/* * Copyright (c) 2012, 2013, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ /* * This file is available under and governed by the GNU General Public * License version 2 only, as published by the Free Software Foundation. * However, the following notice accompanied the original version of this * file: * * Copyright (c) 2008-2012, Stephen Colebourne & Michael Nascimento Santos * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * * Neither the name of JSR-310 nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ package tck.java.time; import static java.time.temporal.ChronoField.AMPM_OF_DAY; import static java.time.temporal.ChronoField.CLOCK_HOUR_OF_AMPM; import static java.time.temporal.ChronoField.CLOCK_HOUR_OF_DAY; import static java.time.temporal.ChronoField.HOUR_OF_AMPM; import static java.time.temporal.ChronoField.HOUR_OF_DAY; import static java.time.temporal.ChronoField.MICRO_OF_DAY; import static java.time.temporal.ChronoField.MICRO_OF_SECOND; import static java.time.temporal.ChronoField.MILLI_OF_DAY; import static java.time.temporal.ChronoField.MILLI_OF_SECOND; import static java.time.temporal.ChronoField.MINUTE_OF_DAY; import static java.time.temporal.ChronoField.MINUTE_OF_HOUR; import static java.time.temporal.ChronoField.NANO_OF_DAY; import static java.time.temporal.ChronoField.NANO_OF_SECOND; import static java.time.temporal.ChronoField.OFFSET_SECONDS; import static java.time.temporal.ChronoField.SECOND_OF_DAY; import static java.time.temporal.ChronoField.SECOND_OF_MINUTE; import static java.time.temporal.ChronoUnit.MONTHS; import static java.time.temporal.ChronoUnit.DAYS; import static java.time.temporal.ChronoUnit.HOURS; import static java.time.temporal.ChronoUnit.MINUTES; import static java.time.temporal.ChronoUnit.MICROS; import static java.time.temporal.ChronoUnit.MILLIS; import static java.time.temporal.ChronoUnit.HALF_DAYS; import static java.time.temporal.ChronoUnit.NANOS; import static java.time.temporal.ChronoUnit.SECONDS; import static org.testng.Assert.assertEquals; import static org.testng.Assert.assertNotNull; import static org.testng.Assert.assertTrue; import static org.testng.Assert.fail; import java.io.ByteArrayOutputStream; import java.io.DataOutputStream; import java.lang.reflect.Constructor; import java.lang.reflect.InvocationTargetException; import java.time.Clock; import java.time.DateTimeException; import java.time.Instant; import java.time.LocalDate; import java.time.LocalDateTime; import java.time.LocalTime; import java.time.OffsetDateTime; import java.time.OffsetTime; import java.time.Period; import java.time.ZoneId; import java.time.ZoneOffset; import java.time.ZonedDateTime; import java.time.format.DateTimeFormatter; import java.time.format.DateTimeParseException; import java.time.temporal.ChronoField; import java.time.temporal.ChronoUnit; import java.time.temporal.JulianFields; import java.time.temporal.Temporal; import java.time.temporal.TemporalAccessor; import java.time.temporal.TemporalAdjuster; import java.time.temporal.TemporalAmount; import java.time.temporal.TemporalField; import java.time.temporal.TemporalQueries; import java.time.temporal.TemporalQuery; import java.time.temporal.TemporalUnit; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import org.testng.annotations.BeforeClass; import org.testng.annotations.DataProvider; import org.testng.annotations.Test; import test.java.time.MockSimplePeriod; /** * Test OffsetTime. */ @Test public class TCKOffsetTime extends AbstractDateTimeTest { private static final ZoneId ZONE_GAZA = ZoneId.of("Asia/Gaza"); private static final ZoneOffset OFFSET_PONE = ZoneOffset.ofHours(1); private static final ZoneOffset OFFSET_PTWO = ZoneOffset.ofHours(2); private static final LocalDate DATE = LocalDate.of(2008, 12, 3); // Android-changed: This was originally non-static and initialized in @BeforeMethod, // but @BeforeMethod is run after @DataProvider methods are run, so it only worked by accident, // since multiple test methods were run and the first one did not require this value. private static OffsetTime TEST_11_30_59_500_PONE; @BeforeClass public static void setUp() { TEST_11_30_59_500_PONE = OffsetTime.of(11, 30, 59, 500, OFFSET_PONE); } //----------------------------------------------------------------------- @Override protected List samples() { TemporalAccessor[] array = {TEST_11_30_59_500_PONE, OffsetTime.MIN, OffsetTime.MAX}; return Arrays.asList(array); } @Override protected List validFields() { TemporalField[] array = { NANO_OF_SECOND, NANO_OF_DAY, MICRO_OF_SECOND, MICRO_OF_DAY, MILLI_OF_SECOND, MILLI_OF_DAY, SECOND_OF_MINUTE, SECOND_OF_DAY, MINUTE_OF_HOUR, MINUTE_OF_DAY, CLOCK_HOUR_OF_AMPM, HOUR_OF_AMPM, CLOCK_HOUR_OF_DAY, HOUR_OF_DAY, AMPM_OF_DAY, OFFSET_SECONDS, }; return Arrays.asList(array); } @Override protected List invalidFields() { List list = new ArrayList<>(Arrays.asList(ChronoField.values())); list.removeAll(validFields()); list.add(JulianFields.JULIAN_DAY); list.add(JulianFields.MODIFIED_JULIAN_DAY); list.add(JulianFields.RATA_DIE); return list; } //----------------------------------------------------------------------- // constants //----------------------------------------------------------------------- @Test public void constant_MIN() { check(OffsetTime.MIN, 0, 0, 0, 0, ZoneOffset.MAX); } @Test public void constant_MAX() { check(OffsetTime.MAX, 23, 59, 59, 999999999, ZoneOffset.MIN); } //----------------------------------------------------------------------- // now() //----------------------------------------------------------------------- @Test public void now() { ZonedDateTime nowDT = ZonedDateTime.now(); OffsetTime expected = OffsetTime.now(Clock.systemDefaultZone()); OffsetTime test = OffsetTime.now(); long diff = Math.abs(test.toLocalTime().toNanoOfDay() - expected.toLocalTime().toNanoOfDay()); assertTrue(diff < 100000000); // less than 0.1 secs assertEquals(test.getOffset(), nowDT.getOffset()); } //----------------------------------------------------------------------- // now(Clock) //----------------------------------------------------------------------- @Test public void now_Clock_allSecsInDay() { for (int i = 0; i < (2 * 24 * 60 * 60); i++) { Instant instant = Instant.ofEpochSecond(i, 8); Clock clock = Clock.fixed(instant, ZoneOffset.UTC); OffsetTime