An unbounded priority queue is based on a `priority heap`

`Priority Queue.Offer()`

method uses `siftUpComparable()`

internally to insert items when passed without comparator

`siftUpComparable`

compares current element with all elements at Parent Positions(`int i = paramInt - 1 >>> 1;`

) until the Heap condition is met

`siftUpComparable`

Algorithm in Nutshell (if implemented through array Root=index 0):

```
1.Add the element to the bottom level of the heap.
2.Compare the added element with its parent; if they are in the correct order, stop.
3.If not, swap the element with its parent and return to the previous step.
```

**Java Code**

```
private void siftUpComparable(int paramInt, E paramE)
{
Comparable localComparable = (Comparable)paramE;
while (paramInt > 0)
{
int i = paramInt - 1 >>> 1;
Object localObject = this.queue[i];
if (localComparable.compareTo(localObject) >= 0) {
break;
}
this.queue[paramInt] = localObject;
paramInt = i;
}
this.queue[paramInt] = localComparable;
}
```

In Your example:

`q.offer(4);`

-> Inserts 4

`Result: PQ[0]=4`

`q.offer(2);`

-> `siftUpComparable`

compares 4 to 2 and swap positions (comparisons at Parent Locations)

`Result: PQ[0]=2,PQ[1]=4`

`q.offer(8);`

-> `siftUpComparable`

Compares 8 and 2 (since 2 is at Parent Location)

`Result: PQ[2]=8`

`q.offer(6);`

: -> siftUp Compares 6 with 4 (Parent of location 3 is Location 1 according to `paramInt - 1 >>> 1;`

logic )

`Result: PQ[3]=6`

Final `PQ=[2, 4, 8, 6]`