Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Help me please with Boruvka algorithm for creating a minnimum-spanning tree. I wrote code of an algorithm looking on example given by Sedgwick but apparently had done a bunch of nonsense, because the algorithm never goes out of the loop. Tell me please where I have done mistakes and how to fix them, I'll be very grateful. Code below. PS. sorry for my english:)

public class Boruvka
    private Edge[] mst;
     * Edges not yet discarded and not yet in the MST
    private Edge[] wannabes;
     * Each component's nearest neighbor with find component numbers as indices
    private Edge[] neighbors;
     * Graph representation on which we are searching for MST
    private Graph g;
    private UnionFind uf;
    // constructors and methods
     * constructor
     * @param G Graph
    public Boruvka(Graph G) {
        this.g = G;
     * Boruvka's algorithm
     * @return minimal spanning tree - edges that form it

    public Edge[] BoruvkaMSTalg()
        Edge hlpEdge = new Edge(g.getMaxWeight(), 0, 0);
        this.uf = new UnionFind(g.getCountVerteces());
        this.wannabes = new Edge[this.g.getCountEdges()];

         * Get all edges from the graph G to the array edges
        for (int i=0; i < g.getCountEdges(); i++)
            this.wannabes[i] = g.getEdgeAt(i);

        this.neighbors = new Edge[this.g.getCountVerteces()];
        this.mst = new Edge[this.g.getCountVerteces()+1];

         * index, used to store those edges being saved for the next phase
        int nxtPhase;
        int k=1;

        for (int i=this.g.getCountEdges(); i!=0; i=nxtPhase)
            int l, m, n;

            for (int o=0; o<this.g.getCountVerteces(); o++)
                this.neighbors[o] = hlpEdge;

            for (n=0, nxtPhase=0; n<i; n++) {
                Edge e = this.wannabes[n];
                l = this.uf.find(e.getSVIndex()-1);
                m = this.uf.find(e.getDVIndex()-1);

                if ( l==m )
                if ( e.getWeight() < this.neighbors[l].getWeight() )
                    this.neighbors[l] = e;
                if ( e.getWeight() < this.neighbors[m].getWeight() )
                    this.neighbors[m] = e;

                this.wannabes[nxtPhase++] = e;

            for (n=0; n<this.g.getCountVerteces(); n++)
                if ( this.neighbors[n] != hlpEdge ) {
                    l = this.neighbors[n].getSVIndex();
                    m = this.neighbors[n].getDVIndex();

                    if ( !this.uf.find(l,m) ) {
                        this.mst[k++] = this.neighbors[n];
        System.out.println("MST by Boruvka successful");
        return this.mst;

I wrote this code looking at code given by Sedgwick in his "Algorithms in java. Part 5 : Graph Algorithm". And here is his code:

class GraphMST
{ private UF uf;
  private Edge[] a, b, mst;
  GraphMST(Graph G)
  { Edge z = new Edge(0, 0, maxWT);
    uf = new UF(G.V());
    a = GraphUtilities.edges(G);
    b = new Edge[G.V()]; mst = new Edge[G.V()+1];
    int N, k = 1;
    for (int E = G.E(); E != 0; E = N)
      { int h, i, j;
        for (int t = 0; t < G.V(); t++) b[t] = z;
        for (h = 0, N = 0; h < E; h++)
           { Edge e = a[h];
             i = uf.find(e.v()); j = uf.find(e.w());
             if (i == j) continue;
             if (e.wt() < b[i].wt()) b[i] = e;
             if (e.wt() < b[j].wt()) b[j] = e;
             a[N++] = e;
        for (h = 0; h < G.V(); h++)
         if (b[h] != z)
          if (!uf.find(i = b[h].v(), j = b[h].w()))
            { uf.unite(i, j); mst[k++] = b[h]; }

Help me please to find differences between it's and mine and to fix them. PS. i'm sorry for my english.

share|improve this question
up vote 1 down vote accepted

Here's a start.

Consider the for loop with this control statement:

for (int i=this.g.getCountEdges(); i!=0; i=nxtPhase)

The only way out of this loop is for i to be 0. The only place that i gets changed is by the loop advancing statement

i = nxtPhase

The only place that nxtPhase gets changed is here

this.wannabes[nxtPhase++] = e;

So as written, the only way out of the loop is for nxtPhase to go through all possible int values (I don't know the default overflow behaviour of Java so don't know what will actually happen when it gets to 2^32-1). This is probably not what you intend.

share|improve this answer
I added an answer, could u look at it.. – prvit Mar 3 '11 at 22:30

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.