test = OffsetTime.now(clock); assertEquals(test.getHour(), (i / (60 * 60)) % 24); assertEquals(test.getMinute(), (i / 60) % 60); assertEquals(test.getSecond(), i % 60); assertEquals(test.getNano(), 8); assertEquals(test.getOffset(), ZoneOffset.UTC); } } @Test public void now_Clock_beforeEpoch() { for (int i =-1; i >= -(24 * 60 * 60); i--) { Instant instant = Instant.ofEpochSecond(i, 8); Clock clock = Clock.fixed(instant, ZoneOffset.UTC); OffsetTime test = OffsetTime.now(clock); assertEquals(test.getHour(), ((i + 24 * 60 * 60) / (60 * 60)) % 24); assertEquals(test.getMinute(), ((i + 24 * 60 * 60) / 60) % 60); assertEquals(test.getSecond(), (i + 24 * 60 * 60) % 60); assertEquals(test.getNano(), 8); assertEquals(test.getOffset(), ZoneOffset.UTC); } } @Test public void now_Clock_offsets() { Instant base = LocalDateTime.of(1970, 1, 1, 12, 0).toInstant(ZoneOffset.UTC); for (int i = -9; i < 15; i++) { ZoneOffset offset = ZoneOffset.ofHours(i); Clock clock = Clock.fixed(base, offset); OffsetTime test = OffsetTime.now(clock); assertEquals(test.getHour(), (12 + i) % 24); assertEquals(test.getMinute(), 0); assertEquals(test.getSecond(), 0); assertEquals(test.getNano(), 0); assertEquals(test.getOffset(), offset); } } @Test(expectedExceptions=NullPointerException.class) public void now_Clock_nullZoneId() { OffsetTime.now((ZoneId) null); } @Test(expectedExceptions=NullPointerException.class) public void now_Clock_nullClock() { OffsetTime.now((Clock) null); } //----------------------------------------------------------------------- // factories //----------------------------------------------------------------------- private void check(OffsetTime test, int h, int m, int s, int n, ZoneOffset offset) { assertEquals(test.toLocalTime(), LocalTime.of(h, m, s, n)); assertEquals(test.getOffset(), offset); assertEquals(test.getHour(), h); assertEquals(test.getMinute(), m); assertEquals(test.getSecond(), s); assertEquals(test.getNano(), n); assertEquals(test, test); assertEquals(test.hashCode(), test.hashCode()); assertEquals(OffsetTime.of(LocalTime.of(h, m, s, n), offset), test); } //----------------------------------------------------------------------- @Test public void factory_intsHMSN() { OffsetTime test = OffsetTime.of(11, 30, 10, 500, OFFSET_PONE); check(test, 11, 30, 10, 500, OFFSET_PONE); } //----------------------------------------------------------------------- @Test public void factory_LocalTimeZoneOffset() { LocalTime localTime = LocalTime.of(11, 30, 10, 500); OffsetTime test = OffsetTime.of(localTime, OFFSET_PONE); check(test, 11, 30, 10, 500, OFFSET_PONE); } @Test(expectedExceptions=NullPointerException.class) public void factory_LocalTimeZoneOffset_nullTime() { OffsetTime.of((LocalTime) null, OFFSET_PONE); } @Test(expectedExceptions=NullPointerException.class) public void factory_LocalTimeZoneOffset_nullOffset() { LocalTime localTime = LocalTime.of(11, 30, 10, 500); OffsetTime.of(localTime, (ZoneOffset) null); } //----------------------------------------------------------------------- // ofInstant() //----------------------------------------------------------------------- @Test(expectedExceptions=NullPointerException.class) public void factory_ofInstant_nullInstant() { OffsetTime.ofInstant((Instant) null, ZoneOffset.UTC); } @Test(expectedExceptions=NullPointerException.class) public void factory_ofInstant_nullOffset() { Instant instant = Instant.ofEpochSecond(0L); OffsetTime.ofInstant(instant, (ZoneOffset) null); } @Test public void factory_ofInstant_allSecsInDay() { for (int i = 0; i < (2 * 24 * 60 * 60); i++) { Instant instant = Instant.ofEpochSecond(i, 8); OffsetTime test = OffsetTime.ofInstant(instant, ZoneOffset.UTC); assertEquals(test.getHour(), (i / (60 * 60)) % 24); assertEquals(test.getMinute(), (i / 60) % 60); assertEquals(test.getSecond(), i % 60); assertEquals(test.getNano(), 8); } } @Test public void factory_ofInstant_beforeEpoch() { for (int i =-1; i >= -(24 * 60 * 60); i--) { Instant instant = Instant.ofEpochSecond(i, 8); OffsetTime test = OffsetTime.ofInstant(instant, ZoneOffset.UTC); assertEquals(test.getHour(), ((i + 24 * 60 * 60) / (60 * 60)) % 24); assertEquals(test.getMinute(), ((i + 24 * 60 * 60) / 60) % 60); assertEquals(test.getSecond(), (i + 24 * 60 * 60) % 60); assertEquals(test.getNano(), 8); } } //----------------------------------------------------------------------- @Test public void factory_ofInstant_maxYear() { OffsetTime test = OffsetTime.ofInstant(Instant.MAX, ZoneOffset.UTC); assertEquals(test.getHour(), 23); assertEquals(test.getMinute(), 59); assertEquals(test.getSecond(), 59); assertEquals(test.getNano(), 999_999_999); } @Test public void factory_ofInstant_minYear() { OffsetTime test = OffsetTime.ofInstant(Instant.MIN, ZoneOffset.UTC); assertEquals(test.getHour(), 0); assertEquals(test.getMinute(), 0); assertEquals(test.getSecond(), 0); assertEquals(test.getNano(), 0); } //----------------------------------------------------------------------- // from(TemporalAccessor) //----------------------------------------------------------------------- @Test public void factory_from_TemporalAccessor_OT() { assertEquals(OffsetTime.from(OffsetTime.of(17, 30, 0, 0, OFFSET_PONE)), OffsetTime.of(17, 30, 0, 0, OFFSET_PONE)); } @Test public void test_from_TemporalAccessor_ZDT() { ZonedDateTime base = LocalDateTime.of(2007, 7, 15, 11, 30, 59, 500).atZone(OFFSET_PONE); assertEquals(OffsetTime.from(base), TEST_11_30_59_500_PONE); } @Test(expectedExceptions=DateTimeException.class) public void factory_from_TemporalAccessor_invalid_noDerive() { OffsetTime.from(LocalDate.of(2007, 7, 15)); } @Test(expectedExceptions=NullPointerException.class) public void factory_from_TemporalAccessor_null() { OffsetTime.from((TemporalAccessor) null); } //----------------------------------------------------------------------- // parse() //----------------------------------------------------------------------- @Test(dataProvider = "sampleToString") public void factory_parse_validText(int h, int m, int s, int n, String offsetId, String parsable) { OffsetTime t = OffsetTime.parse(parsable); assertNotNull(t, parsable); check(t, h, m, s, n, ZoneOffset.of(offsetId)); } @DataProvider(name="sampleBadParse") Object[][] provider_sampleBadParse() { return new Object[][]{ {"00;00"}, {"12-00"}, {"-01:00"}, {"00:00:00-09"}, {"00:00:00,09"}, {"00:00:abs"}, {"11"}, {"11:30"}, {"11:30+01:00[Europe/Paris]"}, }; } @Test(dataProvider = "sampleBadParse", expectedExceptions={DateTimeParseException.class}) public void factory_parse_invalidText(String unparsable) { OffsetTime.parse(unparsable); } //-----------------------------------------------------------------------s @Test(expectedExceptions={DateTimeParseException.class}) public void factory_parse_illegalHour() { OffsetTime.parse("25:00+01:00"); } @Test(expectedExceptions={DateTimeParseException.class}) public void factory_parse_illegalMinute() { OffsetTime.parse("12:60+01:00"); } @Test(expectedExceptions={DateTimeParseException.class}) public void factory_parse_illegalSecond() { OffsetTime.parse("12:12:60+01:00"); } //----------------------------------------------------------------------- // parse(DateTimeFormatter) //----------------------------------------------------------------------- @Test public void factory_parse_formatter() { DateTimeFormatter f = DateTimeFormatter.ofPattern("H m s XXX"); OffsetTime test = OffsetTime.parse("11 30 0 +01:00", f); assertEquals(test, OffsetTime.of(11, 30, 0, 0, ZoneOffset.ofHours(1))); } @Test(expectedExceptions=NullPointerException.class) public void factory_parse_formatter_nullText() { DateTimeFormatter f = DateTimeFormatter.ofPattern("y M d H m s"); OffsetTime.parse((String) null, f); } @Test(expectedExceptions=NullPointerException.class) public void factory_parse_formatter_nullFormatter() { OffsetTime.parse("ANY", null); } //----------------------------------------------------------------------- // constructor //----------------------------------------------------------------------- @Test(expectedExceptions=NullPointerException.class) public void constructor_nullTime() throws Throwable { Constructor con = OffsetTime.class.getDeclaredConstructor(LocalTime.class, ZoneOffset.class); con.setAccessible(true); try { con.newInstance(null, OFFSET_PONE); } catch (InvocationTargetException ex) { throw ex.getCause(); } } @Test(expectedExceptions=NullPointerException.class) public void constructor_nullOffset() throws Throwable { Constructor con = OffsetTime.class.getDeclaredConstructor(LocalTime.class, ZoneOffset.class); con.setAccessible(true); try { con.newInstance(LocalTime.of(11, 30, 0, 0), null); } catch (InvocationTargetException ex) { throw ex.getCause(); } } //----------------------------------------------------------------------- // basics //----------------------------------------------------------------------- @DataProvider(name="sampleTimes") Object[][] provider_sampleTimes() { return new Object[][] { {11, 30, 20, 500, OFFSET_PONE}, {11, 0, 0, 0, OFFSET_PONE}, {23, 59, 59, 999999999, OFFSET_PONE}, }; } @Test(dataProvider="sampleTimes") public void test_get(int h, int m, int s, int n, ZoneOffset offset) { LocalTime localTime = LocalTime.of(h, m, s, n); OffsetTime a = OffsetTime.of(localTime, offset); assertEquals(a.toLocalTime(), localTime); assertEquals(a.getOffset(), offset); assertEquals(a.toString(), localTime.toString() + offset.toString()); assertEquals(a.getHour(), localTime.getHour()); assertEquals(a.getMinute(), localTime.getMinute()); assertEquals(a.getSecond(), localTime.getSecond()); assertEquals(a.getNano(), localTime.getNano()); } //----------------------------------------------------------------------- // isSupported(TemporalField) //----------------------------------------------------------------------- @Test public void test_isSupported_TemporalField() { assertEquals(TEST_11_30_59_500_PONE.isSupported((TemporalField) null), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.NANO_OF_SECOND), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.NANO_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MICRO_OF_SECOND), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MICRO_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MILLI_OF_SECOND), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MILLI_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.SECOND_OF_MINUTE), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.SECOND_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MINUTE_OF_HOUR), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MINUTE_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.HOUR_OF_AMPM), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.CLOCK_HOUR_OF_AMPM), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.HOUR_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.CLOCK_HOUR_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.AMPM_OF_DAY), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.DAY_OF_WEEK), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.ALIGNED_DAY_OF_WEEK_IN_MONTH), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.ALIGNED_DAY_OF_WEEK_IN_YEAR), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.DAY_OF_MONTH), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.DAY_OF_YEAR), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.EPOCH_DAY), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.ALIGNED_WEEK_OF_MONTH), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.ALIGNED_WEEK_OF_YEAR), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.MONTH_OF_YEAR), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.PROLEPTIC_MONTH), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.YEAR), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.YEAR_OF_ERA), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.ERA), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.INSTANT_SECONDS), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoField.OFFSET_SECONDS), true); } //----------------------------------------------------------------------- // isSupported(TemporalUnit) //----------------------------------------------------------------------- @Test public void