I have implemented Priority Queue interface for making heap. Can you tell me how to implement an iterator on the top of that? point me to some apropriate tutorial,i am new to java and on a very short deadline here. Actually i need a method to find and modify an object from heap on the basis of Object.id. I dont care if it is O(n).

```
public interface PriorityQueue {
/**
* The Position interface represents a type that can
* be used for the decreaseKey operation.
*/
public interface Position {
/**
* Returns the value stored at this position.
* @return the value stored at this position.
*/
Comparable getValue();
}
Position insert(Comparable x);
Comparable findMin();
Comparable deleteMin();
boolean isEmpty();
int size();
void decreaseKey(Position p, Comparable newVal);
}
```

// BinaryHeap class

```
public class OpenList implements PriorityQueue {
public OpenList() {
currentSize = 0;
array = new Comparable[DEFAULT_CAPACITY + 1];
}
public OpenList(int size) {
currentSize = 0;
array = new Comparable[DEFAULT_CAPACITY + 1];
justtocheck = new int[size];
}
public OpenList(Comparable[] items) {
currentSize = items.length;
array = new Comparable[items.length + 1];
for (int i = 0; i < items.length; i++) {
array[i + 1] = items[i];
}
buildHeap();
}
public int check(Comparable item) {
for (int i = 0; i < array.length; i++) {
if (array[1] == item) {
return 1;
}
}
return array.length;
}
public PriorityQueue.Position insert(Comparable x) {
if (currentSize + 1 == array.length) {
doubleArray();
}
// Percolate up
int hole = ++currentSize;
array[ 0] = x;
for (; x.compareTo(array[hole / 2]) < 0; hole /= 2) {
array[hole] = array[hole / 2];
}
array[hole] = x;
return null;
}
public void decreaseKey(PriorityQueue.Position p, Comparable newVal) {
throw new UnsupportedOperationException(
"Cannot use decreaseKey for binary heap");
}
public Comparable findMin() {
if (isEmpty()) {
throw new UnderflowException("Empty binary heap");
}
return array[ 1];
}
public Comparable deleteMin() {
Comparable minItem = findMin();
array[ 1] = array[currentSize--];
percolateDown(1);
return minItem;
}
private void buildHeap() {
for (int i = currentSize / 2; i > 0; i--) {
percolateDown(i);
}
}
public boolean isEmpty() {
return currentSize == 0;
}
public int size() {
return currentSize;
}
public void makeEmpty() {
currentSize = 0;
}
private static final int DEFAULT_CAPACITY = 100;
private int currentSize; // Number of elements in heap
private Comparable[] array; // The heap array
public int[] justtocheck;
private void percolateDown(int hole) {
int child;
Comparable tmp = array[hole];
for (; hole * 2 <= currentSize; hole = child) {
child = hole * 2;
if (child != currentSize &&
array[child + 1].compareTo(array[child]) < 0) {
child++;
}
if (array[child].compareTo(tmp) < 0) {
array[hole] = array[child];
} else {
break;
}
}
array[hole] = tmp;
}
private void doubleArray() {
Comparable[] newArray;
newArray = new Comparable[array.length * 2];
for (int i = 0; i < array.length; i++) {
newArray[i] = array[i];
}
array = newArray;
}
```