logln("DateFormat.equals ok"); delete fmtA; delete fmtB; } /* The java.text.DateFormat.parse(String) method expects for the US locale a string formatted according to mm/dd/yy and parses it correctly. When given a string mm/dd/yyyy [sic] it only parses up to the first two y's, typically resulting in a date in the year 1919. Please extend the parsing method(s) to handle strings with four-digit year values (probably also applicable to various other locales. */ /** * @bug 4073003 */ void DateFormatRegressionTest::Test4073003(void) { //try { UErrorCode ec = U_ZERO_ERROR; SimpleDateFormat fmt("MM/dd/yy", Locale::getUK(), ec); if (U_FAILURE(ec)) { dataerrln("FAIL: SimpleDateFormat constructor - %s", u_errorName(ec)); return; } UnicodeString tests [] = { (UnicodeString) "12/25/61", (UnicodeString) "12/25/1961", (UnicodeString) "4/3/2010", (UnicodeString) "4/3/10" }; UErrorCode status = U_ZERO_ERROR; for(int i= 0; i < 4; i+=2) { UDate d = fmt.parse(tests[i], status); failure(status, "fmt.parse"); UDate dd = fmt.parse(tests[i+1], status); failure(status, "fmt.parse"); UnicodeString s; s = fmt.format(d, s); UnicodeString ss; ss = fmt.format(dd, ss); if (d != dd) errln((UnicodeString) "Fail: " + d + " != " + dd); if (s != ss) errln((UnicodeString)"Fail: " + s + " != " + ss); logln("Ok: " + s + " " + d); } } /** * @bug 4089106 */ void DateFormatRegressionTest::Test4089106(void) { TimeZone *def = TimeZone::createDefault(); //try { TimeZone *z = new SimpleTimeZone((int)(1.25 * 3600000), "FAKEZONE"); TimeZone::setDefault(*z); UErrorCode status = U_ZERO_ERROR; SimpleDateFormat *f = new SimpleDateFormat(status); if(U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat, error %s", u_errorName(status)); delete f; delete def; delete z; return; } failure(status, "new SimpleDateFormat"); if (f->getTimeZone()!= *z) errln("Fail: SimpleTimeZone should use TimeZone.getDefault()"); //} //finally { TimeZone::setDefault(*def); //} delete z; delete f; delete def; } /** * @bug 4100302 */ // {sfb} not applicable in C++?? void DateFormatRegressionTest::Test4100302(void) { /* Locale locales [] = { Locale::CANADA, Locale::CANADA_FRENCH, Locale::CHINA, Locale::CHINESE, Locale::ENGLISH, Locale::FRANCE, Locale::FRENCH, Locale::GERMAN, Locale::GERMANY, Locale::ITALIAN, Locale::ITALY, Locale::JAPAN, Locale::JAPANESE, Locale::KOREA, Locale::KOREAN, Locale::PRC, Locale::SIMPLIFIED_CHINESE, Locale::TAIWAN, Locale::TRADITIONAL_CHINESE, Locale::UK, Locale::US }; //try { UBool pass = TRUE; for(int i = 0; i < 21; i++) { Format *format = DateFormat::createDateTimeInstance(DateFormat::FULL, DateFormat::FULL, locales[i]); byte[] bytes; ByteArrayOutputStream baos = new ByteArrayOutputStream(); ObjectOutputStream oos = new ObjectOutputStream(baos); oos.writeObject(format); oos.flush(); baos.close(); bytes = baos.toByteArray(); ObjectInputStream ois = new ObjectInputStream(new ByteArrayInputStream(bytes)); if (!format.equals(ois.readObject())) { pass = FALSE; logln("DateFormat instance for locale " + locales[i] + " is incorrectly serialized/deserialized."); } else { logln("DateFormat instance for locale " + locales[i] + " is OKAY."); } } if (!pass) errln("Fail: DateFormat serialization/equality bug"); } catch (IOException e) { errln("Fail: " + e); e.printStackTrace(); } catch (ClassNotFoundException e) { errln("Fail: " + e); e.printStackTrace(); } */} /** * @bug 4101483 */ void DateFormatRegressionTest::Test4101483(void) { UErrorCode status = U_ZERO_ERROR; SimpleDateFormat sdf(UnicodeString("z"), Locale::getUS(), status); if (failure(status, "new SimpleDateFormat", TRUE)) return; FieldPosition fp(UDAT_TIMEZONE_FIELD); //Date d = date(9234567890L); UDate d = 9234567890.0; //StringBuffer buf = new StringBuffer(""); UnicodeString buf; sdf.format(d, buf, fp); //logln(sdf.format(d, buf, fp).toString()); logln(dateToString(d) + " => " + buf); logln(UnicodeString("beginIndex = ") + fp.getBeginIndex()); logln(UnicodeString("endIndex = ") + fp.getEndIndex()); if (fp.getBeginIndex() == fp.getEndIndex()) errln("Fail: Empty field"); } /** * @bug 4103340 * @bug 4138203 * This bug really only works in Locale.US, since that's what the locale * used for Date.toString() is. Bug 4138203 reports that it fails on Korean * NT; it would actually have failed on any non-US locale. Now it should * work on all locales. */ void DateFormatRegressionTest::Test4103340(void) { UErrorCode