test_isSupported_TemporalUnit() { assertEquals(TEST_11_30_59_500_PONE.isSupported((TemporalUnit) null), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.NANOS), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.MICROS), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.MILLIS), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.SECONDS), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.MINUTES), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.HOURS), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.HALF_DAYS), true); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.DAYS), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.WEEKS), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.MONTHS), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.YEARS), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.DECADES), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.CENTURIES), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.MILLENNIA), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.ERAS), false); assertEquals(TEST_11_30_59_500_PONE.isSupported(ChronoUnit.FOREVER), false); } //----------------------------------------------------------------------- // get(TemporalField) //----------------------------------------------------------------------- @Test public void test_get_TemporalField() { OffsetTime test = OffsetTime.of(12, 30, 40, 987654321, OFFSET_PONE); assertEquals(test.get(ChronoField.HOUR_OF_DAY), 12); assertEquals(test.get(ChronoField.MINUTE_OF_HOUR), 30); assertEquals(test.get(ChronoField.SECOND_OF_MINUTE), 40); assertEquals(test.get(ChronoField.NANO_OF_SECOND), 987654321); assertEquals(test.get(ChronoField.HOUR_OF_AMPM), 0); assertEquals(test.get(ChronoField.AMPM_OF_DAY), 1); assertEquals(test.get(ChronoField.OFFSET_SECONDS), 3600); } @Test public void test_getLong_TemporalField() { OffsetTime test = OffsetTime.of(12, 30, 40, 987654321, OFFSET_PONE); assertEquals(test.getLong(ChronoField.HOUR_OF_DAY), 12); assertEquals(test.getLong(ChronoField.MINUTE_OF_HOUR), 30); assertEquals(test.getLong(ChronoField.SECOND_OF_MINUTE), 40); assertEquals(test.getLong(ChronoField.NANO_OF_SECOND), 987654321); assertEquals(test.getLong(ChronoField.HOUR_OF_AMPM), 0); assertEquals(test.getLong(ChronoField.AMPM_OF_DAY), 1); assertEquals(test.getLong(ChronoField.OFFSET_SECONDS), 3600); } //----------------------------------------------------------------------- // query(TemporalQuery) //----------------------------------------------------------------------- @DataProvider(name="query") Object[][] data_query() { return new Object[][] { {TEST_11_30_59_500_PONE, TemporalQueries.chronology(), null}, {TEST_11_30_59_500_PONE, TemporalQueries.zoneId(), null}, {TEST_11_30_59_500_PONE, TemporalQueries.precision(), ChronoUnit.NANOS}, {TEST_11_30_59_500_PONE, TemporalQueries.zone(), OFFSET_PONE}, {TEST_11_30_59_500_PONE, TemporalQueries.offset(), OFFSET_PONE}, {TEST_11_30_59_500_PONE, TemporalQueries.localDate(), null}, {TEST_11_30_59_500_PONE, TemporalQueries.localTime(), LocalTime.of(11, 30, 59, 500)}, }; } @Test(dataProvider="query") public void test_query(TemporalAccessor temporal, TemporalQuery query, T expected) { assertEquals(temporal.query(query), expected); } @Test(dataProvider="query") public void test_queryFrom(TemporalAccessor temporal, TemporalQuery query, T expected) { assertEquals(query.queryFrom(temporal), expected); } @Test(expectedExceptions=NullPointerException.class) public void test_query_null() { TEST_11_30_59_500_PONE.query(null); } //----------------------------------------------------------------------- // withOffsetSameLocal() //----------------------------------------------------------------------- @Test public void test_withOffsetSameLocal() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withOffsetSameLocal(OFFSET_PTWO); assertEquals(test.toLocalTime(), base.toLocalTime()); assertEquals(test.getOffset(), OFFSET_PTWO); } @Test public void test_withOffsetSameLocal_noChange() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withOffsetSameLocal(OFFSET_PONE); assertEquals(test, base); } @Test(expectedExceptions=NullPointerException.class) public void test_withOffsetSameLocal_null() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); base.withOffsetSameLocal(null); } //----------------------------------------------------------------------- // withOffsetSameInstant() //----------------------------------------------------------------------- @Test public void test_withOffsetSameInstant() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withOffsetSameInstant(OFFSET_PTWO); OffsetTime expected = OffsetTime.of(12, 30, 59, 0, OFFSET_PTWO); assertEquals(test, expected); } @Test public void test_withOffsetSameInstant_noChange() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withOffsetSameInstant(OFFSET_PONE); assertEquals(test, base); } @Test(expectedExceptions=NullPointerException.class) public void test_withOffsetSameInstant_null() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); base.withOffsetSameInstant(null); } //----------------------------------------------------------------------- // adjustInto(Temporal) //----------------------------------------------------------------------- @DataProvider(name="adjustInto") Object[][] data_adjustInto() { return new Object[][]{ {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), OffsetTime.of(LocalTime.of(1, 1, 1, 100), ZoneOffset.UTC), OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), null}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), OffsetTime.MAX, OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), null}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), OffsetTime.MIN, OffsetTime.of(LocalTime.of(23 , 5), OFFSET_PONE), null}, {OffsetTime.MAX, OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), OffsetTime.of(OffsetTime.MAX.toLocalTime(), ZoneOffset.ofHours(-18)), null}, {OffsetTime.MIN, OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), OffsetTime.of(OffsetTime.MIN.toLocalTime(), ZoneOffset.ofHours(18)), null}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), ZonedDateTime.of(LocalDateTime.of(2012, 3, 4, 1, 1, 1, 100), ZONE_GAZA), ZonedDateTime.of(LocalDateTime.of(2012, 3, 4, 23, 5), ZONE_GAZA), null}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), OffsetDateTime.of(LocalDateTime.of(2012, 3, 4, 1, 1, 1, 100), ZoneOffset.UTC), OffsetDateTime.of(LocalDateTime.of(2012, 3, 4, 23, 5), OFFSET_PONE), null}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), LocalDateTime.of(2012, 3, 4, 1, 1, 1, 100), null, DateTimeException.class}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), LocalDate.of(2210, 2, 2), null, DateTimeException.class}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), LocalTime.of(22, 