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I have this bit of code

def build_tree_base(blocks, x, y, z):
   indicies = [
        (x  ,z  ,y  ),
        (x  ,z+1,y  ),
        (x  ,z  ,y+1),
        (x  ,z+1,y+1),
        (x+1,z  ,y  ),
        (x+1,z+1,y  ),
        (x+1,z  ,y+1),
        (x+1,z+1,y+1),
    ]
    children = [blocks[i] for i in indicies]
    return Node(children=children)

Where blocks is a 3 dimensional numpy array.

What I'd like to do is replace the list comprehension with something like numpy.take, however take seems to only deal with single dimension indices. Is there something like take that will work with multidimensional indices?

Also I know you could do this with a transpose, slice and then reshape, but that was slow so I'm looking for a better option.

share|improve this question
up vote 1 down vote accepted

How about taking a 2x2x2 slice, then flat ?

import numpy as np
blocks = np.arange(2*3*4.).reshape((2,3,4))
i,j,k = 0,1,2
print [x for x in blocks[i:i+2, j:j+2, k:k+2].flat]

(flat is an iterator; expand it like this, or with np.fromiter(), or let Node iter over it.)

share|improve this answer

Numpy indexing make this quite easy... You should be able to to something like this:

def build_tree_base(blocks, x, y, z):
    idx = [x, x, x, x, x+1, x+1, x+1, x+1]
    idz = [z, z+1, z, z+1, z, z+1, z, z+1]
    idy = [y, y, y+1, y+1, y, y, y+1, y+1]
    children = blocks[idx, idz, idy]
    return Node(children=children)

Edit: I should point out that this (or any other "fancy" indexing) will return a copy, rather than a view into the original array...

share|improve this answer
    
the good news is it worked, so I've learnt something new about numpy, the bad news is it is much slower – tolomea Sep 28 '10 at 13:53
    
With a small array, it will be. With a larger one, it will be much, much faster than a list comprehension (though it will use more memory). Try making idx, etc numpy arrays with dtype=np.int. (E.g. idx = np.array([x,x...], dtype=np.int)) It might help with the overhead of small arrays.... – Joe Kington Sep 28 '10 at 13:55
    
I should also point out that if you're doing this on a huge number of tiny numpy arrays, you should probably re-think your data structure. Numpy is very well suited to large arrays, but the overhead of array creation will dominate if you're using numerous tiny arrays. In that case, native python types (or views into a single, large numpy array) are a better choice. – Joe Kington Sep 28 '10 at 14:00

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