前文已经介绍了Job组件,本文介绍Trigger组件,其实Trigger组件关系网与Job组件关系网类似。
1.trigger接口
首先Trigger是个接口,继承了Serializable、Cloneable、Comparable接口。
public interface Trigger extends Serializable, Cloneable, Comparable<Trigger>可以看出该Trigger接口与JobDetail接口的不同之处在于继承了Comparable接口,并且在Trigger接口内部有一个内部类TriggerTimeComparator类,该类的主要目的是为了给触发器进行排序,
class TriggerTimeComparator implements Comparator<Trigger>, Serializable {
private static final long serialVersionUID = -3904243490805975570L;
// This static method exists for comparator in TC clustered quartz
public static int compare(Date nextFireTime1, int priority1, TriggerKey key1, Date nextFireTime2, int priority2, TriggerKey key2) {
if (nextFireTime1 != null || nextFireTime2 != null) {
if (nextFireTime1 == null) {
return 1;
}
if (nextFireTime2 == null) {
return -1;
}
if(nextFireTime1.before(nextFireTime2)) {
return -1;
}
if(nextFireTime1.after(nextFireTime2)) {
return 1;
}
}
int comp = priority2 - priority1;
if (comp != 0) {
return comp;
}
return key1.compareTo(key2);
}以上这个类是一个比较器,用于比较触发器的下一次触发时间,或者换言之,根据最早的下一次触发时间对它们进行排序。 如果触发时间相同,则根据优先级(最高值优先)对触发器进行排序,如果优先级相同,则按键排序。所以这是在使用多个触发器的时候用于触发器执行先后的比较器。
2.TriggerBuilder类
由于Trigger是个接口,因此Trigger的对象创建不能直接使用Trigger接口创建实例,因此通过调用TriggerBuilder类进行创建实例,首先调用TriggerBuilder的类方法,该方法封装了TriggerBuilder对象的创建过程。
public static TriggerBuilder<Trigger> newTrigger() {
return new TriggerBuilder<Trigger>();
}然后调用TriggerBuilder实例方法withIdentity方法,并为触发器命名与分组。该方法封装了创建TriggerKey对象的过程。
public TriggerBuilder<T> withIdentity(String name) {
key = new TriggerKey(name, null);
return this;
}
/**
* Use a TriggerKey with the given name and group to
* identify the Trigger.
*
* <p>If none of the 'withIdentity' methods are set on the TriggerBuilder,
* then a random, unique TriggerKey will be generated.</p>
*
* @param name the name element for the Trigger's TriggerKey
* @param group the group element for the Trigger's TriggerKey
* @return the updated TriggerBuilder
* @see TriggerKey
* @see Trigger#getKey()
*/
public TriggerBuilder<T> withIdentity(String name, String group) {
key = new TriggerKey(name, group);
return this;
}
/**
* Use the given TriggerKey to identify the Trigger.
*
* <p>If none of the 'withIdentity' methods are set on the TriggerBuilder,
* then a random, unique TriggerKey will be generated.</p>
*
* @param triggerKey the TriggerKey for the Trigger to be built
* @return the updated TriggerBuilder
* @see TriggerKey
* @see Trigger#getKey()
*/
public TriggerBuilder<T> withIdentity(TriggerKey triggerKey) {
this.key = triggerKey;
return this;
}TriggerKey继承了Key,构造函数继承了父类构造函数。
public final class TriggerKey extends Key<TriggerKey> {
private static final long serialVersionUID = 8070357886703449660L;
public TriggerKey(String name) {
super(name, null);
}
public TriggerKey(String name, String group) {
super(name, group);
}
public static TriggerKey triggerKey(String name) {
return new TriggerKey(name, null);
}
public static TriggerKey triggerKey(String name, String group) {
return new TriggerKey(name, group);
}
}
以下是Key的构造函数的源码,其中name是必须的,而group是可以为null,如果为null,默认值为DEFAULT_GROUP,这也解释了TriggerBuilder类中有重载的withIdentity方法,其中就有group参数缺省的,但是没有name参数缺省的。
public Key(String name, String group) {
if(name == null)
throw new IllegalArgumentException("Name cannot be null.");
this.name = name;
if(group != null)
this.group = group;
else
this.group = DEFAULT_GROUP;
}
因此从上面可以知道,调用TriggerBuilder的withIdentity方法就可以并可以绑定触发器的名字与分组两个参数,并且返回的是TriggerBuilder对象。
3.触发器的启动设置
以上创建了TriggerBuilder对象,因此在创建Trigger对象过程中还需要做启动相关的设置,比如何时启动,何时结束,以及触发频率等设置。
首先是何时启动的设置,TriggerBuilder中提供了两个实例方法,startAt(Date startTime)和startNow(),前者根据传入的具体时间进行确定启动时间,而后者则是即刻启动。
public TriggerBuilder<T> startAt(Date triggerStartTime) {
this.startTime = triggerStartTime;
return this;
}
/**
* Set the time the Trigger should start at to the current moment -
* the trigger may or may not fire at this time - depending upon the
* schedule configured for the Trigger.
