标签:des style blog http io ar color os 使用
1.WritableComparable
查看HadoopAPI,如图所示:
WritableComparable继承自Writable和java.lang.Comparable接口,是一个Writable也是一个Comparable,也就是说,既可以序列化,也可以比较!
再看看它的实现类,发现BooleanWritable, BytesWritable, ByteWritable, DoubleWritable, FloatWritable, IntWritable, LongWritable, MD5Hash, NullWritable, Record, RecordTypeInfo, Text, VIntWritable, VLongWritable都实现了WritableComparable类!
WritableComparable的实现类之间相互来比较,在Map/Reduce中,任何用作键来使用的类都应该实现WritableComparable接口!
Example:
1 package cn.roboson.writable; 2 3 import java.io.DataInput; 4 import java.io.DataOutput; 5 import java.io.IOException; 6 7 import org.apache.hadoop.io.WritableComparable; 8 9 /** 10 * 1.自定义一个类,继承WritableComparable 11 * 2.发现有三个未实现的方法,两个是Writable接口的(序列化),一个是Comparable接口的(用来比较) 12 * 3.自定义比较,这里以counter来作为比较 13 * @author roboson 14 * 15 */ 16 public class MyWritableComparable implements WritableComparable<MyWritableComparable>{ 17 18 private int counter; 19 private long timestamp; 20 public MyWritableComparable() { 21 // TODO Auto-generated constructor stub 22 } 23 24 public MyWritableComparable(int counter,long timestamp) { 25 // TODO Auto-generated constructor stub 26 this.counter = counter; 27 this.timestamp = timestamp; 28 } 29 30 @Override 31 public void readFields(DataInput in) throws IOException { 32 // TODO Auto-generated method stub 33 34 //将输入流中的字节流数据转化为结构化数据 35 counter = in.readInt(); 36 timestamp = in.readLong(); 37 } 38 39 @Override 40 public void write(DataOutput out) throws IOException { 41 // TODO Auto-generated method stub 42 43 //讲结构化数据写入输出流 44 out.writeInt(counter); 45 out.writeLong(timestamp); 46 } 47 48 @Override 49 public int compareTo(MyWritableComparable other) { 50 // TODO Auto-generated method stub 51 int thisValue = this.counter; 52 int otherValue = other.counter; 53 return (thisValue < otherValue ? -1 : (thisValue == otherValue ? 0 : 1)); 54 } 55 56 public int getCounter() { 57 return counter; 58 } 59 60 public void setCounter(int counter) { 61 this.counter = counter; 62 } 63 64 public long getTimestamp() { 65 return timestamp; 66 } 67 68 public void setTimestamp(long timestamp) { 69 this.timestamp = timestamp; 70 } 71 72 73 public static void main(String[] args) { 74 MyWritableComparable comparable = new MyWritableComparable(3,4); 75 MyWritableComparable otherComparable = new MyWritableComparable(4, 5); 76 int value = comparable.compareTo(otherComparable); 77 if(value==-1){ 78 System.out.println("comparable<otherComparable"); 79 }else if(value==0){ 80 System.out.println("comparable=otherComparable"); 81 }else{ 82 System.out.println("comparable>otherComparable"); 83 } 84 } 85 }
运行结果:
2.RawComparator
对于MapReduce来说,因为中间有个基于键的排序阶段,所以类型的比较是非常重要的。Hadoop中提供了原生的比较接口RawComparator,该接口继承子Java Comparator接口。RawComparator接口允许其实现直接比较数据流中的记录,无需先把数据流饭序列化为对象,这样便避免了新建对象的额外开销。
1 package org.apache.hadoop.io; 2 3 import java.util.Comparator; 4 5 public interface RawComparator<T> extends Comparator<T>{ 6 7 //自己的方法 8 public int compare(byte[] b1, int s1, int l1, byte[] b2,int s2, int l2); 9 10 //继承自Comparator的方法 11 @Override 12 public int compare(T o1, T o2); 13 14 @Override 15 public boolean equals(Object obj); 16 }
查看HadoopAPI:
该类并非被多数的衍生类所实现,其具体的子类为WritableComparator,多数情况下是作为实现Writable接口的类的内置类,提供序列化字节的比较。如下图说所示:BooleanWritable, BytesWritable, ByteWritable, org.apache.hadoop.io.serializer.DeserializerComparator, DoubleWritable, FloatWritable, IntWritable, JavaSerializationComparator, LongWritable, LongWritable, MD5Hash, NullWritable, RecordComparator, Text, UTF8,都实现了RawComparator,作为其内部类。
而WritableComparator则是其的具体子类。
3.WritableComparator
在《Hadoop权威指南》中,说到这儿,很模糊,只说WritableComparator是对继承自WritableComparable类的RawCompartor类的一个通用实现。让人看着很迷惑,这句话什么意思呢?