3, 0), null, DateTimeException.class}, {OffsetTime.of(LocalTime.of(23, 5), OFFSET_PONE), null, null, NullPointerException.class}, }; } @Test(dataProvider="adjustInto") public void test_adjustInto(OffsetTime test, Temporal temporal, Temporal expected, Class expectedEx) { if (expectedEx == null) { Temporal result = test.adjustInto(temporal); assertEquals(result, expected); } else { try { Temporal result = test.adjustInto(temporal); fail(); } catch (Exception ex) { assertTrue(expectedEx.isInstance(ex)); } } } //----------------------------------------------------------------------- // with(WithAdjuster) //----------------------------------------------------------------------- @Test public void test_with_adjustment() { final OffsetTime sample = OffsetTime.of(23, 5, 0, 0, OFFSET_PONE); TemporalAdjuster adjuster = new TemporalAdjuster() { @Override public Temporal adjustInto(Temporal dateTime) { return sample; } }; assertEquals(TEST_11_30_59_500_PONE.with(adjuster), sample); } @Test public void test_with_adjustment_LocalTime() { OffsetTime test = TEST_11_30_59_500_PONE.with(LocalTime.of(13, 30)); assertEquals(test, OffsetTime.of(13, 30, 0, 0, OFFSET_PONE)); } @Test public void test_with_adjustment_OffsetTime() { OffsetTime test = TEST_11_30_59_500_PONE.with(OffsetTime.of(13, 35, 0, 0, OFFSET_PTWO)); assertEquals(test, OffsetTime.of(13, 35, 0, 0, OFFSET_PTWO)); } @Test public void test_with_adjustment_ZoneOffset() { OffsetTime test = TEST_11_30_59_500_PONE.with(OFFSET_PTWO); assertEquals(test, OffsetTime.of(11, 30, 59, 500, OFFSET_PTWO)); } @Test public void test_with_adjustment_AmPm() { OffsetTime test = TEST_11_30_59_500_PONE.with(new TemporalAdjuster() { @Override public Temporal adjustInto(Temporal dateTime) { return dateTime.with(HOUR_OF_DAY, 23); } }); assertEquals(test, OffsetTime.of(23, 30, 59, 500, OFFSET_PONE)); } @Test(expectedExceptions=NullPointerException.class) public void test_with_adjustment_null() { TEST_11_30_59_500_PONE.with((TemporalAdjuster) null); } //----------------------------------------------------------------------- // with(TemporalField, long) //----------------------------------------------------------------------- @Test public void test_with_TemporalField() { OffsetTime test = OffsetTime.of(12, 30, 40, 987654321, OFFSET_PONE); assertEquals(test.with(ChronoField.HOUR_OF_DAY, 15), OffsetTime.of(15, 30, 40, 987654321, OFFSET_PONE)); assertEquals(test.with(ChronoField.MINUTE_OF_HOUR, 50), OffsetTime.of(12, 50, 40, 987654321, OFFSET_PONE)); assertEquals(test.with(ChronoField.SECOND_OF_MINUTE, 50), OffsetTime.of(12, 30, 50, 987654321, OFFSET_PONE)); assertEquals(test.with(ChronoField.NANO_OF_SECOND, 12345), OffsetTime.of(12, 30, 40, 12345, OFFSET_PONE)); assertEquals(test.with(ChronoField.HOUR_OF_AMPM, 6), OffsetTime.of(18, 30, 40, 987654321, OFFSET_PONE)); assertEquals(test.with(ChronoField.AMPM_OF_DAY, 0), OffsetTime.of(0, 30, 40, 987654321, OFFSET_PONE)); assertEquals(test.with(ChronoField.OFFSET_SECONDS, 7205), OffsetTime.of(12, 30, 40, 987654321, ZoneOffset.ofHoursMinutesSeconds(2, 0, 5))); } @Test(expectedExceptions=NullPointerException.class ) public void test_with_TemporalField_null() { TEST_11_30_59_500_PONE.with((TemporalField) null, 0); } @Test(expectedExceptions=DateTimeException.class ) public void test_with_TemporalField_invalidField() { TEST_11_30_59_500_PONE.with(ChronoField.YEAR, 0); } //----------------------------------------------------------------------- // withHour() //----------------------------------------------------------------------- @Test public void test_withHour_normal() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withHour(15); assertEquals(test, OffsetTime.of(15, 30, 59, 0, OFFSET_PONE)); } @Test public void test_withHour_noChange() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withHour(11); assertEquals(test, base); } //----------------------------------------------------------------------- // withMinute() //----------------------------------------------------------------------- @Test public void test_withMinute_normal() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withMinute(15); assertEquals(test, OffsetTime.of(11, 15, 59, 0, OFFSET_PONE)); } @Test public void test_withMinute_noChange() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withMinute(30); assertEquals(test, base); } //----------------------------------------------------------------------- // withSecond() //----------------------------------------------------------------------- @Test public void test_withSecond_normal() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withSecond(15); assertEquals(test, OffsetTime.of(11, 30, 15, 0, OFFSET_PONE)); } @Test public void test_withSecond_noChange() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.withSecond(59); assertEquals(test, base); } //----------------------------------------------------------------------- // withNano() //----------------------------------------------------------------------- @Test public void test_withNanoOfSecond_normal() { OffsetTime base = OffsetTime.of(11, 30, 59, 1, OFFSET_PONE); OffsetTime test = base.withNano(15); assertEquals(test, OffsetTime.of(11, 30, 59, 15, OFFSET_PONE)); } @Test public void test_withNanoOfSecond_noChange() { OffsetTime base = OffsetTime.of(11, 30, 59, 1, OFFSET_PONE); OffsetTime test = base.withNano(1); assertEquals(test, base); } //----------------------------------------------------------------------- // truncatedTo(TemporalUnit) //----------------------------------------------------------------------- @Test public void test_truncatedTo_normal() { assertEquals(TEST_11_30_59_500_PONE.truncatedTo(NANOS), TEST_11_30_59_500_PONE); assertEquals(TEST_11_30_59_500_PONE.truncatedTo(SECONDS), TEST_11_30_59_500_PONE.withNano(0)); assertEquals(TEST_11_30_59_500_PONE.truncatedTo(DAYS), TEST_11_30_59_500_PONE.with(LocalTime.MIDNIGHT)); } @Test(expectedExceptions=NullPointerException.class) public void test_truncatedTo_null() { TEST_11_30_59_500_PONE.truncatedTo(null); } //----------------------------------------------------------------------- // plus(PlusAdjuster) //----------------------------------------------------------------------- @Test public void test_plus_PlusAdjuster() { MockSimplePeriod