Spark中组件Mllib的学习之基础概念篇
1、解释
分层抽样的概念就不讲了,具体的操作:
RDD有个操作可以直接进行抽样:sampleByKey和sample等,这里主要介绍这两个
(1)将字符串长度为2划分为层2,字符串长度为3划分为层1,对层1和层2按不同的概率进行抽样
数据
aa
bb
cc
dd
ee
aaa
bbb
ccc
ddd
eee
比如:
val fractions: Map[Int, Double] = List((1, 0.2), (2, 0.8)).toMap //设定抽样格式
sampleByKey(withReplacement = false, fractions, 0)
fractions表示在层1抽0.2,在层2中抽0.8
withReplacement false表示不重复抽样
0表示随机的seed
源码:
/** * Return a subset of this RDD sampled by key (via stratified sampling). * * Create a sample of this RDD using variable sampling rates for different keys as specified by * `fractions`, a key to sampling rate map, via simple random sampling with one pass over the * RDD, to produce a sample of size that's approximately equal to the sum of * math.ceil(numItems * samplingRate) over all key values. * * @param withReplacement whether to sample with or without replacement * @param fractions map of specific keys to sampling rates * @param seed seed for the random number generator * @return RDD containing the sampled subset */ def sampleByKey(withReplacement: Boolean, fractions: Map[K, Double], seed: Long = Utils.random.nextLong): RDD[(K, V)] = self.withScope { require(fractions.values.forall(v => v >= 0.0), "Negative sampling rates.") val samplingFunc = if (withReplacement) { StratifiedSamplingUtils.getPoissonSamplingFunction(self, fractions, false, seed) } else { StratifiedSamplingUtils.getBernoulliSamplingFunction(self, fractions, false, seed) } self.mapPartitionsWithIndex(samplingFunc, preservesPartitioning = true) }
2、代码:
import org.apache.spark.{SparkConf, SparkContext} object StratifiedSamplingLearning { def main(args: Array[String]) { val conf = new SparkConf().setMaster("local[4]").setAppName(this.getClass.getSimpleName.filter(!_.equals('$'))) val sc = new SparkContext(conf) println("First:") val data = sc.textFile("D:\\TestData\\StratifiedSampling.txt") //读取数
.map(row => { //开始处理
if (row.length == 3) //判断字符数
(row, 1) //建立对应map
else (row, 2) //建立对应map
}).map(each => (each._2, each._1)) data.foreach(println) println("sampleByKey:") val fractions: Map[Int, Double] = List((1, 0.2), (2, 0.8)).toMap //设定抽样格式
val approxSample = data.sampleByKey(withReplacement = false, fractions, 0) //计算抽样样本
approxSample.foreach(println) println("Second:") val randRDD = sc.parallelize(List((7, "cat"), (6, "mouse"), (7, "cup"), (6, "book"), (7, "tv"), (6, "screen"), (7, "heater"))) val sampleMap = List((7, 0.4), (6, 0.8)).toMap val sample2 = randRDD.sampleByKey(false, sampleMap, 42).collect sample2.foreach(println) println("Third:") val a = sc.parallelize(1 to 20, 3) val b = a.sample(true, 0.8, 0) val c = a.sample(false, 0.8, 0) println("RDD a : " + a.collect().mkString(" , ")) println("RDD b : " + b.collect().mkString(" , ")) println("RDD c : " + c.collect().mkString(" , ")) sc.stop } }
3、结果:
First: (2,aa) (1,bbb) (2,bb) (1,ccc) (2,cc) (1,ddd) (2,dd) (1,eee) (2,ee) (1,aaa)
sampleByKey: (2,aa) (2,bb) (2,cc) (2,ee) Second: (7,cat) (6,mouse) (6,book) (6,screen) (7,heater)
Third: RDD a : 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 RDD b : 2 , 4 , 5 , 6 , 10 , 14 , 19 , 20 RDD c : 1 , 2 , 4 , 5 , 8 , 10 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20