I am trying to implement Karger's min cut algorithm but I am unable to get the correct answer. Can someone please have a look at my code and help me figure out what I am doing wrong? Would really appreciate the help.

```
package a3;
import java.util.*;
import java.io.*;
public class Graph {
private ArrayList<Integer>[] adjList;
private int numOfVertices = 0;
private int numOfEdges = 0;
public Graph(String file) throws IOException {
FileInputStream wordsFile = new FileInputStream(file);
BufferedReader br = new BufferedReader(new InputStreamReader(wordsFile));
adjList = (ArrayList<Integer>[]) new ArrayList[201];
for (int i = 1; i < 201; i++) {
adjList[i] = new ArrayList<Integer>();
}
while (true) {
String s = br.readLine();
if (s == null)
break;
String[] tokens = s.split("\t");
int vertex = Integer.parseInt(tokens[0]);
this.numOfVertices++;
for (int i = 1; i < tokens.length; i++) {
Integer edge = Integer.parseInt(tokens[i]);
addEdge(vertex, edge);
this.numOfEdges++;
}
}
}
public void addEdge(int v, int w) {
adjList[v].add(w);
//this.numOfEdges++;
}
public ArrayList<Integer> getNeighbors(Integer v) {
return adjList[v];
}
public boolean hasEdge(Integer i, Integer j) {
return adjList[i].contains(j);
}
public boolean removeEdge(Integer i, Integer j) {
if (hasEdge(i, j)) {
adjList[i].remove(j);
adjList[j].remove(i);
this.numOfEdges -= 2;
return true;
}
return false;
}
public int getRandomVertex(){
Random rand = new Random();
return (rand.nextInt(this.getNumOfVertices()) + 1);
}
//Returns an array which consists of vertices connected by chosen edge
public int[] getRandomEdge(){
int arr[] = new int[2];
arr[0] = this.getRandomVertex();
while (adjList[arr[0]].size() == 0) {
arr[0] = this.getRandomVertex();
}
Random rand = new Random();
arr[1] = adjList[arr[0]].get(rand.nextInt(adjList[arr[0]].size()));
return arr;
}
//Algorithm for min cut
public int minCut() {
while (this.getNumOfVertices() > 2) {
int[] edge = this.getRandomEdge();
this.removeEdge(edge[0], edge[1]);
//Adding edges of second vertex to first vertex
for (Integer v: adjList[edge[1]]) {
if (!adjList[edge[0]].contains(v)) {
addEdge(edge[0], v);
}
}
//Removing edges of second vertex
for (Iterator<Integer> it = adjList[edge[1]].iterator(); it.hasNext();) {
Integer v = it.next();
it.remove();
this.numOfEdges--;
}
//Removing self-loops
for (Iterator<Integer> it = adjList[edge[0]].iterator(); it.hasNext();) {
Integer v = it.next();
if (v == edge[0])
it.remove();
//this.numOfEdges--;
}
this.numOfVertices--;
}
return this.numOfEdges;
}
public int getNumOfVertices() {
return this.numOfVertices;
}
public int getNumOfEdges() {
return (this.numOfEdges) / 2;
}
public String toString() {
String s = "";
for (int v = 1; v < 201; v++) {
s += v + ": ";
for (int e : adjList[v]) {
s += e + "-> ";
}
s += null + "\n";
//s += "\n";
}
return s;
}
/**
* @param args
* @throws IOException
*/
public static void main(String[] args) throws IOException {
// TODO Auto-generated method stub
int min = 1000;
//Graph test = new Graph("C:\\Users\\UE\\Desktop\\kargerMinCut.txt");
for (int i = 0; i < 10; i++) {
Graph test = new Graph("C:\\Users\\UE\\Desktop\\kargerMinCut.txt");
int currMin = test.minCut();
min = Math.min( min, currMin );
}
System.out.println(min);
}
}
```

`numOfEdges`

at all? Simply merge nodes while there are only two left and return the number of edges from any of them left. Here is a description en.wikipedia.org/wiki/Karger's_algorithm and a gist with java gist.github.com/MastaP/2314166 – Yury Tarabanko Jul 28 '13 at 22:01