准备:
nccat for windows/linux 都可以 通过 TCP 套接字连接,从流数据中创建了一个 Spark DStream/ Flink DataSream, 然后进行处理, 时间窗口大小为10s
因为 示例需要, 所以 需要下载一个netcat, 来构造流的输入。
代码:
spark streaming
package cn.kee.spark;
public final class JavaNetworkWordCount {
private static final Pattern SPACE = Pattern.compile(" ");
public static void main(String[] args) throws Exception {
if (args.length < 2) {
System.err.println("Usage: JavaNetworkWordCount <hostname> <port>");
System.exit(1);
}
StreamingExamples.setStreamingLogLevels();
SparkConf sparkConf = new SparkConf().setAppName("JavaNetworkWordCount");
JavaStreamingContext ssc = new JavaStreamingContext(sparkConf, Durations.seconds(1));
JavaReceiverInputDStream<String> lines = ssc.socketTextStream(
args[0], Integer.parseInt(args[1]), StorageLevels.MEMORY_AND_DISK_SER);
JavaDStream<String> words = lines.flatMap(new FlatMapFunction<String, String>() {
@Override
public Iterator<String> call(String x) {
return Arrays.asList(SPACE.split(x)).iterator();
}
});
JavaPairDStream<String, Integer> wordCounts = words.mapToPair(
new PairFunction<String, String, Integer>() {
@Override
public Tuple2<String, Integer> call(String s) {
return new Tuple2<>(s, 1);
}
}).reduceByKey(new Function2<Integer, Integer, Integer>() {
@Override
public Integer call(Integer i1, Integer i2) {
return i1 + i2;
}
});
wordCounts.print();
ssc.start();
ssc.awaitTermination();
}
}
Flink DataSream
package cn.kee.flink;
import org.apache.flink.api.common.functions.FlatMapFunction;
import org.apache.flink.api.common.functions.ReduceFunction;
import org.apache.flink.api.java.utils.ParameterTool;
import org.apache.flink.streaming.api.datastream.DataStream;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.streaming.api.windowing.time.Time;
import org.apache.flink.util.Collector;
/**
* Example :SocketWindowWordCount
* @author keehang
*
*/
public class SocketWindowWordCount {
public static void main(String[] args) throws Exception {
// the port to connect to
final int port = 9999;
/*try {
final ParameterTool params = ParameterTool.fromArgs(args);
port = params.getInt("port");
} catch (Exception e) {
System.err.println("No port specified. Please run 'SocketWindowWordCount --port <port>'");
return;
}*/
// get the execution environment
final StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();
// get input data by connecting to the socket
DataStream<String> text = env.socketTextStream("localhost", port, "\n");
// parse the data, group it, window it, and aggregate the counts
DataStream<WordWithCount> windowCounts = text
.flatMap(new FlatMapFunction<String, WordWithCount>() {
@Override
public void flatMap(String value, Collector<WordWithCount> out) {
for (String word : value.split("\\s")) {
out.collect(new WordWithCount(word, 1L));
}
}
})
.keyBy("word")
.timeWindow(Time.seconds(5), Time.seconds(1))
.reduce(new ReduceFunction<WordWithCount>() {
@Override
public WordWithCount reduce(WordWithCount a, WordWithCount b) {
return new WordWithCount(a.word, a.count + b.count);
}
});
// print the results with a single thread, rather than in parallel
windowCounts.print().setParallelism(1);
env.execute("Socket Window WordCount");
}
}
结果:
Spark是一种快速、通用的计算集群系统,Spark提出的最主要抽象概念是弹性分布式数据集(RDD),它是一个元素集合,划分到集群的各个节点上,可以被并行操作。用户也可以让Spark保留一个RDD在内存中,使其能在并行操作中被有效的重复使用。
Flink是可扩展的批处理和流式数据处理的数据处理平台,设计思想主要来源于Hadoop、MPP数据库、流式计算系统等,支持增量迭代计算。
总结:Spark和Flink全部都运行在Hadoop YARN上,性能为Flink > Spark > Hadoop(MR),迭代次数越多越明显,性能上,Flink优于Spark和Hadoop最主要的原因是Flink支持增量迭代,具有对迭代自动优化的功能
流式计算比较
它们都支持流式计算,Flink是一行一行处理,而Spark是基于数据片集合(RDD)进行小批量处理,所以Spark在流式处理方面,不可避免增加一些延时。Flink的流式计算跟Storm性能差不多,支持毫秒级计算,而Spark则只能支持秒级计算。
SQL支持
都支持,Spark对SQL的支持比Flink支持的范围要大一些,另外Spark支持对SQL的优化,而Flink支持主要是对API级的优化。
Spark 感觉2.x 后主要在spark sql 这里发展优势,快速Join操作,以及继续扩展sql支持。至于Flink,其对于流式计算和迭代计算支持力度将会更加增强。
