/*
* Copyright 2001-2011 Stephen Colebourne
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.joda.time;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.util.Locale;
import java.util.TimeZone;
import junit.framework.TestCase;
import junit.framework.TestSuite;
import org.joda.time.base.AbstractInterval;
import org.joda.time.chrono.BuddhistChronology;
import org.joda.time.chrono.CopticChronology;
import org.joda.time.chrono.GJChronology;
import org.joda.time.chrono.ISOChronology;
import org.joda.time.chrono.LenientChronology;
/**
* This class is a Junit unit test for Instant.
*
* @author Stephen Colebourne
*/
public class TestInterval_Basics extends TestCase {
// Test in 2002/03 as time zones are more well known
// (before the late 90's they were all over the place)
private static final DateTimeZone MOSCOW = DateTimeZone.forID("Europe/Moscow");
private static final DateTimeZone PARIS = DateTimeZone.forID("Europe/Paris");
private static final DateTimeZone LONDON = DateTimeZone.forID("Europe/London");
private static final Chronology COPTIC_PARIS = CopticChronology.getInstance(PARIS);
private Interval interval37;
private Interval interval33;
long y2002days = 365 + 365 + 366 + 365 + 365 + 365 + 366 + 365 + 365 + 365 +
366 + 365 + 365 + 365 + 366 + 365 + 365 + 365 + 366 + 365 +
365 + 365 + 366 + 365 + 365 + 365 + 366 + 365 + 365 + 365 +
366 + 365;
long y2003days = 365 + 365 + 366 + 365 + 365 + 365 + 366 + 365 + 365 + 365 +
366 + 365 + 365 + 365 + 366 + 365 + 365 + 365 + 366 + 365 +
365 + 365 + 366 + 365 + 365 + 365 + 366 + 365 + 365 + 365 +
366 + 365 + 365;
// 2002-06-09
private long TEST_TIME_NOW =
(y2002days + 31L + 28L + 31L + 30L + 31L + 9L -1L) * DateTimeConstants.MILLIS_PER_DAY;
// 2002-04-05
private long TEST_TIME1 =
(y2002days + 31L + 28L + 31L + 5L -1L) * DateTimeConstants.MILLIS_PER_DAY
+ 12L * DateTimeConstants.MILLIS_PER_HOUR
+ 24L * DateTimeConstants.MILLIS_PER_MINUTE;
// 2003-05-06
private long TEST_TIME2 =
(y2003days + 31L + 28L + 31L + 30L + 6L -1L) * DateTimeConstants.MILLIS_PER_DAY
+ 14L * DateTimeConstants.MILLIS_PER_HOUR
+ 28L * DateTimeConstants.MILLIS_PER_MINUTE;
private DateTimeZone originalDateTimeZone = null;
private TimeZone originalTimeZone = null;
private Locale originalLocale = null;
public static void main(String[] args) {
junit.textui.TestRunner.run(suite());
}
public static TestSuite suite() {
return new TestSuite(TestInterval_Basics.class);
}
public TestInterval_Basics(String name) {
super(name);
}
protected void setUp() throws Exception {
DateTimeUtils.setCurrentMillisFixed(TEST_TIME_NOW);
originalDateTimeZone = DateTimeZone.getDefault();
originalTimeZone = TimeZone.getDefault();
originalLocale = Locale.getDefault();
DateTimeZone.setDefault(PARIS);
TimeZone.setDefault(PARIS.toTimeZone());
Locale.setDefault(Locale.FRANCE);
interval37 = new Interval(3, 7);
interval33 = new Interval(3, 3);
}
protected void tearDown() throws Exception {
DateTimeUtils.setCurrentMillisSystem();
DateTimeZone.setDefault(originalDateTimeZone);
TimeZone.setDefault(originalTimeZone);
Locale.setDefault(originalLocale);
originalDateTimeZone = null;
originalTimeZone = null;
originalLocale = null;
}
//-----------------------------------------------------------------------
public void testTest() {
assertEquals("2002-06-09T00:00:00.000Z", new Instant(TEST_TIME_NOW).toString());
assertEquals("2002-04-05T12:24:00.000Z", new Instant(TEST_TIME1).toString());
assertEquals("2003-05-06T14:28:00.000Z", new Instant(TEST_TIME2).toString());
}
//-----------------------------------------------------------------------
public void testGetMillis() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2);
assertEquals(TEST_TIME1, test.getStartMillis());
assertEquals(TEST_TIME1, test.getStart().getMillis());
assertEquals(TEST_TIME2, test.getEndMillis());
assertEquals(TEST_TIME2, test.getEnd().getMillis());
assertEquals(TEST_TIME2 - TEST_TIME1, test.toDurationMillis());
assertEquals(TEST_TIME2 - TEST_TIME1, test.toDuration().getMillis());
}
public void testGetDuration1() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2);
assertEquals(TEST_TIME2 - TEST_TIME1, test.toDurationMillis());
assertEquals(TEST_TIME2 - TEST_TIME1, test.toDuration().getMillis());
}
public void testGetDuration2() {
Interval test = new Interval(TEST_TIME1, TEST_TIME1);
assertSame(Duration.ZERO, test.toDuration());
}
public void testEqualsHashCode() {
Interval test1 = new Interval(TEST_TIME1, TEST_TIME2);
Interval test2 = new Interval(TEST_TIME1, TEST_TIME2);
assertEquals(true, test1.equals(test2));
assertEquals(true, test2.equals(test1));
assertEquals(true, test1.equals(test1));
assertEquals(true, test2.equals(test2));
assertEquals(true, test1.hashCode() == test2.hashCode());
assertEquals(true, test1.hashCode() == test1.hashCode());
assertEquals(true, test2.hashCode() == test2.hashCode());
Interval test3 = new Interval(TEST_TIME_NOW, TEST_TIME2);
assertEquals(false, test1.equals(test3));
assertEquals(false, test2.equals(test3));
assertEquals(false, test3.equals(test1));
assertEquals(false, test3.equals(test2));
assertEquals(false, test1.hashCode() == test3.hashCode());
assertEquals(false, test2.hashCode() == test3.hashCode());
Interval test4 = new Interval(TEST_TIME1, TEST_TIME2, GJChronology.getInstance());
assertEquals(true, test4.equals(test4));
assertEquals(false, test1.equals(test4));
assertEquals(false, test2.equals(test4));
assertEquals(false, test4.equals(test1));
assertEquals(false, test4.equals(test2));
assertEquals(false, test1.hashCode() == test4.hashCode());
assertEquals(false, test2.hashCode() == test4.hashCode());
MutableInterval test5 = new MutableInterval(TEST_TIME1, TEST_TIME2);
assertEquals(true, test1.equals(test5));
assertEquals(true, test2.equals(test5));
assertEquals(false, test3.equals(test5));
assertEquals(true, test5.equals(test1));
assertEquals(true, test5.equals(test2));
assertEquals(false, test5.equals(test3));
assertEquals(true, test1.hashCode() == test5.hashCode());
assertEquals(true, test2.hashCode() == test5.hashCode());
assertEquals(false, test3.hashCode() == test5.hashCode());
