Since the state space for tic-tac-toe is so small, you *could* store all the possible end game positions, and use rotations, but I think you're overthinking it a little.

Instead of storing a 3x3 array for the game board, use a 7x7 array, with the inner-most 3x3 for the game board. You should have at least three values that each square can represent -- something like `PLAYER_1`

, `PLAYER_2`

and `NONE`

. Initially, all values should be set to `NONE`

. Then, after every player's move, check all around the square that was chosen for for 3-in-a-row; 2 above, 2 below, 2 left, 2 right, 2 upper left, 2 lower right, 2 upper right, 2 lower left.

Why the 7x7 array? With a 7x7 array, you can safely search in all directions from any square in the 3x3 area without requiring `if`

statements to see if you're walking off the edge of the array. The board will look like this:

0 1 2 3 4 5 6
0 * * * * * * *
1 * * * * * * *
2 * * * * * * *
3 * * * * * * *
4 * * * * * * *
5 * * * * * * *
6 * * * * * * *

For example, if the first player moves to, 0,0 on the tic-tac-toe board, that is the same as moving to 2,2 on the 7x7 board. When the move is made, you run a check all around the 2,2 square to see if there are three squares in a row that have the same value

- above: 2,0 and 2,1 and 2,2
- below: 2,2 and 2,3 and 2,4
- left: 0,2 and 1,2 and 2,2
- right: 2,2, and 2,3 and 2,4
- upper-left: 0,0 and 1,1 and 2,2
- upper-right: 2,2 and 3,1 and 4,0
- lower-left: 0,4 and 1,3 and 2,2
- lower-right: 2,2 and 3,3 and 4,4

Since the band of squares around the 3x3 board will always have the value `NONE`

, they can never trigger a winning condition.

If any of those all match the same player value (e.g. PLAYER_1 for the first player), then the game is over with a win. Else, if all squares are taken, the game is a draw.

I've used this for other similar games in the past and it works quite well.