*
* @return the updated TriggerBuilder
* @see Trigger#getStartTime()
*/
public TriggerBuilder<T> startNow() {
this.startTime = new Date();
return this;
}
至于何时结束,TriggerBuilder提供了一个endAt(Date triggerEndTime)方法,该方法主要确定了该触发器终止时间。
public TriggerBuilder<T> endAt(Date triggerEndTime) {
this.endTime = triggerEndTime;
return this;
}
TriggerBuilder提供了withSchedule(ScheduleBuilder<SBT> schedBuilder)方法用于设置触发频率等设置。
public <SBT extends T> TriggerBuilder<SBT> withSchedule(ScheduleBuilder<SBT> schedBuilder) {
this.scheduleBuilder = schedBuilder;
return (TriggerBuilder<SBT>) this;
}可以看出withSchedule的方法中传入的是ScheduleBuilder对象,以下是ScheduleBuilder抽象类。有一个抽象方法build。
public abstract class ScheduleBuilder<T extends Trigger> {
protected abstract MutableTrigger build();
}
ScheduleBuilder有两个类叫做SimpleScheduleBuilder和CronScheduleBuilder,这其实表示两种调度器。以SimpleScheduleBuilder为例,该类有一个类方法用于封装创建ScheduleBuilder对象,该方法如下:
public static SimpleScheduleBuilder simpleSchedule() {
return new SimpleScheduleBuilder();
}
其中SimpleScheduleBuilder有许多实例方法,用于触发频率的控制。比如:withIntervalInSeconds(int intervalInSeconds)、withIntervalInMinutes(int intervalInMinutes)等等,用于调度器的相关参数的设置。其中有一个
根据以上方法将ScheduleBuilder对象传入以及调度器相关配置传入Trigger对象的withSchedule方法完成对Trigger对象有关调度器的配置。最后调用Trigger对象的build()方法,该方法返回的是Trigger对象,从而实现Trigger对象的创建。
public T build() {
if(scheduleBuilder == null)
scheduleBuilder = SimpleScheduleBuilder.simpleSchedule();
MutableTrigger trig = scheduleBuilder.build();
trig.setCalendarName(calendarName);
trig.setDescription(description);
trig.setStartTime(startTime);
trig.setEndTime(endTime);
if(key == null)
key = new TriggerKey(Key.createUniqueName(null), null);
trig.setKey(key);
if(jobKey != null)
trig.setJobKey(jobKey);
trig.setPriority(priority);
if(!jobDataMap.isEmpty())
trig.setJobDataMap(jobDataMap);
return (T) trig;
}以上方法表示,如果ScheduleBuilder对象为空,先对其进行初始化对象,然后创建一个Trigger对象,该对象是MutableTrigger类型的,通过ScheduleBuilder对象的Build()方法实现创建Trigger对象,然后对其进行绑定一些Trigger相关的信息。以下是ScheduleBuilder对象的实例方法build,该方法返回的是MutableTrigger类型对象,用于创建Trigger对象。
public MutableTrigger build() {
SimpleTriggerImpl st = new SimpleTriggerImpl();
st.setRepeatInterval(interval);
st.setRepeatCount(repeatCount);
st.setMisfireInstruction(misfireInstruction);
return st;
}