# Counting occurrences of an item

I am trying to figure out an optimal solution (in Java) to the following problem:

In a first pass over some data, I count the number of occurrences of an item. Basically, I create a HashMap from item ID to integer and increment the integer every time I see an occurrence of the item. So basically, I have a `Map<Long,Integer>` from itemID to count.

Now, what I need from this map is the top n item ids sorted by the count.

Apparently HashMap is not the optimal data structure here. Any ideas?

This is for some data mining stuff I am doing at work, so not a hw problem...

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Actually, a HashMap is a reasonable solution here because you have to accumulate the totals. There's no way you can shortcut that, and no simple way to find the top N items until you know the counts for all items.

After you have the HashMap, there are several ways to do things. If the data is relatively small, create an array of itemId and count pairs, and sort by count in descending order. Then select the top N items.

If you have lots of items (in the hundreds of thousands), it's probably faster to use a min heap after you get the counts, the idea being that you put the first N items into the min heap and then only insert an item if its count is larger than the smallest item in the min heap.

You could keep things in order by count while you're going through adding things up, but every time you increment a counter you'll have to remove the thing from the collection and re-insert it. You're better off accumulating things in a HashMap where it's easy to look things up by ID, and then post-process to apply ordering by count.

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I like the min heap idea. This is the efficiency I was looking for. – ChrisS Feb 22 '11 at 20:44
@ChrisS: note that, although a min heap and a sort both have theoretical O(n log n) complexity, in practice the sort-then-pick method is going to be somewhat faster for small values of N because quicksort has better actual runtime performance than min heap. It's only when N gets large and you don't have to actually insert things into the heap that this technique becomes more efficient. – Jim Mischel Feb 22 '11 at 20:52

I would sort the results after counting.

``````Map<Item,Integer> map = new HashMap<Item, Integer>();

... (fill the map, counting the occurences)

List<Map.Entry<Item, Integer>> list = new ArrayList<Map.Entry<Item, Integer>>(map.size());
Collections.sort(list, new Comparator<Map.Entry<Item, Integer>>() {
public int compare(Map.Entry<Item, Integer>> left, Map.Entry<Item, Integer>> right) {
// "-" to invert the order
return - left.getValue().compareTo(right.getValue());
}
});
``````

Now `list` is a list with the items sorted (descending) by count, and `.subList(0, n)` will give you the first n ones.

If your `n` is much smaller than the total number of items, than this is not optimal - there is an better (but more complicated) algorithm to take only the best some of an unordered list, I think.

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This looks pretty reasonable. I was sorting into another map, so I would have had to loop through the keySet in order to get the top 1000. This is better because you can resize the list. – ChrisS Feb 22 '11 at 20:43

An obvious answer would be use a SortedMap for this. Make sure the comparable properties of the newly created map make the top item number one and you can just fetch the first element from it.

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He needs to sort by values, not by keys. – Oleg Pavliv Feb 22 '11 at 20:24

I think if you want to be able to get out the ids, count and still maintain the Map structure you will need create a Class to encapsulate you data.

``````public class DataPair implements Comparable<DataPair> {
private long id;
private Integer count;

//Getters and setters

public void increaseCount() {
count++;
}

public int compareTo(DataPair dp) {
return this.count.compareTo(dp.count);
}

}
``````

Then have a Map just like you've been using where:

``````Map<long, DataPair> m = new HashMap<long, DataPair>()
``````

Then when you need to sort by count you can just get out the values and sort them while maintaining the ability to get the current count by id.

``````List<DataPair> list = new ArrayListM<DataPair>(m.values());
Collections.sort(list);
``````

Then you will have your sorted counts and will still be able to get ids.

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You can have a sorted map [sorted on the values] as follows:

Create a class `Profile` that will hold your data and the count [for temporary purposes].

Your Profile Class will look like this :

``````class Profile
{
public String data;
public Integer value;

public int getValue()
{
return value;
}
}
``````

The method to sort according to values will be as follows :

``````public Map<String, Integer> sortMapByValues(final Map<String, Integer> passedMap)
{

Iterator<String> it = passedMap.keySet().iterator();

while (it.hasNext())
{
String key = it.next();
Integer val = passedMap.get(key);

}

Collections.sort(tuples, new ProfileComparator());

Map<String, Integer> sortedMap = new LinkedHashMap<String, Integer>();

for (int i = 0; i < tuples.size(); i++)
{
sortedMap.put(tuples.get(i).getKey(), tuples.get(i).getValue());
}

return sortedMap;
}
``````

Now all you need is a Comparator implementation.

Your ProfileComparator class will look like this:

``````public final class ProfileComparator implements Comparator<Profile>
{
public int compare(final Profile n1, final Profile n2)
{
if (n1.getValue() > n2.getValue())
{
return -1;
}

if (n2.getValue() > n1.getValue())
{
return 1;
}

return 0;
}
}
``````
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Maybe TreeMap is more optional solution.

http://docs.oracle.com/javase/6/docs/api/java/util/TreeMap.html

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