# Find top ten values in a Map

Say I have a `TreeMap<String, Treeset<Song>>`, where object Song has three String fields and an internal CompareTo method. The keys for the map are unique words in the lyrics that are not common words such as "she", "the", "if", or "on". There are multiple copies of Songs in the map, since there are an average of 60 words mapped to a single Song.

For extra credit, the professor asked us to come up with an algorithm to find the top 10 values in the map. I didn't solve the problem in time, which is why I'm asking here.

The part that I'm stumped on is, unlike with an ordered array or list, you can't just grab the top values sequentially. So, I thought about:

``````Create a PriorityQueue<Node> with the Comparator sorting the Nodes based
on the Set size

iterate over the map
for each map node
create a Node object with the key-value pair
insert Node into the queue
``````

Even though the PriorityQueue will end up with all the key-value pairs, the top sizes will be at the top, and I can just retrieve the first ten.

This seems like a very roundabout way, since this particular map has 31,000+ nodes mapping to over 637,000 values. Is there a better way?

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Turns out this algorithm worked out pretty well in O(N) time, due to sequential loops over the dataset. Total execution time for this section was 45ms. –  Jason Nov 10 '10 at 2:15

A simple modification of your algorithm:

``````Create a PriorityQueue<Node> with the Comparator sorting the Nodes based
on the Set size

iterate over the map
for each map node
if value for node is larger than last entry in priority queue
create a Node object with the key-value pair
insert Node into the queue
trim the queue to ten entries
``````

At completion, the priority queue will only contain the top 10 entries.

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I didn't do the additional test, since the Nodes already have a compare method inside them for sorting in the PriorityQueue. Also, the algorithm wasn't too bad for runtime, since I managed to get it to O(N) time, and total execution time was under 45 ms. –  Jason Nov 10 '10 at 2:14
The compare test was to keep the number of items in the priority queue to 10 or less and to stop from constructing a node object which will not be in the top ten. However you are correct to measure performance before attempting any optimisations - otherwise you won't know how effective the optimisation is. –  Jason Nov 11 '10 at 0:31