I am writting a program in which i have a board (3 x 3 matrix) and i have to swap the value in a particular row and column with its adjacent rows and column by logic that that if i have 0 value at [0,0] then i want to have two boards. One board with 0 value at [0,1] and [0,1]s value at [0,0] and the other board with 0 value at [1,0] and [1,0]s values at [0,0]. But after implementing the following code i have two boards with same value and i am not able to understand any explanation for these wrong values.

EDIT : Below i have two related classes and related methods for that. The problem lies with the neighbor method of the Board class. It seems when i create a board in the neighbor method it does not do what its suppose to do.

BOARD CLASS

```
public final class Board {
private final int dimen;
private final int[][] blocks;
public Board(int[][] blocks) // construct a board from an N-by-N array of blocks
// (where blocks[i][j] = block in row i, column j)
{
this.dimen = blocks.length;
this.blocks = new int[dimen][dimen];
for (int i = 0; i < dimen; ++i) {
for (int j = 0; j < dimen; ++j) {
this.blocks[i][j] = blocks[i][j];
System.out.println (this.blocks[i][j]);
}
}
...
...
public Iterable<Board> neighbors() // all neighboring boards
{
Stack<Board> neighborStack = new Stack <Board>();
int x = 0, y = 0;
outer : for (int i = 0; i < dimen; ++i){
for (int j = 0; j < dimen; ++j) {
if (this.blocks[i][j] == 0) {
x = i;
y = j;
break outer;
}
}
}
if (x == 0)
{
if (y == 0) {
int tmpBlocks1[][] = Arrays.copyOf (this.blocks, this.blocks.length );
int tmpBlocks2[][] = Arrays.copyOf (this.blocks, this.blocks.length );
tmpBlocks1[0][0] = tmpBlocks1[0][1];
tmpBlocks1[0][1] = 0;
tmpBlocks2[0][0] = tmpBlocks2[1][0];
tmpBlocks2[1][0] = 0;
Board tmpBoard1 = new Board (tmpBlocks1);
neighborStack.push (tmpBoard1);
Board tmpBoard2 = new Board (tmpBlocks2);
neighborStack.push (tmpBoard2);
}
```

SOLVER CLASS :

```
public final class Solver {
private MinPQ <SearchNode> pqOriginal;
private MinPQ <SearchNode> pqTwin;
Stack <Board> shortestBoardSequence = null;
int moves = 0;
public Solver(Board initial) // find a solution to the initial board (using the A* algorithm)
{
pqOriginal = new MinPQ<SearchNode>();
pqTwin = new MinPQ<SearchNode>();
pqOriginal.insert(new SearchNode (moves, initial, null) );
pqTwin.insert(new SearchNode (moves, initial.twin(), null) );
}
public boolean isSolvable() // is the initial board solvable?
{
SearchNode originalNode = null;
SearchNode twinNode = null;
Stack <Board> neighborBoards = null;
while (!pqOriginal.isEmpty() || !pqTwin.isEmpty()) {
originalNode = pqOriginal.delMin();
// shortestBoardSequence.push(originalNode.board);
neighborBoards = (Stack<Board>)originalNode.board.neighbors();
...
}
...
}
...
public static void main(String[] args) // solve a slider puzzle (given below)
{
// create initial board from file
In in = new In(args[0]);
int N = in.readInt();
int[][] blocks = new int[N][N];
for (int i = 0; i < N; i++)
for (int j = 0; j < N; j++)
blocks[i][j] = in.readInt();
Board initial = new Board(blocks);
// solve the puzzle
Solver solver = new Solver(initial);
// print solution to standard output
if (!solver.isSolvable()) // SEE THE ISSOLVABLE
StdOut.println("No solution possible");
..
}
```

`tmpBlocks1[0][1]`

and`tmpBlocks2[1][0]`

contain the same value.. – Rohit Jain Sep 26 '12 at 13:00