package com.opensource.bigdata.spark.standalone.base
import org.apache.spark.{SparkConf, SparkContext}
class BaseScalaSparkContext {
var appName = "standalone"
var master = "spark://standalone.com:7077" //本地模式:local standalone:spark://master:7077
def sparkContext(): SparkContext = {
val conf = new SparkConf().setAppName(appName).setMaster(master)
conf.set("spark.eventLog.enabled","true")
// conf.set("spark.ui.port","10002")
conf.set("spark.history.fs.logDirectory","hdfs://standalone.com:9000/spark/log/historyEventLog")
conf.set("spark.eventLog.dir","hdfs://standalone.com:9000/spark/log/eventLog")
//executor debug,是在提交作的地方读取
//conf.set("spark.executor.extraJavaOptions","-Xdebug -Xrunjdwp:transport=dt_socket,server=y,suspend=y,address=10002")
conf.setJars(Array("/opt/n_001_workspaces/bigdata/spark-scala-maven/target/spark-scala-maven-1.0-SNAPSHOT.jar"))
val sc = new SparkContext(conf)
//设置日志级别
//sc.setLogLevel("ERROR")
sc
}
}
WorldCount.scala
package com.opensource.bigdata.spark.standalone.wordcount
import com.opensource.bigdata.spark.standalone.base.BaseScalaSparkContext
object WorldCount extends BaseScalaSparkContext{
def main(args: Array[String]): Unit = {
val startTime = System.currentTimeMillis()
appName = "HelloWorld-standalone"
//master="spark://10.211.55.2:7077"
val sc = sparkContext
println("SparkContext加载完成")
val distFile:org.apache.spark.rdd.RDD[String] = sc.textFile("hdfs://standalone.com:9000/opt/data/a.txt")
println(distFile)
val result = distFile.flatMap(_.split(" ")).map((_,1)).reduceByKey(_+_)
println(s"结果:${result.collect().mkString}")
val threadName = Thread.currentThread().getId + Thread.currentThread().getName
println(s"${threadName}===================结果:执行了毫秒:${System.currentTimeMillis() - startTime}")
sc.stop()
}
}
源码分析
worldCount.scala
RDD之间的依赖关系
val distFile:org.apache.spark.rdd.RDD[String]= sc.textFile("hdfs://standalone.com:9000/opt/data/a.txt")
val result = distFile.flatMap(_.split(" ")).map((_,1)).reduceByKey(_+_)
-----------------------------------------------------------------
val rdd0 = HadoopRDD
val rdd1 = distFile = sc.textFile 内部进行了一次map操作,hadoopRDD.map(pair => pair._2.toString)
val rdd2 = distFile.flatMap(_.split(" "))
val rdd3 = distFile.flatMap(_.split(" ")).map((_,1)
val rdd4 = distFile.flatMap(_.split(" ")).map((_,1)).reduceByKey(_+_)
-----------------------------------------------------------------
ShuffledRDD[4] -> ShuffleDependency -> rdd4
MapPartitionsRDD[3] -> OneToOneDependency(NarrowDependency) -> rdd3
MapPartitionsRDD[2] -> OneToOneDependency(NarrowDependency) -> rdd2
MapPartitionsRDD[1] -> OneToOneDependency(NarrowDependency) -> rdd1
HadoopRDD[0] -> Nil -> rdd0
-----------------------------------------------------------------
SparkContext中runJob调用
RDD的collect方法,调用SparkContext的runJob方法
/**
* Return an array that contains all of the elements in this RDD.
*/
def collect(): Array[T] = withScope {
val results = sc.runJob(this, (iter: Iterator[T]) => iter.toArray)
Array.concat(results: _*)
}
SparkContext runJob方法调用
/**
* Run a job on all partitions in an RDD and return the results in an array.
*/
def runJob[T, U: ClassTag](rdd: RDD[T], func: Iterator[T] => U): Array[U] = {
runJob(rdd, func, 0 until rdd.partitions.length)
}
/**
* Run a job on a given set of partitions of an RDD, but take a function of type
* `Iterator[T] => U` instead of `(TaskContext, Iterator[T]) => U`.
*/
def runJob[T, U: ClassTag](
rdd: RDD[T],
func: Iterator[T] => U,
partitions: Seq[Int]): Array[U] = {
val cleanedFunc = clean(func)
runJob(rdd, (ctx: TaskContext, it: Iterator[T]) => cleanedFunc(it), partitions)
}
/**
* Run a function on a given set of partitions in an RDD and return the results as an array.
