@InterfaceAudience.Public @InterfaceStability.Stable public interface Reducer<K2,V2,K3,V3> extends JobConfigurable, Closeable
The number of Reducer
s for the job is set by the user via
JobConf.setNumReduceTasks(int)
. Reducer
implementations
can access the JobConf
for the job via the
JobConfigurable.configure(JobConf)
method and initialize themselves.
Similarly they can use the Closeable.close()
method for
de-initialization.
Reducer
has 3 primary phases:
Reducer
is input the grouped output of a Mapper
.
In the phase the framework, for each Reducer
, fetches the
relevant partition of the output of all the Mapper
s, via HTTP.
The framework groups Reducer
inputs by key
s
(since different Mapper
s may have output the same key) in this
stage.
The shuffle and sort phases occur simultaneously i.e. while outputs are being fetched they are merged.
If equivalence rules for keys while grouping the intermediates are
different from those for grouping keys before reduction, then one may
specify a Comparator
via
JobConf.setOutputValueGroupingComparator(Class)
.Since
JobConf.setOutputKeyComparatorClass(Class)
can be used to
control how intermediate keys are grouped, these can be used in conjunction
to simulate secondary sort on values.
In this phase the
reduce(Object, Iterator, OutputCollector, Reporter)
method is called for each <key, (list of values)>
pair in
the grouped inputs.
The output of the reduce task is typically written to the
FileSystem
via
OutputCollector.collect(Object, Object)
.
The output of the Reducer
is not re-sorted.
Example:
public class MyReducer<K extends WritableComparable, V extends Writable> extends MapReduceBase implements Reducer<K, V, K, V> { static enum MyCounters { NUM_RECORDS } private String reduceTaskId; private int noKeys = 0; public void configure(JobConf job) { reduceTaskId = job.get(JobContext.TASK_ATTEMPT_ID); } public void reduce(K key, Iterator<V> values, OutputCollector<K, V> output, Reporter reporter) throws IOException { // Process int noValues = 0; while (values.hasNext()) { V value = values.next(); // Increment the no. of values for this key ++noValues; // Process the <key, value> pair (assume this takes a while) // ... // ... // Let the framework know that we are alive, and kicking! if ((noValues%10) == 0) { reporter.progress(); } // Process some more // ... // ... // Output the <key, value> output.collect(key, value); } // Increment the no. of <key, list of values> pairs processed ++noKeys; // Increment counters reporter.incrCounter(NUM_RECORDS, 1); // Every 100 keys update application-level status if ((noKeys%100) == 0) { reporter.setStatus(reduceTaskId + " processed " + noKeys); } } }
Mapper
,
Partitioner
,
Reporter
,
MapReduceBase
Modifier and Type | Method and Description |
---|---|
void |
reduce(K2 key,
Iterator<V2> values,
OutputCollector<K3,V3> output,
Reporter reporter)
Reduces values for a given key.
|
configure
void reduce(K2 key, Iterator<V2> values, OutputCollector<K3,V3> output, Reporter reporter) throws IOException
The framework calls this method for each
<key, (list of values)>
pair in the grouped inputs.
Output values must be of the same type as input values. Input keys must
not be altered. The framework will reuse the key and value objects
that are passed into the reduce, therefore the application should clone
the objects they want to keep a copy of. In many cases, all values are
combined into zero or one value.
Output pairs are collected with calls to
OutputCollector.collect(Object,Object)
.
Applications can use the Reporter
provided to report progress
or just indicate that they are alive. In scenarios where the application
takes a significant amount of time to process individual key/value
pairs, this is crucial since the framework might assume that the task has
timed-out and kill that task. The other way of avoiding this is to set
mapreduce.task.timeout to a high-enough value (or even zero for no
time-outs).
key
- the key.values
- the list of values to reduce.output
- to collect keys and combined values.reporter
- facility to report progress.IOException
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