assertEquals(false, test1.equals("Hello"));
assertEquals(true, test1.equals(new MockInterval()));
assertEquals(false, test1.equals(new DateTime(TEST_TIME1)));
}
class MockInterval extends AbstractInterval {
public MockInterval() {
super();
}
public Chronology getChronology() {
return ISOChronology.getInstance();
}
public long getStartMillis() {
return TEST_TIME1;
}
public long getEndMillis() {
return TEST_TIME2;
}
}
public void testEqualsHashCodeLenient() {
Interval test1 = new Interval(
new DateTime(TEST_TIME1, LenientChronology.getInstance(COPTIC_PARIS)),
new DateTime(TEST_TIME2, LenientChronology.getInstance(COPTIC_PARIS)));
Interval test2 = new Interval(
new DateTime(TEST_TIME1, LenientChronology.getInstance(COPTIC_PARIS)),
new DateTime(TEST_TIME2, LenientChronology.getInstance(COPTIC_PARIS)));
assertEquals(true, test1.equals(test2));
assertEquals(true, test2.equals(test1));
assertEquals(true, test1.equals(test1));
assertEquals(true, test2.equals(test2));
assertEquals(true, test1.hashCode() == test2.hashCode());
assertEquals(true, test1.hashCode() == test1.hashCode());
assertEquals(true, test2.hashCode() == test2.hashCode());
}
public void testEqualsHashCodeStrict() {
Interval test1 = new Interval(
new DateTime(TEST_TIME1, LenientChronology.getInstance(COPTIC_PARIS)),
new DateTime(TEST_TIME2, LenientChronology.getInstance(COPTIC_PARIS)));
Interval test2 = new Interval(
new DateTime(TEST_TIME1, LenientChronology.getInstance(COPTIC_PARIS)),
new DateTime(TEST_TIME2, LenientChronology.getInstance(COPTIC_PARIS)));
assertEquals(true, test1.equals(test2));
assertEquals(true, test2.equals(test1));
assertEquals(true, test1.equals(test1));
assertEquals(true, test2.equals(test2));
assertEquals(true, test1.hashCode() == test2.hashCode());
assertEquals(true, test1.hashCode() == test1.hashCode());
assertEquals(true, test2.hashCode() == test2.hashCode());
}
//-----------------------------------------------------------------------
public void test_useCase_ContainsOverlapAbutGap() {
// this is a simple test to ensure that the use case of these methods is OK
// when comparing any two intervals they can be in one and only one of these states
// (a) have a gap between them, (b) abut or (c) overlap
// contains is a subset of overlap
Interval test1020 = new Interval(10, 20);
// [4,8) [10,20) - gap
Interval interval = new Interval(4, 8);
assertNotNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNotNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [6,10) [10,20) - abuts
interval = new Interval(6, 10);
assertNull(test1020.gap(interval));
assertEquals(true, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(true, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [8,12) [10,20) - overlaps
interval = new Interval(8, 12);
assertNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(true, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(true, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,14) [10,20) - overlaps and contains-one-way
interval = new Interval(10, 14);
assertNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(true, test1020.overlaps(interval));
assertEquals(true, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(true, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,20) [10,20) - overlaps and contains-both-ways
assertNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(test1020));
assertEquals(true, test1020.overlaps(test1020));
assertEquals(true, test1020.contains(test1020));
// [10,20) [16,20) - overlaps and contains-one-way
interval = new Interval(16, 20);
assertNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(true, test1020.overlaps(interval));
assertEquals(true, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(true, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,20) [18,22) - overlaps
interval = new Interval(18, 22);
assertNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(true, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(true, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,20) [20,24) - abuts
interval = new Interval(20, 24);
assertNull(test1020.gap(interval));
assertEquals(true, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(true, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,20) [22,26) - gap
interval = new Interval(22, 26);
assertNotNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNotNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
}
//-----------------------------------------------------------------------
public void test_useCase_ContainsOverlapAbutGap_zeroDuration() {
// this is a simple test to ensure that the use case of these methods
// is OK when considering a zero duration inerval
// when comparing any two intervals they can be in one and only one of these states
// (a) have a gap between them, (b) abut or (c) overlap
// contains is a subset of overlap
Interval test1020 = new Interval(10, 20);
// [8,8) [10,20) - gap
Interval interval = new Interval(8, 8);
assertNotNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNotNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,10) [10,20) - abuts and contains-one-way
interval = new Interval(10, 10);
assertNull(test1020.gap(interval));
assertEquals(true, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval)); // abuts, so can't overlap
assertEquals(true, test1020.contains(interval)); // normal contains zero-duration
assertNull(interval.gap(test1020));
assertEquals(true, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020)); // abuts, so can't overlap
assertEquals(false, interval.contains(test1020)); // zero-duration does not contain normal
// [12,12) [10,20) - contains-one-way and overlaps
interval = new Interval(12, 12);
assertNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(true, test1020.overlaps(interval));
assertEquals(true, test1020.contains(interval)); // normal contains zero-duration
assertNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(true, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020)); // zero-duration does not contain normal
