12

I have two arrays, a1 and a2. Assume len(a2) >> len(a1), and that a1 is a subset of a2.

I would like a quick way to return the a2 indices of all elements in a1. The time-intensive way to do this is obviously:

from operator import indexOf
indices = []
for i in a1:
    indices.append(indexOf(a2,i))

This of course takes a long time where a2 is large. I could also use numpy.where() instead (although each entry in a1 will appear just once in a2), but I'm not convinced it will be quicker. I could also traverse the large array just once:

for i in xrange(len(a2)):
    if a2[i] in a1:
        indices.append(i)

But I'm sure there is a faster, more 'numpy' way - I've looked through the numpy method list, but cannot find anything appropriate.

Many thanks in advance,

D

12

How about

numpy.nonzero(numpy.in1d(a2, a1))[0]

This should be fast. From my basic testing, it's about 7 times faster than your second code snippet for len(a2) == 100, len(a1) == 10000, and only one common element at index 45. This assumes that both a1 and a2 have no repeating elements.

4
  • I compared your solution to Dave Kirby's above, with this one being approx 1.35X faster for len(a2) == 12347424, len(a1) == 1338, so this solution get's my vote - thanks! – Dave Feb 25 '10 at 11:57
  • 3
    For anyone reading this: it seems like setmember1d has been renamed to in1d since numpy 1.4. – Alok Singhal Oct 16 '12 at 16:26
  • @AlokSinghal Thanks for catching that! – Daniel Watkins Jun 10 '16 at 18:59
  • @DanielWatkins Since numpy 1.4 is very old now, I have updated my answer to use in1d. – Alok Singhal Jun 19 '16 at 6:45
2

how about:

wanted = set(a1)
indices =[idx for (idx, value) in enumerate(a2) if value in wanted]

This should be O(len(a1)+len(a2)) instead of O(len(a1)*len(a2))

NB I don't know numpy so there may be a more 'numpythonic' way to do it, but this is how I would do it in pure python.

1
  • should that be enumerate(a2)? – Dave Feb 25 '10 at 11:55
1
index = in1d(a2,a1)
result = a2[index]
1

Very similar to @AlokSinghal, but you get an already flattened version.

numpy.flatnonzero(numpy.in1d(a2, a1))
0

The numpy_indexed package (disclaimer: I am its author) contains a vectorized equivalent of list.index; performance should be similar to the currently accepted answer, but as a bonus, it gives you explicit control over missing values as well, using the 'missing' kwarg.

import numpy_indexed as npi
indices = npi.indices(a2, a1, missing='raise')

Also, it will also work on multi-dimensional arrays, ie, finding the indices of one set of rows in another.

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