This website uses cookies to ensure the best user experience. View more.

Patio Enclosures by Great Day Improvements
Menu

Jav — G-queen

The space complexity of the solution is O(N^2), where N is the number of queens. This is because we need to store the board configuration and the result list.

private boolean isValid(char[][] board, int row, int col) { // Check the column for (int i = 0; i < row; i++) { if (board[i][col] == 'Q') { return false; } } // Check the main diagonal int i = row - 1, j = col - 1; while (i >= 0 && j >= 0) { if (board[i--][j--] == 'Q') { return false; } } // Check the other diagonal i = row - 1; j = col + 1; while (i >= 0 && j < board.length) { if (board[i--][j++] == 'Q') { return false; } } return true; } } jav g-queen

The solution uses a backtracking approach to place queens on the board. The solveNQueens method initializes the board and calls the backtrack method to start the backtracking process. The space complexity of the solution is O(N^2),

private void backtrack(List<List<String>> result, char[][] board, int row) { if (row == board.length) { List<String> solution = new ArrayList<>(); for (char[] chars : board) { solution.add(new String(chars)); } result.add(solution); return; } for (int col = 0; col < board.length; col++) { if (isValid(board, row, col)) { board[row][col] = 'Q'; backtrack(result, board, row + 1); board[row][col] = '.'; } } } The solveNQueens method initializes the board and calls

Given an integer n , return all possible configurations of the board where n queens can be placed without attacking each other.

Find Your Location

The space complexity of the solution is O(N^2), where N is the number of queens. This is because we need to store the board configuration and the result list.

private boolean isValid(char[][] board, int row, int col) { // Check the column for (int i = 0; i < row; i++) { if (board[i][col] == 'Q') { return false; } } // Check the main diagonal int i = row - 1, j = col - 1; while (i >= 0 && j >= 0) { if (board[i--][j--] == 'Q') { return false; } } // Check the other diagonal i = row - 1; j = col + 1; while (i >= 0 && j < board.length) { if (board[i--][j++] == 'Q') { return false; } } return true; } }

The solution uses a backtracking approach to place queens on the board. The solveNQueens method initializes the board and calls the backtrack method to start the backtracking process.

private void backtrack(List<List<String>> result, char[][] board, int row) { if (row == board.length) { List<String> solution = new ArrayList<>(); for (char[] chars : board) { solution.add(new String(chars)); } result.add(solution); return; } for (int col = 0; col < board.length; col++) { if (isValid(board, row, col)) { board[row][col] = 'Q'; backtrack(result, board, row + 1); board[row][col] = '.'; } } }

Given an integer n , return all possible configurations of the board where n queens can be placed without attacking each other.