I'm trying to get the size of bloom filter set while using bloom filter's union & intersection functions with python package(https://github.com/jaybaird/python-bloomfilter.git)

I though that after conducting the function 'union' or 'intersection', then I could get the result by adding len() function, but it just print out only '0' output.

from pybloom import BloomFilter
bf1 = BloomFilter(1000)
bf2 = BloomFilter(1000)

# After adding some elements to bf1 and bf2
# expected max(len(bf1), len(bf2)) but the result was 0

After I find the document page, I realized that the len() option become disabled after 'union' function and its actual result len() was 0.

Instead, I want to approximate the size of bloom filter set somehow. Do you have any idea in order to calculate the size of it?


The implementation only copies BloomFilter's bitarray, i.e. self.bitarray. The elements self.count in previous filters are not counted in.

So it doesn't union the elements - but do a bitarray or.


In most cases you don't need to approximate the count. It provided a precise count of elements when you call add, and you can just call len(bf3). Unfortunately new created bf3 has not been called add so len(bf3) == 0.

For the formula to approximate number of elements,

- m / k * ln(1- n / m)

You have

import math.log as ln

m = bf3.bitarray.length()
n = bf3.bitarray.count()
k = bf3.num_slices

# given m=20, n=8, approximate n elements as 5.89
  • I checked that the implementation only copies bitarray and thanks for notifying me it. However, my question is approximation size of set mentioned below. en.wikipedia.org/wiki/… – ahnpersie Apr 1 at 4:56
  • 1
    @ahnpersie sorry I spent some time to get it right. A link I referenced was wrong. And I also added an approximation method to the question. You may extend the class and wrap it as a class method. – knh190 Apr 1 at 7:20
  • 1
    @knk190 That's exactly what I want. Thanks! Also I find the exact value of variable k. (the code you found from wikipedia is just ideal value I think) k = bf3.num_slices – ahnpersie Apr 1 at 7:25

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.