// [10,20) [20,20) - abuts
interval = new Interval(20, 20);
assertNull(test1020.gap(interval));
assertEquals(true, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNull(interval.gap(test1020));
assertEquals(true, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
// [10,20) [22,22) - gap
interval = new Interval(22, 22);
assertNotNull(test1020.gap(interval));
assertEquals(false, test1020.abuts(interval));
assertEquals(false, test1020.overlaps(interval));
assertEquals(false, test1020.contains(interval));
assertNotNull(interval.gap(test1020));
assertEquals(false, interval.abuts(test1020));
assertEquals(false, interval.overlaps(test1020));
assertEquals(false, interval.contains(test1020));
}
//-----------------------------------------------------------------------
public void test_useCase_ContainsOverlapAbutGap_bothZeroDuration() {
// this is a simple test to ensure that the use case of these methods
// is OK when considering two zero duration inervals
// this is the simplest case, as the two intervals either have a gap or not
// if not, then they are equal and abut
Interval test0808 = new Interval(8, 8);
Interval test1010 = new Interval(10, 10);
// [8,8) [10,10) - gap
assertNotNull(test1010.gap(test0808));
assertEquals(false, test1010.abuts(test0808));
assertEquals(false, test1010.overlaps(test0808));
assertEquals(false, test1010.contains(test0808));
assertNotNull(test0808.gap(test1010));
assertEquals(false, test0808.abuts(test1010));
assertEquals(false, test0808.overlaps(test1010));
assertEquals(false, test0808.contains(test1010));
// [10,10) [10,10) - abuts
assertNull(test1010.gap(test1010));
assertEquals(true, test1010.abuts(test1010));
assertEquals(false, test1010.overlaps(test1010));
assertEquals(false, test1010.contains(test1010));
}
//-----------------------------------------------------------------------
public void testContains_long() {
assertEquals(false, interval37.contains(2)); // value before
assertEquals(true, interval37.contains(3));
assertEquals(true, interval37.contains(4));
assertEquals(true, interval37.contains(5));
assertEquals(true, interval37.contains(6));
assertEquals(false, interval37.contains(7)); // value after
assertEquals(false, interval37.contains(8)); // value after
}
public void testContains_long_zeroDuration() {
assertEquals(false, interval33.contains(2)); // value before
assertEquals(false, interval33.contains(3)); // zero length duration contains nothing
assertEquals(false, interval33.contains(4)); // value after
}
//-----------------------------------------------------------------------
public void testContainsNow() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.containsNow()); // value before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(true, interval37.containsNow());
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(true, interval37.containsNow());
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(true, interval37.containsNow());
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.containsNow()); // value after
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.containsNow()); // value after
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval33.containsNow()); // value before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval33.containsNow()); // zero length duration contains nothing
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval33.containsNow()); // value after
}
//-----------------------------------------------------------------------
public void testContains_RI() {
assertEquals(false, interval37.contains(new Instant(2))); // value before
assertEquals(true, interval37.contains(new Instant(3)));
assertEquals(true, interval37.contains(new Instant(4)));
assertEquals(true, interval37.contains(new Instant(5)));
assertEquals(true, interval37.contains(new Instant(6)));
assertEquals(false, interval37.contains(new Instant(7))); // value after
assertEquals(false, interval37.contains(new Instant(8))); // value after
}
public void testContains_RI_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.contains((ReadableInstant) null)); // value before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(true, interval37.contains((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(true, interval37.contains((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(true, interval37.contains((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.contains((ReadableInstant) null)); // value after
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.contains((ReadableInstant) null)); // value after
}
public void testContains_RI_zeroDuration() {
assertEquals(false, interval33.contains(new Instant(2))); // value before
assertEquals(false, interval33.contains(new Instant(3))); // zero length duration contains nothing
assertEquals(false, interval33.contains(new Instant(4))); // value after
}
//-----------------------------------------------------------------------
public void testContains_RInterval() {
assertEquals(false, interval37.contains(new Interval(1, 2))); // gap before
assertEquals(false, interval37.contains(new Interval(2, 2))); // gap before
assertEquals(false, interval37.contains(new Interval(2, 3))); // abuts before
assertEquals(true, interval37.contains(new Interval(3, 3)));
assertEquals(false, interval37.contains(new Interval(2, 4))); // starts before
assertEquals(true, interval37.contains(new Interval(3, 4)));
assertEquals(true, interval37.contains(new Interval(4, 4)));
assertEquals(false, interval37.contains(new Interval(2, 6))); // starts before
assertEquals(true, interval37.contains(new Interval(3, 6)));
assertEquals(true, interval37.contains(new Interval(4, 6)));
assertEquals(true, interval37.contains(new Interval(5, 6)));
assertEquals(true, interval37.contains(new Interval(6, 6)));
assertEquals(false, interval37.contains(new Interval(2, 7))); // starts before
assertEquals(true, interval37.contains(new Interval(3, 7)));
assertEquals(true, interval37.contains(new Interval(4, 7)));
assertEquals(true, interval37.contains(new Interval(5, 7)));
assertEquals(true, interval37.contains(new Interval(6, 7)));
