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I have a 2-D numpy array with 100,000+ rows. I need to return a subset of those rows (and I need to perform that operations many 1,000s of times, so efficiency is important).

A mock-up example is like this:

import numpy as np
a = np.array([[1,5.5],
b = np.array([2,4])

So...I want to return the array from a with rows identified in the first column by b:


The difference, of course, is that there are many more rows in both a and b, so I'd like to avoid looping. Also, I played with making a dictionary and using np.nonzero but still am a bit stumped.

Thanks in advance for any ideas!

EDIT: Note that, in this case, b are identifiers rather than indices. Here's a revised example:

import numpy as np
a = np.array([[102,5.5],
b = np.array([102,343])

And I want to return:

c = [[102,5.5],
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2 Answers 2

up vote 6 down vote accepted

EDIT: Deleted my original answer since it was a misunderstanding of the question. Instead try:

ii = np.where((a[:,0] - b.reshape(-1,1)) == 0)[1]
c = a[ii,:]

What I'm doing is using broadcasting to subtract each element of b from a, and then searching for zeros in that array which indicate a match. This should work, but you should be a little careful with comparison of floats, especially if b is not an array of ints.

EDIT 2 Thanks to Sven's suggestion, you can try this slightly modified version instead:

ii = np.where(a[:,0] == b.reshape(-1,1))[1]
c = a[ii,:]

It's a bit faster than my original implementation.

EDIT 3 The fastest solution by far (~10x faster than Sven's second solution for large arrays) is:

c = a[np.searchsorted(a[:,0],b),:]

Assuming that a[:,0] is sorted and all values of b appear in a[:,0].

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Right - that's cool, but in my case, I need to match the values. For example, b is like identifiers, not indices. I will edit the question to clarify that. –  mishaF Mar 31 '11 at 19:49
@mishaF: Ok, sorry that wasn't clear. Give me sec . . . –  JoshAdel Mar 31 '11 at 19:51
(a - b) == 0 is the same as a == b, even when broadcasting is involved. –  Sven Marnach Mar 31 '11 at 20:17
@JoshAdel Thanks tons! Luckily, my b array is ints, so I should be OK on the float issue. –  mishaF Mar 31 '11 at 20:19
@Josh: What peeves me about both our answers is that the complexity is O(len(a)*len(b)), where theoretically O((len(a)+len(b))*log(len(b))) would be enough (Sorting b and doing a binary search for every element of a[:,0]). Any ideas how to improve this? Can we use searchsorted()? –  Sven Marnach Mar 31 '11 at 20:33

A slightly more concise way to do this is

c = a[(a[:,0] == b[:,None]).any(0)]

The usual caveats for floating point comparisons apply.

Edit: If b is not too small, the following slightly quirky solution performs better:

c = a[b[np.searchsorted(b, a[:, 0]) - len(b)] == a[:,0]]
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thanks! This is even more concise and worked great! –  mishaF Mar 31 '11 at 20:20
And props to Sven: I think his method is ~1.6x faster than my solution. –  JoshAdel Mar 31 '11 at 20:35
@Josh: Thanks for timing this! You got my +1 anyway for providing a working answer first. :) –  Sven Marnach Mar 31 '11 at 20:46
as shown in Edit 3 of my post, you can use searchsorted directly. It's also worth noting that both of your solutions only extract unique entries in b, so if that is important to the OP, than this is also a consideration. –  JoshAdel Apr 1 '11 at 0:55

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