9

I'm implementing a simple Bloom Filter as an exercise.

Bloom filters require multiple hash functions, which for practical purposes I don't have.

Assuming I want to have 3 hash functions, isn't it enough to just take the hash of the object I'm checking membership for, hashing it (with murmur3) and then add +1, +2, +3 (for the 3 different hashes) before hashing them again?

As the murmur3 function has a very good avalanche effect (really spreads out results) wouldn't this for all purposes be reasonable?

Pseudo-code:

function generateHashes(obj) {
  long hash = murmur3_hash(obj);
  long hash1 = murmur3_hash(hash+1);
  long hash2 = murmur3_hash(hash+2);
  long hash3 = murmur3_hash(hash+3);
  (hash1, hash2, hash3)
}

If not, what would be a simple, useful approach to this? I'd like to have a solution that would allow me to easily scale for more hash functions if needed be.

Thanks

5
+100

AFAIK, the usual approach is to not actually use multiple hash functions. Rather, hash once and split the resulting hash into 2, 3, or how many parts you want for your Bloom filter. So for example create a hash of 128 bits and split it into 2 hashes 64 bit each.

https://github.com/Claudenw/BloomFilter/wiki/Bloom-Filters----An-overview

0

The hashing functions of Bloom filter should be independent and random enough. murmur hash is great for this purpose. So your approach is correct, and you can generate as many new hashes your way. For the educational purposes it is fine.

But in real world, running hashing function multiple times is very time costing, so the usual approach is to create ad-hoc hashes without actually calculating the hash.

To correct @memo, this is done not by splitting the hash into multiple parts, as the width of the hash should remain constant (and you can't split 64 bit hash to more than 64 parts ;) ). The approach is to get a two independent hashes and combine them.

function generateHashes(obj) {
  // initialization phase
  long h1 = murmur3_hash(obj);
  long h2 = murmur3_hash(h1);

  int k = 3; // number of desired hash functions
  long hash[k];

  // generation phase
  for (int i=0; i<k; i++) {
      hash[i] = h1 + (i*h2);

  return hash;
}

As you see, this way creating a new hash is a simple multiply-add operation.

-1

It would not be a good approach. Let me try and explain. Bloom filter allows you to test if an element most likely belongs to a set, or if it absolutely doesn’t. In others words, false positives may occur, but false negatives won’t.

Reference: https://sc5.io/posts/what-are-bloom-filters-and-why-are-they-useful/

Let us consider an example:

You have an input string 'foo' and we pass it to the multiple hash functions. murmur3 hash gives the output K, and subsequent hashes on this hash value give x, y and z

Now assume you have another string 'bar' and as it happens, its murmur3 hash is also K. The remaining hash values? They will be x, y and z because in your proposed approach the subsequent hash functions are not dependent on the input, but instead on the output of first hash function.

long hash1 = murmur3_hash(hash+1);
long hash2 = murmur3_hash(hash+2);
long hash3 = murmur3_hash(hash+3);

As explained in the link, the purpose is to perform a probabilistic search in a set. If we perform search for 'foo' or for 'bar' we would say that it is 'likely' that both of them are present. So the % of false positives will increase.

In other words this bloom filter will behave like a simple hash-function. The 'bloom' aspect of it will not come into picture because only the first hash function is determining the outcome of search.

Hope I was able to explain sufficiently. Let me know in comments if you have some more follow-up queries. Would be happy to assist.

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