spark变量使用broadcast、accumulator
作者:互联网
broadcast
官方文档描述:
Broadcast a read-only variable to the cluster, returning a [[org.apache.spark.broadcast.Broadcast]] object for reading it in distributed functions. The variable will be sent to each cluster only once.源码分析:
这里使用告警方式代替异常,为了是避免用户进程中断;可能有用户创建了广播变量但是没有使用他们;
/** * Broadcast a read-only variable to the cluster, returning a * [[org.apache.spark.broadcast.Broadcast]] object for reading it in distributed functions. * The variable will be sent to each cluster only once. */ def broadcast[T: ClassTag](value: T): Broadcast[T] = { assertNotStopped() require(!classOf[RDD[_]].isAssignableFrom(classTag[T].runtimeClass), "Can not directly broadcast RDDs; instead, call collect() and broadcast the result.") val bc = env.broadcastManager.newBroadcast[T](value, isLocal) val callSite = getCallSite logInfo("Created broadcast " + bc.id + " from " + callSite.shortForm) cleaner.foreach(_.registerBroadcastForCleanup(bc)) bc }
广播变量允许程序员将一个只读的变量缓存在每台机器上,而不用在任务之间传递变量。广播变量可被用于有效地给每个节点一个大输入数据集的副本。Spark还尝试使用高效地广播算法来分发变量,进而减少通信的开销。 Spark的动作通过一系列的步骤执行,这些步骤由分布式的洗牌操作分开。Spark自动地广播每个步骤每个任务需要的通用数据。这些广播数据被序列化地缓存,在运行任务之前被反序列化出来。这意味着当我们需要在多个阶段的任务之间使用相同的数据,或者以反序列化形式缓存数据是十分重要的时候,显式地创建广播变量才有用。
实例
List<Integer> data = Arrays.asList(5, 1, 1, 4, 4, 2, 2); JavaRDD<Integer> javaRDD = javaSparkContext.parallelize(data,5); final Broadcast<List<Integer>> broadcast = javaSparkContext.broadcast(data); JavaRDD<Integer> result = javaRDD.map(new Function<Integer, Integer>() { List<Integer> iList = broadcast.value(); @Override public Integer call(Integer v1) throws Exception { Integer isum = 0; for(Integer i : iList) isum += i; return v1 + isum; } }); System.out.println(result.collect());
accumulator
源码分析:
// Methods for creating shared variables /** * Create an [[org.apache.spark.Accumulator]] variable of a given type, which tasks can "add" * values to using the `+=` method. Only the driver can access the accumulator's `value`. */ @deprecated("use AccumulatorV2", "2.0.0") def accumulator[T](initialValue: T)(implicit param: AccumulatorParam[T]): Accumulator[T] = { val acc = new Accumulator(initialValue, param) cleaner.foreach(_.registerAccumulatorForCleanup(acc.newAcc)) acc } /** * Create an [[org.apache.spark.Accumulator]] variable of a given type, with a name for display * in the Spark UI. Tasks can "add" values to the accumulator using the `+=` method. Only the * driver can access the accumulator's `value`. */ @deprecated("use AccumulatorV2", "2.0.0") def accumulator[T](initialValue: T, name: String)(implicit param: AccumulatorParam[T]) : Accumulator[T] = { val acc = new Accumulator(initialValue, param, Some(name)) cleaner.foreach(_.registerAccumulatorForCleanup(acc.newAcc)) acc }
累加器是仅仅被相关操作累加的变量,因此可以在并行中被有效地支持。它可以被用来实现计数器和sum。Spark原生地只支持数字类型的累加器,开发者可以添加新类型的支持。如果创建累加器时指定了名字,可以在Spark的UI界面看到。这有利于理解每个执行阶段的进程(对于Python还不支持) 。
累加器通过对一个初始化了的变量v调用SparkContext.accumulator(v)来创建。在集群上运行的任务可以通过add或者”+=”方法在累加器上进行累加操作。但是,它们不能读取它的值。只有驱动程序能够读取它的值,通过累加器的value方法。
class VectorAccumulatorParam implements AccumulatorParam<Vector> { @Override //合并两个累加器的值。 //参数r1是一个累加数据集合 //参数r2是另一个累加数据集合 public Vector addInPlace(Vector r1, Vector r2) { r1.addAll(r2); return r1; } @Override //初始值 public Vector zero(Vector initialValue) { return initialValue; } @Override //添加额外的数据到累加值中 //参数t1是当前累加器的值 //参数t2是被添加到累加器的值 public Vector addAccumulator(Vector t1, Vector t2) { t1.addAll(t2); return t1; } } List<Integer> data = Arrays.asList(5, 1, 1, 4, 4, 2, 2); JavaRDD<Integer> javaRDD = javaSparkContext.parallelize(data,5); final Accumulator<Integer> accumulator = javaSparkContext.accumulator(0); Vector initialValue = new Vector(); for(int i=6;i<9;i++) initialValue.add(i); //自定义累加器 final Accumulator accumulator1 = javaSparkContext.accumulator(initialValue,new VectorAccumulatorParam()); JavaRDD<Integer> result = javaRDD.map(new Function<Integer, Integer>() { @Override public Integer call(Integer v1) throws Exception { accumulator.add(1); Vector term = new Vector(); term.add(v1); accumulator1.add(term); return v1; } }); System.out.println(result.collect()); System.out.println("~~~~~~~~~~~~~~~~~~~~~" + accumulator.value()); System.out.println("~~~~~~~~~~~~~~~~~~~~~" + accumulator1.value());
参考文章:
https://www.cnblogs.com/jinggangshan/p/8117155.html
标签:initialValue,累加器,value,broadcast,accumulator,Vector,spark 来源: https://www.cnblogs.com/AlanWilliamWalker/p/10960858.html