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NQueenProblem.java
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NQueenProblem.java
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package backtracks;
import java.util.ArrayList;
import java.util.List;
public class NQueenProblem {
/*
* Given a chess board of size N x N, determine how many ways N queens can be placed on this board
* so that no two queens attack each other.
*
*
* A queen can move horizontally, vertically and diagonally on a chess board.
* One queen can be attacked by another queen if it is present in the same row, column, or diagonal
* of that queen.
*
* Step 1: Place a queen in the first column of the first row
* Step 2: Now place a queen in first such column of 2nd row where placement is permissible i.e.
* current queen is not being attacked by any queen already on board. If no such column is found,
* backtrack to the previous row and try to place the queen in next column of that row.
* Step 3: Continue this until we reach the last row of the board.
* Step 4: When a queen is placed in the last row, that is a solution.
* After finding a solution, backtrack to the previous row to find the next solution.
* Try to find another column in the previous row where placement is permissible.
*
*
* Runtime Complexity:
* Factorial, O(n!).
*
* Memory Complexity:
* Exponential
* */
private static boolean isValidMove(int proposed_row,
int proposed_col,
List<Integer> solution) {
for (int i = 0; i < proposed_row; ++i) {
int old_row = i;
int old_col = solution.get(i);
int diagonal_offset = proposed_row - old_row;
if (old_col == proposed_col ||
old_col == proposed_col - diagonal_offset ||
old_col == proposed_col + diagonal_offset) {
return false;
}
}
return true;
}
protected static void solveNQueensRec(int n,
List<Integer> solution,
int row,
List<List<Integer>> results) {
if (row == n) {
results.add(new ArrayList<>(solution));
return;
}
for (int i = 0; i < n; ++i) {
if (isValidMove(row, i, solution)) {
solution.set(row, i);
solveNQueensRec(n, solution, row + 1, results);
}
}
}
private static void solveNQueens(int n,
List<List<Integer>> results) {
List<Integer> solution = new ArrayList<>(n);
for (int i = 0; i < n; ++i) {
solution.add(-1);
}
solveNQueensRec(n, solution, 0, results);
}
public static void main(String[] args) {
List<List<Integer>> results = new ArrayList<>();
solveNQueens(8, results);
System.out.println("Total Solutions Count: " + results.size());
for (List<Integer> result : results) {
for (Integer r : result) {
System.out.print(r + " ");
}
System.out.println();
}
System.out.println("Total Solutions Count = " + results.size());
}
}