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# Guava: Access elements in TreeMultiset via position in expanded entrySet

Is there an efficient way to get the n upper entries from a sorted Multiset (TreeMultiset)?

To specify what I mean I post my inefficient solution:

``````public SortedMultiset<DataTuple> headMultiset(int upperBound, BoundType boundType){
int i=0;
DataTuple act= this.coreData.firstEntry().getElement();
Iterator<DataTuple> itr = this.coreData.iterator();
while(i<=upperBound){
act = itr.next();
i+=this.coreData.count(act);
}
}
``````

In this example DataSet can be seen as Object and this.coreData is the underling TreeMultiset.

I'm really new to that topic, so all kinds of comments would be appreciated.

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As a first approach I used a NavigableMap<Integer,DataTuple> like proposed in that topic. But this is in connection with a lot of overhead. I guess that there is something like a Map inside the TreeMultiset. – user1078195 Dec 2 '11 at 23:31

I'm not 100% sure what result you're looking for. Let's take an example: say the multiset has contents [5 x a, 3 x b, 7 x c, 2 x d, 5 x e]. (As in Multiset.toString(), I am writing "count x object" to represent count occurrences of object.) If I understand the problem correctly, if n is 5, then the result you want is [5 x a], correct?

(It's also not clear whether you want the size of the result multiset to "round." For example: if n was 6 in the above multiset, would you want [5 x a, 1 x b], [5 x a], or [5 x a, 3 x b] ?)

For the moment, I'll assume that you want to round up, that is, you would expect [5 x a, 3 x b]. Then your answer isn't that far off, although I think it's subtly wrong as written. Here's how I would write it:

``````public <E> SortedMultiset<E> takeElements(SortedMultiset<E> multiset, int n) {
if (n == 0) { return ImmutableSortedMultiset.of(); }
Iterator<Multiset.Entry<E>> iterator = multiset.entrySet().iterator();
E cutoff = null;
for (int count = 0; count < n && iterator.hasNext(); ) {
Multiset.Entry<E> entry = iterator.next();
count += entry.getCount();
cutoff = entry.getElement();
}
if (count < n) { return multiset; }
// cutoff is not null, since the loop must iterate at least once
}
``````
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Thanks for your improvement. I am not sure if I want to round up or down. I thought to get the bound type through solves that problem. – user1078195 Dec 3 '11 at 9:54
Thanks for your improvement. (I'didn't mange to figure out how to iterate through the entry set:-() I am not sure if I want to round up or down. I thought to get the bound type through solves that problem. So that means that I'd like to get [5 x a] for a open and [5 x a, 3 x b] for the closed bound type. However I think that there is a more powerful way to implement that. While debugging I saw that the private Tree of the TreeMultiset stores the sizes for left and right as well as the distinct elements. I think If it was possible to get this tree one could implement the method much faster. – user1078195 Dec 3 '11 at 10:05
This is true, but exposing the tree from Guava would tie TreeMultiset to this implementation forever, so it's not particularly likely. (I'm the author of TreeMultiset, FYI.) – Louis Wasserman Dec 3 '11 at 15:36
If you're using ImmutableSortedMultiset, mind you, you could call multiset.elementSet().asList() and do a binary search for the cutoff point, which would give you an O((log n)^2) algorithm -- but if you're using TreeMultiset, the above algorithm is going to be the best you can do. – Louis Wasserman Dec 3 '11 at 16:09
...Oh, dear. It's not public yet. I should work on that. – Louis Wasserman Dec 3 '11 at 21:15

Actually the solution with the HashMap seems to have a acceptable performance. I built the hash map via:

``````public NavigableMap<Integer, E> BuildHashMap (SortedMultiset<E> multiset){
NavigableMap<Integer, E>  ret = new TreeMap<Integer, E>();
int n = 0;
for (Entry<E> e : multiset.entrySet()) {
ret.put(n, e.getElement());
n += e.getCount();
}
return ret;
}
``````

and access it with `.floorEntry(n).getValue()`.

However `elementSet().asList()` is the function I'm actually looking for.

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This will only improve your performance if you need to do the lookup for many different values of n. That said, if what you want is the elements in this thing, what you want is ret.headMap(n, true).values(). – Louis Wasserman Dec 3 '11 at 21:16
Yes. One of my applications is to divide the Multiset into a List of Multisets with about the same size. e.g. diving your example (size 22) data in 2 parts would end in a [[5 x a, 3 x b, 7 x c],[2 x d, 5 x e]] – user1078195 Dec 4 '11 at 16:55