RDD 重新分区，排序 repartitionAndSortWithinPartitions

需求：将rdd数据中相同班级的学生分到一个partition中，并根据分数降序排序。

此实例用到的repartitionAndSortWithinPartitions是Spark官网推荐的一个算子，官方建议，如果需要在repartition重分区之后，还要进行排序，建议直接使用repartitionAndSortWithinPartitions算子。因为该算子可以一边进行重分区的shuffle操作，一边进行排序。shuffle与sort两个操作同时进行，比先shuffle再sort来说，性能可能是要高的。 

import org.apache.spark.{SparkContext, SparkConf}

/**
 * Created by sunxufeng on 2016/6/18.
 */
class Student {

}


//创建key类，key组合键为grade，score
case class StudentKey(grade:String,score:Int)
//  extends Ordered[StudentKey]{
//  def compare(that: StudentKey) : Int = {
//    var result:Int = this.grade.compareTo(that.grade)
//    if (result == 0){
//      result = this.student.compareTo(that.student)
//      if(result ==0){
//        result = that.score.compareTo(this.score)
//      }
//    }
//    result
//  }
//}

object StudentKey {
  implicit def orderingByGradeStudentScore[A <: StudentKey] : Ordering[A] = {
//    Ordering.by(fk => (fk.grade, fk.student, fk.score * -1))
    Ordering.by(fk => (fk.grade, fk.score * -1))
  }
}

object Student{
  def main(args: Array[String]) {



    //定义hdfs文件索引值
    val grade_idx:Int=0
    val student_idx:Int=1
    val course_idx:Int=2
    val score_idx:Int=3

    //定义转化函数，不能转化为Int类型的，给默认值0
    def safeInt(s: String): Int = try { s.toInt } catch { case _: Throwable  => 0 }

    //定义提取key的函数
    def createKey(data: Array[String]):StudentKey={
      StudentKey(data(grade_idx),safeInt(data(score_idx)))
    }

    //定义提取value的函数
    def listData(data: Array[String]):List[String]={
      List(data(grade_idx),data(student_idx),data(course_idx),data(score_idx))
    }
    
    def createKeyValueTuple(data: Array[String]) :(StudentKey,List[String]) = {
      (createKey(data),listData(data))
    }

    //创建分区类
    import org.apache.spark.Partitioner
    class StudentPartitioner(partitions: Int) extends Partitioner {
      require(partitions >= 0, s"Number of partitions ($partitions) cannot be negative.")

      override def numPartitions: Int = partitions

      override def getPartition(key: Any): Int = {
        val k = key.asInstanceOf[StudentKey]
        k.grade.hashCode() % numPartitions
      }
    }

    //设置master为local，用来进行本地调试
    val conf = new SparkConf().setAppName("Student_partition_sort").setMaster("local")
    val sc = new SparkContext(conf)

    //学生信息是打乱的
    val student_array =Array(
      "c001,n003,chinese,59",
      "c002,n004,english,79",
      "c002,n004,chinese,13",
      "c001,n001,english,88",
      "c001,n002,chinese,10",
      "c002,n006,chinese,29",
      "c001,n001,chinese,54",
      "c001,n002,english,32",
      "c001,n003,english,43",
      "c002,n005,english,80",
      "c002,n005,chinese,48",
      "c002,n006,english,69"
      )
　　 //将学生信息并行化为rdd
    val student_rdd = sc.parallelize(student_array)
　　 //生成key-value格式的rdd
    val student_rdd2 = student_rdd.map(line => line.split(",")).map(createKeyValueTuple)
    //根据StudentKey中的grade进行分区，并根据score降序排列
    val student_rdd3 = student_rdd2.repartitionAndSortWithinPartitions(new StudentPartitioner(10))
　　 //打印数据
    student_rdd3.collect.foreach(println)
  }
}

 排序后的数据：

(StudentKey(c001,88),List(c001, n001, english, 88))
(StudentKey(c001,59),List(c001, n003, chinese, 59))
(StudentKey(c001,54),List(c001, n001, chinese, 54))
(StudentKey(c001,43),List(c001, n003, english, 43))
(StudentKey(c001,32),List(c001, n002, english, 32))
(StudentKey(c001,10),List(c001, n002, chinese, 10))
(StudentKey(c002,80),List(c002, n005, english, 80))
(StudentKey(c002,79),List(c002, n004, english, 79))
(StudentKey(c002,69),List(c002, n006, english, 69))
(StudentKey(c002,48),List(c002, n005, chinese, 48))
(StudentKey(c002,29),List(c002, n006, chinese, 29))
(StudentKey(c002,13),List(c002, n004, chinese, 13))

 

参考：http://codingjunkie.net/spark-secondary-sort/