Mapreduce的序列化和流量统计程序开发

时间:2023-03-10 01:07:19
Mapreduce的序列化和流量统计程序开发

一、Hadoop数据序列化的数据类型

  Java数据类型 => Hadoop数据类型

  int         IntWritable

  float        FloatWritable

  long        LongWritable

  double         DoubleWritable

  String       Text

  boolean      BooleanWritable

  byte        ByteWritable

  map          MapWritable

  array        ArrayWritable

二、Hadoop的序列化

  1.什么是序列化?

   在java中,序列化接口是Serializable,它下面又实现了很多的序列化接口,所以java的序列化是一个重量级的序列化框架,一个对象被java序列化之后会附带很多额外的信息(校验信息、header、继承体系等),不便于在网络中进行高效的传输,所以Hadoop开发了一套自己的序列化框架——Writable。

      序列化就是把内存当中的对象,转化为字节序列以便于存储和网络传输;

   反序列化是将收到的字节序列或硬盘当中的持续化数据,转换成内存中的对象。

  2.序列化的理解方法(自己悟的,不对勿喷~~)

    比如下面流量统计案例中,流量的封装类FlowBean实现了Writable接口,其中定义了变量upFlow、dwFlow、flowSum;

    在Mapper和Reducer类中初始化封装类FlowBean时,内存会分配空间加载这些对象,而这些对象不便于在网络中高效的传输,这是封装类FlowBean中的序列化方法将这些对象转换为字节序列,方便了存储和传输;

    当Mapper或Reducer需要将这些对象的字节序列写出到磁盘时,封装类FlowBean中的反序列化方法将字节序列转换为对象,然后写道磁盘中。

  3.序列化特点

   序列化与反序列化时分布式数据处理当中经常会出现的,比如hadoop通信是通过远程调用(rpc)实现的,这个过程就需要序列化。

  特点:1)紧凑;

     2)快速

     3)可扩展

     4)可互操作

三、Mapreduce的流量统计程序案例

  1.代码

/**

 * @author: PrincessHug

 * @date: 2019/3/23, 23:38

 * @Blog: https://www.cnblogs.com/HelloBigTable/

 */

public class FlowBean implements Writable {

    private long upFlow;

    private long dwFlow;

    private long flowSum;

    public long getUpFlow() {

        return upFlow;

    }

    public void setUpFlow(long upFlow) {

        this.upFlow = upFlow;

    }

    public long getDwFlow() {

        return dwFlow;

    }

    public void setDwFlow(long dwFlow) {

        this.dwFlow = dwFlow;

    }

    public long getFlowSum() {

        return flowSum;

    }

    public void setFlowSum(long flowSum) {

        this.flowSum = flowSum;

    }

    public FlowBean() {

    }

    public FlowBean(long upFlow, long dwFlow) {

        this.upFlow = upFlow;

        this.dwFlow = dwFlow;

        this.flowSum = upFlow + dwFlow;

    }

    /**

     * 序列化

     * @param out 输出流

     * @throws IOException

     */

    @Override

    public void write(DataOutput out) throws IOException {

        out.writeLong(upFlow);

        out.writeLong(dwFlow);

        out.writeLong(flowSum);

    }

    /**

     * 反序列化

     * @param in

     * @throws IOException

     */

    @Override

    public void readFields(DataInput in) throws IOException {

        upFlow = in.readLong();

        dwFlow = in.readLong();

        flowSum = in.readLong();

    }

    @Override

    public String toString() {

        return upFlow + "\t" + dwFlow + "\t" + flowSum;

    }

}

public class FlowCountMapper extends Mapper<LongWritable, Text,Text,FlowBean> {

    @Override

    protected void map(LongWritable key, Text value, Context context) throws IOException, InterruptedException {

        //获取数据

        String line = value.toString();

        //切分数据

        String[] fields = line.split("\t");

        //封装数据

        String phoneNum = fields[1];

        long upFlow = Long.parseLong(fields[fields.length - 3]);

        long dwFlow = Long.parseLong(fields[fields.length - 2]);

        //发送数据

        context.write(new Text(phoneNum),new FlowBean(upFlow,dwFlow));

    }

}

public class FlowCountReducer extends Reducer<Text,FlowBean,Text,FlowBean> {

    @Override

    protected void reduce(Text key, Iterable<FlowBean> values, Context context) throws IOException, InterruptedException {

        //聚合数据

        long upFlow_sum = 0;

        long dwFlow_sum = 0;

        for (FlowBean f:values){

            upFlow_sum += f.getUpFlow();

            dwFlow_sum += f.getDwFlow();

        }

        //发送数据

        context.write(key,new FlowBean(upFlow_sum,dwFlow_sum));

    }

}

public class FlowPartitioner extends Partitioner<Text,FlowBean> {

    @Override

    public int getPartition(Text key, FlowBean value, int i) {

        //获取用来分区的电话号码前三位

        String phoneNum = key.toString().substring(0, 3);

        //设置分区逻辑

        int partitionNum = 4;

        if ("135".equals(phoneNum)){

            return 0;

        }else if ("137".equals(phoneNum)){

            return 1;

        }else if ("138".equals(phoneNum)){

            return 2;

        }else if ("139".equals(phoneNum)){

            return 3;

        }

        return partitionNum;

    }

}

public class FlowCountDriver {

    public static void main(String[] args) throws IOException, ClassNotFoundException, InterruptedException {

        //获取配置,定义工具

        Configuration conf = new Configuration();

        Job job = Job.getInstance();

        //设置运行类

        job.setJarByClass(FlowCountDriver.class);

        //设置Mapper类及Mapper输出数据类型

        job.setMapperClass(FlowCountMapper.class);

        job.setMapOutputKeyClass(Text.class);

        job.setMapOutputValueClass(FlowBean.class);

        //设置Reducer类及其输出数据类型

        job.setReducerClass(FlowCountReducer.class);

        job.setOutputKeyClass(Text.class);

        job.setOutputValueClass(FlowBean.class);

        //设置自定义分区

        job.setPartitionerClass(FlowPartitioner.class);

        job.setNumReduceTasks(5);

        //设置文件输入输出流

        FileInputFormat.setInputPaths(job,new Path("G:\\mapreduce\\flow\\in"));

        FileOutputFormat.setOutputPath(job,new Path("G:\\mapreduce\\flow\\inpartitionout"));

        //返回运行完成

        if (job.waitForCompletion(true)){

            System.out.println("运行完毕!");

        }else {

            System.out.println("运行出错!");

        }

    }

}