Ejemplo n.º 1
0
 def test_move_left_false(self):
     """
     Tests that the function returns false since no tiles can and were not moved
     """
     board = [[2, 4, 8, 16], [16, 8, 4, 2], [32, 64, 128, 256],
              [256, 128, 64, 32]]
     expected_board = [[2, 4, 8, 16], [16, 8, 4, 2], [32, 64, 128, 256],
                       [256, 128, 64, 32]]
     bool = move_left(board)
     self.assertEqual(board, expected_board)
     self.assertFalse(bool)
Ejemplo n.º 2
0
 def test_move_left_from_right(self):
     """
     All the values from the rightmost two columns should fill columns 0 and 1, and their original positions should now have 0
     Return value should be true
     """
     board = [[0, 0, 32, 16], [0, 0, 16, 64], [0, 0, 4, 2], [0, 0, 8, 128]]
     expected_board = [[32, 16, 0, 0], [16, 64, 0, 0], [4, 2, 0, 0],
                       [8, 128, 0, 0]]
     bool = move_left(board)
     self.assertEqual(board, expected_board)
     self.assertTrue(bool)
Ejemplo n.º 3
0
 def test_move_left_merge(self):
     """
     Tests that the tiles that can be merged, adjacent neighbors with same value, are merged
     Return value should be true
     """
     board = [[2, 2, 8, 8], [4, 4, 16, 16], [32, 32, 128, 128],
              [64, 64, 256, 256]]
     expected_board = [[4, 16, 0, 0], [8, 32, 0, 0], [64, 256, 0, 0],
                       [128, 512, 0, 0]]
     bool = move_left(board)
     self.assertEqual(board, expected_board)
     self.assertTrue(bool)
Ejemplo n.º 4
0
def generate_children(board, prob, type):
    #Prune nodes with probability less than 0.1%
    #if prob < 0.1:
    #	return [], [], [], -1
    children = []
    moves = []
    probs = []
    child_type = -1
    #Generate all possible children, that is all moves possible.
    if type == NODE_TYPE_PLAYER:
        child_type = NODE_TYPE_RANDOM
        t1 = [i[:] for i in board]
        game_logic.move_up(t1)
        if game_logic.check_board(board, t1) == 1:
            children.append(t1)
            moves.append(0)
            probs.append(0.25)

        t2 = [i[:] for i in board]
        game_logic.move_right(t2)
        if game_logic.check_board(board, t2) == 1:
            children.append(t2)
            moves.append(1)
            probs.append(0.25)

        t3 = [i[:] for i in board]
        game_logic.move_down(t3)
        if game_logic.check_board(board, t3) == 1:
            children.append(t3)
            moves.append(2)
            probs.append(0.25)

        t4 = [i[:] for i in board]
        game_logic.move_left(t4)
        if game_logic.check_board(board, t4) == 1:
            children.append(t4)
            moves.append(3)
            probs.append(0.25)

    else:
        #Generate all possible children made by the computer
        child_type = NODE_TYPE_PLAYER
        zeroes = 0
        for i in board:
            zeroes += i.count(0)
        for y in range(len(board)):
            for x in range(len(board[0])):

                if (board[y][x] == 0):
                    t1 = [i[:] for i in board]
                    t2 = [i[:] for i in board]

                    t1[y][x] = 1
                    t2[y][x] = 2

                    children.append(t1)
                    probs.append(0.9 / float(zeroes))
                    moves.append(-1)
                    children.append(t2)
                    probs.append(0.1 / float(zeroes))
                    moves.append(-1)
    return children, probs, moves, child_type
Ejemplo n.º 5
0
def main(stdscr):

    init_curses()

    # centering
    height, width = stdscr.getmaxyx()

    offset_x = int(width // 2) - int(BOARD_WIDTH / 2)
    offset_y = int(height // 2) - int(BOARD_HEIGHT / 2)

    message_y = offset_y + BOARD_HEIGHT + 1

    score_y = offset_y - 1

    exit_message_x = int(width // 2) - int(len(EXIT_MESSAGE) // 2)
    end_message_x = int(width // 2) - int(len(END_MESSAGE) // 2)
    won_message_x = int(width // 2) - int(len(WON_MESSAGE) // 2)
    lost_message_x = int(width // 2) - int(len(LOST_MESSAGE) // 2)

    board = initialize_board()
    paint_board(stdscr, board, offset_y, offset_x)

    while True:

        game_over, game_won, score = is_game_over(board)

        if game_won:
            stdscr.addstr(message_y, won_message_x, WON_MESSAGE)
            stdscr.addstr(message_y + 2, end_message_x, END_MESSAGE)
            while True:
                c = stdscr.getch()
                if c == ord('q'):
                    return

        if game_over:
            stdscr.addstr(message_y, lost_message_x, LOST_MESSAGE)
            stdscr.addstr(message_y + 2, end_message_x, END_MESSAGE)
            while True:
                c = stdscr.getch()
                if c == ord('q'):
                    return

        stdscr.addstr(score_y, offset_x, f"Current Score: {score}")

        c = stdscr.getch()
        moved_tiles = False

        if c == curses.KEY_UP:
            moved_tiles = move_up(board)
        elif c == curses.KEY_DOWN:
            moved_tiles = move_down(board)
        elif c == curses.KEY_LEFT:
            moved_tiles = move_left(board)
        elif c == curses.KEY_RIGHT:
            moved_tiles = move_right(board)
        elif c == ord('q'):
            stdscr.addstr(message_y, exit_message_x, EXIT_MESSAGE)
            if stdscr.getch() == ord('y'):
                return
            stdscr.addstr(message_y, exit_message_x, " " * len(EXIT_MESSAGE))

        if moved_tiles:
            add_random_tile(board)
            paint_board(stdscr, board, offset_y, offset_x)