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I have two index arrays and I want to return all the indices in between, like a slice function, manually it would look like this:

ind1 = np.array([2,6])
ind2 = np.array([2,3])

final = np.array([[2,2,2], [4,5,6]])

Since the axis along which to slice is not fixed, I came up with this:

def index_slice(ind1,ind2):
    return np.indices( 1 + ind1 - ind2 ) + ind2[:,np.newaxis,np.newaxis]

final = index_slice(ind1,ind2)

However, this relies on 1 + ind1 > ind2 and it includes the last index as well (not pythonic). Would anyone know of a function that does this, or a cleaner implementation?
Thank you in advance. Diego

P.S. To give some background of where this idea came from. I am considering submatrices of a matrix, and I want to have access to them from the indices in two corners. Due to the nature of the problem, the given corners don't always have the same orientation as you can see in @pelson's answer.

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Just a quick note: I noticed you haven't accepted any of the answers to your previous questions, although some seem to be quite satisfactory. It would be nice (but by no means required) if you would accept answers that solved your problem. Thanks! –  phihag Jul 30 '12 at 21:31
    
So for each member of ind1 and ind2 you want a row in final containing the interpolated indices? Will ind1 and ind2 always be two values long? Also, like phihag says, it will encourage people to answer your future questions if you accept answers to previous questions. –  Sam Mussmann Jul 30 '12 at 21:34
    
Thank you for the note. While I was trying to add some comments, I hadn't realized to mark a correct answer, so yeah... that's much better. –  Diego Jul 31 '12 at 2:41
    
As I thought about ind1 and ind2, they can be two indices in any ND-array, and final should fill up the matrix between them... like in pelson's answer. –  Diego Jul 31 '12 at 2:47
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1 Answer

up vote 0 down vote accepted

I don't have it in a one liner, but something like the following will reproduce the results you seem to be asking for:

def index_slice(arr1, arr2):
    lens = np.abs(arr1 - arr2)
    if not all((lens == max(lens)) | (lens == 0)):
        raise ValueError('The number of indices in some dimensions were inconsistent. Array lengths were %r' % lens)

    max_len = lens.max()
    result = np.empty((len(lens), max_len), dtype=np.int32)

    for dim, (a, b) in enumerate(zip(arr1, arr2)):
        if a == b:
            result[dim, :] = a
        elif a > b:
            result[dim, :] = np.arange(a, b, -1)
        else:
            result[dim, :] = np.arange(a, b)

    return result   

For instance:

>>> ind1 = np.array([2, 6])
>>> ind2 = np.array([2, 3])
>>> print index_slice(ind1, ind2)
[[2 2 2]
 [6 5 4]]


>>> ind1 = np.array([2, 6, 1])
>>> ind2 = np.array([2, 3, 4])
>>> print index_slice(ind1, ind2)
[[2 2 2]
 [6 5 4]
 [1 2 3]]

However, asking this question raises my suspicion that you are probably doing something which could be done in a simpler way if you were to share your upstream logic.

HTH

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This does exactly what I was looking for. Thank you for the feedback. –  Diego Jul 31 '12 at 3:02
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