I know the title is a bit messy, but I don't know how to explain it better.

**What I'm trying to do:**

Using a graph found in a text file, find and print the shortest path (minimum amount of vertices) from vertex A to vertex B.

Note: using breadth-first search, not Dijkstra's.

**What I've got:**

A working algorithm that applies BFS on the graph, but no good way of actually printing out the shortest path.

I'm having a hard time **distinguishing a vertex in the shortest path from one that is simply run through the algorithm, but not in the shortest path.**

For example: Find the shortest path between 0 and 4. 0 connects to 1,2 and 3. 1 connects to 4. My path turns out to be [0,1,2,3,4] instead of [0,1,4].

I haven't been able to find any threads asking the same question, or any walk-through of BFS that includes this, so I'm not sure if I'm making this out to be *way* harder than it is?

**Edit:** code for those who may be interested (not sure at all if I'm avoiding circles?)

**Edit 2:** Changed the way I store my path to a Stack.

```
public String findPath(int v, int w) {
Queue<Integer> q = new LinkedList<Integer>();
boolean[] visited = new boolean[g.numVertices()];
q.add(v);
Stack<Integer> path = new Stack<Integer>();
while(q.peek() != null) {
runBFS(q.poll(),w,visited,q,path);
}
return path.toString();
}
private void runBFS(int v, int w, boolean[] visited, Queue<Integer> q, Stack<Integer> path) {
if(visited[v]) {
}
else if(v == w) {
path.add(v);
q.clear();
}
else {
path.add(v);
visited[v] = true;
VertexIterator vi = g.adjacentVertices(v);
while(vi.hasNext()) {
q.add(vi.next());
}
}
}
```

Some explanation of variables and methods:

v = vertex of origin

w = target vertex

g = graph

vi = a normal iterator that iterates over the neighbours of v

**Thanks for reading!**

`String`

objects in Java immutable? What good does changing`path`

in`runBFS`

do? – thkala Mar 28 '11 at 19:36