# Boruvka MST Algorithm

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 )
continue;
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.uf.unite(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.

-

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.

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