Пример #1
0
 def setUp(self):
     self.b = Board(9)
     self.v = View(self.b)
Пример #2
0
class ViewTest(unittest.TestCase):
    def setUp(self):
        self.b = Board(9)
        self.v = View(self.b)

    def test_init(self):
        self.assertEqual(self.v._board, self.b)
        self.assertEqual(self.v._cursor, (1, 1))

        self.assertEqual(self.v._hoshis, (
            (3, 3),
            (7, 3),
            (3, 7),
            (7, 7),
            (5, 5),
        ))

        e = str(Board.EMPTY)
        h = View.HOSHI

        self.assertEqual(self.v._array, [
            [e, e, e, e, e, e, e, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, h, e, e, e, h, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, e, e, h, e, e, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, h, e, e, e, h, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, e, e, e, e, e, e, e],
        ])

    def test_get_hoshis(self):
        self.assertEqual(self.v._get_hoshis(19), (
            (4, 4),
            (16, 4),
            (4, 16),
            (16, 16),
            (10, 10),
            (4, 10),
            (10, 4),
            (16, 10),
            (10, 16),
        ))

        self.assertEqual(self.v._get_hoshis(18), (
            (4, 4),
            (15, 4),
            (4, 15),
            (15, 15),
        ))

        self.assertEqual(self.v._get_hoshis(13), (
            (4, 4),
            (10, 4),
            (4, 10),
            (10, 10),
            (7, 7),
        ))

    def test_in_width(self):
        self.assertEqual(self.v._in_width(100), 9)
        self.assertEqual(self.v._in_width(-123), 1)
        self.assertEqual(self.v._in_width(3), 3)

    def test_in_height(self):
        self.assertEqual(self.v._in_height(100), 9)
        self.assertEqual(self.v._in_height(-123), 1)
        self.assertEqual(self.v._in_height(3), 3)

    def test_cursor_movement(self):
        self.assertEqual(self.v.cursor, (1, 1))

        self.v.cursor_up()
        self.v.cursor_left()

        self.assertEqual(self.v.cursor, (1, 1))

        self.v.cursor_right()
        self.v.cursor_right()
        self.v.cursor_down()

        self.assertEqual(self.v.cursor, (3, 2))

        self.v.cursor_up()
        self.v.cursor_left()
        self.v.cursor_down()
        self.v.cursor_down()
        self.v.cursor_down()

        self.assertEqual(self.v.cursor, (2, 4))

        for i in range(12):
            self.v.cursor_right()
            self.v.cursor_down()

        self.assertEqual(self.v.cursor, (9, 9))

    def test_str(self):
        self.assertEqual(
            str(self.v), 'X . . . . . . . .\n'
            '. . . . . . . . .\n'
            '. . + . . . + . .\n'
            '. . . . . . . . .\n'
            '. . . . + . . . .\n'
            '. . . . . . . . .\n'
            '. . + . . . + . .\n'
            '. . . . . . . . .\n'
            '. . . . . . . . .')
Пример #3
0
def main():
    # Get arguments
    parser = argparse.ArgumentParser(description='Starts a game of go in the terminal.')
    parser.add_argument('-s', '--size', type=int, default=19, help='size of board')

    args = parser.parse_args()

    if args.size < 7 or args.size > 19:
        sys.stdout.write('Board size must be between 7 and 19!\n')
        sys.exit(0)

    # Initialize board and view
    board = Board(args.size)
    view = View(board)
    err = None

    # User actions
    def move():
        """
        Makes a move at the current position of the cursor for the current
        turn.
        """
        board.move(*view.cursor)
        view.redraw()

    def undo():
        """
        Undoes the last move.
        """
        board.undo()
        view.redraw()

    def redo():
        """
        Redoes an undone move.
        """
        board.redo()
        view.redraw()

    def exit():
        """
        Exits the game.
        """
        sys.exit(0)

    # Action keymap
    KEYS = {
        'w': view.cursor_up,
        's': view.cursor_down,
        'a': view.cursor_left,
        'd': view.cursor_right,
        ' ': move,
        'u': undo,
        'r': redo,
        '\x1b': exit,
    }

    # Main loop
    while True:
        # Print board
        clear()
        sys.stdout.write('{0}\n'.format(view))
        sys.stdout.write('Black: {black} <===> White: {white}\n'.format(**board.score))
        sys.stdout.write('{0}\'s move... '.format(board.turn))

        if err:
            sys.stdout.write('\n' + err + '\n')
            err = None

        # Get action key
        c = getch()

        try:
            # Execute selected action
            KEYS[c]()
        except BoardError as be:
            # Board error (move on top of other piece, suicidal move, etc.)
            err = be.message
        except KeyError:
            # Action not found, do nothing
            pass
Пример #4
0
 def setUp(self):
     self.b = Board(9)
     self.v = View(self.b)
Пример #5
0
class ViewTest(unittest.TestCase):

    def setUp(self):
        self.b = Board(9)
        self.v = View(self.b)

    def test_init(self):
        self.assertEqual(self.v._board, self.b)
        self.assertEqual(self.v._cursor, (1, 1))

