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sparksql 自定义用户函数(UDF)

时间:2019-12-24 19:01:05      阅读:134      评论:0      收藏:0      [点我收藏+]

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自定义用户函数有两种方式,区别:是否使用强类型,参考demo:https://github.com/asker124143222/spark-demo

1、不使用强类型,继承UserDefinedAggregateFunction

package com.home.spark

import org.apache.spark.SparkConf
import org.apache.spark.sql.{DataFrame, Row, SparkSession}
import org.apache.spark.sql.expressions.{MutableAggregationBuffer, UserDefinedAggregateFunction}
import org.apache.spark.sql.types._


object Ex_sparkUDAF {
  def main(args: Array[String]): Unit = {
    val conf = new SparkConf(true).setAppName("spark udf").setMaster("local[*]")
    val spark = SparkSession.builder().config(conf).getOrCreate()


    //自定义聚合函数
    //创建聚合函数对象
    val myUdaf = new MyAgeAvgFunc

    //注册自定义函数
    spark.udf.register("ageAvg",myUdaf)

    //使用聚合函数
    val frame: DataFrame = spark.read.json("input/userinfo.json")
    frame.createOrReplaceTempView("userinfo")
    spark.sql("select ageAvg(age) from userinfo").show()

    spark.stop()
  }
}

//声明自定义函数
//实现对年龄的平均,数据如:{ "name": "tom", "age" : 20}
class MyAgeAvgFunc extends UserDefinedAggregateFunction {
  //函数输入的数据结构,本例中只有年龄是输入数据
  override def inputSchema: StructType = {
    new StructType().add("age", LongType)
  }

  //计算时的数据结构(缓冲区)
  // 本例中有要计算年龄平均值,必须有两个计算结构,一个是年龄总计(sum),一个是年龄个数(count)
  override def bufferSchema: StructType = {
    new StructType().add("sum", LongType).add("count", LongType)
  }

  //函数返回的数据类型
  override def dataType: DataType = DoubleType

  //函数是否稳定
  override def deterministic: Boolean = true

  //计算前缓冲区的初始化,结构类似数组,这里缓冲区与之前定义的bufferSchema顺序一致
  override def initialize(buffer: MutableAggregationBuffer): Unit = {
    //sum
    buffer(0) = 0L
    //count
    buffer(1) = 0L
  }

  //根据查询结果更新缓冲区数据,input是每次进入的数据,其数据结构与之前定义的inputSchema相同
  //本例中每次输入的数据只有一个就是年龄
  override def update(buffer: MutableAggregationBuffer, input: Row): Unit = {
    if(input.isNullAt(0)) return
    //sum
    buffer(0) = buffer.getLong(0) + input.getLong(0)

    //count,每次来一个数据加1
    buffer(1) = buffer.getLong(1) + 1
  }

  //将多个节点的缓冲区合并到一起(因为spark是分布式的)
  override def merge(buffer1: MutableAggregationBuffer, buffer2: Row): Unit = {
    //sum
    buffer1(0) = buffer1.getLong(0) + buffer2.getLong(0)

    //count
    buffer1(1) = buffer1.getLong(1) + buffer2.getLong(1)
  }

  //计算最终结果,本例中就是(sum / count)
  override def evaluate(buffer: Row): Any = {
    buffer.getLong(0).toDouble / buffer.getLong(1)
  }
}

2、使用强类型,

package com.home.spark

import org.apache.spark.SparkConf
import org.apache.spark.sql._
import org.apache.spark.sql.expressions.Aggregator


object Ex_sparkUDAF2 {
  def main(args: Array[String]): Unit = {
    val conf = new SparkConf(true).setAppName("spark udf class").setMaster("local[*]")
    val spark = SparkSession.builder().config(conf).getOrCreate()

    //rdd转换成df或者ds需要SparkSession实例的隐式转换
    //导入隐式转换,注意这里的spark不是包名,而是SparkSession的对象名
    import spark.implicits._

    //创建聚合函数对象
    val myAvgFunc = new MyAgeAvgClassFunc
    val avgCol: TypedColumn[UserBean, Double] = myAvgFunc.toColumn.name("avgAge")
    val frame = spark.read.json("input/userinfo.json")
    val userDS: Dataset[UserBean] = frame.as[UserBean]
    //应用函数
    userDS.select(avgCol).show()

    spark.stop()
  }
}


case class UserBean(name: String, age: BigInt)

case class AvgBuffer(var sum: BigInt, var count: Int)

//声明用户自定义函数(强类型方式)
//继承Aggregator,设定泛型
//实现方法
class MyAgeAvgClassFunc extends Aggregator[UserBean, AvgBuffer, Double] {
  //初始化缓冲区
  override def zero: AvgBuffer = {
    AvgBuffer(0, 0)
  }

  //聚合数据
  override def reduce(b: AvgBuffer, a: UserBean): AvgBuffer = {
    if(a.age == null) return b
    b.sum = b.sum + a.age
    b.count = b.count + 1

    b
  }

  //缓冲区合并操作
  override def merge(b1: AvgBuffer, b2: AvgBuffer): AvgBuffer = {
    b1.sum = b1.sum + b2.sum
    b1.count = b1.count + b2.count

    b1
  }

  //完成计算
  override def finish(reduction: AvgBuffer): Double = {
    reduction.sum.toDouble / reduction.count
  }

  override def bufferEncoder: Encoder[AvgBuffer] = Encoders.product

  override def outputEncoder: Encoder[Double] = Encoders.scalaDouble
}

 

继承Aggregator

sparksql 自定义用户函数(UDF)

标签:main   lua   tput   定义   register   tab   ast   计算   对象   

原文地址:https://www.cnblogs.com/asker009/p/12092684.html

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