# Something like HashMap but sorted?

I'm writing a Java program that parses all the words from a text file and then adds them to a HashMap. I need to count how many distinct words are contained in the file. I also need to figure out the highest counted words. The HashMap is comprised of each word mapped to an integer which represents how many times the word occurs.

Is there something like HashMap that will help me sort this?

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There is no standard collection I know of that solves this. How many words are there? If you can live with the overhead, the easiest to implement would be using the HashMap, and then putting the words, with occurrences in a list and sort it. –  Buhb Dec 1 '09 at 20:07
Come to think of it, I got this exact assignment in college, and we had to solve it in nlog(n). My suggestion above manages that. –  Buhb Dec 1 '09 at 20:12
Do you want to sort the map by word or by frequency? –  PSpeed Dec 1 '09 at 21:57
Jenny, please don't forget to accept an answer. –  Kevin Bourrillion Dec 15 '09 at 22:06

The Manual way to do it is as follows:

• Create a composite WordCount class with `word` and `count` fields.
• Create a Comparator for that class that sorts by count.
• When you're done filling your HashMap, create a new List of WordCount objects created from values in the HashMap.
• Sort the List using your comparator.
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Exactly what I had in mind too. –  Esko Dec 1 '09 at 20:15

You could use a HashMultiset from google-collections:

``````import com.google.common.collect.*;

...

final Multiset<String> words = HashMultiset.create();

Ordering<Entry<String>> byIncreasingCount = new Ordering<Entry<String>>() {
@Override public int compare(Entry<String> a, Entry<String> b) {
// safe because count is never negative
return left.getCount() - right.getCount();
}
});

Entry<String> maxEntry = byIncreasingCount.max(words.entrySet())
return maxEntry.getElement();
``````

EDIT: oops, I thought you wanted only the single most common word. But it sounds like you want the several most common -- so, you could replace `max` with `sortedCopy` and now you have a list of all the entries in order.

To find the number of distinct words: `words.elementSet().size()`

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+1: For Google Collections! –  Jim Ferrans Dec 5 '09 at 17:35

If you want to sort the Map by word then TreeMap is the Java built-in answer. You can either make sure your Word objects are Comparable or supply a custom Comparator.

``````SortedMap<Word,Integer> map = new TreeMap<Word,Integer>();
...
for all words {
Integer count = map.get(word);
if (count == null ) count = 0;
map.put(word, count+1);
}
``````

If you want to sort by frequency then you will be better off doing this after all of the words have been counted. Sorted collections don't take kindly to having their ordering messed up through external changes. Sorting by frequency requires a composite word + count object as others have posted.

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This keeps the words in the map sorted lexicographically, but unfortunately doesn't sort them by frequency at all. –  bchurchill Jan 14 '13 at 11:31

Here is a Groovy version of the most popular answer to this question:

``````List leastCommon(Multiset myMultiset, Integer quantity)
{

Ordering<Multiset.Entry<String>> byIncreasingCount = new Ordering<Multiset.Entry<String>>() {
@Override public int compare(Multiset.Entry<String> a, Multiset.Entry<String> b) {
return a.getCount() - b.getCount() }
}

maxIndex = Math.min(quantity, myMultiset.entrySet().size() - 1)
return byIncreasingCount.sortedCopy(myMultiset.entrySet()).subList(0, maxIndex)

}

List mostCommon(Multiset myMultiset, Integer quantity)
{

Ordering<Multiset.Entry<String>> byDecreasingCount = new Ordering<Multiset.Entry<String>>() {
@Override public int compare(Multiset.Entry<String> a, Multiset.Entry<String> b) {
return b.getCount() - a.getCount() }
}

maxIndex = Math.min(quantity, myMultiset.entrySet().size() - 1)
return byDecreasingCount.sortedCopy(myMultiset.entrySet()).subList(0, maxIndex)

}
``````
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It looks like the `TreeBag` class from the commons collections library might do what you want. It keeps track of how many copies of an object are added to the bag, and sorts them in ascending order of count. To get the highest count item just call the `last()` method. One thing to be aware of is that the commons collections stuff hasn't been updated to using generics yet, so you might get a ton of compiler warnings using it.

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Or you can search for some special map in Google Collections, which use generics. –  True Soft Dec 1 '09 at 20:15
Re-read the documentation. I believe the Bag would still be sorted by the "key" or words in this case. Not the count. Can you quote the documentation that suggests otherwise? –  z5h Dec 1 '09 at 20:16
You might be right, I interpreted the description of the last method to mean it returned the item with the largest count, but given the context of the selectable comparator it might simply mean the one with the largest natural order. –  Orclev Dec 1 '09 at 20:26

For the count, stuff the words in a Set and count the size when done.

For the highest, iterate over all Entries and hold on to the key with the highest value.

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Have you checked out java.util.PriorityQueue? A PriorityQueue is basically a list with a priority mapped to each element (implemented by a non-synchronized priority heap). Every time you read in a new string you could add it in or increase it's priority by 1 if it is already present (logarithmic time). The is present check is in linear time, and in the end this will be really easy to use. To get the numbers that appear with the most frequency just poll() for each one when you are done!

edit The standard PriorityQueue doesn't allow you to edit priority directly since it requires a comparator. You'd be better off with a simple Hash implementation or something like this

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• `YourBean implements Comparable<YourBean>`
• method compareTo : order by number of word
• TreeMap instead of hashmap
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this answer is very incomplete... –  Kevin Bourrillion Dec 1 '09 at 20:33
a tree map can not be sorted by value! So this is not the right data structure to use. –  elton Feb 22 '12 at 12:25