首先、在第二个小标题RawComparator中,我门都知道WritableComparator实现了RawComparator这个接口,也就是说,WritableComparator是RawComparator的实现。
其次、是对继承自WritableComparable类的RawComparator的一个通用实现。那么继承自WritableComparable类的RawComparator都有哪些呢?也就是说那些类,继承自WritableComparator,并且实现了RawComparator?在第二个小标题RawComparator中有也都说明清楚了,上面的红色部分!同理,实现了WritableComparable类的在第一个小标题WritableComparable中也有说明,红色部分字体!也就谁说WritableComparator是对BooleanWritable.Comparator, BytesWritable.Comparator, ByteWritable.Comparator, DoubleWritable.Comparator, FloatWritable.Comparator, IntWritable.Comparator, LongWritable.Comparator, MD5Hash.Comparator, NullWritable.Comparator, RecordComparator, Text.Comparator, UTF8.Comparator这些类的一个通用实现!这句话就引出了WritableComparator的两个功能:第一,它提供了对原始compare()方法的一个默认实现。该方法能够饭序列化将流中进行比较的对象,并调用对象的compara()方法。第二,它充当的是RawComparator实例的工厂(已注册Writable的实现)。例如,为了获得IntWratable的comparator,我们直接如下调用:
RawComparator<IntWritable> comparator = WritableComparator.get(IntWratable.class);
再来看看WritableComparator这个类是如何定义的,如下图所示:
WritableComparator类类似于一个注册表,里面记录了所有Comparator类的集合。Comparators成员用一张Hash表记录Key=Class,value=WritableComprator的注册信息.这就是它能够充当RawComparator实例工厂的原因!因为它本省的实现中有意个HashMap集合,HashMap<Class,WritableComparator>根据对应的Class,就能返回一个响应的WritableComparator!
Example:
1 package cn.roboson.writable; 2 3 import java.io.ByteArrayInputStream; 4 import java.io.ByteArrayOutputStream; 5 import java.io.DataInputStream; 6 import java.io.DataOutputStream; 7 import java.io.IOException; 8 9 import org.apache.hadoop.io.IntWritable; 10 import org.apache.hadoop.io.RawComparator; 11 import org.apache.hadoop.io.Writable; 12 import org.apache.hadoop.io.WritableComparator; 13 14 /** 15 * 1.通过WritableComparator获得IntWritable类的RawComparator实例 16 * 2.通过两种方式来比较 17 * @author roboson 18 * 19 */ 20 21 public class ComparableFinish { 22 23 public static void main(String[] args) throws IOException { 24 25 //创建两个IntWritable来比较 26 IntWritable writable1 = new IntWritable(163); 27 IntWritable writable2 = new IntWritable(165); 28 29 //获得IntWritable的RawComparator实例 30 RawComparator<IntWritable> intRawComparator = WritableComparator.get(IntWritable.class); 31 32 //直接比较对象 33 int value1 =intRawComparator.compare(writable1, writable2); 34 35 if(value1==-1){ 36 System.out.println("writable1<writable2"); 37 }else if(value1==0){ 38 System.out.println("writable1=writable2"); 39 }else{ 40 System.out.println("writable1>writable2"); 41 } 42 43 //序列化两个对象,获得其字节流 44 byte[] byte1 = serizlize(writable1); 45 byte[] byte2 = serizlize(writable2); 46 47 //直接通过字符流比较大小 48 int value2 = intRawComparator.compare(byte1, 0, 4, byte2, 0, 4); 49 if(value2==-1){ 50 System.out.println("writable1<writable2"); 51 }else if(value2==0){ 52 System.out.println("writable1=writable2"); 53 }else{ 54 System.out.println("writable1>writable2"); 55 } 56 } 57 58 public static byte[] serizlize(Writable writable) throws IOException{ 59 60 //创建一个输出字节流对象 61 ByteArrayOutputStream out = new ByteArrayOutputStream(); 62 DataOutputStream dataout = new DataOutputStream(out); 63 64 //将结构化数据的对象writable写入到输出字节流。 65 writable.write(dataout); 66 return out.toByteArray(); 67 } 68 69 public static byte[] deserizlize(Writable writable,byte[] bytes) throws IOException{ 70 71 //创建一个输入字节流对象,将字节数组中的数据,写入到输入流中 72 ByteArrayInputStream in = new ByteArrayInputStream(bytes); 73 DataInputStream datain = new DataInputStream(in); 74 75 //将输入流中的字节流数据反序列化 76 writable.readFields(datain); 77 return bytes; 78 79 } 80 }
运行结果:
关于序列化方面的知识,可以参考我的博客《Hadoop序列化》地址如下:
http://www.cnblogs.com/robert-blue/p/4157768.html
参考博文:
http://blog.csdn.net/keda8997110/article/details/8518255
http://www.360doc.com/content/12/0827/09/9318309_232551844.shtml
Hadoop中WritableComparable 和 comparator
标签:des style blog http io ar color os 使用
原文地址:http://www.cnblogs.com/robert-blue/p/4159434.html