status = U_ZERO_ERROR; // choose a date that is the FIRST of some month // and some arbitrary time UDate d = date(97, 3, 1, 1, 1, 1); SimpleDateFormat df(UnicodeString(u"MMMM"), Locale::getUS(), status); if (failure(status, "new SimpleDateFormat", TRUE)) return; UnicodeString s; s = dateToString(d, s); UnicodeString s2; FieldPosition pos(FieldPosition::DONT_CARE); s2 = df.format(d, s2, pos); logln("Date=" + s); logln("DF=" + s2); UnicodeString substr; s2.extract(0,2, substr); if (s.indexOf(substr) == -1) errln("Months should match"); } /** * @bug 4103341 */ void DateFormatRegressionTest::Test4103341(void) { LocalPointer saveZone(TimeZone::createDefault()); if (!saveZone.isValid()) { dataerrln("TimeZone::createDefault() failed."); return; } // {sfb} changed from setDefault to adoptDefault TimeZone::adoptDefault(TimeZone::createTimeZone("CST")); UErrorCode status = U_ZERO_ERROR; SimpleDateFormat simple(UnicodeString("MM/dd/yyyy HH:mm"), status); if(U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat, error %s", u_errorName(status)); } else { LocalPointer temp(TimeZone::createDefault()); if(simple.getTimeZone() != *temp) errln("Fail: SimpleDateFormat not using default zone"); } TimeZone::adoptDefault(saveZone.orphan()); } /** * @bug 4104136 */ void DateFormatRegressionTest::Test4104136(void) { UErrorCode status = U_ZERO_ERROR; SimpleDateFormat *sdf = new SimpleDateFormat(status); if(U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat, error %s", u_errorName(status)); delete sdf; return; } if(failure(status, "new SimpleDateFormat")) return; UnicodeString pattern = "'time' hh:mm"; sdf->applyPattern(pattern); logln("pattern: \"" + pattern + "\""); UnicodeString strings [] = { (UnicodeString)"time 10:30", (UnicodeString) "time 10:x", (UnicodeString) "time 10x" }; ParsePosition ppos [] = { ParsePosition(10), ParsePosition(0), ParsePosition(0) }; UDate dates [] = { date(70, UCAL_JANUARY, 1, 10, 30), -1, -1 }; /*Object[] DATA = { "time 10:30", new ParsePosition(10), new Date(70, Calendar.JANUARY, 1, 10, 30), "time 10:x", new ParsePosition(0), null, "time 10x", new ParsePosition(0), null, };*/ for(int i = 0; i < 3; i++) { UnicodeString text = strings[i]; ParsePosition finish = ppos[i]; UDate exp = dates[i]; ParsePosition pos(0); UDate d = sdf->parse(text, pos); logln(" text: \"" + text + "\""); logln(" index: %d", pos.getIndex()); logln((UnicodeString) " result: " + d); if(pos.getIndex() != finish.getIndex()) errln(UnicodeString("Fail: Expected pos ") + finish.getIndex()); if (! ((d == 0 && exp == -1) || (d == exp))) errln((UnicodeString) "Fail: Expected result " + exp); } delete sdf; } /** * @bug 4104522 * CANNOT REPRODUCE * According to the bug report, this test should throw a * StringIndexOutOfBoundsException during the second parse. However, * this is not seen. */ void DateFormatRegressionTest::Test4104522(void) { UErrorCode status = U_ZERO_ERROR; SimpleDateFormat *sdf = new SimpleDateFormat(status); if(U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat, error %s", u_errorName(status)); delete sdf; return; } failure(status, "new SimpleDateFormat"); UnicodeString pattern = "'time' hh:mm"; sdf->applyPattern(pattern); logln("pattern: \"" + pattern + "\""); // works correctly ParsePosition pp(0); UnicodeString text = "time "; UDate dt = sdf->parse(text, pp); logln(" text: \"" + text + "\"" + " date: " + dt); // works wrong pp.setIndex(0); text = "time"; dt = sdf->parse(text, pp); logln(" text: \"" + text + "\"" + " date: " + dt); delete sdf; } /** * @bug 4106807 */ void DateFormatRegressionTest::Test4106807(void) { UDate dt; DateFormat *df = DateFormat::createDateTimeInstance(); UErrorCode status = U_ZERO_ERROR; SimpleDateFormat *sdfs [] = { new SimpleDateFormat(UnicodeString("yyyyMMddHHmmss"), status), new SimpleDateFormat(UnicodeString("yyyyMMddHHmmss'Z'"), status), new SimpleDateFormat(UnicodeString("yyyyMMddHHmmss''"), status), new SimpleDateFormat(UnicodeString("yyyyMMddHHmmss'a''a'"), status), new SimpleDateFormat(UnicodeString("yyyyMMddHHmmss %"), status) }; if(U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat, error %s", u_errorName(status)); delete sdfs[0]; delete sdfs[1]; delete sdfs[2]; delete sdfs[3]; delete sdfs[4]; return; } failure(status, "new SimpleDateFormat"); UnicodeString strings [] = { (UnicodeString) "19980211140000", (UnicodeString) "19980211140000", (UnicodeString) "19980211140000", (UnicodeString) "19980211140000a", (UnicodeString) "19980211140000 " }; /*Object[] data = { new SimpleDateFormat("yyyyMMddHHmmss"), "19980211140000", new SimpleDateFormat("yyyyMMddHHmmss'Z'"), "19980211140000", new SimpleDateFormat("yyyyMMddHHmmss''"), "19980211140000", new SimpleDateFormat("yyyyMMddHHmmss'a''a'"), "19980211140000a", new SimpleDateFormat("yyyyMMddHHmmss %"), "19980211140000 ", };*/ GregorianCalendar *gc = new GregorianCalendar(status); failure(status, "new GregorianCalendar"); TimeZone *timeZone = TimeZone::createDefault(); TimeZone *gmt = timeZone->clone(); gmt->setRawOffset(0); for(int32_t i = 0; i < 5; i++) { SimpleDateFormat *format = sdfs[i]; UnicodeString dateString = strings[i]; //try { format->setTimeZone(*gmt); dt = format->parse(dateString, status); // {sfb} some of these parses will fail purposely if(U_FAILURE(status)) break; status = U_ZERO_ERROR; UnicodeString fmtd; FieldPosition pos(FieldPosition::DONT_CARE); fmtd = df->format(dt, fmtd, pos); logln(fmtd); //logln(df->format(dt)); gc->setTime(dt, status); failure(status, "gc->getTime"); logln(UnicodeString("") + gc->get(UCAL_ZONE_OFFSET, status)); failure(status, "gc->get"); UnicodeString s; s = format->format(dt, s, pos); logln(s); /*} catch (ParseException e) { logln("No way Jose"); }*/ } delete timeZone; delete df; for(int32_t j = 0; j < 5; j++) delete sdfs [j]; delete gc; delete gmt; } /* Synopsis: Chinese time zone CTT is not recogonized correctly. Description: Platform Chinese Windows 95 - ** Time zone set to CST ** */ /** * @bug 4108407 */ // {sfb} what to do with this one ?? void DateFormatRegressionTest::Test4108407(void) { /*long l = System.currentTimeMillis(); logln("user.timezone = " + System.getProperty("user.timezone", "?")); logln("Time Zone :" + DateFormat.getDateInstance().getTimeZone().getID()); logln("Default format :" + DateFormat.getDateInstance().format(new Date(l))); logln("Full format :" + DateFormat.getDateInstance(DateFormat.FULL).format(new Date(l))); logln("*** Set host TZ to CST ***"); logln("*** THE RESULTS OF THIS TEST MUST BE VERIFIED MANUALLY ***");*/ } /** * @bug 4134203 * SimpleDateFormat won't parse "GMT" */ void DateFormatRegressionTest::Test4134203(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString dateFormat = "MM/dd/yy HH:mm:ss zzz"; SimpleDateFormat fmt (dateFormat, status); if (failure(status, "new SimpleDateFormat", TRUE)) return; ParsePosition p0(0); UDate d = fmt.parse("01/22/92 04:52:00 GMT", p0); logln(dateToString(d)); if(p0 == ParsePosition(0)) errln("Fail: failed to parse 'GMT'"); // In the failure case an exception is thrown by parse(); // if no exception is thrown, the test passes. } /** * @bug 4151631 * SimpleDateFormat incorrect handling of 2 single quotes in format() */ void DateFormatRegressionTest::Test4151631(void) { UnicodeString pattern = "'TO_DATE('''dd'-'MM'-'yyyy HH:mm:ss''' , ''DD-MM-YYYY HH:MI:SS'')'"; logln("pattern=" + pattern); UErrorCode status = U_ZERO_ERROR; SimpleDateFormat format(pattern, Locale::getUS(), status); if (failure(status, "new SimpleDateFormat", TRUE)) return; UnicodeString result; FieldPosition pos(FieldPosition::DONT_CARE); result = format.format(date(1998-1900, UCAL_JUNE, 30, 13, 30, 0), result, pos); if (result != "TO_DATE('30-06-1998 13:30:00' , 'DD-MM-YYYY HH:MI:SS')") { errln("Fail: result=" + result); } else { logln("Pass: result=" + result); } } /** * @bug 4151706 * 'z' at end of date format throws index exception in SimpleDateFormat * CANNOT REPRODUCE THIS BUG ON 1.2FCS */ void DateFormatRegressionTest::Test4151706(void) { UnicodeString dateString("Thursday, 31-Dec-98 23:00:00 GMT"); UErrorCode status = U_ZERO_ERROR; SimpleDateFormat fmt(UnicodeString("EEEE, dd-MMM-yy HH:mm:ss z"), Locale::getUS(), status); if (failure(status, "new SimpleDateFormat", TRUE)) return; //try { UDate d = fmt.parse(dateString, status); failure(status, "fmt->parse"); // {sfb} what about next two lines? //if (d.getTime() != Date.UTC(1998-1900, Calendar.DECEMBER, 31, 23, 0, 0)) // errln("Incorrect value: " + d); /*} catch (Exception e) { errln("Fail: " + e); }*/ UnicodeString temp; FieldPosition pos(FieldPosition::DONT_CARE); logln(dateString + " -> " + fmt.format(d, temp, pos)); } /** * @bug 4162071 * Cannot reproduce this bug under 1.2 FCS -- it may be a convoluted duplicate * of some other bug that has been fixed. */ void