assertEquals(false, interval37.contains(new Interval(7, 7))); // abuts after
assertEquals(false, interval37.contains(new Interval(2, 8))); // ends after
assertEquals(false, interval37.contains(new Interval(3, 8))); // ends after
assertEquals(false, interval37.contains(new Interval(4, 8))); // ends after
assertEquals(false, interval37.contains(new Interval(5, 8))); // ends after
assertEquals(false, interval37.contains(new Interval(6, 8))); // ends after
assertEquals(false, interval37.contains(new Interval(7, 8))); // abuts after
assertEquals(false, interval37.contains(new Interval(8, 8))); // gap after
assertEquals(false, interval37.contains(new Interval(8, 9))); // gap after
assertEquals(false, interval37.contains(new Interval(9, 9))); // gap after
}
public void testContains_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.contains((ReadableInterval) null)); // gap before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(true, interval37.contains((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(true, interval37.contains((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(true, interval37.contains((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.contains((ReadableInterval) null)); // abuts after
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.contains((ReadableInterval) null)); // gap after
}
public void testContains_RInterval_zeroDuration() {
assertEquals(false, interval33.contains(interval33)); // zero length duration contains nothing
assertEquals(false, interval33.contains(interval37)); // zero-duration cannot contain anything
assertEquals(true, interval37.contains(interval33));
assertEquals(false, interval33.contains(new Interval(1, 2))); // zero-duration cannot contain anything
assertEquals(false, interval33.contains(new Interval(8, 9))); // zero-duration cannot contain anything
assertEquals(false, interval33.contains(new Interval(1, 9))); // zero-duration cannot contain anything
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval33.contains((ReadableInterval) null)); // gap before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval33.contains((ReadableInterval) null)); // zero length duration contains nothing
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval33.contains((ReadableInterval) null)); // gap after
}
//-----------------------------------------------------------------------
public void testOverlaps_RInterval() {
assertEquals(false, interval37.overlaps(new Interval(1, 2))); // gap before
assertEquals(false, interval37.overlaps(new Interval(2, 2))); // gap before
assertEquals(false, interval37.overlaps(new Interval(2, 3))); // abuts before
assertEquals(false, interval37.overlaps(new Interval(3, 3))); // abuts before
assertEquals(true, interval37.overlaps(new Interval(2, 4)));
assertEquals(true, interval37.overlaps(new Interval(3, 4)));
assertEquals(true, interval37.overlaps(new Interval(4, 4)));
assertEquals(true, interval37.overlaps(new Interval(2, 6)));
assertEquals(true, interval37.overlaps(new Interval(3, 6)));
assertEquals(true, interval37.overlaps(new Interval(4, 6)));
assertEquals(true, interval37.overlaps(new Interval(5, 6)));
assertEquals(true, interval37.overlaps(new Interval(6, 6)));
assertEquals(true, interval37.overlaps(new Interval(2, 7)));
assertEquals(true, interval37.overlaps(new Interval(3, 7)));
assertEquals(true, interval37.overlaps(new Interval(4, 7)));
assertEquals(true, interval37.overlaps(new Interval(5, 7)));
assertEquals(true, interval37.overlaps(new Interval(6, 7)));
assertEquals(false, interval37.overlaps(new Interval(7, 7))); // abuts after
assertEquals(true, interval37.overlaps(new Interval(2, 8)));
assertEquals(true, interval37.overlaps(new Interval(3, 8)));
assertEquals(true, interval37.overlaps(new Interval(4, 8)));
assertEquals(true, interval37.overlaps(new Interval(5, 8)));
assertEquals(true, interval37.overlaps(new Interval(6, 8)));
assertEquals(false, interval37.overlaps(new Interval(7, 8))); // abuts after
assertEquals(false, interval37.overlaps(new Interval(8, 8))); // gap after
assertEquals(false, interval37.overlaps(new Interval(8, 9))); // gap after
assertEquals(false, interval37.overlaps(new Interval(9, 9))); // gap after
}
public void testOverlaps_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.overlaps((ReadableInterval) null)); // gap before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval37.overlaps((ReadableInterval) null)); // abuts before
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(true, interval37.overlaps((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(true, interval37.overlaps((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.overlaps((ReadableInterval) null)); // abuts after
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.overlaps((ReadableInterval) null)); // gap after
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval33.overlaps((ReadableInterval) null)); // abuts before and after
}
public void testOverlaps_RInterval_zeroDuration() {
assertEquals(false, interval33.overlaps(interval33)); // abuts before and after
assertEquals(false, interval33.overlaps(interval37)); // abuts before
assertEquals(false, interval37.overlaps(interval33)); // abuts before
assertEquals(false, interval33.overlaps(new Interval(1, 2)));
assertEquals(false, interval33.overlaps(new Interval(8, 9)));
assertEquals(true, interval33.overlaps(new Interval(1, 9)));
}
//-----------------------------------------------------------------------
public void testOverlap_RInterval() {
assertEquals(null, interval37.overlap(new Interval(1, 2))); // gap before
assertEquals(null, interval37.overlap(new Interval(2, 2))); // gap before
assertEquals(null, interval37.overlap(new Interval(2, 3))); // abuts before
assertEquals(null, interval37.overlap(new Interval(3, 3))); // abuts before
assertEquals(new Interval(3, 4), interval37.overlap(new Interval(2, 4))); // truncated start
assertEquals(new Interval(3, 4), interval37.overlap(new Interval(3, 4)));
assertEquals(new Interval(4, 4), interval37.overlap(new Interval(4, 4)));
