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from colorama import Fore
import os

DISC_SHAPE = "o"
DISC_A = Fore.RED + DISC_SHAPE + Fore.RESET
DISC_B = Fore.BLUE + DISC_SHAPE + Fore.RESET
EMPTY = Fore.LIGHTBLACK_EX + "_" + Fore.RESET

class bord:
    def __init__(self, w, h):
        self.width = w
        self.height = h
        self.board = [[EMPTY for x in range(self.width)] for u in range(self.height)]

    def print(self):
        print("\n".join(["  ".join(self.board[y]) for y in range(len(self.board) -1, -1, -1)]))

    def outside_board(self, coords):
        return coords[0] < 0 or \
               coords[1] < 0 or \
               coords[0] > self.height - 1 or \
               coords[1] > self.width - 1

    def recursive_solve(self, coords, check_for, direction, current_length):
        new_position = (
                coords[0] + direction[0],
                coords[1] + direction[1]
                )
        if self.outside_board(new_position) or self.board[new_position[0]][new_position[1]] != check_for:
            return current_length
        else:
            return self.recursive_solve(new_position, check_for, direction, current_length + 1)

    def check_win(self, coords):
        directions = [
                ( 1,  0),
                ( 1,  1),
                ( 0,  1),
                (-1,  1),
                (-1,  0),
                (-1, -1),
                ( 0, -1),
                ( 1, -1)
                ]
        values = list()
        for direction in directions:
            values.append(self.recursive_solve(coords, self.board[coords[0]][coords[1]], direction, 0))
        joined_directions = [
                values[0] + values[4],
                values[1] + values[5],
                values[2] + values[6],
                values[3] + values[7]
                ]
        won = any(i >= 3 for i in joined_directions)
        if won:
            for i, value in enumerate(joined_directions):
                if value >= 3:
                    start_pos = (
                            coords[0] + directions[i][0] * values[i],
                            coords[1] + directions[i][1] * values[i],
                            )
                    end_pos = (
                            coords[0] + directions[i+4][0] * values[i+4],
                            coords[1] + directions[i+4][1] * values[i+4],
                            )
                    print(start_pos, end_pos)

        return won

    def drop_fisje(self, column, disc):
        for row, value in enumerate(self.board):
            if self.board[row][column] == EMPTY:
                self.board[row][column] = disc
                won = self.check_win((row, column))
                print(won)
                return

def main():
    disc_a = True
    gert = bord(11, 8)
    while True:
        gert.print()
        column = int(input("column?: ")) - 1
        os.system("clear")
        gert.drop_fisje(column, DISC_A if disc_a else DISC_B)
        disc_a = not disc_a

if __name__ == "__main__":
    main()