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I was trying to program the game called triple triad on Python, but I have a problem with the output of the board, it has to be like this every square, where each number represents a cardinal point,there are 9 squares, three for every line.

| 1 | 1 | 9 |


| 4 | 1 | 2 |

I thought doing a list for every line and start the board with numbers for every cardinal point, for example, "0" if it is north or something like that, so when I have to replace with the numbers of the card, I know exactly where to put every cardinal point, Any suggestions?

Thanks in advance

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4 Answers 4

up vote 1 down vote accepted

Here is a simple way to get the format you are looking for:

def format_row(row):
    return '|' + '|'.join('{0:^3s}'.format(x) for x in row) + '|'

def format_board(board):
    # for a single list with 9 elements uncomment the following line:
    # return '\n\n'.join(format_row(row) for row in zip(*[iter(board)]*3))
    # for a 3x3 list:
    return '\n\n'.join(format_row(row) for row in board)


>>> print format_board([['1', '1', '9'], ['2@3', '1*6', '7*2'], ['4', '1', '2']])
| 1 | 1 | 9 |


| 4 | 1 | 2 |
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This works perfect, but ¿Do you know hot to print a separator line, every three rows? As I have 9 lists in a matrix and every "box" is like the one you printed,and after that it's necessary a line. –  María Jul 15 '12 at 23:58
Appreciate any help ;) –  María Jul 15 '12 at 23:59
@Maria - Either add a \n to the end of the return in format_board(), or you could do something like print '\n'.join(format_board(box) for box in matrix). –  Andrew Clark Jul 16 '12 at 19:31

You can represent this board with three lists:

["1", "1", "9"]
["2@3", "1*6", "7*2"]
["4", "1", "2"]

Or together in a list:

board = [["1", "1", "9"], ["2@3", "1*6", "7*2"], ["4", "1", "2"]]

You now need to write two functions:

  • A function that takes this list and prints your board with | lines in between.
  • A function that computes the above list and determines the correct values for each cell in the board.

You don't need to deal with numbers or anything else, it's all a matter of doing these two things.

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Or even with a single list with 9 elements. –  heltonbiker Jun 5 '12 at 19:00
@heltonbiker: Yes, although that can make the code for displaying the board a bit longer as you need to determine where a line ends (by splitting in groups of three or by doing some counting logic). –  Simeon Visser Jun 5 '12 at 19:02
A good trick for that is the module (%) operator. –  heltonbiker Jun 5 '12 at 19:03

I looked at the cards for Triple Triad (I remember that game now, fun stuff), and I don't understand what the @ or the * mean on your board. If you're trying to represent it, then here is some code that will display the numbers:

def cardString(card):
    if (card):
        return '{west},{north},{south},{east}'.format(**card)
        return '-,-,-,-'

def printBoard(board):
    for row in board:
        print('{}|{}|{}'.format(cardString(row[0]), cardString(row[1]), cardString(row[2])))

cardMoogle = {'north':9, 'east':3, 'west':2, 'south':9}
cardNull = {'north':'-', 'east':'-', 'west':'-', 'south':'-'}
# I'm sure there's a better way to do this list, but I'm new to Python.
board = [cardNull]*3
board = [list(board), list(board), list(board)]
board[0][0] = cardMoogle


Is that at all useful?

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Yes, thanks for the quick answer, the * and @ represents the id of the player.:) –  María Jun 5 '12 at 19:48

This might be overkill, but the following Matrix class can automatically create a representation of itself:

class Matrix:

    def __init__(self, rows, columns):
        self.__data = tuple([None] * columns for row in range(rows))
        self.__rows, self.__columns = rows, columns

    def __repr__(self):
        table = Matrix(self.rows, self.columns)
        rows, columns = [0] * self.rows, [0] * self.columns
        for (row, column), value in self:
            lines = tuple(repr(value).replace('\r\n', '\n')
                          .replace('\r', '\n').split('\n'))
            table[row, column] = self.__yield(lines)
            rows[row] = max(rows[row], len(lines))
            columns[column] = max(columns[column], max(map(len, lines)))
        return ('\n' + '+'.join('-' * column for column in columns) + '\n') \
               .join('\n'.join('|'.join(next(table[row, column])
               .ljust(columns[column]) for column in range(table.columns))
               for line in range(rows[row])) for row in range(table.rows))

    def __len__(self):
        return self.rows * self.columns

    def __getitem__(self, key):
        row, column = key
        return self.__data[row][column]

    def __setitem__(self, key, value):
        row, column = key
        self.__data[row][column] = value

    def __delitem__(self, key):
        self[key] = None

    def __iter__(self):
        for row in range(self.rows):
            for column in range(self.columns):
                key = row, column
                yield key, self[key]

    def __reversed__(self):
        for row in range(self.rows - 1, -1, -1):
            for column in range(self.columns - 1, -1, -1):
                key = row, column
                yield key, self[key]

    def __contains__(self, item):
        for row in self.__data:
            if item in row:
                return True
        return False

    def freeze(self):
        self.__data = tuple(map(tuple, self.__data))

    def thaw(self):
        self.__data = tuple(map(list, self.__data))

    def rows(self):
        return self.__rows

    def columns(self):
        return self.__columns

    def __yield(lines):
        for line in lines:
            yield line
        while True:
            yield ''

If you need a way to set, add, or multiply matrices, these functions act as your operational supplements:

def set_matrix(matrix, array):
    for y, row in enumerate(array):
        for x, item in enumerate(row):
            matrix[y, x] = item

def add_matrix(a, b):
    assert a.rows == b.rows and a.columns == b.columns
    c = Matrix(a.rows, a.columns)
    for key, _ in c:
        c[key] = a[key] + b[key]
    return c

def mul_matrix(a, b):
    assert a.columns == b.rows
    c = Matrix(a.rows, b.columns)
    for key, _ in c:
        row, column = key
        c[key] = sum(j * k for j, k in
                     zip((a[row, i] for i in range(a.columns)),
                         (b[i, column] for i in range(b.rows))))
    return c
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