/*
* Copyright 2002-2009 the original author or authors.
*
* 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.springframework.scheduling.support;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import java.util.Date;
import java.util.concurrent.TimeUnit;
import org.junit.Test;
import org.springframework.scheduling.TriggerContext;
import org.springframework.util.NumberUtils;
/**
* @author Mark Fisher
* @since 3.0
*/
public class PeriodicTriggerTests {
@Test
public void fixedDelayFirstExecution() {
Date now = new Date();
PeriodicTrigger trigger = new PeriodicTrigger(5000);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertNegligibleDifference(now, next);
}
@Test
public void fixedDelayWithInitialDelayFirstExecution() {
Date now = new Date();
long period = 5000;
long initialDelay = 30000;
PeriodicTrigger trigger = new PeriodicTrigger(period);
trigger.setInitialDelay(initialDelay);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertApproximateDifference(now, next, initialDelay);
}
@Test
public void fixedDelayWithTimeUnitFirstExecution() {
Date now = new Date();
PeriodicTrigger trigger = new PeriodicTrigger(5, TimeUnit.SECONDS);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertNegligibleDifference(now, next);
}
@Test
public void fixedDelayWithTimeUnitAndInitialDelayFirstExecution() {
Date now = new Date();
long period = 5;
long initialDelay = 30;
PeriodicTrigger trigger = new PeriodicTrigger(period, TimeUnit.SECONDS);
trigger.setInitialDelay(initialDelay);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertApproximateDifference(now, next, initialDelay * 1000);
}
@Test
public void fixedDelaySubsequentExecution() {
Date now = new Date();
long period = 5000;
PeriodicTrigger trigger = new PeriodicTrigger(period);
Date next = trigger.nextExecutionTime(context(now, 500, 3000));
assertApproximateDifference(now, next, period + 3000);
}
@Test
public void fixedDelayWithInitialDelaySubsequentExecution() {
Date now = new Date();
long period = 5000;
long initialDelay = 30000;
PeriodicTrigger trigger = new PeriodicTrigger(period);
trigger.setInitialDelay(initialDelay);
Date next = trigger.nextExecutionTime(context(now, 500, 3000));
assertApproximateDifference(now, next, period + 3000);
}
@Test
public void fixedDelayWithTimeUnitSubsequentExecution() {
Date now = new Date();
long period = 5;
PeriodicTrigger trigger = new PeriodicTrigger(period, TimeUnit.SECONDS);
Date next = trigger.nextExecutionTime(context(now, 500, 3000));
assertApproximateDifference(now, next, (period * 1000) + 3000);
}
@Test
public void fixedRateFirstExecution() {
Date now = new Date();
PeriodicTrigger trigger = new PeriodicTrigger(5000);
trigger.setFixedRate(true);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertNegligibleDifference(now, next);
}
@Test
public void fixedRateWithTimeUnitFirstExecution() {
Date now = new Date();
PeriodicTrigger trigger = new PeriodicTrigger(5, TimeUnit.SECONDS);
trigger.setFixedRate(true);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertNegligibleDifference(now, next);
}
@Test
public void fixedRateWithInitialDelayFirstExecution() {
Date now = new Date();
long period = 5000;
long initialDelay = 30000;
PeriodicTrigger trigger = new PeriodicTrigger(period);
trigger.setFixedRate(true);
trigger.setInitialDelay(initialDelay);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertApproximateDifference(now, next, initialDelay);
}
@Test
public void fixedRateWithTimeUnitAndInitialDelayFirstExecution() {
Date now = new Date();
long period = 5;
long initialDelay = 30;
PeriodicTrigger trigger = new PeriodicTrigger(period, TimeUnit.MINUTES);
trigger.setFixedRate(true);
trigger.setInitialDelay(initialDelay);
