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I'm working in Java and have a SortedMap, which is implemented as a ConcurrentSkipListMap. I need to remove a number of items from the head of the SortedMap - i.e., all items whose key is less than some threshold. The number of items actually removed may end up being 0, 1, or multiple. It is possible, but rather unlikely, that this will cause all items in the entire SortedMap to be removed (i.e., it's extremely likely at least one item will be larger than the threshold, though it's not guaranteed).

It seems to me that there should be a way to do this rather efficiently since we can take advantage of the assumptions that 1) the items to be removed are consecutive, and 2) the first item to be removed is the head of the SortedMap (and per #1, the rest follow consecutively thereafter). If I build my own skip list this is very easy to do, but I'm lazy and don't want to rebuild all the logic already provided for me in the built-in ConcurrentSkipListMap just to have this one custom operation. So my question is, how can I take advantage of those assumptions for performance while using the ConcurrentSkipListMap?

I've come up with the following methods, but don't know if they're really taking advantage of my assumptions:

SortedMap<Date, Item> mymap = ConcurrentSkipListMap<Date, Item>();
addItemsToMap(mymap);
Date threshold = calculateThreshold();

Method 1: Iterate through, removing items until I reach the threshold.

Iterator<Entry<Date, Item>> itr = mymap.entrySet().iterator();
for (Date key = itr.next().getKey(); key.before(threshold); key = itr.next().getKey())
    itr.remove();

Method 2: Repeatedly remove the first item, until the first item exceeds the threshold.

for (Date key = mymap.firstKey(); key.before(threshold); key = mymap.firstKey())
    mymap.remove(key);

Method 3: Get the set of entries from the head to the threshold, then remove all of them.

Iterator<Entry<Date, Item>> itr2 = mymap.headMap(threshold).entrySet().iterator();
while (itr2.hasNext()) {
    itr2.next();
    itr2.remove();
}

Method 4: More elegant version of #3.

mymap.headMap(threshold).clear();
share|improve this question
    
You're not going to get more efficient than #4. – Louis Wasserman Jul 3 '13 at 1:40
    
@LouisWasserman Well, I don't think that's exactly the case. Let N be the number of items in the SortedMap and M the number of items to be removed (s.t. m <= n). Then method 4 is at best O(log(N) + M) time. It may be worse if clear() removes the items one-by-one instead of all simultaneously (as there may be bookkeeping overhead for the skip list parts after each removal). Still it's probably less bookkeeping overhead than a tree-based SortedMap (I think). Ideally, I'd like to be able to remove the first M items in O(M) time. – Dave Lillethun Jul 11 '13 at 4:53
    
That said, for now I've done #4 because it's the simplest and easiest to understand, and I'll change it only if and when I see performance being a problem. – Dave Lillethun Jul 11 '13 at 4:54
1  
I don't buy that method 4 is at best O(log N + M) time. headMap returns a view, which means that it can return in constant time. – Louis Wasserman Jul 11 '13 at 16:08
1  
@LouisWasserman Oops, you're right. I looked at the code some, and Method 4 is actually pretty equivalent to Method 2. Furthermore, I assume the complexity of getting an iterator at the head of the list is the same as the findFirst() method (the same logic must be applied, or else how would the iterator correctly know where to start, right?) In that case, the only real difference between Method 1 and 2 & 4 is the difference between iterator.remove() and map.remove(key) ... The code for remove was harder to follow with the different hierarchy levels, but it's doubtful there's a difference – Dave Lillethun Jul 11 '13 at 16:45

I would suggest you use the tailMap method provided in the ConcurrentSkipListMap class.

Since this Collection is sorted you might have to pass the key to the method from which you need the the data.

You can have a look at the java docs.

For example - Let us assume my ConcurrentSkipListMap has keys 1,2,4,5 and my threshold is 2. I would pass 2 + 1 = 3 to the tailMap method and I would get back a ConcurrentNavigableMap with 4 and 5 in it.

share|improve this answer
    
Thanks for the answer. I'm trying to remove the smallest several items, though, not the largest. So in your example, 1, 2 perhaps... So instead of tailMap() I can use headMap(), which I did in methods 3 and 4 above. – Dave Lillethun Jul 3 '13 at 3:56

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