        self.assertEqual(self.v._hoshis, (
            (3, 3), (7, 3), (3, 7), (7, 7), (5, 5),
        ))

        e = str(Board.EMPTY)
        h = View.HOSHI

        self.assertEqual(self.v._array, [
            [e, e, e, e, e, e, e, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, h, e, e, e, h, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, e, e, h, e, e, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, h, e, e, e, h, e, e],
            [e, e, e, e, e, e, e, e, e],
            [e, e, e, e, e, e, e, e, e],
        ])

    def test_get_hoshis(self):
        self.assertEqual(self.v._get_hoshis(19), (
            (4, 4), (16, 4), (4, 16), (16, 16),
            (10, 10),
            (4, 10), (10, 4), (16, 10), (10, 16),
        ))

        self.assertEqual(self.v._get_hoshis(18), (
            (4, 4), (15, 4), (4, 15), (15, 15),
        ))

        self.assertEqual(self.v._get_hoshis(13), (
            (4, 4), (10, 4), (4, 10), (10, 10),
            (7, 7),
        ))

    def test_in_width(self):
        self.assertEqual(self.v._in_width(100), 9)
        self.assertEqual(self.v._in_width(-123), 1)
        self.assertEqual(self.v._in_width(3), 3)

    def test_in_height(self):
        self.assertEqual(self.v._in_height(100), 9)
        self.assertEqual(self.v._in_height(-123), 1)
        self.assertEqual(self.v._in_height(3), 3)

    def test_cursor_movement(self):
        self.assertEqual(self.v.cursor, (1, 1))

        self.v.cursor_up()
        self.v.cursor_left()

        self.assertEqual(self.v.cursor, (1, 1))

        self.v.cursor_right()
        self.v.cursor_right()
        self.v.cursor_down()

        self.assertEqual(self.v.cursor, (3, 2))

        self.v.cursor_up()
        self.v.cursor_left()
        self.v.cursor_down()
        self.v.cursor_down()
        self.v.cursor_down()

        self.assertEqual(self.v.cursor, (2, 4))

        for i in range(12):
            self.v.cursor_right()
            self.v.cursor_down()

        self.assertEqual(self.v.cursor, (9, 9))

    def test_str(self):
        self.assertEqual(
            str(self.v),
            'X . . . . . . . .\n'
            '. . . . . . . . .\n'
            '. . + . . . + . .\n'
            '. . . . . . . . .\n'
            '. . . . + . . . .\n'
            '. . . . . . . . .\n'
            '. . + . . . + . .\n'
            '. . . . . . . . .\n'
            '. . . . . . . . .'
        )
Пример #6
0
def main():
    # Get arguments
    """
    parser = argparse.ArgumentParser(description='Starts a game of go in the terminal.')
    parser.add_argument('-s', '--size', type=int, default=19, help='size of board')

    args = parser.parse_args()

    if args.size < 7 or args.size > 19:
        sys.stdout.write('Board size must be between 7 and 19!\n')
        sys.exit(0)
"""
    # Initialize board and view
    board = Board(7)
    view = View(board)
    err = None
    board_history = deque(maxlen=8)

    # User actions
    def move():
        """
        Makes a move at the current position of the cursor for the current
        turn.
        """
        print("Getting our input for x and y")
        x = input("Input x:")
        y = input("Input y:")

        view.set_coordinates(x,y)
        
        board.move(*view.cursor)
        view.redraw()

        print("Board state")
        #print(*board._state) #This is list
        
        board_state =  []

        #Creating the board state

        for item in board._state[0]:
            row = []
            for elem in item:
                #print(type(elem))
                if elem == Location('empty'):
                    row.append(0)
                elif elem == Location('black'):
                    row.append(1)
                else:
                    row.append(2)
            
            board_state.append(row)

        board_history.append(board_state)

        print(board_state)
        ctr = 0
        for item in board_history:
            print(ctr,"  ",item)
            ctr = ctr + 1
        #print("\n".join(board_history))

    def undo():
        """
        Undoes the last move.
        """
        board.undo()
        view.redraw()

    def redo():
        """
        Redoes an undone move.
        """
        board.redo()
        view.redraw()

    def exit():
        """
        Exits the game.
        """
        sys.exit(0)

    # Action keymap
    KEYS = {
        'w': view.cursor_up,
        's': view.cursor_down,
        'a': view.cursor_left,
        'd': view.cursor_right,
        ' ': move,
        'u': undo,
        'r': redo,
        '\x1b': exit,
    }

    # Main loop
    while True:
        # Print board
        #clear()
        sys.stdout.write('{0}\n'.format(view))
        sys.stdout.write('Black: {black} <===> White: {white}\n'.format(**board.score))
        sys.stdout.write('{0}\'s move... '.format(board.turn))

        if err:
            sys.stdout.write('\n' + err + '\n')
            err = None

        # Get action key
       # c = getch()

        try:
            # Execute selected action
            #KEYS[c]()
            move()
        except BoardError as be:
            # Board error (move on top of other piece, suicidal move, etc.)
            print("Illegal Move")
            #err = be.message
        except KeyError:
            # Action not found, do nothing
            pass