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Spark-Shell的启动与运行_启动spark-shell warn [main] yarn.client (logging.sca

作者：IT小白 | 2024-06-28 18:51:10

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启动spark-shell warn [main] yarn.client (logging.scala:logwarning(69)) - nei

一、启动spark

###1.先启动zookeeper
三台虚拟机都要启动

zkServer.sh start
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2.启动hadoop

start-all.sh
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3.启动spark

在spark的根目录下输入

sbin/start-all.sh
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spark-shell
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二、Spark Rdd的简单操作

1.从文件系统加载数据创建ADD

（１）从Linux本地文件系统加载数据创建RDD——textFile（path）

val rdd = sc.textFile("file:///root/word.txt")
rdd.collect()　　　//查看命令
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在这里插入图片描述

（２）从HDFS中加载数据创建RDD

val rdd = sc.textFile("/spark/test/word.txt")
rdd.collect()
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scala> val rdd = sc.textFile("/spark/test/word.txt")
rdd: org.apache.spark.rdd.RDD[String] = /spark/test/word.txt MapPartitionsRDD[60] at textFile at :24
scala> rdd.collect()
res27: Array[String] = Array(hello java, hello hadoop, hello mysql)

2.通过集合创建RDD——prarallize()

从一个已经存在的集合、数组，通过sarkContext对象调用parallelize的方法创建RDD，

val array =Array(1,2,3,4,5)
val arrRdd = sc.parallelize(array)
arrRdd.collect()
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scala> val array =Array(1,2,3,4,5)
array: Array[Int] = Array(1, 2, 3, 4, 5)
scala> val arrRdd = sc.parallelize(array)
arrRdd: org.apache.spark.rdd.RDD[Int] = ParallelCollectionRDD[61] at parallelize at :26
scala> arrRdd.collect()
res29: Array[Int] = Array(1, 2, 3, 4, 5)

3.RDD的处理

一些RDD编程API

命令	含义
map()	返回一个新的rdd，由()转换后组成
filter()	过滤，由()函数计算后返回值为true的元素组成
flatMap()	类似于map，但输入元素可以被映射，用于词频拆分
union()	相当于数学中集合的并集
intersection()	相当于数学中集合的交集
distinct()	去重操作后返回一个新的rdd
groupByKey()	返回一个(l,iterator[数据类型]) 的rdd
reduceByKey()	在一个(k,v)对的rdd上调用，返回一个新的(k,v)对rdd，用于词频统计
sortByKey	在一个(k,v)对的rdd上调用，第二个值为true时按从小到大排序，false为从大到小排序
join()	返回相同的key对应的所有元素，如（K，（V,W））

（１）案例1

通过并进行生成rdd

val rdd1 =List(5, 6, 4, 7, 3, 8, 2, 9, 1, 10)
val rdd2 =sc.parallelize(rdd1)
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scala> val rdd1 =List(5,6,4,7,3,8,2,9,1,10)
rdd1: List[Int] = List(5, 6, 4, 7, 3, 8, 2, 9, 1, 10)
scala> val rdd2 =sc.parallelize(rdd1)
rdd2: org.apache.spark.rdd.RDD[Int] = ParallelCollectionRDD[0] at parallelize at :26
scala> rdd2.collect()
res3: Array[Int] = Array(5, 6, 4, 7, 3, 8, 2, 9, 1, 10)

对rdd1里的每一个元素乘2然后排序

val rdd3=rdd2.map(x=>x*2)
rdd3.collect()
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scala> val rdd3=rdd2.map(x=>x*2)
rdd3: org.apache.spark.rdd.RDD[Int] = MapPartitionsRDD[1] at map at :28
scala> rdd3.collect()
res4: Array[Int] = Array(10, 12, 8, 14, 6, 16, 4, 18, 2, 20)

val rdd4=rdd3.sortBy(x=>x,true)
 rdd4.collect()
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scala> val rdd4=rdd3.sortBy(x=>x,true)
rdd4: org.apache.spark.rdd.RDD[Int] = MapPartitionsRDD[4] at sortBy at :30
scala> rdd4.collect()
res5: Array[Int] = Array(2, 4, 6, 8, 10, 12, 14, 16, 18, 20)

（2）实例2

val rdd1 = sc.parallelize(Array("a b c", "d e f", "h i j"))
rdd1.collect()
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scala> val rdd1 = sc.parallelize(Array(“a b c”, “d e f”, “h i j”))
rdd1: org.apache.spark.rdd.RDD[String] = ParallelCollectionRDD[5] at parallelize at :24
scala> rdd1.collect()
res6: Array[String] = Array(a b c, d e f, h i j)

将rdd1里面的每一个元素先切分在压平

val rdd2 = rdd1.flatMap(x=>x.split(" "))
rdd2.collect
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scala> val rdd2 = rdd1.flatMap(x=>x.split(" "))
rdd2: org.apache.spark.rdd.RDD[String] = MapPartitionsRDD[8] at flatMap at :26
scala> rdd2.collect()
res7: Array[String] = Array(a, b, c, d, e, f, h, i, j)

