# How do I implement Kruskal's algorithm in Java with non-integer vertices?

I've been trying to implement Kruskal's algorithm on my graph which is undirected and weighted. Nonetheless, in all of the implementations i've seen vertices are defined as integers but in my project I defined them as a Vertex class. I would like to know how to implement the Kruskal algorithm with non-integer vertices.

I tried adapting the implementations to what I need, but I can't seem to do it since the implementations use find(int v), rank[] and parent[].

public class UndirectedGraph<A, V> {

private int numEdges;

private int numVertices;

private Edge[] edgeList;

private SeparateChainingHashST<String , Vertice> hash;

public UndirectedGraph() {

numEdges = 0;
numVertices = 0;
hash = new SeparateChainingHashST<>();
}

public Vertice getVertice(String key) {
return hash.get(key);
}

public Iterable<String> getVertices() {
return hash.keys();
}

public List<Vertice> getVerticesList() {
Iterator<String> it = hash.keys().iterator();
ArrayList<Vertice> array = new ArrayList<>();

while (it.hasNext())
{
String key = it.next();
}

return array;
}

/**
* Da el numero de vertices que tiene el grafo
* @return numero de vertices
*/
public int V() {
return numVertices;
}

/**
* Da el numero de arcos que tiene el grafo
* @return numero de arcos
*/
public int E() {
return numEdges;
}

public Edge[] getEdges() {
return edgeList;
}

public List<Edge> getEdgesList()
{
ArrayList<Edge> al = new ArrayList<>();

int i = 0;
while (i < edgeList.length)
{
i++;
}

return al;
}

/**
* Agrega un vertice nuevo el arco
* @param key
* @param vertice
*/
public void addVertice(String key, Vertice vertice ) {
hash.put(key, vertice);
numVertices++;
}

/**
* Agrega un arco nuevo al grafo
* @param id1
* @param id2
* @param info
* @param cost
*/
public void addEdge(String id1, String id2, A info, float cost ) {
Vertice<V> vertice1 = hash.get(id1);
Vertice<V> vertice2 = hash.get(id2);

Edge edge = new Edge(cost, info, vertice1, vertice2);
edgeList[numEdges] = edge;
numEdges++;
}

/**
* Da la informacion del vertice dado
* @param id
* @return V
*/
public V getInfoVertex(String id ) {
Vertice<V> vertex = hash.get(id);
return vertex.getInfo();
}

/**
* Se cambia l ainformcion del vertice dado por la dada por parametro
* @param idVertex
* @param infoVertex
*/
public void setInfoVertex(String idVertex, V infoVertex){
Vertice<V> vertex = hash.get(idVertex);
vertex.setInfo(infoVertex);
}

/**
* Da la informacion del arco que se encuentra entre los dos arcos dados
* @param id1
* @param id2
* @return Informacion del arco
*/
public A getInfoEdge(String id1, String id2 ) {
A info = null;
for (Edge edge : edgeList) {
String idVertex1 = edge.getVertice1().getKey();
String idVertex2 = edge.getVertice2().getKey();
if( (idVertex1.equals(id1) && idVertex2.equals(id2)) || (idVertex1.equals(id2) && idVertex2.equals(id1)) ) {
info =  (A) edge.getInfo();
return info;

}
}
return info;
}

/**
* Cambia la informacion del arco que se encuentra entre los dos vertices dados
* @param id1
* @param id2
* @param info
*/
public void setInfoEdge(String id1, String id2, A info ) {
for (Edge edge : edgeList) {
String idVertex1 = edge.getVertice1().getKey();
String idVertex2 = edge.getVertice2().getKey();
if( (idVertex1.equals(id1) && idVertex2.equals(id2)) || (idVertex1.equals(id2) && idVertex2.equals(id1)) ) {
edge.setInfo(info);
return;
}
}
}

/**
* @param idVertex