*/
def runJob[T, U: ClassTag](
rdd: RDD[T],
func: (TaskContext, Iterator[T]) => U,
partitions: Seq[Int]): Array[U] = {
val results = new Array[U](partitions.size)
runJob[T, U](rdd, func, partitions, (index, res) => results(index) = res)
results
}
/**
* Run a function on a given set of partitions in an RDD and pass the results to the given
* handler function. This is the main entry point for all actions in Spark.
*/
def runJob[T, U: ClassTag](
rdd: RDD[T],
func: (TaskContext, Iterator[T]) => U,
partitions: Seq[Int],
resultHandler: (Int, U) => Unit): Unit = {
if (stopped.get()) {
throw new IllegalStateException("SparkContext has been shutdown")
}
val callSite = getCallSite
val cleanedFunc = clean(func)
logInfo("Starting job: " + callSite.shortForm)
if (conf.getBoolean("spark.logLineage", false)) {
logInfo("RDD's recursive dependencies:\n" + rdd.toDebugString)
}
dagScheduler.runJob(rdd, cleanedFunc, partitions, callSite, resultHandler, localProperties.get)
progressBar.foreach(_.finishAll())
rdd.doCheckpoint()
}
DagScheduler方法调用
DagScheduler中runJob方法调用
/**
* Run an action job on the given RDD and pass all the results to the resultHandler function as
* they arrive.
*
* @param rdd target RDD to run tasks on
* @param func a function to run on each partition of the RDD
* @param partitions set of partitions to run on; some jobs may not want to compute on all
* partitions of the target RDD, e.g. for operations like first()
* @param callSite where in the user program this job was called
* @param resultHandler callback to pass each result to
* @param properties scheduler properties to attach to this job, e.g. fair scheduler pool name
*
* @throws Exception when the job fails
*/
def runJob[T, U](
rdd: RDD[T],
func: (TaskContext, Iterator[T]) => U,
partitions: Seq[Int],
callSite: CallSite,
resultHandler: (Int, U) => Unit,
properties: Properties): Unit = {
val start = System.nanoTime
val waiter = submitJob(rdd, func, partitions, callSite, resultHandler, properties)
waiter.awaitResult() match {
case JobSucceeded =>
logInfo("Job %d finished: %s, took %f s".format
(waiter.jobId, callSite.shortForm, (System.nanoTime - start) / 1e9))
case JobFailed(exception: Exception) =>
logInfo("Job %d failed: %s, took %f s".format
(waiter.jobId, callSite.shortForm, (System.nanoTime - start) / 1e9))
// SPARK-8644: Include user stack trace in exceptions coming from DAGScheduler.
val callerStackTrace = Thread.currentThread().getStackTrace.tail
exception.setStackTrace(exception.getStackTrace ++ callerStackTrace)
throw exception
}
}
DagScheduler submitJob 方法调用
/**
* Submit an action job to the scheduler.
*
* @param rdd target RDD to run tasks on
* @param func a function to run on each partition of the RDD
* @param partitions set of partitions to run on; some jobs may not want to compute on all
* partitions of the target RDD, e.g. for operations like first()
* @param callSite where in the user program this job was called
* @param resultHandler callback to pass each result to
* @param properties scheduler properties to attach to this job, e.g. fair scheduler pool name
*
* @return a JobWaiter object that can be used to block until the job finishes executing
* or can be used to cancel the job.
*
* @throws IllegalArgumentException when partitions ids are illegal
*/
def submitJob[T, U](
rdd: RDD[T],
func: (TaskContext, Iterator[T]) => U,
partitions: Seq[Int],
callSite: CallSite,
resultHandler: (Int, U) => Unit,
properties: Properties): JobWaiter[U] = {
// Check to make sure we are not launching a task on a partition that does not exist.
val maxPartitions = rdd.partitions.length
partitions.find(p => p >= maxPartitions || p < 0).foreach { p =>
throw new IllegalArgumentException(
"Attempting to access a non-existent partition: " + p + ". " +
"Total number of partitions: " + maxPartitions)
}
val jobId = nextJobId.getAndIncrement()
if (partitions.size == 0) {
// Return immediately if the job is running 0 tasks
return new JobWaiter[U](this, jobId, 0, resultHandler)
}
assert(partitions.size > 0)
val func2 = func.asInstanceOf[(TaskContext, Iterator[_]) => _]
val waiter = new JobWaiter(this, jobId, partitions.size, resultHandler)
eventProcessLoop.post(JobSubmitted(
jobId, rdd, func2, partitions.toArray, callSite, waiter,
SerializationUtils.clone(properties)))
waiter
}
