import java.util.*; public class NQueens { public static void main(String[] args) { giveIntro(); Scanner console = new Scanner(System.in); System.out.print("What size board do you want to use? "); int size = console.nextInt(); System.out.println(); Board b = new BoardFrame(size); solve(b); } // post: explains program to user public static void giveIntro() { System.out.println("This program solves the classic 'n-queens'"); System.out.println("problem, placing queens on a chessboard so"); System.out.println("that no two queens threaten each other."); System.out.println(); } // pre : queens have been safely placed in columns 1 through (col - 1) // post: recursively searches the board for a solution starting at col, // returning true iff such a solution occurs and storing the // solution in board if it exists public static boolean explore(Board b, int col) { if (col > b.size()) { return true; } else { for (int i = 1; i <= b.size(); i++) { if (b.safe(i, col)) { b.place(i, col); boolean result = explore(b, col + 1); if (result) { return true; } b.remove(i, col); } } } return false; } // post: searches for a solution to the n queens problem with this // board, reporting result. public static void solve(Board solution) { if (!explore(solution, 1)) System.out.println("No solution."); else { System.out.println("One solution is as follows:"); solution.print(); } } }