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I'm trying to index large 3D arrays using a 2D array of indicies from argmin (or related argmax, etc. functions). Here is my example data:

import numpy as np
shape3d = (16, 500, 335)
shapelen = reduce(lambda x, y: x*y, shape3d)

# 3D array of [random] source integers
intcube = np.random.uniform(2, 50, shapelen).astype('i').reshape(shape3d)

# 2D array of indices of minimum value along first axis
minax0 = intcube.argmin(axis=0)

# Another 3D array where I'd like to use the indices from minax0
othercube = np.zeros(shape3d)

# A 2D array of [random] values I'd like to assign in othercube
some2d = np.empty(shape3d[1:])

At this point, both 3D arrays have the same shape, while the minax0 array has the shape (500, 335). Now I'd like assign values from the 2D array some2d to the 3D array othercube using minax0 for the index position of the first dimension. This is what I'm trying, but doesn't work:

othercube[minax0] = some2d    # or
othercube[minax0,:] = some2d

throws the error:

ValueError: dimensions too large in fancy indexing

Note: What I'm currently using, but is not very NumPythonic:

for r in range(shape3d[1]):
    for c in range(shape3d[2]):
        othercube[minax0[r, c], r, c] = some2d[r, c]

I've been digging around the web to find similar examples that can index othercube, but I'm not finding anything elegant. Would this require an advanced index? Any tips?

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1 Answer 1

up vote 6 down vote accepted

fancy indexing can be a little non-intuitive. Luckily the tutorial has some good examples.

Basically, you need to define the j and k where each minidx applies. numpy doesn't deduce it from the shape.

in your example:

i = minax0
k,j = np.meshgrid(np.arange(335), np.arange(500))
othercube[i,j,k] = some2d
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works wonderfully! –  Mike T Jul 21 '11 at 8:24

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