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This was on my last comp stat qual. I gave an answer I thought was pretty good. We just get our score on the exam, not whether we got specific questions right. Hoping the community can give guidance on this one, I am not interested in the answer so much as what is being tested and where I can go read more about it and get some practice before the next exam.

At first glance it looks like a time complexity question, but when it starts talking about mapping-functions and pre-sorting data, I am not sure how to handle. So how would you answer?

Here it is:

Given a set of items X = {x1, x2, ..., xn} drawn from some domain Z, your task is to find if a query item q in Z occurs in the set. For simplicity you may assume each item occurs exactly once in X and that it takes O(l) amount of time to compare any two items in Z.

(a) Write pseudo-code for an algorithm which checks if q in X. What is the worst case time complexity of your algorithm?

(b) If l is very large (e.g. if each element of X is a long video) then one needs efficient algorithms to check if q \in X. Suppose you are given access to k functions h_i: Z -> {1, 2, ..., m} which uniformly map an element of Z to a number between 1 and m, and let k << l and m > n. Write pseudo-code for an algorithm which uses the function h_1...h_k to check if q \in X. Note that you are allowed to preprocess the data. What is the worst case time complexity of your algorithm?

Be explicit about the inputs, outputs, and assumptions in your pseudocode.

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What is the nature of X? Is it a list, an array? How do you access elements and what is the time complexity? – phant0m Sep 20 '12 at 12:21

1 Answer 1

The first seems to be a simple linear scan. The time complexity is O(n * l), the worst case is to compare all elements. Note - it cannot be sub-linear with n, since there is no information if the data is sorted.

The second (b) is actually a variation of bloom-filter, which is a probabalistic way to represent a set. Using bloom filters - you might have false positives (say something is in the set while it is not), but never false negative (say something is not int the set, while it is).

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