tbquan08hanoi's blog

By tbquan08hanoi, 3 months ago, In English

Problem: A pile has $$$n$$$ stones and 2 players: Player A go first. Each move, the player will take $$$k$$$ stones from the pile, where $$$k$$$ is a prime number. Whoever can't make a move first is lost. Problem has multiple test. Constraints: $$$1 <= t <= 100$$$: Number of tests $$$2 <= n <= 3 \cdot 10^6$$$: The number of stones in the pile Output: A if A wins, B if B wins.

(Idk if it is a nim problem or not, that's the reason of the question mark) (Also, when I do $$$O((n)^2)$$$, I do precalculation: $$$res[0]=res[1]=0$$$(base case), $$$res[i]=1$$$ only if exist a prime $$$p$$$ where $$$res[i-p]=0$$$, else $$$res[i]=0$$$)

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3 months ago, # |
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its not a nim problem though (get it?)

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3 months ago, # |
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Try applying sprague grundy theorem, You'll notice a pattern in it and after noticing it, you can come up to an O(1) solution.

You can study it from here How to calculate Grundy values?.

Pattern looks somewhat like this g(x) = x % 4

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    3 months ago, # ^ |
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    Basically player B wins only when n % 4 == 0 otherwise A wins.

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      3 months ago, # ^ |
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      • For n = 4: player A takes 3 stones, 1 stone left. I doubt B wins.
      • For n = 12: player A takes 11 stones.
      • For n = 20: player A takes 19 stones.

      So not always B wins when n % 4 == 0

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      3 months ago, # ^ |
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      bs logic

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3 months ago, # |
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If you have learned anything from the recent EDU round you would first

Some more possible variations of Nim to brighten your day

  • Divisor Nim
  • Non-divisor Nim (coprime and non-coprime numbers allowed)
  • Non-prime Nim, as opposed to presented variation
  • Non-coprime nim (opposite of last EDU round)