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I have a use case where I need to store a large number of entries with the unique set sizes for each one. If we simplify this to contacts (which the problem very much is not). We would have a problem like :

Given a user know how many friends they have:

Joe - Mary, John, Bob, Tom

Mary - Carol, Suzy, Mike, Fred, Robert

Thus friends(Joe) = 4 - the only operation supported is addFriend(Joe, Sam). While Mary might be friends with Joe there is no need to store any of that related information.

What I would rather not do is store all of the entries in each set, but yet a bloom filter doesn't quite feel right. Is there other alternatives?

Update: The challenge is that I've got 20M Joe/Mary/... in the top level sets with 4M semi-distinct members in each set. The quick code example is below (python for simplicity) - but at scale + persistent storage the universe comes to an end.

class World:
    def __init__(self):
        self.friends = defaultdict(set)

    def addFriend(self, id, member):
        self.friends[id].add(member)

    def friends(self, id):
        return len(friends[id])
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  • which programming language are you working on?
    – Raptor
    Apr 5, 2013 at 4:27
  • Pretty much any - making a quick update.
    – koblas
    Apr 5, 2013 at 4:35
  • What is the output of friends(Mary) ?
    – sowrov
    Apr 5, 2013 at 4:41
  • Isn't friends(Mary) = 6 since Joe and Mary are friends? Apr 5, 2013 at 6:55
  • What is the total size of members? Is it 20m or 24m or 80m? Ie, are the 4m members random/unique values or are they all contained in the 20m set headers? Also, what do you want to favour, small space, fast insert or fast retrieval?
    – rlb
    Apr 5, 2013 at 9:59

1 Answer 1

1

Since you're considering a Bloom filter, it sounds as though approximate answers would be OK. Use a small-space cardinality estimator like HyperLogLog in place of self.friends.

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