# Code Golf: Tic Tac Toe [closed]

Post your shortest code, by character count, to check if a player has won, and if so, which.

Assume you have an integer array in a variable `b` (board), which holds the Tic Tac Toe board, and the moves of the players where:

• 0 = nothing set
• 1 = player 1 (X)
• 2 = player 2 (O)

So, given the array `b = [ 1, 2, 1, 0, 1, 2, 1, 0, 2 ]` would represent the board

``````X|O|X
-+-+-
|X|O
-+-+-
X| |O
``````

For that situation, your code should output `1` to indicate player 1 has won. If no-one has won you can output `0` or `false`.

My own (Ruby) solution will be up soon.

Edit: Sorry, forgot to mark it as community wiki. You can assume the input is well formed and does not have to be error checked.

Update: Please post your solution in the form of a function. Most people have done this already, but some haven't, which isn't entirely fair. The board is supplied to your function as the parameter. The result should be returned by the function. The function can have a name of your choosing.

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This is funny. About a week ago I started a little code golf round on another forum, and it was about tic-tac-toe win detection. I put the code up with a test suite at github.com/matchu/gofflesby-tictactoe –  Matchu Feb 12 '10 at 0:53

## closed as off topic by Flexo♦Jun 16 at 10:44

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C#, 148 I think.

`````` int[] m={0,1,3,1,6,1,0,3,1,3,2,3,0,4,2,2};int i,s,w,r=0,o;for(i=0;i<16;i+=2){s=m[i];w=m[i+1];o=v[s];if((o==v[w+s])&&(o==v[s+(w*2)])){r=o;}}return r;
``````
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# Ruby, 149 characters

``````def s(b)(0..8).to_a+[0,3,6,1,4,7,2,5,8,0,4,8,2,4,6].each_slice(3){|m|if b.values_at(*m).uniq.length<2&&b[m[0]]!=0;return b[m[0]];end}return false;end
``````

It's a reasonably straightforward solution, I'm sure I'll be able to reduce it some more. Here is a readable version:

``````def someone_won(b)
helper = (0..8).to_a + [ 0, 3, 6, 1, 4, 7, 2, 5, 8, 0, 4, 8, 2, 4, 6]
helper.each_slice(3) { |m|
if b.values_at(*m).uniq.length < 2 && b[m[0]] != 0
return b[m[0]]
end
}

return false
end
``````
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LinQ 236

Could probably get less in C# without the function declaration ;)

``````Function P(ByVal b())
Dim s() = "012.048.036.147.258.345.678".Split(".")
If (From x In s Where b(Val(x(0))) & b(Val(x(1))) & b(Val(x(2))) = "111").Any Then Return 1
If (From x In s Where b(Val(x(0))) & b(Val(x(1))) & b(Val(x(2))) = "222").Any Then Return 2
Return 0
End Function
``````
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## Java, 155 chars

After much toil on my first code golf, I was able to pare down the function to 155 chars (Curse you array brackets!). With some math tricks I was able to generalize the three-cell-check for horizontals, verticals, and diagonals. Also, I independently discovered what I see Eric Pi also noted, about testing triplet equivalence with bitwise ands. My method:

``````int i=-1,j,w=0;int[]a={0,0,2,0,9,3,3,1,3,1,1,1,1,3,2,4};while(++i<4)for(j=a[i];j<a[i+4];j+=a[i+8])if((g[j]&g[j+a[i+12]]&g[j+2*a[i+12]])>0)w=g[j];return w;
``````

Also, I made a class to generate all valid boards for testing (not quite as simple as it sounds). For those of you interested in trying to best 155 in Java, here's my testing class:

``````public class TicTacToe
{
public static void main(String[] args)
{
int[][] boards = generateBoards();

for(int i = 0; i < boards.length; ++i)
{
int winner = getWinner(boards[i]);

System.out.println(winner + "  " + boards[i][0] + " " + boards[i][1] + " " + boards[i][2]);
System.out.println(        "   " + boards[i][3] + " " + boards[i][4] + " " + boards[i][5]);
System.out.println(        "   " + boards[i][6] + " " + boards[i][7] + " " + boards[i][8]);
System.out.println();
}
}

public static int getWinner(int[] g)
{
int i=-1,j,w=0;int[]a={0,0,2,0,9,3,3,1,3,1,1,1,1,3,2,4};while(++i<4)for(j=a[i];j<a[i+4];j+=a[i+8])if((g[j]&g[j+a[i+12]]&g[j+2*a[i+12]])>0)w=g[j];return w;
}

public static boolean isValid(int[] board)
{
// O = 0 : X = 1
int counts[] = new int[2];

// Count the number of Xs and Os
for(int i = 0; i < 9; ++i)
if(board[i] > 0)
++counts[board[i] - 1];

// Make sure the counts make sense. If not return "no"
if(!(counts[1] == counts[0] || counts[1] == counts[0] + 1))
return false;

// Now we're going to total the number of horizontal/vertical wins
int wins[] = new int[2];

// Check rows
if(board[0] != 0 && board[0] == board[1] && board[1] == board[2]) ++wins[board[0] - 1];
if(board[3] != 0 && board[3] == board[4] && board[4] == board[5]) ++wins[board[3] - 1];
if(board[6] != 0 && board[6] == board[7] && board[7] == board[8]) ++wins[board[6] - 1];

// Check columns
if(board[0] != 0 && board[0] == board[3] && board[3] == board[6]) ++wins[board[0] - 1];
if(board[1] != 0 && board[1] == board[4] && board[4] == board[7]) ++wins[board[1] - 1];
if(board[2] != 0 && board[2] == board[5] && board[5] == board[8]) ++wins[board[2] - 1];

// Make sure the win counts make sense
if(wins[0] > 1 && wins[1] > 1)
return false;

// Hmmmm... I guess it's a valid board
return true;
}

public static int[][] generateBoards()
{
int boardSize = 9;
int permutationCount = (int)Math.pow(4, 9);
int[][] boards = new int[permutationCount][boardSize];
int actualIndex = 0;

for(int i = 0; i < permutationCount; ++i)
{
boolean isUnique = true;

for(int j = 0; j < boardSize; ++j)
{
int x = (i >>> j) & 3;

if(x == 3)
isUnique = false;

boards[actualIndex][j] = x;
}

if(isUnique && isValid(boards[actualIndex]))
++actualIndex;
}

return Arrays.copyOf(boards, actualIndex);
}
}
``````

Not bad I suppose for simple java without any exotic function calls. Enjoy!

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## Common Lisp, 171 characters

Golf mode:

``````(defun x(b)(find-if-not 'null(mapcar(lambda(r)(let((v(mapcar(lambda(c)(elt b c))r)))(if(apply '= v)(car v))))'((0 1 2)(3 4 5)(6 7 8)(0 3 6)(1 4 7)(2 5 8)(0 4 8)(2 4 6)))))
``````

``````(defun ttt-winner (board)