Date next = trigger.nextExecutionTime(context(null, null, null));
assertApproximateDifference(now, next, (initialDelay * 60 * 1000));
}
@Test
public void fixedRateSubsequentExecution() {
Date now = new Date();
long period = 5000;
PeriodicTrigger trigger = new PeriodicTrigger(period);
trigger.setFixedRate(true);
Date next = trigger.nextExecutionTime(context(now, 500, 3000));
assertApproximateDifference(now, next, period);
}
@Test
public void fixedRateWithInitialDelaySubsequentExecution() {
Date now = new Date();
long period = 5000;
long initialDelay = 30000;
PeriodicTrigger trigger = new PeriodicTrigger(period);
trigger.setFixedRate(true);
trigger.setInitialDelay(initialDelay);
Date next = trigger.nextExecutionTime(context(now, 500, 3000));
assertApproximateDifference(now, next, period);
}
@Test
public void fixedRateWithTimeUnitSubsequentExecution() {
Date now = new Date();
long period = 5;
PeriodicTrigger trigger = new PeriodicTrigger(period, TimeUnit.HOURS);
trigger.setFixedRate(true);
Date next = trigger.nextExecutionTime(context(now, 500, 3000));
assertApproximateDifference(now, next, (period * 60 * 60 * 1000));
}
@Test
public void equalsVerification() {
PeriodicTrigger trigger1 = new PeriodicTrigger(3000);
PeriodicTrigger trigger2 = new PeriodicTrigger(3000);
assertFalse(trigger1.equals(new String("not a trigger")));
assertFalse(trigger1.equals(null));
assertEquals(trigger1, trigger1);
assertEquals(trigger2, trigger2);
assertEquals(trigger1, trigger2);
trigger2.setInitialDelay(1234);
assertFalse(trigger1.equals(trigger2));
assertFalse(trigger2.equals(trigger1));
trigger1.setInitialDelay(1234);
assertEquals(trigger1, trigger2);
trigger2.setFixedRate(true);
assertFalse(trigger1.equals(trigger2));
assertFalse(trigger2.equals(trigger1));
trigger1.setFixedRate(true);
assertEquals(trigger1, trigger2);
PeriodicTrigger trigger3 = new PeriodicTrigger(3, TimeUnit.SECONDS);
trigger3.setInitialDelay(7);
trigger3.setFixedRate(true);
assertFalse(trigger1.equals(trigger3));
assertFalse(trigger3.equals(trigger1));
trigger1.setInitialDelay(7000);
assertEquals(trigger1, trigger3);
}
// utility methods
private static void assertNegligibleDifference(Date d1, Date d2) {
long diff = Math.abs(d1.getTime() - d2.getTime());
assertTrue("difference exceeds threshold: " + diff, diff < 100);
}
private static void assertApproximateDifference(Date lesser, Date greater, long expected) {
long diff = greater.getTime() - lesser.getTime();
long variance = Math.abs(expected - diff);
assertTrue("expected approximate difference of " + expected +
", but actual difference was " + diff, variance < 100);
}
private static TriggerContext context(Object scheduled, Object actual, Object completion) {
return new TestTriggerContext(asDate(scheduled), asDate(actual), asDate(completion));
}
private static Date asDate(Object o) {
if (o == null) {
return null;
}
if (o instanceof Date) {
return (Date) o;
}
if (o instanceof Number) {
return new Date(System.currentTimeMillis() +
NumberUtils.convertNumberToTargetClass((Number) o, Long.class));
}
throw new IllegalArgumentException(
"expected Date or Number, but actual type was: " + o.getClass());
}
// helper class
private static class TestTriggerContext implements TriggerContext {
private final Date scheduled;
private final Date actual;
private final Date completion;
TestTriggerContext(Date scheduled, Date actual, Date completion) {
this.scheduled = scheduled;
this.actual = actual;
this.completion = completion;
}
public Date lastActualExecutionTime() {
return this.actual;
}
public Date lastCompletionTime() {
return this.completion;
}
public Date lastScheduledExecutionTime() {
return this.scheduled;
}
}
}