period = MockSimplePeriod.of(7, ChronoUnit.MINUTES); OffsetTime t = TEST_11_30_59_500_PONE.plus(period); assertEquals(t, OffsetTime.of(11, 37, 59, 500, OFFSET_PONE)); } @Test public void test_plus_PlusAdjuster_noChange() { OffsetTime t = TEST_11_30_59_500_PONE.plus(MockSimplePeriod.of(0, SECONDS)); assertEquals(t, TEST_11_30_59_500_PONE); } @Test public void test_plus_PlusAdjuster_zero() { OffsetTime t = TEST_11_30_59_500_PONE.plus(Period.ZERO); assertEquals(t, TEST_11_30_59_500_PONE); } @Test(expectedExceptions=NullPointerException.class) public void test_plus_PlusAdjuster_null() { TEST_11_30_59_500_PONE.plus((TemporalAmount) null); } //----------------------------------------------------------------------- // plusHours() //----------------------------------------------------------------------- @Test public void test_plusHours() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusHours(13); assertEquals(test, OffsetTime.of(0, 30, 59, 0, OFFSET_PONE)); } @Test public void test_plusHours_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusHours(0); assertEquals(test, base); } //----------------------------------------------------------------------- // plusMinutes() //----------------------------------------------------------------------- @Test public void test_plusMinutes() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusMinutes(30); assertEquals(test, OffsetTime.of(12, 0, 59, 0, OFFSET_PONE)); } @Test public void test_plusMinutes_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusMinutes(0); assertEquals(test, base); } //----------------------------------------------------------------------- // plusSeconds() //----------------------------------------------------------------------- @Test public void test_plusSeconds() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusSeconds(1); assertEquals(test, OffsetTime.of(11, 31, 0, 0, OFFSET_PONE)); } @Test public void test_plusSeconds_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusSeconds(0); assertEquals(test, base); } //----------------------------------------------------------------------- // plusNanos() //----------------------------------------------------------------------- @Test public void test_plusNanos() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusNanos(1); assertEquals(test, OffsetTime.of(11, 30, 59, 1, OFFSET_PONE)); } @Test public void test_plusNanos_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.plusNanos(0); assertEquals(test, base); } //----------------------------------------------------------------------- // minus(MinusAdjuster) //----------------------------------------------------------------------- @Test public void test_minus_MinusAdjuster() { MockSimplePeriod period = MockSimplePeriod.of(7, ChronoUnit.MINUTES); OffsetTime t = TEST_11_30_59_500_PONE.minus(period); assertEquals(t, OffsetTime.of(11, 23, 59, 500, OFFSET_PONE)); } @Test public void test_minus_MinusAdjuster_noChange() { OffsetTime t = TEST_11_30_59_500_PONE.minus(MockSimplePeriod.of(0, SECONDS)); assertEquals(t, TEST_11_30_59_500_PONE); } @Test public void test_minus_MinusAdjuster_zero() { OffsetTime t = TEST_11_30_59_500_PONE.minus(Period.ZERO); assertEquals(t, TEST_11_30_59_500_PONE); } @Test(expectedExceptions=NullPointerException.class) public void test_minus_MinusAdjuster_null() { TEST_11_30_59_500_PONE.minus((TemporalAmount) null); } //----------------------------------------------------------------------- // minusHours() //----------------------------------------------------------------------- @Test public void test_minusHours() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusHours(-13); assertEquals(test, OffsetTime.of(0, 30, 59, 0, OFFSET_PONE)); } @Test public void test_minusHours_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusHours(0); assertEquals(test, base); } //----------------------------------------------------------------------- // minusMinutes() //----------------------------------------------------------------------- @Test public void test_minusMinutes() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusMinutes(50); assertEquals(test, OffsetTime.of(10, 40, 59, 0, OFFSET_PONE)); } @Test public void test_minusMinutes_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusMinutes(0); assertEquals(test, base); } //----------------------------------------------------------------------- // minusSeconds() //----------------------------------------------------------------------- @Test public void test_minusSeconds() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusSeconds(60); assertEquals(test, OffsetTime.of(11, 29, 59, 0, OFFSET_PONE)); } @Test public void test_minusSeconds_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusSeconds(0); assertEquals(test, base); } //----------------------------------------------------------------------- // minusNanos() //----------------------------------------------------------------------- @Test public void test_minusNanos() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusNanos(1); assertEquals(test, OffsetTime.of(11, 30, 58, 999999999, OFFSET_PONE)); } @Test public void test_minusNanos_zero() { OffsetTime base = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); OffsetTime test = base.minusNanos(0); assertEquals(test, base); } //----------------------------------------------------------------------- // until(Temporal, TemporalUnit) //----------------------------------------------------------------------- @DataProvider(name="periodUntilUnit") Object[][] data_untilUnit() { return new Object[][] { {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(13, 1, 1, 0, OFFSET_PONE), HALF_DAYS, 1}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(2, 1, 1, 0, OFFSET_PONE), HOURS, 1}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(2, 1, 1, 0, OFFSET_PONE), MINUTES, 60}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(2, 1, 1, 0, OFFSET_PONE), SECONDS, 3600}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(2, 1, 1, 0, OFFSET_PONE), MILLIS, 3600*1000}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(2, 1, 1, 0, OFFSET_PONE), MICROS, 3600*1000*1000L}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(2, 1, 1, 0, OFFSET_PONE), NANOS, 3600*1000*1000L*1000}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(14, 1, 1, 