我已经在hadoop上实现了二次排序,但我并不真正理解框架的行为。
我创建了一个复合键,其中包含原始键和部分值,用于排序。
为了实现这一点,我实现了自己的分区器
public class CustomPartitioner extends Partitioner<CoupleAsKey, LongWritable>{
@Override
public int getPartition(CoupleAsKey couple, LongWritable value, int numPartitions) {
return Long.hashCode(couple.getKey1()) % numPartitions;
}我自己的群体比较
public class GroupComparator extends WritableComparator {
protected GroupComparator()
{
super(CoupleAsKey.class, true);
}
@Override
public int compare(WritableComparable w1, WritableComparable w2) {
CoupleAsKey c1 = (CoupleAsKey)w1;
CoupleAsKey c2 = (CoupleAsKey)w2;
return Long.compare(c1.getKey1(), c2.getKey1());
}}
用下面的方式来定义这对夫妻
public class CoupleAsKey implements WritableComparable<CoupleAsKey>{
private long key1;
private long key2;
public CoupleAsKey() {
}
public CoupleAsKey(long key1, long key2) {
this.key1 = key1;
this.key2 = key2;
}
public long getKey1() {
return key1;
}
public void setKey1(long key1) {
this.key1 = key1;
}
public long getKey2() {
return key2;
}
public void setKey2(long key2) {
this.key2 = key2;
}
@Override
public void write(DataOutput output) throws IOException {
output.writeLong(key1);
output.writeLong(key2);
}
@Override
public void readFields(DataInput input) throws IOException {
key1 = input.readLong();
key2 = input.readLong();
}
@Override
public int compareTo(CoupleAsKey o2) {
int cmp = Long.compare(key1, o2.getKey1());
if(cmp != 0)
return cmp;
return Long.compare(key2, o2.getKey2());
}
@Override
public String toString() {
return key1 + "," + key2 + ",";
}}
司机来了
Configuration conf = new Configuration();
Job job = new Job(conf);
job.setJarByClass(SSDriver.class);
job.setMapperClass(SSMapper.class);
job.setReducerClass(SSReducer.class);
job.setMapOutputKeyClass(CoupleAsKey.class);
job.setMapOutputValueClass(LongWritable.class);
job.setPartitionerClass(CustomPartitioner.class);
job.setGroupingComparatorClass(GroupComparator.class);
FileInputFormat.addInputPath(job, new Path("/home/marko/WORK/Whirlpool/input.csv"));
FileOutputFormat.setOutputPath(job, new Path("/home/marko/WORK/Whirlpool/output"));
job.waitForCompletion(true);现在,这是可行的,但真正奇怪的是,在reducer中迭代一个键时,键的第二部分(值部分)在每次迭代中都会发生变化。为什么和怎么做?
@Override
protected void reduce(CoupleAsKey key, Iterable<LongWritable> values, Context context) throws IOException, InterruptedException {
for (LongWritable value : values) {
//key.key2 changes during iterations, why?
context.write(key, value);
}
}
1条答案
按热度按时间wmvff8tz1#
定义说“如果您希望将数据分区中的所有相关行发送到单个reducer,则必须实现分组比较器”。这只确保这些密钥集将被发送到单个reduce调用,而不是密钥将从复合(或其他)更改为只包含已进行分组的密钥部分的内容。
但是,当您对值进行迭代时,相应的键也会更改。我们通常不会观察到这种情况,因为默认情况下,值分组在同一个(非复合)键上,因此,即使值发生变化,(-)键的值也保持不变。
您可以尝试打印键的对象引用,您应该注意到,随着每次迭代,键的对象引用也在更改(如下所示:)
或者,您也可以尝试通过以下方式对intwritable应用组比较器(您必须编写自己的逻辑才能这样做):
你将看到,随着价值的每一次迭代,你的关键也在改变。