DateFormatRegressionTest::Test4162071(void) { UnicodeString dateString("Thu, 30-Jul-1999 11:51:14 GMT"); UnicodeString format("EEE', 'dd-MMM-yyyy HH:mm:ss z"); // RFC 822/1123 UErrorCode status = U_ZERO_ERROR; SimpleDateFormat df(format, Locale::getUS(), status); if(U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat - %s", u_errorName(status)); return; } //try { UDate x = df.parse(dateString, status); if(U_SUCCESS(status)) logln("Parse format \"" + format + "\" ok"); else errln("Parse format \"" + format + "\" failed."); UnicodeString temp; FieldPosition pos(FieldPosition::DONT_CARE); logln(dateString + " -> " + df.format(x, temp, pos)); //} catch (Exception e) { // errln("Parse format \"" + format + "\" failed."); //} } /** * DateFormat shouldn't parse year "-1" as a two-digit year (e.g., "-1" -> 1999). */ void DateFormatRegressionTest::Test4182066(void) { UErrorCode status = U_ZERO_ERROR; SimpleDateFormat fmt("MM/dd/yy", Locale::getUS(), status); SimpleDateFormat dispFmt("MMM dd yyyy GG", Locale::getUS(), status); if (U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat - %s", u_errorName(status)); return; } /* We expect 2-digit year formats to put 2-digit years in the right * window. Out of range years, that is, anything less than "00" or * greater than "99", are treated as literal years. So "1/2/3456" * becomes 3456 AD. Likewise, "1/2/-3" becomes -3 AD == 2 BC. */ const char* STRINGS[] = { "02/29/00", "01/23/01", "04/05/-1", "01/23/-9", "11/12/1314", "10/31/1", "09/12/+1", "09/12/001", }; int32_t STRINGS_COUNT = UPRV_LENGTHOF(STRINGS); UDate FAIL_DATE = (UDate) 0; UDate DATES[] = { date(2000-1900, UCAL_FEBRUARY, 29), date(2001-1900, UCAL_JANUARY, 23), date( -1-1900, UCAL_APRIL, 5), date( -9-1900, UCAL_JANUARY, 23), date(1314-1900, UCAL_NOVEMBER, 12), date( 1-1900, UCAL_OCTOBER, 31), FAIL_DATE, // "+1" isn't recognized by US NumberFormat date( 1-1900, UCAL_SEPTEMBER,12), }; UnicodeString out; UBool pass = TRUE; for (int32_t i=0; iformat(actual, actStr); } if (expected == actual) { out.append(str + " => " + actStr + "\n"); } else { UnicodeString expStr; if (expected == FAIL_DATE) { expStr.append("null"); } else { // Yuck: See j25 ((DateFormat*)&dispFmt)->format(expected, expStr); } out.append("FAIL: " + str + " => " + actStr + ", expected " + expStr + "\n"); pass = FALSE; } } if (pass) { log(out); } else { err(out); } } /** * j32 {JDK Bug 4210209 4209272} * DateFormat cannot parse Feb 29 2000 when setLenient(false) */ void DateFormatRegressionTest::Test4210209(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString pattern("MMM d, yyyy"); SimpleDateFormat sfmt(pattern, Locale::getUS(), status); SimpleDateFormat sdisp("MMM dd yyyy GG", Locale::getUS(), status); DateFormat& fmt = *(DateFormat*)&sfmt; // Yuck: See j25 DateFormat& disp = *(DateFormat*)&sdisp; // Yuck: See j25 if (U_FAILURE(status)) { dataerrln("Couldn't create SimpleDateFormat - %s", u_errorName(status)); return; } Calendar* calx = (Calendar*)fmt.getCalendar(); // cast away const! calx->setLenient(FALSE); UDate d = date(2000-1900, UCAL_FEBRUARY, 29); UnicodeString s, ss; fmt.format(d, s); logln(disp.format(d, ss.remove()) + " f> " + pattern + " => \"" + s + "\""); ParsePosition pos(0); d = fmt.parse(s, pos); logln(UnicodeString("\"") + s + "\" p> " + pattern + " => " + disp.format(d, ss.remove())); logln(UnicodeString("Parse pos = ") + pos.getIndex() + ", error pos = " + pos.getErrorIndex()); if (pos.getErrorIndex() != -1) { errln(UnicodeString("FAIL: Error index should be -1")); } // The underlying bug is in GregorianCalendar. If the following lines // succeed, the bug is fixed. If the bug isn't fixed, they will throw // an exception. GregorianCalendar cal(status); if (U_FAILURE(status)) { errln("FAIL: Unable to create Calendar"); return; } cal.clear(); cal.setLenient(FALSE); cal.set(2000, UCAL_FEBRUARY, 29); // This should work! logln(UnicodeString("Attempt to set Calendar to Feb 29 2000: ") + disp.format(cal.getTime(status), ss.remove())); if (U_FAILURE(status)) { errln("FAIL: Unable to set Calendar to Feb 29 2000"); } } void DateFormatRegressionTest::Test714(void) { //try { UDate d(978103543000.); DateFormat *fmt = DateFormat::createDateTimeInstance(DateFormat::NONE, DateFormat::MEDIUM, Locale::getUS()); if (fmt == NULL) { dataerrln("Error calling DateFormat::createDateTimeInstance"); return; } UnicodeString s; UnicodeString tests = (UnicodeString) "7:25:43 AM" ; UErrorCode status = U_ZERO_ERROR; fmt->format (d,s); if(U_FAILURE(status)) { errln((UnicodeString) "Fail, errmsg " + u_errorName(status)); return; } if(s != tests) { errln((UnicodeString) "Fail: " + s + " != " + tests); } else { logln("OK: " + s + " == " + tests); } delete fmt; } class Test1684Data { public: int32_t year; int32_t month; int32_t date; int32_t womyear; int32_t wommon; int32_t wom; int32_t dow; UnicodeString data; UnicodeString normalized; Test1684Data(int32_t xyear, int32_t xmonth, int32_t xdate, int32_t xwomyear, int32_t xwommon, int32_t xwom, int32_t xdow, const char *xdata, const char *xnormalized) : year(xyear), month(xmonth-1), date(xdate), womyear(xwomyear), wommon(xwommon-1), wom(xwom), dow(xdow), data(xdata,""), normalized((xnormalized==NULL)?xdata:xnormalized,"") { } }; void DateFormatRegressionTest::Test1684(void) { // July 2001 August 2001 January 2002 // Su Mo Tu We Th Fr Sa Su Mo Tu We Th Fr Sa Su Mo Tu We Th Fr Sa // 1 2 3 4 5 6 7 1 2 3 4 1 2 3 4 5 // 8 9 10 11 12 13 14 5 6 7 8 9 10 11 6 7 8 9 10 11 12 // 15 16 17 18 19 20 21 12 13 14 15 16 17 18 13 14 15 16 17 18 19 // 22 23 24 25 26 27 28 19 20 21 22 23 24 25 20 21 22 23 24 25 26 // 29 30 31 26 27 28 29 30 31 27 28 29 30 31 Test1684Data *tests[] = { new Test1684Data(2001, 8, 6, 2001,8,2,UCAL_MONDAY, "2001 08 02 Mon", NULL), new Test1684Data(2001, 8, 7, 2001,8,2,UCAL_TUESDAY, "2001 08 02 Tue", NULL), new Test1684Data(2001, 8, 5,/*12,*/ 2001,8,2,UCAL_SUNDAY, "2001 08 02 Sun", NULL), new Test1684Data(2001, 8,6, /*7, 30,*/ 2001,7,6,UCAL_MONDAY, "2001 07 06 Mon", "2001 08 02 Mon"), new Test1684Data(2001, 8,7, /*7, 31,*/ 2001,7,6,UCAL_TUESDAY, "2001 07 06 Tue", "2001 08 02 Tue"), new Test1684Data(2001, 8, 5, 2001,7,6,UCAL_SUNDAY, "2001 07 06 Sun", "2001 08 02 Sun"), new Test1684Data(2001, 7, 30, 2001,8,1,UCAL_MONDAY, "2001 08 01 Mon", "2001 07 05 Mon"), new Test1684Data(2001, 7, 31, 2001,8,1,UCAL_TUESDAY, "2001 08 01 Tue", "2001 07 05 Tue"), new Test1684Data(2001, 7,29, /*8, 5,*/ 2001,8,1,UCAL_SUNDAY, "2001 08 01 Sun", "2001 07 05 Sun"), new Test1684Data(2001, 12, 31, 2001,12,6,UCAL_MONDAY, "2001 12 06 Mon", NULL), new Test1684Data(2002, 1, 1, 2002,1,1,UCAL_TUESDAY, "2002 01 01 Tue", NULL), new Test1684Data(2002, 1, 2, 2002,1,1,UCAL_WEDNESDAY, "2002 01 01 Wed", NULL), new Test1684Data(2002, 1, 3, 2002,1,1,UCAL_THURSDAY, "2002 01 01 Thu", NULL), new Test1684Data(2002, 1, 4, 2002,1,1,UCAL_FRIDAY, "2002 01 01 Fri", NULL), new Test1684Data(2002, 1, 5, 2002,1,1,UCAL_SATURDAY, "2002 01 01 Sat", NULL), new Test1684Data(2001,12,30, /*2002, 1, 6,*/ 2002,1,1,UCAL_SUNDAY, "2002 01 01 Sun", "2001 12 06 Sun") }; #define kTest1684Count UPRV_LENGTHOF(tests) int32_t pass = 0, error = 0, warning = 0; int32_t i; UErrorCode status = U_ZERO_ERROR; UnicodeString pattern("yyyy MM WW EEE",""); Calendar *cal = new GregorianCalendar(status); SimpleDateFormat *sdf = new SimpleDateFormat(pattern,status); if (U_FAILURE(status)) { dataerrln("Error constructing SimpleDateFormat"); for(i=0;isetFirstDayOfWeek(UCAL_SUNDAY); cal->setMinimalDaysInFirstWeek(1); sdf->adoptCalendar(cal); cal = sdf->getCalendar()->clone(); // sdf may have deleted calendar if(!cal || !sdf || U_FAILURE(status)) { errln(UnicodeString("Error setting up test: ") + u_errorName(status)); } for (i = 0; i < kTest1684Count; ++i) { Test1684Data &test = *(tests[i]); logln(UnicodeString("#") + i + UnicodeString("\n-----\nTesting round trip of ") + test.year + " " + (test.month + 1) + " " + test.date + " (written as) " + test.data); cal->clear(); cal->set(test.year, test.month, test.date); UDate ms = cal->getTime(status); cal->clear(); cal->set(UCAL_YEAR, test.womyear); cal->set(UCAL_MONTH, test.wommon); cal->set(UCAL_WEEK_OF_MONTH, test.wom); cal->set(UCAL_DAY_OF_WEEK, test.dow); UDate ms2 = cal->getTime(status); if (ms2 != ms) { errln((UnicodeString)"\nError: GregorianUCAL_DOM gave " + ms + "\n GregorianUCAL_WOM gave " + ms2); error++; } else { pass++; } ms2 = sdf->parse(test.data, status); if(U_FAILURE(status)) { errln("parse exception: " + UnicodeString(u_errorName(status))); } if (ms2!=ms) { errln((UnicodeString)"\nError: GregorianCalendar gave " + ms + "\n SimpleDateFormat.parse gave " + ms2); error++; } else { pass++; } UnicodeString result; sdf->format(ms, result); if (result != test.normalized) { errln("\nWarning: format of '" + test.data + "' gave" + "\n '" + result + "'" + "\n expected '" + test.normalized + "'"); warning++; } else { pass++; } UDate ms3; ms3 = sdf->parse(result, status); if(U_FAILURE(status)) { errln("parse exception 2: " + (UnicodeString)u_errorName(status)); } if (ms3!