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I have a large file (say 10 terabytes) with stream of MD5 hashes (which contains duplicates), I am given a memory of 10MB(very limited) and unlimited hard disc space. Find all the unique hashes(eliminating duplicates) using given conditions. Please help, this is obviously not a homework question

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"this is obviously not a homework question" – Matt Phillips May 16 '13 at 21:56
Does performance matter? I mean is it okay to use some O(n^2) solution? – xci13 May 16 '13 at 21:56
@AdelQodmani The performance difference between O(n^2) and O(nlogn) for 10 *terabytes worth of 16 byte hashes is astronomical. – Andrei May 16 '13 at 22:26
up vote 8 down vote accepted

You can sort the hashes with an external sorting algorithm (e.g. with a polyphase merge sort), after which you just need to traverse the file and skip any hashes that equal the most recent hash

hash mostRecentHash;
while(fileHasHashes) {
    temp = fileWithDuplicates.readHash();
    if(!hashesAreEqual(mostRecentHash, temp)) {
        mostRecentHash = temp;
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External polyphase merge sort is the perfect algorithm for this. +1 – Nik Bougalis May 16 '13 at 23:36
+1 Deleted my answer because this one is a much better solution. – idz May 16 '13 at 23:55
then why he asked me to make use of unlimited database?? – username May 17 '13 at 3:08
If you're supposed to use a database then just check to see if a hash is already in the database before adding it. Select hash From hashes_table Where hash = currentHash, and if that returns a null/false, then Insert Into hashes_table (hash) Values (currentHash) – Zim-Zam O'Pootertoot May 17 '13 at 3:18

If performance doesn't matter, and your file system has no limits, then you can simply create a file for every hash. If during creation, you encounter EEXIST, then you have a duplicate, and it can be skipped.

for (each hash) {
    r = open(hash_to_filename(hash), O_CREAT|O_EXCL);
    if (r < 0) {
        if (errno == EEXIST) continue;

The advantage of this is that it preserves the order of the hash values first occurrence in the stream.

The actual performance of this solution depends on the performance of the file system. If the files are organized in a B-Tree, then the performance will be roughly O(N log(N)). If the file system uses a hash table to organize the files, then the performance is expected to be O(N), but it depends on how often collisions occur (and the constant factor is high, because of the disk access).

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This is obviously not a bad solution. – Dour High Arch May 16 '13 at 22:25

I like Zim-Zam's solution...proposing a small variation.

If we can assume that the fingerprints are distributed uniformly over the 128 bit space, then can we use something like Bucket sort to bucket'ize the fingerprints into (smaller) bucket files, sort the bucket files individually and then merge the bucket files into one sorted file using a heap? This might reduce the nlogn cost.

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