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Using Bloom filter , we will be getting space optimization.But in reality, how it is achieved. The cassandra framework is such kind of frame work,if I am correct.

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please mark some of your questions as answered, and rephrase a little your question. This way, people will be a little more eager to help you. – Valentin Rocher Dec 28 '10 at 13:37
    
I am sorry.how I will mark questions answered? – UVM Dec 28 '10 at 13:39
    
click on the right mark , it will turn green for the answer which you feel the answer actually – Jigar Joshi Dec 28 '10 at 13:40
    
I got it already.DOne it.thanks – UVM Dec 28 '10 at 13:41
up vote 1 down vote accepted

A bloom filter isn't a "framework". It's really more like simply an algorithm. The implementation ain't very long.

Here's one in Java I've tried (.jar, source code and JavaDoc being all available):

"Stand alone Java implementations of Cuckoo Hashing and Bloom Filters" (you may want to Google for this in case the following link ain't working anymore):

http://lmonson.com/blog/?page_id=99

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I have the source code for Bloom filter algorithm Implemented in Cassandar framework. – UVM Dec 28 '10 at 13:47
    
But my concern is here how the space optimization happens here? – UVM Dec 28 '10 at 13:48
    
@UNNI: oh ok, didn't know that was your question... The article on Wikipedia has a section explaining how the space efficiency is achieved: en.wikipedia.org/wiki/Bloom_filter But it's a tradeoff where you agree to have some false positives in exchange for a more memory-efficient representation. – SyntaxT3rr0r Dec 28 '10 at 13:54
    
You are not absolved from the responsibility of checking the values. The bloom filter only reduces the number of values you need to check and it allows you to build an algorithm that is optimized for mostly correct values instead of not knowing. – Stephanie Page May 19 '11 at 14:56
    
I like this article about probabilisic data structures and amongst them the bloom filter. – Alban Jul 26 '12 at 14:35

So I have seen this question before, and I used advice above and it turned out to be way to slow for me. So I wrote my own. It is not fully general, but I am sure if somebody is desperate for performance like I am they will make it more general by themselves :)

I used Murmur hash implementation that you can download here: http://d3s.mff.cuni.cz/~holub/sw/javamurmurhash/

The code: package uk.ac.cam.cl.ss958.SpringBoardSimulation;

    import ie.ucd.murmur.MurmurHash;

    import java.util.BitSet;
    import java.util.Random;

    public class FastBloomFilter {

        private final BitSet bs;

        final int [] hashSeeds;

        final int capacity;

        public FastBloomFilter(int slots, int hashFunctions) {
            bs = new BitSet(slots);
            Random r = new Random(System.currentTimeMillis());
            hashSeeds = new int[hashFunctions];
            for (int i=0; i<hashFunctions; ++i) {
                hashSeeds[i] = r.nextInt();
            }
            capacity = slots;
        }

        public void add(int value) {
            byte [] b = new byte[] {
                    (byte)(value >>> 24),
                    (byte)(value >>> 16),
                    (byte)(value >>> 8),
                    (byte)value};
            for (int i=0; i<hashSeeds.length; ++i) {
                int h = MurmurHash.hash32(b, 4, hashSeeds[i]);
                bs.set(Math.abs(h)%capacity, true);
            }
        }

        public void clear() {
            bs.clear();
        }

        public boolean mightContain(int value) {
            byte [] b = new byte[] {
                    (byte)(value >>> 24),
                    (byte)(value >>> 16),
                    (byte)(value >>> 8),
                    (byte)value};
            for (int i=0; i<hashSeeds.length; ++i) {
                int h = MurmurHash.hash32(b, 4, hashSeeds[i]);

                if(!bs.get(Math.abs(h)%capacity)) {
                    return false;


            }

            return true;
        }


        public static void main(String [] args) {
            FastBloomFilter bf = new FastBloomFilter(1000, 10);
            System.out.println("Query for 2000: " + bf.mightContain(2000));
            System.out.println("Adding 2000");
            bf.add(2000);
            System.out.println("Query for 2000: " + bf.mightContain(2000));


        }
    }
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You can understand how it saves space using this example : Lets say I work for Google, in the Chrome team, and I want to add a feature to the browser which notifies the user if the url he has entered is a malicious URL. So I have a dataset of about 1 million malicious URLs, the size of this file being around 25MB. Since the size is quite big, (big in comparison to the size of the browser itself), I store this data on a remote server.