=ms) { error++; errln((UnicodeString)"\nError: Re-parse of '" + result + "' gave time of " + "\n " + ms3 + "\n not " + ms); } else { pass++; } } UnicodeString info = UnicodeString("Passed: ") + pass + ", Warnings: " + warning + ", Errors: " + error; if (error > 0) { errln(info); } else { logln(info); } for(i=0;iset(2007, 1, 14); UDate date = cal->getTime(status); if (U_FAILURE(status)) { errln("Error getting time to format"); return; } sdf->adoptCalendar(cal); UnicodeString result; UnicodeString correct("-0330", ""); sdf->format(date, result); if (result != correct) { errln("\nError: Newfoundland Z of Jan 14, 2007 gave '" + result + "', expected '" + correct + "'"); } delete sdf; } void DateFormatRegressionTest::Test9237(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString pattern("VVVV"); SimpleDateFormat fmt(pattern, status); // default locale SimpleDateFormat fmtDE(pattern, Locale("de_DE"), status); if (U_FAILURE(status)) { dataerrln("Error constructing SimpleDateFormat"); return; } // copy constructor SimpleDateFormat fmtCopyDE(fmtDE); UnicodeString resDE, resCopyDE; fmtDE.format(0.0, resDE); fmtCopyDE.format(0.0, resCopyDE); if (resDE != resCopyDE) { errln(UnicodeString("Error: different result by the copied instance - org:") + resDE + " copy:" + resCopyDE); } // test for assignment operator fmt = fmtDE; UnicodeString resAssigned; fmt.format(0.0, resAssigned); if (resDE != resAssigned) { errln(UnicodeString("Error: different results by the assigned instance - org:") + resDE + " assigned:" + resAssigned); } } void DateFormatRegressionTest::TestParsing(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString pattern("EEE-WW-MMMM-yyyy"); UnicodeString text("mon-02-march-2011"); int32_t expectedDay = 7; SimpleDateFormat format(pattern, status); if (U_FAILURE(status)) { dataerrln("Unable to create SimpleDateFormat - %s", u_errorName(status)); return; } Calendar *cal = new GregorianCalendar(status); if (cal == NULL || U_FAILURE(status)) { errln("Unable to create calendar - %s", u_errorName(status)); return; } ParsePosition pos(0); format.parse(text, *cal, pos); if (cal->get(UCAL_DAY_OF_MONTH, status) != expectedDay) { errln("Parsing failed: day of month should be '7' with pattern: \"" + pattern + "\" for text: \"" + text + "\""); } delete cal; } void DateFormatRegressionTest::Test12902_yWithGregoCalInThaiLoc(void) { UErrorCode status = U_ZERO_ERROR; UDate testDate = 43200000.0; // 1970-Jan-01 12:00 GMT const char* skeleton = "y"; // Note that in locale "th", the availableFormats for skeleton "y" differ by calendar: // for buddhist (default calendar): y{"G y"} // for gregorian: y{"y"} const char* expectFormat = "1970"; // format for skeleton y in Thai locale with Gregorian calendar UnicodeString getFmtStr; const TimeZone* gmtZone = TimeZone::getGMT(); LocalPointer pureGregoCal(new GregorianCalendar(*gmtZone, Locale::getEnglish(), status)); if (U_FAILURE(status)) { dataerrln("Fail in new GregorianCalendar(GMT, en): %s", u_errorName(status)); return; } LocalPointer df1(DateFormat::createInstanceForSkeleton(pureGregoCal.orphan(), skeleton, "th", status)); if (U_FAILURE(status)) { dataerrln("Fail in DateFormat::createInstanceForSkeleton for th with Grego cal: %s", u_errorName(status)); return; } status = U_ZERO_ERROR; getFmtStr.remove(); getFmtStr = df1->format(testDate, getFmtStr); if (U_FAILURE(status)) { errln("Fail in DateFormat::format for th with Grego cal: %s", u_errorName(status)); } else if (getFmtStr != expectFormat) { char getFormat[32]; getFmtStr.extract(0, getFmtStr.length(), getFormat, 32); errln("Error in DateFormat::format for th with Grego cal, expect: %s, get: %s", expectFormat, getFormat); } LocalPointer df2(DateFormat::createInstanceForSkeleton(skeleton, "th-u-ca-gregory", status)); if (U_FAILURE(status)) { dataerrln("Fail in DateFormat::createInstanceForSkeleton for th-u-ca-gregory: %s", u_errorName(status)); return; } status = U_ZERO_ERROR; getFmtStr.remove(); getFmtStr = df2->format(testDate, getFmtStr); if (U_FAILURE(status)) { errln("Fail in DateFormat::format for th-u-ca-gregory: %s", u_errorName(status)); } else if (getFmtStr != expectFormat) { char