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
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.