""" The nqueens problem is of placing N queens on a N * N chess board such that no queen can attack any other queens placed on that chess board. This means that one queen cannot have any other queen on its horizontal, vertical and diagonal lines. """ from typing import List solution = [] def isSafe(board: List[List[int]], row: int, column: int) -> bool: """ This function returns a boolean value True if it is safe to place a queen there considering the current state of the board. Parameters : board(2D matrix) : board row ,column : coordinates of the cell on a board Returns : Boolean Value """ for i in range(len(board)): if board[row][i] == 1: return False for i in range(len(board)): if board[i][column] == 1: return False for i, j in zip(range(row, -1, -1), range(column, -1, -1)): if board[i][j] == 1: return False for i, j in zip(range(row, -1, -1), range(column, len(board))): if board[i][j] == 1: return False return True def solve(board: List[List[int]], row: int) -> bool: """ It creates a state space tree and calls the safe function until it receives a False Boolean and terminates that branch and backtracks to the next possible solution branch. """ if row >= len(board): """ If the row number exceeds N we have board with a successful combination and that combination is appended to the solution list and the board is printed. """ solution.append(board) printboard(board) print() return True for i in range(len(board)): """ For every row it iterates through each column to check if it is feasible to place a queen there. If all the combinations for that particular branch are successful the board is reinitialized for the next possible combination. """ if isSafe(board, row, i): board[row][i] = 1 solve(board, row + 1) board[row][i] = 0 return False def printboard(board: List[List[int]]) -> None: """ Prints the boards that have a successful combination. """ for i in range(len(board)): for j in range(len(board)): if board[i][j] == 1: print("Q", end=" ") else: print(".", end=" ") print() # n=int(input("The no. of queens")) n = 8 board = [[0 for i in range(n)] for j in range(n)] solve(board, 0) print("The total no. of solutions are :", len(solution))