在flink中对两个流进行connect之后进行出处理的场景很常见,我们本文就以书中的一个例子为例说明下实现一个CoProcessFunction的一些要点
这个例子举例的是当收到某个传感器放行的控制消息时,从传感器传来的温度流消息会被运行向下游传递一段时间
/**
* 展示CoProcessFunction+onTimer使用方法的例子
*/
public class CoProcessFunctionTimers {
public static void main(String[] args) throws Exception {
// set up the streaming execution environment
StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();
// use event time for the application
env.setStreamTimeCharacteristic(TimeCharacteristic.ProcessingTime);
// 控制消息流允许传感器消息流通过指定长度的时间
DataStream<Tuple2<String, Long>> filterSwitches = env
.fromElements(
// forward readings of sensor_2 for 10 seconds
Tuple2.of("sensor_2", 10_000L),
// forward readings of sensor_7 for 1 minute
Tuple2.of("sensor_7", 60_000L));
// 传感器消息流
DataStream<SensorReading> readings = env
// SensorSource generates random temperature readings
.addSource(new SensorSource());
//传感器消息流connet控制消息流,并且按照传感器id作为key进行分组
DataStream<SensorReading> forwardedReadings = readings
//连接控制消息流
.connect(filterSwitches)
// 按照传感器id分组
.keyBy(r -> r.id, s -> s.f0)
// 应用CoProcessFunction + onTimer函数
.process(new ReadingFilter());
forwardedReadings.print();
env.execute("Filter sensor readings");
}
//应用CoProcessFunction + onTimer函数,这已经按照key=传感器id分好组
public static class ReadingFilter extends CoProcessFunction<SensorReading, Tuple2<String, Long>, SensorReading> {
// 传感器开关状态--键值分区状态,key是传感器id
private ValueState<Boolean> forwardingEnabled;
// 保存传感器开关持续时间的状态--键值分区状态,key是传感器id
private ValueState<Long> disableTimer;
// 初始化键值分区状态 key是传感器id
public void open(Configuration parameters) throws Exception {
forwardingEnabled = getRuntimeContext().getState(
new ValueStateDescriptor<>("filterSwitch", Types.BOOLEAN));
disableTimer = getRuntimeContext().getState(
new ValueStateDescriptor<Long>("timer", Types.LONG));
}
@Override
public void processElement1(SensorReading r, Context ctx, Collector<SensorReading> out) throws Exception {
// 处理传感器消息流,首先检查key是传感器id对应的键值分区状态,如果开启,那么这个传感器消息就可以正常通过
Boolean forward = forwardingEnabled.value();
if (forward != null && forward) {
out.collect(r);
}
}
@Override
public void processElement2(Tuple2<String, Long> s, Context ctx, Collector<SensorReading> out) throws Exception {
//控制流消息过来后,更新键值分区的开关状态为true, key是传感器id
forwardingEnabled.update(true);
//控制流消息过来后,更新键值分区的开关状态为true的持续时长的定时器, key是传感器id
long timerTimestamp = ctx.timerService().currentProcessingTime() + s.f1;
Long curTimerTimestamp = disableTimer.value();
if (curTimerTimestamp == null || timerTimestamp > curTimerTimestamp) {
// remove current timer
if (curTimerTimestamp != null) {
ctx.timerService().deleteProcessingTimeTimer(curTimerTimestamp);
}
// register new timer
ctx.timerService().registerProcessingTimeTimer(timerTimestamp);
disableTimer.update(timerTimestamp);
}
}
// 键值开关状态的持续时间定时器,key是传感器id,注意,在ontimer方法中,也可以通过out.collect的方式向下游算子发送消息
public void onTimer(long ts, OnTimerContext ctx, Collector<SensorReading> out) throws Exception {
// 定时器时间到了之后,清理掉传感器的开关状态
forwardingEnabled.clear();
disableTimer.clear();
}
}
}
以上就是实现一个CoProcessFunction的大概逻辑
更多【flink-flink的CoProcessFunction使用示例】相关视频教程:www.yxfzedu.com