assertEquals(new Interval(3, 7), interval37.overlap(new Interval(2, 7))); // truncated start
assertEquals(new Interval(3, 7), interval37.overlap(new Interval(3, 7)));
assertEquals(new Interval(4, 7), interval37.overlap(new Interval(4, 7)));
assertEquals(new Interval(5, 7), interval37.overlap(new Interval(5, 7)));
assertEquals(new Interval(6, 7), interval37.overlap(new Interval(6, 7)));
assertEquals(null, interval37.overlap(new Interval(7, 7))); // abuts after
assertEquals(new Interval(3, 7), interval37.overlap(new Interval(2, 8))); // truncated start and end
assertEquals(new Interval(3, 7), interval37.overlap(new Interval(3, 8))); // truncated end
assertEquals(new Interval(4, 7), interval37.overlap(new Interval(4, 8))); // truncated end
assertEquals(new Interval(5, 7), interval37.overlap(new Interval(5, 8))); // truncated end
assertEquals(new Interval(6, 7), interval37.overlap(new Interval(6, 8))); // truncated end
assertEquals(null, interval37.overlap(new Interval(7, 8))); // abuts after
assertEquals(null, interval37.overlap(new Interval(8, 8))); // gap after
}
public void testOverlap_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(null, interval37.overlap((ReadableInterval) null)); // gap before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(null, interval37.overlap((ReadableInterval) null)); // abuts before
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(new Interval(4, 4), interval37.overlap((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(new Interval(6, 6), interval37.overlap((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(null, interval37.overlap((ReadableInterval) null)); // abuts after
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(null, interval37.overlap((ReadableInterval) null)); // gap after
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(null, interval33.overlap((ReadableInterval) null)); // abuts before and after
}
public void testOverlap_RInterval_zone() {
Interval testA = new Interval(new DateTime(3, LONDON), new DateTime(7, LONDON));
assertEquals(ISOChronology.getInstance(LONDON), testA.getChronology());
Interval testB = new Interval(new DateTime(4, MOSCOW), new DateTime(8, MOSCOW));
assertEquals(ISOChronology.getInstance(MOSCOW), testB.getChronology());
Interval resultAB = testA.overlap(testB);
assertEquals(ISOChronology.getInstance(LONDON), resultAB.getChronology());
Interval resultBA = testB.overlap(testA);
assertEquals(ISOChronology.getInstance(MOSCOW), resultBA.getChronology());
}
public void testOverlap_RInterval_zoneUTC() {
Interval testA = new Interval(new Instant(3), new Instant(7));
assertEquals(ISOChronology.getInstanceUTC(), testA.getChronology());
Interval testB = new Interval(new Instant(4), new Instant(8));
assertEquals(ISOChronology.getInstanceUTC(), testB.getChronology());
Interval result = testA.overlap(testB);
assertEquals(ISOChronology.getInstanceUTC(), result.getChronology());
}
//-----------------------------------------------------------------------
public void testGap_RInterval() {
assertEquals(new Interval(1, 3), interval37.gap(new Interval(0, 1)));
assertEquals(new Interval(1, 3), interval37.gap(new Interval(1, 1)));
assertEquals(null, interval37.gap(new Interval(2, 3))); // abuts before
assertEquals(null, interval37.gap(new Interval(3, 3))); // abuts before
assertEquals(null, interval37.gap(new Interval(4, 6))); // overlaps
assertEquals(null, interval37.gap(new Interval(3, 7))); // overlaps
assertEquals(null, interval37.gap(new Interval(6, 7))); // overlaps
assertEquals(null, interval37.gap(new Interval(7, 7))); // abuts after
assertEquals(null, interval37.gap(new Interval(6, 8))); // overlaps
assertEquals(null, interval37.gap(new Interval(7, 8))); // abuts after
assertEquals(new Interval(7, 8), interval37.gap(new Interval(8, 8)));
assertEquals(null, interval37.gap(new Interval(6, 9))); // overlaps
assertEquals(null, interval37.gap(new Interval(7, 9))); // abuts after
assertEquals(new Interval(7, 8), interval37.gap(new Interval(8, 9)));
assertEquals(new Interval(7, 9), interval37.gap(new Interval(9, 9)));
}
public void testGap_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(new Interval(2, 3), interval37.gap((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(null, interval37.gap((ReadableInterval) null)); // abuts before
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(null, interval37.gap((ReadableInterval) null)); // overlaps
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(null, interval37.gap((ReadableInterval) null)); // overlaps
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(null, interval37.gap((ReadableInterval) null)); // abuts after
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(new Interval(7, 8), interval37.gap((ReadableInterval) null));
}
public void testGap_RInterval_zone() {
Interval testA = new Interval(new DateTime(3, LONDON), new DateTime(7, LONDON));
assertEquals(ISOChronology.getInstance(LONDON), testA.getChronology());
Interval testB = new Interval(new DateTime(1, MOSCOW), new DateTime(2, MOSCOW));
assertEquals(ISOChronology.getInstance(MOSCOW), testB.getChronology());
Interval resultAB = testA.gap(testB);
assertEquals(ISOChronology.getInstance(LONDON), resultAB.getChronology());
Interval resultBA = testB.gap(testA);
assertEquals(ISOChronology.getInstance(MOSCOW), resultBA.getChronology());
}
public void testGap_RInterval_zoneUTC() {
Interval testA = new Interval(new Instant(3), new Instant(7));
assertEquals(ISOChronology.getInstanceUTC(), testA.getChronology());
Interval testB = new Interval(new Instant(1), new Instant(2));
assertEquals(ISOChronology.getInstanceUTC(), testB.getChronology());
Interval result = testA.gap(testB);
assertEquals(ISOChronology.getInstanceUTC(), result.getChronology());
}
//-----------------------------------------------------------------------
public void testAbuts_RInterval() {
assertEquals(false, interval37.abuts(new Interval(1, 2))); // gap before
assertEquals(false, interval37.abuts(new Interval(2, 2))); // gap before
assertEquals(true, interval37.abuts(new Interval(2, 3)));
