minimax
frequency 로 정렬함
| 843 | 46.4% | ||
| 913 |
|
33.8% | |
| 486 |
|
48.4% | |
| 877 |
|
66.1% | |
| 292 |
|
54.9% | |
| 375 |
|
41.6% | |
| 464 |
|
29.5% | |
| 294 | 50.4% |
유일한 easy
leetcode.com/problems/nim-game/
292. Nim Game
292. Nim Game
Easy
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You are playing the following Nim Game with your friend:
- Initially, there is a heap of stones on the table.
- You and your friend will alternate taking turns, and you go first.
- On each turn, the person whose turn it is will remove 1 to 3 stones from the heap.
- The one who removes the last stone is the winner.
Given n, the number of stones in the heap, return true if you can win the game assuming both you and your friend play optimally, otherwise return false.
Example 1:
Input: n = 4 Output: false Explanation: These are the possible outcomes: 1. You remove 1 stone. Your friend removes 3 stones, including the last stone. Your friend wins. 2. You remove 2 stones. Your friend removes 2 stones, including the last stone. Your friend wins. 3. You remove 3 stones. Your friend removes the last stone. Your friend wins. In all outcomes, your friend wins.
Example 2:
Input: n = 1 Output: true
Example 3:
Input: n = 2 Output: true
Constraints:
- 1 <= n <= 231 - 1
Solution
You can always win a Nim game if the number of stones n in the pile is not divisible by 4.
Reasoning
Let us think of the small cases. It is clear that if there are only one, two, or three stones in the pile, and it is your turn, you can win the game by taking all of them. Like the problem description says, if there are exactly four stones in the pile, you will lose. Because no matter how many you take, you will leave some stones behind for your opponent to take and win the game. So in order to win, you have to ensure that you never reach the situation where there are exactly four stones on the pile on your turn.
Similarly, if there are five, six, or seven stones you can win by taking just enough to leave four stones for your opponent so that they lose. But if there are eight stones on the pile, you will inevitably lose, because regardless whether you pick one, two or three stones from the pile, your opponent can pick three, two or one stone to ensure that, again, four stones will be left to you on your turn.
It is obvious that the same pattern repeats itself for n=4,8,12,16,\dots, basically all multiples of 4.
Java
public boolean canWinNim(int n) { return (n % 4 != 0); }
Complexity Analysis
Time complexity is O(1), since only one check is performed. No additional space is used, so space complexity is also O(1).
References
Lecture on Nim Games from University of Maryland: MATH 199: Math, Game Theory and the Theory of Games, Summer 2006.
Analysis written by: @noran
