A typical algo for tic-tac-toe should look like this:

Board : A nine-element vector representing the board. We store 2(indicating
Blank), 3 (indicating X), or 5 (indicating O).
Turn : An integer indicating which move of the game about to be played.
1st move will be indicated by 1, last by 9.

The Algorithm

The main algorithm uses three functions.

Make2 : returns 5 if the center square of the board is blank i.e. if board[5]=2. Otherwise, this function returns any non-corner square
(2,4,6 or 8).

Posswin(p) : returns 0 if player p can’t win on his next move; otherwise it returns the number of square that constitutes a winning move. This function will enable program both to win and to block opponents win. This function operates by checking each of the rows, columns and diagonals. By multiplying the values of its square together for an entire row (or column or diagonal), the possible situation of win can be checked. If the product be 18 (3 x 3 x 2), then X can win. If the product is 50 (5 x 5 x 2), then O can win. If a winning row (column or diagonal) is found, the blank square in it can be deter mined and the number of that square is returned by this function.

Go (n): makes a move in square n. this procedure sets board [n] to 3 if Turn is odd, or 5 if Turn is even. It also increments turn by one.

The algorithm has a built-in strategy for each move. It makes the odd numbered
move if it plays X, the even-numbered move if it plays O.

```
Turn =1 Go(1) (upper left corner).
Turn =2 If Board[5] is blank, Go(5), else Go(1).
Turn =3 If Board[9] is blank, Go(9), else Go(3).
Turn =4 If Posswin(X) is not 0, then Go(Posswin(X)) i.e. [ block opponent’s win], else Go(Make2).
Turn =5 if Posswin(X) is not 0 then Go(Posswin(X)) [i.e. win], else if Posswin(O) is not 0, then Go(Posswin(O)) [i.e. block win], else if Board[7] is blank, then Go(7), else Go(3). [to explore other possibility if there be any ].
Turn =6 If Posswin(O) is not 0 then Go(Posswin(O)), else if Posswin(X) is not 0, then Go(Posswin(X)), else Go(Make2).
Turn =7 If Posswin(X) is not 0 then Go(Posswin(X)), else if Posswin(X) is not 0, then Go(Posswin(O)) else go anywhere that is blank.
Turn =8 if Posswin(O) is not 0 then Go(Posswin(O)), else if Posswin(X) is not 0, then Go(Posswin(X)), else go anywhere that is blank.
Turn =9 Same as Turn=7.
```

I have used it. Let me know how you guys feel.