Java Priority Queue reordering when editing elements

I'm trying to implement Dijkstra's algorithm for finding shortest paths using a priority queue. In each step of the algorithm, I remove the vertex with the shortest distance from the priority queue, and then update the distances for each of its neighbors in the priority queue. Now I read that a Priority Queue in Java won't reorder when you edit the elements in it (the elements that determine the ordering), so I tried to force it to reorder by inserting and removing a dummy vertex. But this doesn't seem to be working, and I'm stuck trying to figure it out.

This is the code for the vertex object and the comparator

class vertex {
int v, d;
public vertex(int num, int dis) {
v=num;
d=dis;
}
}

class VertexComparator implements Comparator {
public int compare (Object a, Object b) {
vertex v1 = (vertex)a;
vertex v2 = (vertex)b;
return v1.d-v2.d;
}
}


Here is then where I run the algorithm:

    int[] distances=new int[p];
Comparator<vertex> comparator = new VertexComparator();
PriorityQueue<vertex> queue = new PriorityQueue<vertex>(p, comparator);
for(int i=0; i<p; i++) {
if(i!=v) {
distances[i]=MAX;
}
else {
distances[i]=0;
}
}
// run dijkstra
for(int i=0; i<p; i++) {
vertex cur=queue.poll();
Iterator itr = queue.iterator();
while(itr.hasNext()) {
vertex test = (vertex)(itr.next());
if(graph[cur.v][test.v]!=-1) {
test.d=Math.min(test.d, cur.d+graph[cur.v][test.v]);
distances[test.v]=test.d;
}
}
// force the PQ to resort by adding and then removing a dummy vertex
vertex resort = new vertex(-1, -1);
queue.remove(resort);
}


I've run several text cases, and I know that the priority queue isn't reordering correctly each time I go through and update the distances for vertices, but I don't know why. Did I make an error somewhere?

-

As you discovered, a priority queue does not resort all elements whenever an element is added or removed. Doing that would be too expensive (remember the n log n lower bound for comparison sort), while any reasonable priority queue implementation (including PriorityQueue) promises to add/remove nodes in O(log n).

In fact, it doesn't sort its elements at all (that's why its iterator can not promise to iterate elements in sorted order).

PriorityQueue does not offer an api to inform it about a changed node, as that would require it to provide efficient node lookup, which its underlying algorithm does not support. Implementing a priority queue that does is quite involved. The Wikipedia article on PriorityQueues might be a good starting point for reading about that. I am not certain such an implementation would be faster, though.

A straightforward idea is to remove and then add the changed node. Do not do that as remove() takes O(n). Instead, insert another entry for the same node into the PriorityQueue, and ignore duplicates when polling the queue, i.e. do something like:

PriorityQueue<Step> queue = new PriorityQueue();

void findShortestPath(Node start) {
start.distance = 0;

Step step;
while ((step = queue.poll()) != null) {
Node node = step.target;
if (!node.reached) {
node.reached = true;
node.distance = step.distance;
}
}

}


Edit: It is not advisable to change the priorities of elements in the PQ, hence the need to insert Steps instead of Nodes.

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Great, I had the same idea, but wouldn't that change the running time of the algorithm from O(m log n) to O(m log m). As the heap will now be containing duplicate elements almost equal to the number of edges in the graph O(m). I think this won't be the best solution. –  Samer Meggaly Jul 9 at 20:41
Path finding graphs are typically planar, and therefore have a constant average number of neighbors. That is, the size of the PQ will increase by a constant factor, and its height by a constant offset. This should not affect the runtime much. On the other hand, to efficiently modify nodes requires the caller to have a handle to each node. In Java, this can only be done through an object reference, which requires the PriorityQueue to store a node object for every entry. This is turn take a constant factor more memory than a priority queue that encodes its structure using array indices. –  meriton Jul 9 at 22:05
Therefore, it's really quite murky which implementation would be faster. –  meriton Jul 9 at 22:06

you will have to delete and re-insert each element which is editted. (the actual element, and not a dummy one!). so, every time you update distances, you need to remove and add the elements that were affected by the changed entree.

as far as I know, this is not unique to Java, but every priority queue which runs at O(logn) for all ops, have to work this way.

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remove takes O(n) ... –  meriton Aug 5 '11 at 8:23
remove(Object o) doesn't have to be O(n). It's just the Java library use a naive O(n) method to locate the element to remove. If instead you use an indexing structure like a map to store the position of the element in your heap, you can do remove in O(log(n)). –  lcn Nov 8 '13 at 19:13

You can avoid updating items in the queue just marking each node as visited=false by default, and adding new items to the queue as you go.

Then pop a node from the queue and process it only if it was not visited before.

Dijkstra's algorithm guarantees that each node is visited only once, so even if you may have stale nodes down the queue you never really process them.

Also it's probably easier if you separate the algorithm internals from the graph data structure.

public void dijkstra(Node source) throws Exception{
PriorityQueue q = new PriorityQueue();
source.work.distance = 0;

while(!q.isEmpty()){
Node n = ((DijkstraHeapItem)q.remove()).node;
Work w = n.work;

if(!w.visited){
w.visited = true;

if(e.weight<0) throw new Exception("Negative weight!!");
Integer relaxed = e.weight + w.distance;

Node t = e.to;
if (t.work.previous == null || t.work.distance > relaxed){
t.work.distance = relaxed;
t.work.previous = n;
}
}
}
}
}

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i don't understand - if you .remove() a node from the queue, you will trigger a reorder of the queue, thus defeating the purpose of setting .visited = true ? –  jasonk May 11 '12 at 10:53

The problem is that you update the distances array, but not the corresponding entry in the queue. To update the appropriate objects in the queue, you need to remove and then add.

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remove takes O(n) ... –  meriton Aug 5 '11 at 8:07

I solve this problem by dividing my process into timeSlots ( A time Scheduler will be just fine ) and Extending the native PriorityQueue. So I implement a notify method where the key of this method is the following code:

// If queue has one or less elements, then it shouldn't need an ordering
// procedure
if (size() > 1)
{
// holds the current size, as during this process the size will
// be vary
int tmpSize = size();
for (int i = 1; i < tmpSize; i++)
{