getFormat[32]; getFmtStr.extract(0, getFmtStr.length(), getFormat, 32); errln("Error in DateFormat::format for th with Grego cal, expect: %s, get: %s", expectFormat, getFormat); } } void DateFormatRegressionTest::TestT10334(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString pattern("'--: 'EEE-WW-MMMM-yyyy"); UnicodeString text("--mon-02-march-2011"); SimpleDateFormat format(pattern, status); logln("pattern["+pattern+"] text["+text+"]"); if (U_FAILURE(status)) { dataerrln("Fail creating SimpleDateFormat object - %s", u_errorName(status)); return; } format.setBooleanAttribute(UDAT_PARSE_PARTIAL_LITERAL_MATCH, FALSE, status); format.parse(text, status); if (!U_FAILURE(status)) { errln("parse partial match did NOT fail in strict mode - %s", u_errorName(status)); } status = U_ZERO_ERROR; format.setBooleanAttribute(UDAT_PARSE_PARTIAL_LITERAL_MATCH, TRUE, status); format.parse(text, status); if (U_FAILURE(status)) { errln("parse partial match failure in lenient mode - %s", u_errorName(status)); } status = U_ZERO_ERROR; pattern = UnicodeString("YYYY MM dd"); text = UnicodeString("2013 12 10"); format.applyPattern(pattern); UDate referenceDate = format.parse(text, status); FieldPosition fp(FieldPosition::DONT_CARE); UnicodeString formattedString(""); pattern = UnicodeString("YYYY LL dd ee cc qq QQ"); format.applyPattern(pattern); format.format(referenceDate, formattedString, fp, status); logln("ref date: " + formattedString); char patternArray[] = "YYYY LLL dd eee ccc qqq QQQ"; pattern = UnicodeString(patternArray); text = UnicodeString("2013 12 10 03 3 04 04"); status = U_ZERO_ERROR; format.setBooleanAttribute(UDAT_PARSE_ALLOW_NUMERIC, TRUE, status); format.applyPattern(pattern); ParsePosition pp(0); format.parse(text, pp); if (pp.getErrorIndex() != -1) { errln("numeric parse error"); } status = U_ZERO_ERROR; format.setBooleanAttribute(UDAT_PARSE_ALLOW_NUMERIC, FALSE, status); format.parse(text, status); if (!U_FAILURE(status)) { errln("numeric parse did NOT fail in strict mode", u_errorName(status)); } } typedef struct { const char * locale; UBool leniency; UnicodeString parseString; UnicodeString pattern; UnicodeString expectedResult; // null indicates expected error } TestDateFormatLeniencyItem; void DateFormatRegressionTest::TestT10619(void) { const UDate july022008 = 1215000001979.0; const TestDateFormatLeniencyItem items[] = { //locale leniency parse String pattern expected result { "en", true, UnicodeString("2008-07 02"), UnicodeString("yyyy-LLLL dd"), UnicodeString("2008-July 02") }, { "en", false, UnicodeString("2008-07 03"), UnicodeString("yyyy-LLLL dd"), UnicodeString("") }, { "en", true, UnicodeString("2008-Jan. 04"), UnicodeString("yyyy-LLL dd"), UnicodeString("2008-Jan 04") }, { "en", false, UnicodeString("2008-Jan. 05"), UnicodeString("yyyy-LLL dd"), UnicodeString("") }, { "en", true, UnicodeString("2008-Jan--06"), UnicodeString("yyyy-MMM -- dd"), UnicodeString("2008-Jan 06") }, { "en", false, UnicodeString("2008-Jan--07"), UnicodeString("yyyy-MMM -- dd"), UnicodeString("") }, { "en", true, UnicodeString("6 Jan 08 2008"), UnicodeString("eee MMM dd yyyy"), UnicodeString("Sat Jan 08 2008") }, { "en", false, UnicodeString("6 Jan 09 2008"), UnicodeString("eee MMM dd yyyy"), UnicodeString("") }, // terminator { NULL, true, UnicodeString(""), UnicodeString(""), UnicodeString("") } }; UErrorCode status = U_ZERO_ERROR; Calendar* cal = Calendar::createInstance(status); if (U_FAILURE(status)) { dataerrln(UnicodeString("FAIL: Unable to create Calendar for default timezone and locale.")); } else { cal->setTime(july022008, status); const TestDateFormatLeniencyItem * itemPtr; for (itemPtr = items; itemPtr->locale != NULL; itemPtr++ ) { Locale locale = Locale::createFromName(itemPtr->locale); status = U_ZERO_ERROR; ParsePosition pos(0); SimpleDateFormat * sdmft = new SimpleDateFormat(itemPtr->pattern, locale, status); if (U_FAILURE(status)) { dataerrln("Unable to create SimpleDateFormat - %s", u_errorName(status)); continue; } logln("parsing " + itemPtr->parseString); sdmft->setLenient(itemPtr->leniency); sdmft->setBooleanAttribute(UDAT_PARSE_ALLOW_WHITESPACE, itemPtr->leniency, status); sdmft->setBooleanAttribute(UDAT_PARSE_ALLOW_NUMERIC, itemPtr->leniency, status); sdmft->setBooleanAttribute(UDAT_PARSE_PARTIAL_LITERAL_MATCH, itemPtr->leniency, status); sdmft->parse(itemPtr->parseString, pos); delete