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at the moment i am trying to generate unique identifiers of type long on the client side. I have a parent/child relationship where the parent already has a UUID as identifier. I want to consider the Parent-UUID for calculating a Child-Id of type long.

I have this implementation at the moment:

public static void main(String[] args) {

    /** Funnel. */
    final Funnel<UUID> UUID_FUNNEL = new Funnel<UUID>() {
        @Override
        public void funnel(UUID parentUUID, PrimitiveSink into) {
            final UUID tmpId = UUID.randomUUID();
            into
             // consider parent uuid
            .putLong(parentUUID.getMostSignificantBits())
            .putLong(parentUUID.getLeastSignificantBits())
             // consider tmp uuid
            .putLong(tmpId.getMostSignificantBits())
            .putLong(tmpId.getLeastSignificantBits());
        }
    };

    final UUID parentUUID = UUID.randomUUID();
    System.out.println(parentUUID.toString());

    for (int i = 0; i < 1000; i++) {
        final long childId = Hashing.murmur3_128().newHasher()
                                .putObject(parentUUID, UUID_FUNNEL)
                                .hash().asLong();
        System.out.println(childId);
    }
}

What do you think about this idea? Any suggestions are welcome.

I have already read this Question: How to generate unique Long using UUID

  • Why would this generate unique child ids? Wouldn't an AtomicLong with getAndIncrement() be simpler? – mfulton26 Jan 12 '17 at 13:18
  • I have multple clients not only one. – Julian Aliaj Jan 12 '17 at 13:28
  • A single AtomicLong can be used to generate a sequence of unique long values in a multi-threaded process. – mfulton26 Jan 12 '17 at 13:33
  • 2
    You eventually need to persist the child ID before sharing it, right? So why not let the server mint the child IDs? I guess I'm challenging the need for the problem. Creating a unique long across multiple processes, IMO, is risky as there is simply to high of a chance for a collision. – mfulton26 Jan 12 '17 at 13:57
  • 3
    Hashing a random number is no better than generating a random number. – Louis Wasserman Jan 12 '17 at 16:50
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This won't really work. Surely no better than a random long.

  • Without tmpId: You only hash the parentUUID, so all children of the same parent get the same long.
  • With tmpId: You could use UUID.randomUUID().getLeastSignificantBits() or just random.nextLong() and save yourself all the work (hashing a random value leads to a random result, no matter what you add).

I have multple clients not only one.

Then ask a unique server. This includes some overhead which can be easily minimized using a hi-lo algorithm.

At the DB level the child id's must be unique.

Then forget it and let the DB generate the id. Every DB has some AUTOINCREMENT or SEQUENCE meant exactly for this.

In case you need the id in the client before you access the DB, ask the DB (and use the hi-lo algorithm in order to minimize the overhead).

Offline working

I just saw your comment:

The clients should not go to a server to get the next id. It must be possible to work offline.

This is a big pain. Any hashing you could do won't be better than a random long.

  • A set of one million random longs has a collision chance of about 1e-6, which might be acceptable. Note that due to the birthday paradox, the chance grows quadratically with the set size.
  • You could try to handle the offline created entities without an ID (using some other identifier), but this sounds like a big pain.
  • You could preallocate some IDs for each client. This sounds wasteful, but preallocating 100 ID for each of one million clients uses up less than 5% of all possible IDs.
  • You could switch to random UUIDs. Because of them being 128 bits long, the collision chance is practically zero even for billions of ID.
  • How are you getting that probability and growth rate? It doesn't sound quite right. – pvg Jan 14 '17 at 6:28
  • @pvg Very roughly: long is 2**64, i.e., about 1e18, having 1e6 entries means about 1e12 pairs which implies a collision probability of about 1e-6. This all is one or two orders of magnitude off, but IMHO good enough at this stage. For 1e7 entries the probability would be about 1e-4. For 1e10 entries, I'd get a probability of 100, which is a clear non-sense, but it's also too far from the area of usable sizes. Or do you see a concrete problem? – maaartinus Jan 14 '17 at 20:11

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