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An Ewok week

The Jan 11 – Jan 17 week saw the return of the main algorithmic competition anchors in 2016: TopCoder and Codeforces.

A Star Wars-themed TopCoder SRM 678 happened very early on Wednesday (problems, results, top 5 on the left). Congratulations to freak93 on the victory and on being the only contestant to solve the hard problem correctly! Apparently the Ewoks are really good at algorithms, as only one human could solve their problem :)

Codeforces Round 339 took place at the usual Codeforces time on Thursday evening (problems, results, top 5 on the left). All problems were somewhat technical, but at the same time allowed one to demonstrate algorithmic competition experience. Problem D, for example, tested one’s skills in batch processing of requests on a tree. You were given a tree with 100000 vertices, and at most 100000 queries. Each query highlighted some subset of vertices, and to answer a query you needed to compute the minimum number of non-highlighted vertices to remove that would leave all highlighted vertices disconnected, or to report there isn’t a way (in case two highlighted vertices are directly connected with an edge). The total number of highlighted vertices in all queries also doesn’t exceed 100000. Such problems usually allow O(n^2), O(N*sqrt(n) and O(n*polylog(n)) solutions, with the former supposed not to run in time. However, in this particular case a O(n^2) solution could pass if optimized using bitmasks – can you see how?

Facebook Hacker Cup Round 1 on the weekend gave one a chance to get closer to the first onsite competition of the year, to happen in London in March (problems with Facebook login, results with Facebook login, top 5 on the left). The round also featured somewhat standard technical problems. The hardest problem was perhaps the least technical: you were given 16 players, a 16x16 matrix of who wins whom, and needed to find the lowest and the highest possible elimination round for each player in an Olympic elimination tournament with 4 rounds, over all possible seedings.

I’ve described a New Year problem last week: you are given a positive integer A with at most 1000 digits. Find any two positive integers X and Y such that X+Y=A, and both X and Y are palindromes when written in decimal notation without leading zeroes.

In order to solve this problem, let’s first assume there’s no carry – each digit of A is formed directly as the sum of corresponding digits of X and Y, which is always less than 10. In case X and Y have different lengths, there’s at most one solution with given lengths of X and Y and it’s easy to find. Without loss of generality, assume X has more digits than Y. The first digit of X is then equal to the first digit of A (remember, there’s no carry yet!). Since X is a palindrome, we know its last digit as well. But then we can find the last digit of Y by subtraction. And then we can find the second digit of X, and so on. In case they have equal lengths, there might be a whole lot of solutions, but all of them are equivalent in some sense – in effect, we know the sum of corresponding digits of X and Y, and have several ways to decompose each sum into two summands independently. For example, 4=1+3=2+2, so 44=11+33=22+22=12+32=21+23.

Now how does one handle the carry? First of all, notice that for the last digits, we can determine that carry as we go from right to left. For the first digits, however, we go from left to right, and thus need to know the carry from the next digit to determine a given digit by subtraction. When we don’t know it, we will do backtracking – try both a carry of 0 and a carry of 1 recursively. At the first glance, this would seem exponential, but after taking some time to contemplate, one can see that most branches would be truncated very early because some digit would get negative or more than 9, and in fact this backtracking runs very fast.

Thanks for reading, and check back soon for the next week’s problems!





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An Ewok week