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A was asked an interesting question on an interview lately.

  • You have 1 million users
  • Each user has 1 thousand friends
  • Your system should efficiently answer on Do I know him? question for each couple of users. A user "knows" another one, if they are connected through 6 levels of friends.

E.g. A is friend of B, B is a friend of C, C is friend of D, D is a friend of E, E is a friend of F. So we can say that, A knows F.

Obviously you can't to solve this problem efficiently using BFS or other standard traversing technic. The question is - how to store this data structure in DB and how to quickly perform this search.

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    I guess the probability for 'yes' is about 99.99999%, so maybe you could hardcode return yes, but I'll wait to see an answer.
    – alain
    Sep 2, 2017 at 15:31
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    Possible duplicate of Challenge,how to implement an algorithm for six degree of separation?
    – sascha
    Sep 2, 2017 at 15:40
  • @RoryDaulton no, sorry. fixed that
    – silent-box
    Sep 2, 2017 at 15:52
  • @sascha Actually I proposed traversal algorithms and Graph databases, but my interviewer said that is not acceptable (linear time for 1E18 elements is too slow). Unfortunately I didn't find anything else on the link you suggested
    – silent-box
    Sep 2, 2017 at 15:55
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    Interviewer said that the problem was specifically designed to have only one solution: This is the moment i would be worried about the competence on the other side (but maybe you did skip some further assumptions, who knows).
    – sascha
    Sep 2, 2017 at 16:04

2 Answers 2

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What's wrong with BFS?

Execute three steps of BFS from the first node, marking accessible users by flag 1. It requires 10^9 steps.

Execute three steps of BFS from the second node, marking accessible users by flag 2. If we meet mark 1 - bingo.

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    It'll need less than 10^6 steps if you don't expand already-marked nodes again (the number of users is 10^6). Sep 2, 2017 at 18:56
  • @RalfKleberhoff, the number of vertices is up to pow(10,6), but the number of edges is up to pow(10,9). Sep 2, 2017 at 19:50
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What about storing the data as 1 million x 1 million matrix A where A[i][j] is the minimum number of steps to reach from user i to user j. Then you can query it almost instantly. The update however is more costly.

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