assertEquals(true, interval37.abuts(new Interval(3, 3)));
assertEquals(false, interval37.abuts(new Interval(2, 4))); // overlaps
assertEquals(false, interval37.abuts(new Interval(3, 4))); // overlaps
assertEquals(false, interval37.abuts(new Interval(4, 4))); // overlaps
assertEquals(false, interval37.abuts(new Interval(2, 6))); // overlaps
assertEquals(false, interval37.abuts(new Interval(3, 6))); // overlaps
assertEquals(false, interval37.abuts(new Interval(4, 6))); // overlaps
assertEquals(false, interval37.abuts(new Interval(5, 6))); // overlaps
assertEquals(false, interval37.abuts(new Interval(6, 6))); // overlaps
assertEquals(false, interval37.abuts(new Interval(2, 7))); // overlaps
assertEquals(false, interval37.abuts(new Interval(3, 7))); // overlaps
assertEquals(false, interval37.abuts(new Interval(4, 7))); // overlaps
assertEquals(false, interval37.abuts(new Interval(5, 7))); // overlaps
assertEquals(false, interval37.abuts(new Interval(6, 7))); // overlaps
assertEquals(true, interval37.abuts(new Interval(7, 7)));
assertEquals(false, interval37.abuts(new Interval(2, 8))); // overlaps
assertEquals(false, interval37.abuts(new Interval(3, 8))); // overlaps
assertEquals(false, interval37.abuts(new Interval(4, 8))); // overlaps
assertEquals(false, interval37.abuts(new Interval(5, 8))); // overlaps
assertEquals(false, interval37.abuts(new Interval(6, 8))); // overlaps
assertEquals(true, interval37.abuts(new Interval(7, 8)));
assertEquals(false, interval37.abuts(new Interval(8, 8))); // gap after
assertEquals(false, interval37.abuts(new Interval(8, 9))); // gap after
assertEquals(false, interval37.abuts(new Interval(9, 9))); // gap after
}
public void testAbuts_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.abuts((ReadableInterval) null)); // gap before
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(true, interval37.abuts((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.abuts((ReadableInterval) null)); // overlaps
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.abuts((ReadableInterval) null)); // overlaps
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(true, interval37.abuts((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.abuts((ReadableInterval) null)); // gap after
}
//-----------------------------------------------------------------------
public void testIsEqual_RI() {
assertEquals(false, interval37.isEqual(interval33));
assertEquals(true, interval37.isEqual(interval37));
}
//-----------------------------------------------------------------------
public void testIsBefore_long() {
assertEquals(false, interval37.isBefore(2));
assertEquals(false, interval37.isBefore(3));
assertEquals(false, interval37.isBefore(4));
assertEquals(false, interval37.isBefore(5));
assertEquals(false, interval37.isBefore(6));
assertEquals(true, interval37.isBefore(7));
assertEquals(true, interval37.isBefore(8));
}
public void testIsBeforeNow() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.isBeforeNow());
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval37.isBeforeNow());
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.isBeforeNow());
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.isBeforeNow());
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(true, interval37.isBeforeNow());
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(true, interval37.isBeforeNow());
}
public void testIsBefore_RI() {
assertEquals(false, interval37.isBefore(new Instant(2)));
assertEquals(false, interval37.isBefore(new Instant(3)));
assertEquals(false, interval37.isBefore(new Instant(4)));
assertEquals(false, interval37.isBefore(new Instant(5)));
assertEquals(false, interval37.isBefore(new Instant(6)));
assertEquals(true, interval37.isBefore(new Instant(7)));
assertEquals(true, interval37.isBefore(new Instant(8)));
}
public void testIsBefore_RI_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.isBefore((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval37.isBefore((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.isBefore((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.isBefore((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(true, interval37.isBefore((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(true, interval37.isBefore((ReadableInstant) null));
}
public void testIsBefore_RInterval() {
assertEquals(false, interval37.isBefore(new Interval(Long.MIN_VALUE, 2)));
assertEquals(false, interval37.isBefore(new Interval(Long.MIN_VALUE, 3)));
assertEquals(false, interval37.isBefore(new Interval(Long.MIN_VALUE, 4)));
assertEquals(false, interval37.isBefore(new Interval(6, Long.MAX_VALUE)));
assertEquals(true, interval37.isBefore(new Interval(7, Long.MAX_VALUE)));
assertEquals(true, interval37.isBefore(new Interval(8, Long.MAX_VALUE)));
}
public void testIsBefore_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(false, interval37.isBefore((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval37.isBefore((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.isBefore((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.isBefore((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(true, interval37.isBefore((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(true, interval37.isBefore((ReadableInterval) null));
}
//-----------------------------------------------------------------------
public void testIsAfter_long() {
assertEquals(true, interval37.isAfter(2));
assertEquals(false, interval37.isAfter(3));
assertEquals(false, interval37.isAfter(4));
assertEquals(false, interval37.isAfter(5));
assertEquals(false, interval37.isAfter(6));
assertEquals(false, interval37.isAfter(7));
assertEquals(false, interval37.isAfter(8));
}
public void testIsAfterNow() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(true, interval37.isAfterNow());
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval37.isAfterNow());
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.isAfterNow());
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.isAfterNow());