Case 1 : I use a hash function with a hash table. I decide on an efficient hashing function, and run all the 1 million urls through the hashing function to get hash keys. I then make a hash table (an array), where the hash key would give me the index to place that URL. So now once I have hashed and filled the hashing table, I check its size. I have stored all 1 million URLs in the hash table along with they're keys. So the size is at least 25 MB. This hash table, due to its size will be stored on a remote server. When a user comes along and enters a url in the address bar, I need to check if it malicious. Thus I run the url through the hash function (the browser itself can do this) and I get a hash key for that URL. I now have to make a request to my remote server with that hash key, to check the if the particular URL in my hash table with that particular key, is the same as what the user has entered. If yes then it is malicious and if no then it is not malicious. Thus every time the user enters a URL, a request to the remote server has to be made to check if it is a malicious URL. This would take a lot of time and thus make my browser slow.

Case 2 : I use a bloom filter. The entire list of 1 million URLs are run through the bloom filter using multiple hash functions and the respective positions are marked as 1, in a huge array of 0s. Lets say we want a false positive rate of 1%, using a bloom filter calculator (http://hur.st/bloomfilter?n=1000000&p=0.01) , we get the size of the bloom filter required as only 1.13 MB. This small size is expected as, even though the size of the array is huge, we are only storing 1s or 0s and not the URLs as in case of the hash table.This array can be treated as a bit array. That is, since we have only two values 1 and 0, we can set individual bits instead of bytes. This would reduce the space taken by 8 times. This 1.13 MB bloom filter, due to its small size, can be stored in the web browser itself !! Thus when a user comes along and enters a URL, we simply apply the required hash functions (in browser itself), and check all the positions in the bloom filter (which is stored in the browser). A value of 0 in any of the positions tells us that this URL is DEFINITELY NOT in the list of malicious URLs and the user can proceed freely. Thus we did not make a call to the server and hence saved time. A value of 1 tells us that the url MIGHT be in the list of malicious URLS. In these cases we make a call to the remote server and over there we can use some other hash function with some hash table as in the first case to retrieve and check if the url is actually present. Since most of the times, a url is not likely to be a malicious one, the small bloom filter in the browser figures that out and hence saves time by avoiding calls to the remote server. Only in some cases, if the bloom filter tells us that the url MIGHT be malicious , only in those cases we make a call to the server. That 'MIGHT' is 99% right.

So by using a small bloom filter in the browser, we have saved a lot of time as we do not need to make server calls for every url entered.

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Here is a simple bloom filter implementation in Python. github.com/tarunsharma1/Bloom-Filter – Tarun Oct 4 '15 at 4:56
    
While the reason to choose Bloom filter is exemplified, the way how data is itself stored is not clear. – Aravind Feb 2 at 6:32
    
@Aravind hence I have provided the entire code for the implementation in the comment above yours. The explanation of each part of the code is present in the git ReadMe. A bit array is used and implementation in Python is shown – Tarun Feb 3 at 15:19

You can use Bloom filter based on Redis server with Redisson lib. Based on xxHash and FarmHash. Here is an example:

RBloomFilter<SomeObject> bloomFilter = redisson.getBloomFilter("sample");

// initialize bloom filter once with 
// expectedInsertions = 55000000
// falseProbability = 0.03
bloomFilter.tryInit(55000000L, 0.03);

bloomFilter.add(new SomeObject(someStateHere1));
bloomFilter.add(new SomeObject(someStateHere2));
// does it contain object?
bloomFilter.contains(new SomeObject(someStateHere3));
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