Numpy efficient way to get adiacent indices or values in matrices

Say you have a matrix A with strings in it.

[["a", "A", ""],
["A", "a", ""],
["a", "", ""]]

The objective is to find all the "squares" where there are orthogonal adjacent upper case letters and no orthogonal adjacent lower case letters. The result should be like this:

[[True, False, True],
[False, True, False],
[True, False, False]]

Now, what I have done until now was to create a dictionary adjSquares that links the cartesian indices of each square with the cartesian indices of the adiacent squares.

Every time I have to make the check described above I do the following:

np.reshape([any(isupper(A[i,j] for (i,j) in adjSquares[(row,col)])) and not any(islower(A[i,j] for (i,j) in adjSquares[(row,col)])) for row in range(3) for col in range(3)], (3,3))

Is there a way to get the same result using vectorized operations?

Here's one based on 2D convolution + masking -

# Generate "star" kernel wtih zero at center as the kernel
kernel = np.zeros((3,3),dtype=int)
kernel[:,1] = kernel = 1
kernel[1,1] = 0

# Not empty cells mask
nE = a!=''

# Mask of at least one uppercase string neighborhood
U = (np.char.upper(a)==a) & nE
upper_and_not_empty = convolve2d(U,kernel,'same')>0

# Mask of at least one lowercase string neighborhood
L = (np.char.lower(a)==a) & nE
lower_and_not_empty = convolve2d(L,kernel,'same')>0

# Let's fulfil "no orthogonal adjacent lower case letters" case
return upper_and_not_empty & ~lower_and_not_empty

Sample runs -

In : a
Out:
array([['a', 'A', ''],
['A', 'a', ''],
['a', '', '']], dtype='<U1')

Out:
array([[ True, False,  True],
[False,  True, False],
[ True, False, False]])

Now, let's test out - no orthogonal adjacent lower case letters case, as mentioned in the question by setting a[2,1] as a lowercase one -

In : a[2,1] = 'a'

In : a
Out:
array([['a', 'A', ''],
['A', 'a', ''],
['a', 'a', '']], dtype='<U1')

Out:
array([[ True, False,  True],
[False, False, False],
[False, False, False]])

What you could is that you make another array, which is lowercase of original data:

dd = np.array([["a","A",""],["A","a",""],["","",""]])
dnew = np.char.lower(dd);

And you check, whether new data equals old data:

dd == dnew

Neverthess, it does not work with the empty characters, but at least the solution is vectorized.