Assume the following rules are for the tic-tac-toe game on an n x n board between two players:
- A move is guaranteed to be valid and is placed on an empty block.
- Once a winning condition is reached, no more moves are allowed.
- A player who succeeds in placing
nof their marks in a horizontal, vertical, or diagonal row wins the game.
Implement the TicTacToe class:
TicTacToe(int n)Initializes the object the size of the boardn.int move(int row, int col, int player)Indicates that player with idplayerplays at the cell(row, col)of the board. The move is guaranteed to be a valid move.
Follow up:
Could you do better than O(n2) per move() operation?
Example 1:
Input ["TicTacToe", "move", "move", "move", "move", "move", "move", "move"] [[3], [0, 0, 1], [0, 2, 2], [2, 2, 1], [1, 1, 2], [2, 0, 1], [1, 0, 2], [2, 1, 1]] Output [null, 0, 0, 0, 0, 0, 0, 1] Explanation TicTacToe ticTacToe = new TicTacToe(3); Assume that player 1 is "X" and player 2 is "O" in the board. ticTacToe.move(0, 0, 1); // return 0 (no one wins) |X| | | | | | | // Player 1 makes a move at (0, 0). | | | | ticTacToe.move(0, 2, 2); // return 0 (no one wins) |X| |O| | | | | // Player 2 makes a move at (0, 2). | | | | ticTacToe.move(2, 2, 1); // return 0 (no one wins) |X| |O| | | | | // Player 1 makes a move at (2, 2). | | |X| ticTacToe.move(1, 1, 2); // return 0 (no one wins) |X| |O| | |O| | // Player 2 makes a move at (1, 1). | | |X| ticTacToe.move(2, 0, 1); // return 0 (no one wins) |X| |O| | |O| | // Player 1 makes a move at (2, 0). |X| |X| ticTacToe.move(1, 0, 2); // return 0 (no one wins) |X| |O| |O|O| | // Player 2 makes a move at (1, 0). |X| |X| ticTacToe.move(2, 1, 1); // return 1 (player 1 wins) |X| |O| |O|O| | // Player 1 makes a move at (2, 1). |X|X|X|
Constraints:
2 <= n <= 100- player is
1or2. 1 <= row, col <= n(row, col)are unique for each different call tomove.- At most
n2calls will be made tomove.
class TicTacToe:
def __init__(self, n: int):
"""
Initialize your data structure here.
"""
self.n = n
self.counter = [[0] * ((n << 1) + 2) for _ in range(2)]
def move(self, row: int, col: int, player: int) -> int:
"""
Player {player} makes a move at ({row}, {col}).
@param row The row of the board.
@param col The column of the board.
@param player The player, can be either 1 or 2.
@return The current winning condition, can be either:
0: No one wins.
1: Player 1 wins.
2: Player 2 wins.
"""
n = self.n
self.counter[player - 1][row] += 1
self.counter[player - 1][col + n] += 1
if row == col:
self.counter[player - 1][n << 1] += 1
if row + col == n - 1:
self.counter[player - 1][(n << 1) + 1] += 1
if self.counter[player - 1][row] == n or self.counter[player - 1][col + n] == n or self.counter[player - 1][n << 1] == n or self.counter[player - 1][(n << 1) + 1] == n:
return player
return 0
# Your TicTacToe object will be instantiated and called as such:
# obj = TicTacToe(n)
# param_1 = obj.move(row,col,player)class TicTacToe {
private int n;
private int[][] counter;
/** Initialize your data structure here. */
public TicTacToe(int n) {
counter = new int[2][(n << 1) + 2];
this.n = n;
}
/** Player {player} makes a move at ({row}, {col}).
@param row The row of the board.
@param col The column of the board.
@param player The player, can be either 1 or 2.
@return The current winning condition, can be either:
0: No one wins.
1: Player 1 wins.
2: Player 2 wins. */
public int move(int row, int col, int player) {
counter[player - 1][row] += 1;
counter[player - 1][col + n] += 1;
if (row == col) {
counter[player - 1][n << 1] += 1;
}
if (row + col == n - 1) {
counter[player - 1][(n << 1) + 1] += 1;
}
if (counter[player - 1][row] == n || counter[player - 1][col + n] == n || counter[player - 1][n << 1] == n || counter[player - 1][(n << 1) + 1] == n) {
return player;
}
return 0;
}
}
/**
* Your TicTacToe object will be instantiated and called as such:
* TicTacToe obj = new TicTacToe(n);
* int param_1 = obj.move(row,col,player);
*/