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.isAfterNow());
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.isAfterNow());
}
public void testIsAfter_RI() {
assertEquals(true, interval37.isAfter(new Instant(2)));
assertEquals(false, interval37.isAfter(new Instant(3)));
assertEquals(false, interval37.isAfter(new Instant(4)));
assertEquals(false, interval37.isAfter(new Instant(5)));
assertEquals(false, interval37.isAfter(new Instant(6)));
assertEquals(false, interval37.isAfter(new Instant(7)));
assertEquals(false, interval37.isAfter(new Instant(8)));
}
public void testIsAfter_RI_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(true, interval37.isAfter((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(false, interval37.isAfter((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.isAfter((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.isAfter((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.isAfter((ReadableInstant) null));
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.isAfter((ReadableInstant) null));
}
public void testIsAfter_RInterval() {
assertEquals(true, interval37.isAfter(new Interval(Long.MIN_VALUE, 2)));
assertEquals(true, interval37.isAfter(new Interval(Long.MIN_VALUE, 3)));
assertEquals(false, interval37.isAfter(new Interval(Long.MIN_VALUE, 4)));
assertEquals(false, interval37.isAfter(new Interval(6, Long.MAX_VALUE)));
assertEquals(false, interval37.isAfter(new Interval(7, Long.MAX_VALUE)));
assertEquals(false, interval37.isAfter(new Interval(8, Long.MAX_VALUE)));
}
public void testIsAfter_RInterval_null() {
DateTimeUtils.setCurrentMillisFixed(2);
assertEquals(true, interval37.isAfter((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(3);
assertEquals(true, interval37.isAfter((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(4);
assertEquals(false, interval37.isAfter((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(6);
assertEquals(false, interval37.isAfter((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(7);
assertEquals(false, interval37.isAfter((ReadableInterval) null));
DateTimeUtils.setCurrentMillisFixed(8);
assertEquals(false, interval37.isAfter((ReadableInterval) null));
}
//-----------------------------------------------------------------------
public void testToInterval1() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval result = test.toInterval();
assertSame(test, result);
}
//-----------------------------------------------------------------------
public void testToMutableInterval1() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
MutableInterval result = test.toMutableInterval();
assertEquals(test, result);
}
//-----------------------------------------------------------------------
public void testToPeriod() {
DateTime dt1 = new DateTime(2004, 6, 9, 7, 8, 9, 10, COPTIC_PARIS);
DateTime dt2 = new DateTime(2005, 8, 13, 12, 14, 16, 18, COPTIC_PARIS);
Interval base = new Interval(dt1, dt2);
Period test = base.toPeriod();
Period expected = new Period(dt1, dt2, PeriodType.standard());
assertEquals(expected, test);
}
//-----------------------------------------------------------------------
public void testToPeriod_PeriodType1() {
DateTime dt1 = new DateTime(2004, 6, 9, 7, 8, 9, 10, COPTIC_PARIS);
DateTime dt2 = new DateTime(2005, 8, 13, 12, 14, 16, 18, COPTIC_PARIS);
Interval base = new Interval(dt1, dt2);
Period test = base.toPeriod(null);
Period expected = new Period(dt1, dt2, PeriodType.standard());
assertEquals(expected, test);
}
public void testToPeriod_PeriodType2() {
DateTime dt1 = new DateTime(2004, 6, 9, 7, 8, 9, 10);
DateTime dt2 = new DateTime(2005, 8, 13, 12, 14, 16, 18);
Interval base = new Interval(dt1, dt2);
Period test = base.toPeriod(PeriodType.yearWeekDayTime());
Period expected = new Period(dt1, dt2, PeriodType.yearWeekDayTime());
assertEquals(expected, test);
}
//-----------------------------------------------------------------------
public void testSerialization() throws Exception {
Interval test = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
ByteArrayOutputStream baos = new ByteArrayOutputStream();
ObjectOutputStream oos = new ObjectOutputStream(baos);
oos.writeObject(test);
byte[] bytes = baos.toByteArray();
oos.close();
ByteArrayInputStream bais = new ByteArrayInputStream(bytes);
ObjectInputStream ois = new ObjectInputStream(bais);
Interval result = (Interval) ois.readObject();
ois.close();
assertEquals(test, result);
}
//-----------------------------------------------------------------------
public void testToString() {
DateTime dt1 = new DateTime(2004, 6, 9, 7, 8, 9, 10, DateTimeZone.UTC);
DateTime dt2 = new DateTime(2005, 8, 13, 12, 14, 16, 18, DateTimeZone.UTC);
Interval test = new Interval(dt1, dt2);
assertEquals("2004-06-09T07:08:09.010Z/2005-08-13T12:14:16.018Z", test.toString());
}
public void testToString_reparse() {
DateTime dt1 = new DateTime(2004, 6, 9, 7, 8, 9, 10, DateTimeZone.getDefault());
DateTime dt2 = new DateTime(2005, 8, 13, 12, 14, 16, 18, DateTimeZone.getDefault());
Interval test = new Interval(dt1, dt2);
assertEquals(test, new Interval(test.toString()));
}
//-----------------------------------------------------------------------
public void testWithChronology1() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withChronology(BuddhistChronology.getInstance());
assertEquals(new Interval(TEST_TIME1, TEST_TIME2, BuddhistChronology.getInstance()), test);
}
public void testWithChronology2() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withChronology(null);
assertEquals(new Interval(TEST_TIME1, TEST_TIME2, ISOChronology.getInstance()), test);
}
public void testWithChronology3() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withChronology(COPTIC_PARIS);
assertSame(base, test);
}
//-----------------------------------------------------------------------
public void testWithStartMillis_long1() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withStartMillis(TEST_TIME1 - 1);
assertEquals(new Interval(TEST_TIME1 - 1, TEST_TIME2, COPTIC_PARIS), test);
}
public void testWithStartMillis_long2() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2);
