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/*This is a Java Program to Implement Hopcroft Karp Algorithm. The Hopcroft–Karp algorithm is an algorithm that takes as input a bipartite graph and produces as output a maximum cardinality matching – a set of as many edges as possible with the property that no two edges share an endpoint.*/
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/**
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** Java Program to Implement Hopcroft Algorithm
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**/
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import java.util.*;
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/** Class Hopcroft **/
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public class Hopcroft
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{
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private final int NIL = 0;
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private final int INF = Integer.MAX_VALUE;
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private ArrayList<Integer>[] Adj;
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private int[] Pair;
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private int[] Dist;
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private int cx, cy;
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/** Function BFS **/
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public boolean BFS()
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{
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Queue<Integer> queue = new LinkedList<Integer>();
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for (int v = 1; v <= cx; ++v)
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if (Pair[v] == NIL)
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{
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Dist[v] = 0;
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queue.add(v);
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}
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else
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Dist[v] = INF;
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Dist[NIL] = INF;
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while (!queue.isEmpty())
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{
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int v = queue.poll();
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if (Dist[v] < Dist[NIL])
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for (int u : Adj[v])
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if (Dist[Pair[u]] == INF)
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{
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Dist[Pair[u]] = Dist[v] + 1;
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queue.add(Pair[u]);
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}
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}
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return Dist[NIL] != INF;
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}
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/** Function DFS **/
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public boolean DFS(int v)
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{
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if (v != NIL)
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{
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for (int u : Adj[v])
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if (Dist[Pair[u]] == Dist[v] + 1)
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if (DFS(Pair[u]))
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{
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Pair[u] = v;
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Pair[v] = u;
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return true;
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}
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Dist[v] = INF;
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return false;
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}
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return true;
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}
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/** Function to get maximum matching **/
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public int HopcroftKarp()
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{
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Pair = new int[cx + cy + 1];
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Dist = new int[cx + cy + 1];
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int matching = 0;
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while (BFS())
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for (int v = 1; v <= cx; ++v)
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if (Pair[v] == NIL)
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if (DFS(v))
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matching = matching + 1;
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return matching;
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}
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/** Function to make graph with vertices x , y **/
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public void makeGraph(int[] x, int[] y, int E)
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{
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Adj = new ArrayList[cx + cy + 1];
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for (int i = 0; i < Adj.length; ++i)
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Adj[i] = new ArrayList<Integer>();
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/** adding edges **/
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for (int i = 0; i < E; ++i)
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addEdge(x[i] + 1, y[i] + 1);
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}
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/** Function to add a edge **/
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public void addEdge(int u, int v)
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{
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Adj[u].add(cx + v);
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Adj[cx + v].add(u);
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}
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/** Main Method **/
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public static void main (String[] args)
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{
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Scanner scan = new Scanner(System.in);
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System.out.println("Hopcroft Algorithm Test\n");
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/** Make an object of Hopcroft class **/
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Hopcroft hc = new Hopcroft();
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/** Accept number of edges **/
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System.out.println("Enter number of edges\n");
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int E = scan.nextInt();
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int[] x = new int[E];
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int[] y = new int[E];
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hc.cx = 0;
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hc.cy = 0;
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System.out.println("Enter "+ E +" x, y coordinates ");
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for (int i = 0; i < E; i++)
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{
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x[i] = scan.nextInt();
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y[i] = scan.nextInt();
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hc.cx = Math.max(hc.cx, x[i]);
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hc.cy = Math.max(hc.cy, y[i]);
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}
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hc.cx += 1;
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hc.cy += 1;
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/** make graph with vertices **/
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hc.makeGraph(x, y, E);
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System.out.println("\nMatches : "+ hc.HopcroftKarp());
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}
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}
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/*
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Enter number of edges
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11
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Enter 11 x, y coordinates
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0 0
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0 3
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1 0
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1 2
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1 4
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2 1
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3 0
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3 2
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3 3
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3 4
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4 2
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Matches : 5 |