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In this approach, we use a 3x3 board to simulate the mechanics of a Tic Tac Toe game. For every move made, we place the respective player's symbol ('X' for player A and 'O' for player B) on the board. After each move, we check if this move results in a win for any player by verifying if there are three matching symbols in any row, column, or diagonal. If a win is found, that player is declared the winner and the game ends. If all moves are exhausted without a winner, the game is declared a draw. If there are remaining moves, the game is pending.
Time Complexity: O(n), where n is the length of the moves. In the worst case, it checks 8 winning conditions for all 9 moves.
Space Complexity: O(1), since the board is of fixed size (3x3).
1using System;
2
3public class Solution {
4 public string Tictactoe(int[][] moves) {
5 char[,] board = new char[3,3];
6 char player = 'X';
7 foreach (var move in moves) {
8 board[move[0],move[1]] = player;
9 player = player == 'X' ? 'O' : 'X';
10 }
11 for (int i = 0; i < 3; i++) {
12 if (board[i,0] != '\0' && board[i,0] == board[i,1] && board[i,1] == board[i,2])
13 return board[i,0] == 'X' ? "A" : "B";
14 if (board[0,i] != '\0' && board[0,i] == board[1,i] && board[1,i] == board[2,i])
15 return board[0,i] == 'X' ? "A" : "B";
16 }
17 if (board[0,0] != '\0' && board[0,0] == board[1,1] && board[1,1] == board[2,2])
18 return board[0,0] == 'X' ? "A" : "B";
19 if (board[0,2] != '\0' && board[0,2] == board[1,1] && board[1,1] == board[2,0])
20 return board[0,2] == 'X' ? "A" : "B";
21 return moves.Length == 9 ? "Draw" : "Pending";
22 }
23
24 public static void Main(string[] args) {
25 int[][] moves = new int[][] { new int[] {0,0}, new int[] {2,0}, new int[] {1,1}, new int[] {2,1}, new int[] {2,2} };
26 Solution sol = new Solution();
27 Console.WriteLine(sol.Tictactoe(moves));
28 }
29}
30The C# implementation composes a board using a 3x3 array and alternates players for each move. It checks for winning conditions similar to the other language implementations. Post-evaluation checks for declaring the winner or a draw are performed based on the board's state and moves executed.
Instead of simulating the grid itself, this approach tracks the status of each row, column, and the two diagonals using counters. Each player will have their counters, incrementing or decrementing upon making a move. The first instance a counter reaches 3 or -3 indicates a player has won the game. This method significantly reduces the need to check the grid extensively for each move while still adhering to the rules of Tic Tac Toe.
Time Complexity: O(n), where n is the number of moves.
Space Complexity: O(1), as only fixed-size counters are involved.
This solution uses integer counters to track the influence of moves on the board. Each player's move updates these counters; the goal is to detect a completion of three moves in any direction (horizontally, vertically, or diagonally). This approach efficiently determines the winner without maintaining the entire board's state.