try {
test.withStartMillis(TEST_TIME2 + 1);
fail();
} catch (IllegalArgumentException ex) {}
}
public void testWithStartMillis_long3() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withStartMillis(TEST_TIME1);
assertSame(base, test);
}
//-----------------------------------------------------------------------
public void testWithStartInstant_RI1() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withStart(new Instant(TEST_TIME1 - 1));
assertEquals(new Interval(TEST_TIME1 - 1, TEST_TIME2, COPTIC_PARIS), test);
}
public void testWithStartInstant_RI2() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2);
try {
test.withStart(new Instant(TEST_TIME2 + 1));
fail();
} catch (IllegalArgumentException ex) {}
}
public void testWithStartInstant_RI3() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withStart(null);
assertEquals(new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS), test);
}
//-----------------------------------------------------------------------
public void testWithEndMillis_long1() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withEndMillis(TEST_TIME2 - 1);
assertEquals(new Interval(TEST_TIME1, TEST_TIME2 - 1, COPTIC_PARIS), test);
}
public void testWithEndMillis_long2() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2);
try {
test.withEndMillis(TEST_TIME1 - 1);
fail();
} catch (IllegalArgumentException ex) {}
}
public void testWithEndMillis_long3() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withEndMillis(TEST_TIME2);
assertSame(base, test);
}
//-----------------------------------------------------------------------
public void testWithEndInstant_RI1() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withEnd(new Instant(TEST_TIME2 - 1));
assertEquals(new Interval(TEST_TIME1, TEST_TIME2 - 1, COPTIC_PARIS), test);
}
public void testWithEndInstant_RI2() {
Interval test = new Interval(TEST_TIME1, TEST_TIME2);
try {
test.withEnd(new Instant(TEST_TIME1 - 1));
fail();
} catch (IllegalArgumentException ex) {}
}
public void testWithEndInstant_RI3() {
Interval base = new Interval(TEST_TIME1, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withEnd(null);
assertEquals(new Interval(TEST_TIME1, TEST_TIME_NOW, COPTIC_PARIS), test);
}
//-----------------------------------------------------------------------
public void testWithDurationAfterStart1() throws Throwable {
Duration dur = new Duration(TEST_TIME2 - TEST_TIME_NOW);
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME_NOW, COPTIC_PARIS);
Interval test = base.withDurationAfterStart(dur);
assertEquals(new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS), test);
}
public void testWithDurationAfterStart2() throws Throwable {
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withDurationAfterStart(null);
assertEquals(new Interval(TEST_TIME_NOW, TEST_TIME_NOW, COPTIC_PARIS), test);
}
public void testWithDurationAfterStart3() throws Throwable {
Duration dur = new Duration(-1);
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME_NOW);
try {
base.withDurationAfterStart(dur);
fail();
} catch (IllegalArgumentException ex) {}
}
public void testWithDurationAfterStart4() throws Throwable {
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withDurationAfterStart(base.toDuration());
assertSame(base, test);
}
//-----------------------------------------------------------------------
public void testWithDurationBeforeEnd1() throws Throwable {
Duration dur = new Duration(TEST_TIME_NOW - TEST_TIME1);
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME_NOW, COPTIC_PARIS);
Interval test = base.withDurationBeforeEnd(dur);
assertEquals(new Interval(TEST_TIME1, TEST_TIME_NOW, COPTIC_PARIS), test);
}
public void testWithDurationBeforeEnd2() throws Throwable {
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withDurationBeforeEnd(null);
assertEquals(new Interval(TEST_TIME2, TEST_TIME2, COPTIC_PARIS), test);
}
public void testWithDurationBeforeEnd3() throws Throwable {
Duration dur = new Duration(-1);
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME_NOW);
try {
base.withDurationBeforeEnd(dur);
fail();
} catch (IllegalArgumentException ex) {}
}
public void testWithDurationBeforeEnd4() throws Throwable {
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withDurationBeforeEnd(base.toDuration());
assertSame(base, test);
}
//-----------------------------------------------------------------------
public void testWithPeriodAfterStart1() throws Throwable {
DateTime dt = new DateTime(TEST_TIME_NOW, COPTIC_PARIS);
Period dur = new Period(0, 6, 0, 0, 1, 0, 0, 0);
Interval base = new Interval(dt, dt);
Interval test = base.withPeriodAfterStart(dur);
assertEquals(new Interval(dt, dur), test);
}
public void testWithPeriodAfterStart2() throws Throwable {
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withPeriodAfterStart(null);
assertEquals(new Interval(TEST_TIME_NOW, TEST_TIME_NOW, COPTIC_PARIS), test);
}
public void testWithPeriodAfterStart3() throws Throwable {
Period per = new Period(0, 0, 0, 0, 0, 0, 0, -1);
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME_NOW);
try {
base.withPeriodAfterStart(per);
fail();
} catch (IllegalArgumentException ex) {}
}
//-----------------------------------------------------------------------
public void testWithPeriodBeforeEnd1() throws Throwable {
DateTime dt = new DateTime(TEST_TIME_NOW, COPTIC_PARIS);
Period dur = new Period(0, 6, 0, 0, 1, 0, 0, 0);
Interval base = new Interval(dt, dt);
Interval test = base.withPeriodBeforeEnd(dur);
assertEquals(new Interval(dur, dt), test);
}
public void testWithPeriodBeforeEnd2() throws Throwable {
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME2, COPTIC_PARIS);
Interval test = base.withPeriodBeforeEnd(null);
assertEquals(new Interval(TEST_TIME2, TEST_TIME2, COPTIC_PARIS), test);
}
public void testWithPeriodBeforeEnd3() throws Throwable {
Period per = new Period(0, 0, 0, 0, 0, 0, 0, -1);
Interval base = new Interval(TEST_TIME_NOW, TEST_TIME_NOW);
try {
base.withPeriodBeforeEnd(per);
fail();
} catch (IllegalArgumentException ex) {}
}
}