（3）实例3

计数word.txt中单词的数量

 val rdd = sc.textFile("/spark/test/word.txt")   //从HDFS中加载数据创建RDD
 val rdd1=rdd.flatMap(x=>x.split(" "))			//将rdd用空格分开	
 val rdd2=rdd1.map(x=>(x,1))					//将不同的单词（k,v）=(k,1)
 rdd2.collect()
 val rdd3=rdd2.groupByKey()						//相同的k放到一起
 rdd3.collect()
 val rdd4=rdd2.reduceByKey((a,b)=>a+b)			//将单词进行数量统计
 rdd4.collect()
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scala> val rdd = sc.textFile("/spark/test/word.txt")
rdd: org.apache.spark.rdd.RDD[String] = /spark/test/word.txt MapPartitionsRDD[10] at textFile at :24
scala> val rdd1=rdd.flatMap(x=>x.split(" "))
rdd1: org.apache.spark.rdd.RDD[String] = MapPartitionsRDD[11] at flatMap at :26
scala> val rdd2=rdd1.map(x=>(x,1))
rdd2: org.apache.spark.rdd.RDD[(String, Int)] = MapPartitionsRDD[12] at map at :28
scala> rdd2.collect()
res9: Array[(String, Int)] = Array((hello,1), (java,1), (hello,1), (hadoop,1), (hello,1), (mysql,1))
scala> val rdd3=rdd2.groupByKey()
rdd3: org.apache.spark.rdd.RDD[(String, Iterable[Int])] = ShuffledRDD[13] at groupByKey at :30
scala> rdd3.collect()
res10: Array[(String, Iterable[Int])] = Array((hadoop,CompactBuffer(1)), (mysql,CompactBuffer(1)), (hello,CompactBuffer(1, 1, 1)), (java,CompactBuffer(1)))
scala> val rdd4=rdd2.reduceByKey((a,b)=>a+b)
rdd4: org.apache.spark.rdd.RDD[(String, Int)] = ShuffledRDD[14] at reduceByKey at :30
scala> rdd4.collect()
res11: Array[(String, Int)] = Array((hadoop,1), (mysql,1), (hello,3), (java,1))

（4）实例4

val rdd1 = sc.parallelize(List(("tom", 1), ("jerry", 3), ("kitty", 2)))
val rdd2 = sc.parallelize(List(("jerry", 2), ("tom", 1), ("shuke", 2)))
val rdd3 = rdd1.join(rdd2)		//求join
val rdd4 = rdd1.union(rdd2)		//求并集
val rdd5 = rdd4.groupByKey()	//按key分组
rdd5.collect					//查看
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res11: Array[(String, Int)] = Array((hadoop,1), (mysql,1), (hello,3), (java,1))
scala> val rdd1 = sc.parallelize(List((“tom”, 1), (“jerry”, 3), (“kitty”, 2)))
rdd1: org.apache.spark.rdd.RDD[(String, Int)] = ParallelCollectionRDD[15] at parallelize at :24
scala> val rdd2 = sc.parallelize(List((“jerry”, 2), (“tom”, 1), (“shuke”, 2)))
rdd2: org.apache.spark.rdd.RDD[(String, Int)] = ParallelCollectionRDD[16] at parallelize at :24
scala> val rdd3 = rdd1.join(rdd2)
rdd3: org.apache.spark.rdd.RDD[(String, (Int, Int))] = MapPartitionsRDD[19] at join at :28
scala> val rdd4 = rdd1.union(rdd2)
rdd4: org.apache.spark.rdd.RDD[(String, Int)] = UnionRDD[20] at union at :28
scala> rdd3.collect()
res12: Array[(String, (Int, Int))] = Array((tom,(1,1)), (jerry,(3,2)))
scala> rdd4.collect()
res13: Array[(String, Int)] = Array((tom,1), (jerry,3), (kitty,2), (jerry,2), (tom,1), (shuke,2))
scala> val rdd5 = rdd4.groupByKey()
rdd5: org.apache.spark.rdd.RDD[(String, Iterable[Int])] = ShuffledRDD[21] at groupByKey at :30
scala> rdd5.collect()
res14: Array[(String, Iterable[Int])] = Array((tom,CompactBuffer(1, 1)), (jerry,CompactBuffer(3, 2)), (shuke,CompactBuffer(2)), (kitty,CompactBuffer(2)))

（5）实例5

val rdd1 = sc.parallelize(List(5, 6, 4, 3))
val rdd2 = sc.parallelize(List(1, 2, 3, 4))
val rdd3 = rdd1.union(rdd2)			//求并集
rdd3.collect()
val rdd4 = rdd1.intersection(rdd2) //求交集
rdd4.collect()
val rdd5 = rdd4.distinct()			//去重
rdd5.collect						//查看

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scala> val rdd1 = sc.parallelize(List(5, 6, 4, 3))
rdd1: org.apache.spark.rdd.RDD[Int] = ParallelCollectionRDD[22] at parallelize at :24
scala> val rdd2 = sc.parallelize(List(1, 2, 3, 4))
rdd2: org.apache.spark.rdd.RDD[Int] = ParallelCollectionRDD[23] at parallelize at :24
scala> val rdd3 = rdd1.union(rdd2)
rdd3: org.apache.spark.rdd.RDD[Int] = UnionRDD[24] at union at :28
scala> rdd3.collect()
res15: Array[Int] = Array(5, 6, 4, 3, 1, 2, 3, 4)
scala> val rdd4 = rdd1.intersection(rdd2)
rdd4: org.apache.spark.rdd.RDD[Int] = MapPartitionsRDD[30] at intersection at :28
scala> rdd4.collect()
res16: Array[Int] = Array(4, 3)
scala> val rdd5 = rdd4.distinct()
rdd5: org.apache.spark.rdd.RDD[Int] = MapPartitionsRDD[33] at distinct at :30
scala> rdd5.collect()
res17: Array[Int] = Array(4, 3)

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