0, OFFSET_PTWO), HALF_DAYS, 1}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(3, 1, 1, 0, OFFSET_PTWO), HOURS, 1}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(3, 1, 1, 0, OFFSET_PTWO), MINUTES, 60}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(3, 1, 1, 0, OFFSET_PTWO), SECONDS, 3600}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(3, 1, 1, 0, OFFSET_PTWO), MILLIS, 3600*1000}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(3, 1, 1, 0, OFFSET_PTWO), MICROS, 3600*1000*1000L}, {OffsetTime.of(1, 1, 1, 0, OFFSET_PONE), OffsetTime.of(3, 1, 1, 0, OFFSET_PTWO), NANOS, 3600*1000*1000L*1000}, }; } @Test(dataProvider="periodUntilUnit") public void test_until_TemporalUnit(OffsetTime offsetTime1, OffsetTime offsetTime2, TemporalUnit unit, long expected) { long amount = offsetTime1.until(offsetTime2, unit); assertEquals(amount, expected); } @Test(dataProvider="periodUntilUnit") public void test_until_TemporalUnit_negated(OffsetTime offsetTime1, OffsetTime offsetTime2, TemporalUnit unit, long expected) { long amount = offsetTime2.until(offsetTime1, unit); assertEquals(amount, -expected); } @Test(dataProvider="periodUntilUnit") public void test_until_TemporalUnit_between(OffsetTime offsetTime1, OffsetTime offsetTime2, TemporalUnit unit, long expected) { long amount = unit.between(offsetTime1, offsetTime2); assertEquals(amount, expected); } @Test public void test_until_convertedType() { OffsetTime offsetTime = OffsetTime.of(1, 1, 1, 0, OFFSET_PONE); OffsetDateTime offsetDateTime = offsetTime.plusSeconds(3).atDate(LocalDate.of(1980, 2, 10)); assertEquals(offsetTime.until(offsetDateTime, SECONDS), 3); } @Test(expectedExceptions=DateTimeException.class) public void test_until_invalidType() { OffsetTime offsetTime = OffsetTime.of(1, 1, 1, 0, OFFSET_PONE); offsetTime.until(LocalDate.of(1980, 2, 10), SECONDS); } @Test(expectedExceptions=DateTimeException.class) public void test_until_invalidTemporalUnit() { OffsetTime offsetTime1 = OffsetTime.of(1, 1, 1, 0, OFFSET_PONE); OffsetTime offsetTime2 = OffsetTime.of(2, 1, 1, 0, OFFSET_PONE); offsetTime1.until(offsetTime2, MONTHS); } //----------------------------------------------------------------------- // format(DateTimeFormatter) //----------------------------------------------------------------------- @Test public void test_format_formatter() { DateTimeFormatter f = DateTimeFormatter.ofPattern("H m s"); String t = OffsetTime.of(11, 30, 0, 0, OFFSET_PONE).format(f); assertEquals(t, "11 30 0"); } @Test(expectedExceptions=NullPointerException.class) public void test_format_formatter_null() { OffsetTime.of(11, 30, 0, 0, OFFSET_PONE).format(null); } //----------------------------------------------------------------------- // compareTo() //----------------------------------------------------------------------- @Test public void test_compareTo_time() { OffsetTime a = OffsetTime.of(11, 29, 0, 0, OFFSET_PONE); OffsetTime b = OffsetTime.of(11, 30, 0, 0, OFFSET_PONE); // a is before b due to time assertEquals(a.compareTo(b) < 0, true); assertEquals(b.compareTo(a) > 0, true); assertEquals(a.compareTo(a) == 0, true); assertEquals(b.compareTo(b) == 0, true); assertEquals(convertInstant(a).compareTo(convertInstant(b)) < 0, true); } @Test public void test_compareTo_offset() { OffsetTime a = OffsetTime.of(11, 30, 0, 0, OFFSET_PTWO); OffsetTime b = OffsetTime.of(11, 30, 0, 0, OFFSET_PONE); // a is before b due to offset assertEquals(a.compareTo(b) < 0, true); assertEquals(b.compareTo(a) > 0, true); assertEquals(a.compareTo(a) == 0, true); assertEquals(b.compareTo(b) == 0, true); assertEquals(convertInstant(a).compareTo(convertInstant(b)) < 0, true); } @Test public void test_compareTo_both() { OffsetTime a = OffsetTime.of(11, 50, 0, 0, OFFSET_PTWO); OffsetTime b = OffsetTime.of(11, 20, 0, 0, OFFSET_PONE); // a is before b on instant scale assertEquals(a.compareTo(b) < 0, true); assertEquals(b.compareTo(a) > 0, true); assertEquals(a.compareTo(a) == 0, true); assertEquals(b.compareTo(b) == 0, true); assertEquals(convertInstant(a).compareTo(convertInstant(b)) < 0, true); } @Test public void test_compareTo_bothNearStartOfDay() { OffsetTime a = OffsetTime.of(0, 10, 0, 0, OFFSET_PONE); OffsetTime b = OffsetTime.of(2, 30, 0, 0, OFFSET_PTWO); // a is before b on instant scale assertEquals(a.compareTo(b) < 0, true); assertEquals(b.compareTo(a) > 0, true); assertEquals(a.compareTo(a) == 0, true); assertEquals(b.compareTo(b) == 0, true); assertEquals(convertInstant(a).compareTo(convertInstant(b)) < 0, true); } @Test public void test_compareTo_hourDifference() { OffsetTime a = OffsetTime.of(10, 0, 0, 0, OFFSET_PONE); OffsetTime b = OffsetTime.of(11, 0, 0, 0, OFFSET_PTWO); // a is before b despite being same time-line time assertEquals(a.compareTo(b) < 0, true); assertEquals(b.compareTo(a) > 0, true); assertEquals(a.compareTo(a) == 0, true); assertEquals(b.compareTo(b) == 0, true); assertEquals(convertInstant(a).compareTo(convertInstant(b)) == 0, true); } @Test(expectedExceptions=NullPointerException.class) public void test_compareTo_null() { OffsetTime a = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); a.compareTo(null); } @Test(expectedExceptions=ClassCastException.class) @SuppressWarnings({"unchecked", "rawtypes"}) public void compareToNonOffsetTime() { Comparable c = TEST_11_30_59_500_PONE; c.compareTo(new Object()); } private Instant convertInstant(OffsetTime ot) { return DATE.atTime(ot.toLocalTime()).toInstant(ot.getOffset()); } //----------------------------------------------------------------------- // isAfter() / isBefore() / isEqual() //----------------------------------------------------------------------- @Test public void test_isBeforeIsAfterIsEqual1() { OffsetTime a = OffsetTime.of(11, 30, 58, 0, OFFSET_PONE); OffsetTime b = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); // a is before b due to time assertEquals(a.isBefore(b), true); assertEquals(a.isEqual(b), false); assertEquals(a.isAfter(b), false); assertEquals(b.isBefore(a), false); assertEquals(b.isEqual(a), false); assertEquals(b.isAfter(a), true); assertEquals(a.isBefore(a), false); assertEquals(b.isBefore(b), false); assertEquals(a.isEqual(a), true); assertEquals(b.isEqual(b), true); assertEquals(a.isAfter(a), false); assertEquals(b.isAfter(b), false); } @Test