First of all, what you describe is actually a 3 dimensional matrix since each 'cell' also has a dimension whose `kth`

element of the `jth`

column of the `ith`

row could be accessed via `matrix[i][j][k]`

.

Regardless, if you'd like to preallocate a 2X2 matrix with every cell initialized to an empty list, this function will do it for you:

```
def alloc_matrix2d(W, H):
""" Pre-allocate a 2D matrix of empty lists. """
return [ [ [] for i in range(W) ] for j in range(H) ]
```

However you might think it's not working because I noticed that you said that you would like to have a 2X2 matrix like this:

```
[
[
['A','B'], ['C']
],
[
['d'], ['e','f','f']
]
]
```

and be able to use "traditional matrix access operations" to do this to it:

```
(Matrix[2][2]).extend('d')
```

Problem is that won't work even for the matrix shown and still wouldn't for one preallocated to 2X2 since both the row and column dimensions are out of range in either case. In Python all sequences are indexed from zero, so valid indices for a matrix with two rows of two elements each are `[0][0]`

, `[0][1]`

, `[1][0]`

, and `[1][1]`

(ignoring possible negative indices which have a special meaning in Python). So using `Matrix[2][2]`

is an attempt to access the **third** column of the **third** row of the matrix which don't exist and wouldn't even in a preallocated one with dimensions of 2X2.

Everything would be fine if you changed that statement to something like this using one of the valid pairs of index values (and with unnecessary parentheses removed):

```
Matrix[1][1].extend('d')
```

since it would **not** raise an `IndexError`

and instead would result in the 2X2 matrix becoming:

```
[
[
['A', 'B'], ['C']
],
[
['d'], ['e', 'f', 'f', 'd']
]
]
```

**Bonus Utility**
You didn't ask for one, but here's a handy function I wrote to help printing out arbitrarily sized 2D matrices of any type (represented as nested `lists`

):

```
def repr_matrix2d(name, matrix):
lines = ['{} = ['.format(name)]
rows = []
for row in range(len(matrix)):
itemreprs = [repr(matrix[row][col]) for col in range(len(matrix[row]))]
rows.append('\n [\n {}\n ]'.format(', '.join(itemreprs)))
lines.append('{}\n]'.format(','.join(rows)))
return ''.join(lines)
```

Hope this helps.