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I'm looking for a Numpy (i.e. hopefully faster) way to perform the following:

import numpy as np                                                              

x = np.array([1,2,3,4,5],dtype=np.double)                                       
arr = [[1,2],[0,4,3],[1,4,0],[0,3,4],[1,4]]                                 

ans = np.array([ x[item] - x[i] for i, item in enumerate(arr) ])

I'd like to get rid of the list comprehension and do this something like this (although, I know this won't work)

x[arr[:]] - x[:]

arr is always a nested list of integers with length equal the length of x. The interior lists are not necessarily the same length (i.e. arr is a ragged list)

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If arr is a ragged list, then ans can not always be made into an np.array. So ans, in general, will have to be a Python list of lists. Therefore, you probably can't do better than using a list comprehension. –  unutbu Dec 31 '12 at 18:38
You could pad your arr with nan's, turn it into a 2D numpy array, and then do x[arr] - x[:, None] to get your ans, then discard the nan's, although I doubt it will speed things at all, since you are probably still going to need a python for loop over the items of arr. –  Jaime Dec 31 '12 at 21:53
You can get a ragged np.array but it has to be of object dtype. –  tiago Dec 31 '12 at 23:04
@tiago: actually you can't. You can write array([[1, 2], [3]], dtype=object), true, but it's not actually ragged: it has shape (2,). When you multiply it by 2, for example, you get array([[1, 2, 1, 2], [3, 3]], dtype=object), not array([[2,4], [6]]), because it's a regular array of lists, not a ragged array of ints. –  DSM Jan 2 '13 at 15:25

1 Answer 1

up vote 0 down vote accepted

I've come up with a solution that is adequate enough for my application using Numpy masked arrays. In my application, the arr list is not "too ragged" (i.e. the max length of any interior list is not extremely different from the min length of any interior list). Therefore, I start by padding arr with -1s, then create a mask based on the location of the -1s. I perform my operation and use the mask on the resulting array. In this case, there are a few extra calculations being done unnecessarily (on the padded entries), but this is still faster that the Python loop (by a factor of almost 2). The example code is below:

import numpy as np                                                              
import numpy.ma as ma

x = np.array([1,2,3,4,5],dtype=np.double)                                       
arr = [[1,2],[0,4,3],[1,4,0],[0,3,4],[1,4]]                                     

max_arr_length = max([ len(item) for item in arr ])                          

arr_padded = [ np.pad(i,(0,max_arr_length-len(i)), mode='constant', 
    constant_values=-1) for i in arr ]
arr_masked = ma.masked_equal(arr_padded,-1)

ans_masked = ma.masked_array(x[arr_masked] - x[:, None], mask=arr_masked.mask)

This is a bit of a hack, but it works well enough for me. It would be nice if Numpy had support for ragged arrays.

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