sdmft; if(pos.getErrorIndex() > -1) { if(itemPtr->expectedResult.length() != 0) { errln("error: unexpected error - " + itemPtr->parseString + " - error index " + pos.getErrorIndex() + " - leniency " + itemPtr->leniency); continue; } else { continue; } } } } delete cal; } typedef struct { UnicodeString text; UnicodeString pattern; int initialParsePos; } T10855Data; void DateFormatRegressionTest::TestT10855(void) { // NOTE: these should NOT parse const T10855Data items[] = { //parse String pattern initial parse pos { UnicodeString("September 30, 1998"), UnicodeString("MM-dd-yyyy"), 0}, { UnicodeString("123-73-1950"), UnicodeString("MM-dd-yyyy"), -1}, { UnicodeString("12-23-1950"), UnicodeString("MM-dd-yyyy"), -1}, // terminator { UnicodeString(""), UnicodeString(""), 0} }; UErrorCode status = U_ZERO_ERROR; int x = 0; while(items[x].pattern.length() > 0) { status = U_ZERO_ERROR; logln("Date to parse: \""+items[x].text+"\""); logln("Starting Index: %d", items[x].initialParsePos); SimpleDateFormat dateFmt(items[x].pattern, status); if(U_FAILURE(status)) { errcheckln(status, "Failed dateFmt: %s", u_errorName(status)); ++x; continue; } status = U_ZERO_ERROR; dateFmt.setLenient(false); dateFmt.setTimeZone(*TimeZone::getGMT()); ParsePosition position(items[x].initialParsePos); logln("set position is now: %d", position.getIndex()); UDate d = dateFmt.parse(items[x].text, position); if (position.getErrorIndex() != -1 || position.getIndex() == items[x].initialParsePos) { logln("Parse Failed. ErrorIndex is %d - Index is %d", position.getErrorIndex(), position.getIndex()); } else { errln("Parse Succeeded...should have failed. Index is %d - ErrorIndex is %d", position.getIndex(), position.getErrorIndex()); } logln("Parsed date returns %d\n", d); ++x; } } void DateFormatRegressionTest::TestT10906(void) { UErrorCode status = U_ZERO_ERROR; UnicodeString pattern = "MM-dd-yyyy"; UnicodeString text = "06-10-2014"; SimpleDateFormat format(pattern, status); int32_t errorIdx = 0; ParsePosition pp(-1); format.parse(text, pp); errorIdx = pp.getErrorIndex(); if (errorIdx == -1) { errln("failed to report invalid (negative) starting parse position"); } } void DateFormatRegressionTest::TestT13380(void) { UErrorCode errorCode = U_ZERO_ERROR; LocalPointer enFmt(DateFormat::createDateInstance(DateFormat::kShort, Locale("en")), errorCode); if (U_FAILURE(errorCode)) { errln("failure creating 'en' DateFormat"); } errorCode = U_ZERO_ERROR; LocalPointer tgFmt(DateFormat::createDateInstance(DateFormat::kShort, Locale("tg")), errorCode); if (U_FAILURE(errorCode)) { errln("failure creating 'tg' DateFormat"); } } void DateFormatRegressionTest::TestT10858(void) { // test for assignment operator on instances with the same locale but different TimeZoneFormat UErrorCode status = U_ZERO_ERROR; UnicodeString pattern("VVVV"); Locale loc("en_US"); // Make two identical Formats SimpleDateFormat fmt_rhs(pattern, loc, status); SimpleDateFormat fmt_lhs(pattern, loc, status); // Setup a custom TimeZoneFormat TimeZoneFormat* tzFmt = TimeZoneFormat::createInstance(Locale("de_DE"), status); tzFmt->setGMTPattern(UnicodeString("UTC{0}"), status); tzFmt->setGMTZeroFormat(UnicodeString("UTC"), status); // Set custom TimeZoneFormat in fmt1 before assignment. Use // adoptTimeZoneFormat instead of setTimeZoneFormat to delegate // cleanup of tzFmt to SimpleDateFormat fmt_rhs.adoptTimeZoneFormat(tzFmt); // Make sure TimeZoneFormat is DIFFERENT between fmt_lhs & fmt_rhs at this point. // Direct comparison with TimeZoneFormat::operator== does not suffice as it only // checks for 'semantically equal' rather than 'identical' -- compare results of // SimpleDateFormat::format() instead UnicodeString res_rhs; fmt_rhs.format(0.0, res_rhs); UnicodeString res_lhs_pre_assign; fmt_lhs.format(0.0, res_lhs_pre_assign); if (res_lhs_pre_assign == res_rhs) { errln(UnicodeString("Error: adoptTimeZoneFormat failed to set custom TimeZoneFormat into 'fmt_rhs'")); } // Invoke assignment operator and make sure formatted outputs from both objects are // now identical (i.e. TimeZoneFormat, among other members, is correctly copied to LHS) fmt_lhs = fmt_rhs; UnicodeString res_lhs_post_assign; fmt_lhs.format(0.0, res_lhs_post_assign); if (res_lhs_post_assign != res_rhs) { errln(UnicodeString("Error: assigned instance did not take up TimeZoneFormat from original")); } } #endif /* #if !UCONFIG_NO_FORMATTING */ //eof