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I have a PriorityQueue containing references to some objects. When I initially insert the elements into the priority queue the ordering is maintained by the data structure. Now after a remove operation I update some of the references which are being held by the priority queue. Ideally this requires a reheapify operation on the priority queue but as is obvious since I am modifying selected references externally a reheapify cannot be triggered. So what is the best way to ensure that I am able to get the advantage of a heap like fast extract max in the presence of modifications to arbitrary elements inside the queue? I see I need a better data structure?

To be more specific I need an implementation of something like a Fibonacci heap in Java. Is that available?

share|improve this question
I have an implementation of a Fibonacci heap in Java if you're interested. It's available online at . Hope it helps! – templatetypedef Dec 29 '11 at 3:43
Even fibonacci heaps aren't resilient in the face of out-of-band changes to the weights of elements. I think you need to remove an element before you modify it and reinsert it afterwards. – Mike Samuel Dec 29 '11 at 4:46
removing an arbitrary element from the heap will require O(n) heap construction I guess. – Rohit Banga Dec 29 '11 at 5:17
The problem I guess is that the PriorityQueue provides me a linear time remove operation. If the data structure was transparent enough I could externally maintain the index of all elements in the priority queue so I could implement the DECREASE-KEY operation in O(lg V) time. Does anyone see any other data structure that can help me achieve this? – Rohit Banga Dec 29 '11 at 15:35
Does noone have an idea how we could get the efficient implementation using Java Collections API? – Rohit Banga Jan 5 '12 at 15:54
up vote 2 down vote accepted

You can use your own tree that allows duplicate elements instead of heap. Easier though, you can use TreeMap<PriorityKey, LinkedHashSet<Value>>. All operations are O(log priorityType):

  • adding is get(priority).add(value), if get returns null, put(priority, new LinkedHashSet())
  • removing an arbitrary element is similar, except needs to remove the priority out of the map if the Set is empty.
  • poll() is


Entry<PriorityKey, LinkedHashSet<Value>> e = map.firstEntry(); 
if (e==null) return null; 
Iterator<Value> i = e.getValue().iterator(); 
Value v =; //must always have at least one element.
if (!i.hasNext()) map.remove(e.getKey());
return v;

Still if you need to change the priority you have to remove and add the element.

share|improve this answer
OK ... so I would say that the PriorityQueue in Java neither implements the DecreaseKey operation nor provides a way for the user to implement it efficiently. – Rohit Banga Feb 5 '12 at 20:04
@iamrohitbanga, finding a key in heap is O(n), then you can remove/add which is (log N), again if you need to access a random element in the queue you'd be better off w/ a tree. – bestsss Feb 5 '12 at 21:13

Maybe a NavigableMap would suit your needs : easy identification of the "highest" or "lowest" element, fast insertion and access time, and you could update values easily.

TreeMap implements NavigableMap, and therefore provides the firstEntry/lastEntry methods, and many more.

share|improve this answer
you cant have duplicate elements in the map and it has to be sorted by priority. the solution of using a tree(map) involves mapping priority->collection. (what i posted) – bestsss Feb 8 '12 at 9:55

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