A bipartite graph is a graph where vertices are divided into two disjoint and independent sets and each edge connects a vertex in one set to a vertex in the other set. In a bipartite graph, a matching is a set of pairwise non-adjacent edges in which no two edges share a common vertex. Bipartite matching is often used for information matching in scenarios with clear supply and demand relationships, such as online dating websites.

The following algorithm can be used to find a matching in a bipartite graph:
• From the first vertex on the left, select another unmatched vertex by following an alternating path to find an augmenting path.
• If the unmatched vertex is found, an augmenting path is found.
• Update path information, increase the number of matched edges by 1, and stop searching.
• If no augmenting path is found, begin with another vertex.

## Sample code

The following sample code implements the bipartite matching algorithm:
``````import java.io.DataInput;
import java.io.DataOutput;
import java.io.IOException;
import java.util.Random;
import com.aliyun.odps.data.TableInfo;
import com.aliyun.odps.graph.ComputeContext;
import com.aliyun.odps.graph.GraphJob;
import com.aliyun.odps.graph.MutationContext;
import com.aliyun.odps.graph.WorkerContext;
import com.aliyun.odps.graph.Vertex;
import com.aliyun.odps.io.LongWritable;
import com.aliyun.odps.io.NullWritable;
import com.aliyun.odps.io.Text;
import com.aliyun.odps.io.Writable;
import com.aliyun.odps.io.WritableRecord;
public class BipartiteMatching {
private static final Text UNMATCHED = new Text("UNMATCHED");
public static class TextPair implements Writable {
public Text first;
public Text second;
public TextPair() {
first = new Text();
second = new Text();
}
public TextPair(Text first, Text second) {
this.first = new Text(first);
this.second = new Text(second);
}
@Override
public void write(DataOutput out) throws IOException {
first.write(out);
second.write(out);
}
@Override
public void readFields(DataInput in) throws IOException {
first = new Text();
second = new Text();
}
@Override
public String toString() {
return first + ": " + second;
}
}
@Override
public void load(LongWritable recordNum, WritableRecord record,
MutationContext<Text, TextPair, NullWritable, Text> context)
throws IOException {
BipartiteMatchingVertex vertex = new BipartiteMatchingVertex();
vertex.setId((Text) record.get(0));
vertex.setValue(new TextPair(UNMATCHED, (Text) record.get(1)));
}
}
}
public static class BipartiteMatchingVertex extends
Vertex<Text, TextPair, NullWritable, Text> {
private static final Text LEFT = new Text("LEFT");
private static final Text RIGHT = new Text("RIGHT");
private static Random rand = new Random();
@Override
public void compute(
ComputeContext<Text, TextPair, NullWritable, Text> context,
Iterable<Text> messages) throws IOException {
if (isMatched()) {
voteToHalt();
return;
}
switch ((int) context.getSuperstep() % 4) {
case 0:
if (isLeft()) {
context.sendMessageToNeighbors(this, getId());
}
break;
case 1:
if (isRight()) {
Text luckyLeft = null;
for (Text message : messages) {
if (luckyLeft == null) {
luckyLeft = new Text(message);
} else {
if (rand.nextInt(1) == 0) {
luckyLeft.set(message);
}
}
}
if (luckyLeft != null) {
context.sendMessage(luckyLeft, getId());
}
}
break;
case 2:
if (isLeft()) {
Text luckyRight = null;
for (Text msg : messages) {
if (luckyRight == null) {
luckyRight = new Text(msg);
} else {
if (rand.nextInt(1) == 0) {
luckyRight.set(msg);
}
}
}
if (luckyRight != null) {
setMatchVertex(luckyRight);
context.sendMessage(luckyRight, getId());
}
}
break;
case 3:
if (isRight()) {
for (Text msg : messages) {
setMatchVertex(msg);
}
}
break;
}
}
@Override
public void cleanup(
WorkerContext<Text, TextPair, NullWritable, Text> context)
throws IOException {
context.write(getId(), getValue().first);
}
private boolean isMatched() {
return !getValue().first.equals(UNMATCHED);
}
private boolean isLeft() {
return getValue().second.equals(LEFT);
}
private boolean isRight() {
return getValue().second.equals(RIGHT);
}
private void setMatchVertex(Text matchVertex) {
getValue().first.set(matchVertex);
}
}
private static void printUsage() {
System.err.println("BipartiteMatching <input> <output> [maxIteration]");
}
public static void main(String[] args) throws IOException {
if (args.length < 2) {
printUsage();
}
GraphJob job = new GraphJob();