public void test_isBeforeIsAfterIsEqual1nanos() { OffsetTime a = OffsetTime.of(11, 30, 59, 3, OFFSET_PONE); OffsetTime b = OffsetTime.of(11, 30, 59, 4, OFFSET_PONE); // a is before b due to time assertEquals(a.isBefore(b), true); assertEquals(a.isEqual(b), false); assertEquals(a.isAfter(b), false); assertEquals(b.isBefore(a), false); assertEquals(b.isEqual(a), false); assertEquals(b.isAfter(a), true); assertEquals(a.isBefore(a), false); assertEquals(b.isBefore(b), false); assertEquals(a.isEqual(a), true); assertEquals(b.isEqual(b), true); assertEquals(a.isAfter(a), false); assertEquals(b.isAfter(b), false); } @Test public void test_isBeforeIsAfterIsEqual2() { OffsetTime a = OffsetTime.of(11, 30, 59, 0, OFFSET_PTWO); OffsetTime b = OffsetTime.of(11, 30, 58, 0, OFFSET_PONE); // a is before b due to offset assertEquals(a.isBefore(b), true); assertEquals(a.isEqual(b), false); assertEquals(a.isAfter(b), false); assertEquals(b.isBefore(a), false); assertEquals(b.isEqual(a), false); assertEquals(b.isAfter(a), true); assertEquals(a.isBefore(a), false); assertEquals(b.isBefore(b), false); assertEquals(a.isEqual(a), true); assertEquals(b.isEqual(b), true); assertEquals(a.isAfter(a), false); assertEquals(b.isAfter(b), false); } @Test public void test_isBeforeIsAfterIsEqual2nanos() { OffsetTime a = OffsetTime.of(11, 30, 59, 4, ZoneOffset.ofTotalSeconds(OFFSET_PONE.getTotalSeconds() + 1)); OffsetTime b = OffsetTime.of(11, 30, 59, 3, OFFSET_PONE); // a is before b due to offset assertEquals(a.isBefore(b), true); assertEquals(a.isEqual(b), false); assertEquals(a.isAfter(b), false); assertEquals(b.isBefore(a), false); assertEquals(b.isEqual(a), false); assertEquals(b.isAfter(a), true); assertEquals(a.isBefore(a), false); assertEquals(b.isBefore(b), false); assertEquals(a.isEqual(a), true); assertEquals(b.isEqual(b), true); assertEquals(a.isAfter(a), false); assertEquals(b.isAfter(b), false); } @Test public void test_isBeforeIsAfterIsEqual_instantComparison() { OffsetTime a = OffsetTime.of(11, 30, 59, 0, OFFSET_PTWO); OffsetTime b = OffsetTime.of(10, 30, 59, 0, OFFSET_PONE); // a is same instant as b assertEquals(a.isBefore(b), false); assertEquals(a.isEqual(b), true); assertEquals(a.isAfter(b), false); assertEquals(b.isBefore(a), false); assertEquals(b.isEqual(a), true); assertEquals(b.isAfter(a), false); assertEquals(a.isBefore(a), false); assertEquals(b.isBefore(b), false); assertEquals(a.isEqual(a), true); assertEquals(b.isEqual(b), true); assertEquals(a.isAfter(a), false); assertEquals(b.isAfter(b), false); } @Test(expectedExceptions=NullPointerException.class) public void test_isBefore_null() { OffsetTime a = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); a.isBefore(null); } @Test(expectedExceptions=NullPointerException.class) public void test_isAfter_null() { OffsetTime a = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); a.isAfter(null); } @Test(expectedExceptions=NullPointerException.class) public void test_isEqual_null() { OffsetTime a = OffsetTime.of(11, 30, 59, 0, OFFSET_PONE); a.isEqual(null); } //----------------------------------------------------------------------- // equals() / hashCode() //----------------------------------------------------------------------- @Test(dataProvider="sampleTimes") public void test_equals_true(int h, int m, int s, int n, ZoneOffset ignored) { OffsetTime a = OffsetTime.of(h, m, s, n, OFFSET_PONE); OffsetTime b = OffsetTime.of(h, m, s, n, OFFSET_PONE); assertEquals(a.equals(b), true); assertEquals(a.hashCode() == b.hashCode(), true); } @Test(dataProvider="sampleTimes") public void test_equals_false_hour_differs(int h, int m, int s, int n, ZoneOffset ignored) { h = (h == 23 ? 22 : h); OffsetTime a = OffsetTime.of(h, m, s, n, OFFSET_PONE); OffsetTime b = OffsetTime.of(h + 1, m, s, n, OFFSET_PONE); assertEquals(a.equals(b), false); } @Test(dataProvider="sampleTimes") public void test_equals_false_minute_differs(int h, int m, int s, int n, ZoneOffset ignored) { m = (m == 59 ? 58 : m); OffsetTime a = OffsetTime.of(h, m, s, n, OFFSET_PONE); OffsetTime b = OffsetTime.of(h, m + 1, s, n, OFFSET_PONE); assertEquals(a.equals(b), false); } @Test(dataProvider="sampleTimes") public void test_equals_false_second_differs(int h, int m, int s, int n, ZoneOffset ignored) { s = (s == 59 ? 58 : s); OffsetTime a = OffsetTime.of(h, m, s, n, OFFSET_PONE); OffsetTime b = OffsetTime.of(h, m, s + 1, n, OFFSET_PONE); assertEquals(a.equals(b), false); } @Test(dataProvider="sampleTimes") public void test_equals_false_nano_differs(int h, int m, int s, int n, ZoneOffset ignored) { n = (n == 999999999 ? 999999998 : n); OffsetTime a = OffsetTime.of(h, m, s, n, OFFSET_PONE); OffsetTime b = OffsetTime.of(h, m, s, n + 1, OFFSET_PONE); assertEquals(a.equals(b), false); } @Test(dataProvider="sampleTimes") public void test_equals_false_offset_differs(int h, int m, int s, int n, ZoneOffset ignored) { OffsetTime a = OffsetTime.of(h, m, s, n, OFFSET_PONE); OffsetTime b = OffsetTime.of(h, m, s, n, OFFSET_PTWO); assertEquals(a.equals(b), false); } @Test public void test_equals_itself_true() { assertEquals(TEST_11_30_59_500_PONE.equals(TEST_11_30_59_500_PONE), true); } @Test public void test_equals_string_false() { assertEquals(TEST_11_30_59_500_PONE.equals("2007-07-15"), false); } @Test public void test_equals_null_false() { assertEquals(TEST_11_30_59_500_PONE.equals(null), false); } //----------------------------------------------------------------------- // toString() //----------------------------------------------------------------------- @DataProvider(name="sampleToString") Object[][] provider_sampleToString() { return new Object[][] { {11, 30, 59, 0, "Z", "11:30:59Z"}, {11, 30, 59, 0, "+01:00", "11:30:59+01:00"}, {11, 30, 59, 999000000, "Z", "11:30:59.999Z"}, {11, 30, 59, 999000000, "+01:00", "11:30:59.999+01:00"}, {11, 30, 59, 999000, "Z", "11:30:59.000999Z"}, {11, 30, 59, 999000, "+01:00", "11:30:59.000999+01:00"}, {11, 30, 59, 999, "Z", "11:30:59.000000999Z"}, {11, 30, 59, 999, "+01:00", "11:30:59.000000999+01:00"}, }; } @Test(dataProvider="sampleToString") public void test_toString(int h, int m, int s, int n, String offsetId, String expected) { OffsetTime t = OffsetTime.of(h, m, s, n, ZoneOffset.of(offsetId)); String str = t.toString(); assertEquals(str, expected); } }