I'm developing tictactoe game, and I need algorithm to check when game ends(and who win). In 3x3 game I would check each possible winsituation(there is 8 capabilities). But in 7x7(needed 4 signs in a row or collumn, or diagonal)is a lot of possible win patterns.

While a very basic approach is to look at runs in all the directions from every single cell, here are an approach then only ever checks a cell in a single "line" once. A "line" is a row, column, or diagonal that can possibly win, like in a Vegas slot machine :)
Important Edit: If the cell contains neither P1 or P2, reset counter to 0 (doh!). I omitted this trivial but required step. Otherwise "1111" would be counted as a win. The "lines" can be traversed given a starting point and row/column offset per iteration (e.g. start at (0,0) and advance (1,1) for longest diagonal from NW to SE). Diagonals with lengths less than 4 can avoid being checked entirely, of course. Happy coding. 


loop though all positions. For each position check the four fields down diagonaldownright and right (always including the field itself). Put in apropriate checks to avoid blowing up you app when you are checking fields that don't exist. 


Simple. Make 4 


If you are using a bitboard for each player, you can use bit shift operations to test a board for a win. The bitboard would have following structure:
If the player occupies a position in the game board, then the associated bit would be
With the help of a example I will try to explain: The following bitboard of one player includes beside vertical and diagonal wins a winning combination in the first row.
The steps for the horizontal check are:
The horizontal check results in a board with one bit set, this means the board includes a win and the function returns I have used a similar function to check a connect four game for a win. I saw this fascinating function in the sources to The Fhourstones Benchmark from John Tromp. 

