46

I'm working through a tutorial on GeekforGeeks website and noticed that they are checking a point in an array using board[x,y], which I've never seen before. I don't think this would work, but when I run the program, everything goes as expected.

I tried running a smaller code example using their method outlined above vs the method I'm more familiar with (board[x][y]), but when I run my code, I get TypeError: list indices must be integers or slices, not tuple

My code:

board = [[1,1,1], [1,2,2], [1,2,2]]
win = 'True'

if board[1][1] == 2:
    win = 'True by normal standards'
    print(win)
if board[1, 1] == 2:
    win = 'True by weird standards'
    print(win)

print(win)

Their code:

def row_win(board, player): 
    for x in range(len(board)): 
        win = True

        for y in range(len(board)): 
            if board[x, y] != player: 
                win = False
                continue

        if win == True: 
            return(win) 
    return(win) 

Can someone explain to me why board[x,y] works, and what exactly is happening? I've never seen this before except to create lists, and am not grasping it conceptually.

  • 1
    If you run in interactive mode (python -i), then type(board) will show you what type board is (numpy.ndarray or pandas.DataFrame). Or look at the lines that create and initialize board. – smci Aug 5 at 2:03
43

They're able to do that since they're using NumPy, which won't throw an error on that.

>>> a = np.array([[1,1,1], [1,2,2], [1,2,2]])
>>> a[1,1]
2
>>> # equivalent to
>>> a = [[1,1,1], [1,2,2], [1,2,2]]
>>> a[1][1]
2
>>> 
  • And is it the same in numpy? Or is one of the two (significantly) more performant or in any other way preferable? – lucidbrot Aug 5 at 10:04
  • 13
    @lucidbrot: a[1,1] would be more performant in numpy, as it avoids creating additional numpy array wrappers; a[1][1] has to load a, index to 1, creating a wrapper for that row, then index to 1 on that row to get the cell's value, then clean up the wrapper. a[1,1] directly loads the cell's value without creating additional wrapper objects (it does have to make a tuple on demand if the indices aren't constant, but small tuple literals are specially optimized in Python, so the cost is pretty small). – ShadowRanger Aug 5 at 14:24
10

That works because the object they are using (in this case numpy array) overloads the __getitem__ method. See this toy example:

class MyArray:
  def __init__(self, arr):
    self.arr = arr
  def __getitem__(self, t):
    return self.arr[t[0]][t[1]]

myarr = MyArray([[1,1,1], [1,2,2], [1,2,2]])
print(myarr[0,1])
7

It does not actually work in base Python (like your example). If you run your code, Python throws an exception: 'TypeError: list indices must be integers or slices, not tuple'.

The 1, 1 passed to board is interpreted as a tuple and since board should be indexed with integers or slices, this won't work.

However, if board were some type of array-like data structure and the developer had implemented support for indexing with tuples, this would work. An example of this is arrays in numpy.

  • 3
    Don't say "It does not actually work." You mean "It does not actually work in base Python, if board is a list-of-lists. – smci Aug 5 at 2:04
  • 1
    I felt that was implied, given the example under discussion, but I've updated the answer. – Grismar Aug 5 at 2:06
  • 1
    Grismar the OP is clearly unaware of numpy/pandas, and not in the habit of doing type(board) to actually see what type of object it is. You might think that's all implied for advanced users, but it sure ain't for new users. – smci Aug 5 at 2:08
  • 2
    Even the updated answer falsely implies that this won’t work without third-party libraries, whereas it clearly does: Code as trivial as x = {}; x[1, 1] = 42 works as expected. Or, more to the point, nothing forbids somebody to implement a 2D array class in base Python with very little code. – Konrad Rudolph Aug 5 at 15:35
  • @Konrad Rudolph - the example you're giving is a dictionary that would be indexed with a tuple. That's not just a horrible anti-pattern, but also clearly not what the OP is asking about. I agreed to a point with what smci was saying - it may have been unclear that I meant base python; many libraries actually implement arrays with multi-dimensional indices. However, the example you provide shows that doing so is not at all trivial and certainly not base Python. Finally, if a required solution would be best realised with a dict indexed with tuples, that's perfectly in line with my answer. – Grismar Aug 5 at 23:48
4

The board[x, y] syntax is probably being applied onto a numpy array, which accepts this syntax in order to implement row/column indexed slicing operations. Take a look at these examples:

>>> x = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]])  # creates 2D array
>>> x
array([[1, 2, 3],
       [4, 5, 6],
       [7, 8, 9]])

>>> x[1]  # get second row (remember, index starts at 0)
array([4, 5, 6])

>>> x[:, 2]  # get third column
array([3, 6, 9])

>>> x[1, 2]  # get element on second row, third column
6

>>> x[1][2]  # same as before but with non-broadcasting syntax (i.e. works for lists as you are used to)
6

>>> x[1, 0:2]  # get first two elements of second row  
array([4, 5])

>>> x[0:2, 0:2]  # subsets the original array, "extracting" values from the first two columns/rows only
array([[1, 2],
       [4, 5]])

Of course, writing my_list[x, y] throws an error because x, y is actually a tuple (x, y), and regular lists can't work with tuples as an indexing value.

  • Thank you! I'm new to NumPy, so this is extremely useful – Broski-AC Aug 5 at 2:00
3

Because their board is either numpy.ndarray or some type that wraps it, e.g. pandas.DataFrame

You should have done type(board). Or show us the lines that create and initialize board.

Also, when you say "when I run the program, everything goes as expected", you should run in interactive mode (python -i), then you could run queries like type(board)

0

In python, [] is __getitem__, which can be easily rewritten.

And, 1, 2 in python will give us a tuple. yes, we don't really need () to create a non empty tuple.

So, Numpy can do this very easily, even I can.

In [1]: 1, 1
Out[1]: (1, 1)

In [2]: type(_)
Out[2]: tuple

In [3]: a = {(1, 1): 3}

In [4]: a[1, 1]
Out[4]: 3

In [5]: a[(1, 1)]
Out[5]: 3

In [6]: class NumpyArray(list):
   ...:     def __getitem__(self, index):
   ...:         if isinstance(index, tuple) and len(index) == 2:
   ...:             return self[index[0]][index[1]]
   ...:         return super().__getitem__(index)
   ...:

In [7]: b = NumpyArray([[0, 1], [2, 3]])

In [8]: b[1, 1]
Out[8]: 3

You can use below code to try on your own iPython.

class NumpyArray(list):
    def __getitem__(self, index):
        if isinstance(index, tuple) and len(index) == 2:
            return self[index[0]][index[1]]
        return super().__getitem__(index)

b = NumpyArray([[0, 1], [2, 3]])
b[1, 1]

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