# Tic Tac Toe C++ algorithm debugging help

Please help me understand why this isn't working. I don't know if there is a bug in my code, or whether my algorithm is fundamentally logically flawed.

My algorithm is based on minimax, but I've forgone a heuristic evaluation function for a more simple technique. Because of the simplicity of plain 3x3 tic tac toe, I just want to calculate all possible game outcomes for each potential move, and select the one with the highest 'score'. I create a 'top level' vector of valid moves as well as a matching sized vector for their corresponding 'scores' -i.e. for every possible outcome subsequent to that move: ++ for a win and -- for a loss.

However my vector of move scores is getting strange non-symmetrical values. Although even if the code worked, logically is it possible that a move which is calculated to lead to the most wins and least losses, would be blind to a simple tactic such as a fork? My instincts say yes, but I haven't worked out the math in detail.

``````char board [9] = { '.','.','.','.','.','.','.','.','.' };

int com_turn(int turn)
{
char player=COM; // keeps track of current player

cout<<"Computer turn. \n";

vector<int> moves = get_valid_moves(board); // top level move list
vector<int> m_scores (moves.size(), 0);  // top level move scores

for (int m=0; m < moves.size(); m++) // eval each top level move
{
board[moves[m]] = player; // do move

evaluate(board, turn, &m_scores[m], player);
cout<< m_scores[m] <<' '; // for debugging

board[moves[m]]='.'; // undo move
}

int bestmove;
for (int i=0; i < moves.size(); i++) // find best score
{
bestmove = max(bestmove, m_scores[i]);
}
for (int i=0; i < moves.size(); i++) // match to best move
{
if (bestmove == m_scores[i])
{
bestmove = moves[i];
break;
}
}

board[bestmove]=COM; // finally make com move
print_board();
}

vector<int> get_valid_moves(char *board)
{
vector<int> vmoves;
for (int i=0; i < 9; i++)
{
if (board[i]=='.') vmoves.push_back(i);
}
return vmoves;
}

void evaluate(char *board, int turn, int *mscore, char player)
{
if (check_win(board))
{
(player==HUMAN)? *mscore -= 1: *mscore += 1;
return;
}
if (turn > 9) return;

vector<int> child_moves = get_valid_moves(board);
if (child_moves.size() < 1) return;

(player==COM)? player=HUMAN: player=COM; // switch player

for (int m=0; m < child_moves.size(); m++)
{
board[child_moves[m]] = player; // do move

evaluate(board, ++turn, mscore, player);

board[child_moves[m]]='.'; // undo move
}
}
``````
-
`*mscore -= 1: *mscore += 1;` -- should replace that `:` with a `;`. :) –  Xeo Jun 5 '11 at 4:27
@Xeo no that's not the problem the ´:´ is part of the trinary´?:´ operator. Don't hate on it, it's my favorite operator. –  PeterT Jun 5 '11 at 4:31
@Peter: Oh my god, you're right... @oringe, please replace that with a simple if statement, it might confuse others aswell! –  Xeo Jun 5 '11 at 4:33
Or at least put the entire ternary expression on one line... (if it doesn't fit, that's the indicator to move to more boring `if {} else {}` :) –  sarnold Jun 5 '11 at 4:40
The only way to win is not to play –  Nemo Jun 5 '11 at 5:05

I think you'll see where the problem is if you make evaluate return the score rather than using return-by-reference.

Evaluate should be minimaxing, but right now I think it's doing some weird sum of the leaf nodes because of the side-effect of additions and subtractions.

Why summing up the scores is not correct

Suppose I have the board:

``````. . O
. . .
. X X
``````

Then O only has one move, (block), because X's next move will win if O doesn't make it. However, there are lots of game paths that start at O making other moves, with O winning, like:

``````O2 O1 O
.  .  X1
.  X  X
``````

Where the number indicates which move came first.

So you see, just getting the sum isn't going to give you the right answer.

The reason I recommend passing the values up the tree is that that forces you to write out what the score at a node is as a function of the children. In your code right now the function is the sum, in minimax it's either min or max, depending on the player's turn.

-
My eval algorithm is not a minimax. It is designed to explore all the children of each top level move vector and accumulate a sum score based on the number of win/loss outcomes. At each node it checks for a win and +/- 1 depending on who won. If no win it continues down the tree. I'm not sure what you mean by addition side-effects? Also I don't see how passing values back up the tree (messy) is better than just passing a single pointer down? thanks for your help, –  Robert Carter Mills Jun 5 '11 at 8:56
See edit to clarify using the sum is never going to give you a "good" computer player. –  trutheality Jun 5 '11 at 17:38
I see. My algorithm is fundamentally logically incorrect. Thanks again for your help! I guess my code will be a good example of how NOT to solve tic tac toe. :\ –  Robert Carter Mills Jun 6 '11 at 2:41