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What's an efficient way, given a numpy matrix (2-d array), to return the min/max n values (along with their indices) in the array? Currently I have:

def n_max(arr, n):
    res = [(0,(0,0))]*n
    for y in xrange(len(arr)):
        for x in xrange(len(arr[y])):
            val = float(arr[y,x])
            el = (val,(y,x))
            i = bisect.bisect(res, el)
            if i > 0:
                res.insert(i, el)
                del res[0]
    return res  

This takes 3x longer than the image template matching algorithm that pyopencv does to generate the array I want to run this on, and I figure that's silly.

share|improve this question
What's a typical ratio of n to len(arr)? – Paul Apr 27 '11 at 16:16
@Paul: tiny.. i'm finding the number of matches of a template to an image, so it's # of matches to # of pixels in the image, like 20 to 150000 – Claudiu Apr 27 '11 at 16:38
up vote 7 down vote accepted

Since there is no heap implementation in NumPy, probably your best guess is to sort the whole array and take the last n elements:

def n_max(arr, n):
    indices = arr.ravel().argsort()[-n:]
    indices = (numpy.unravel_index(i, arr.shape) for i in indices)
    return [(arr[i], i) for i in indices]

(This will probably return the list in reverse order compared to your implementation - did not check.)

share|improve this answer
if n is small then perhaps running argmax a few times (removing the max each time) could be faster. – Paul Apr 27 '11 at 16:23
nice, this is much much faster than mine. should be good enough – Claudiu Apr 27 '11 at 16:40
No expert with NumPy, but do we really need to sort (O(n log n)) for something which is trivially done in O(n)? I assume the advantage is that the sorting is done in C while the looping code is run by the python interpreter? – Voo Apr 27 '11 at 19:14
@Voo: The complexity of the OP's algorithm is O(m log n), where m is the number of elements in the array and n is the number of highest elements to find. The algorithm in my answer is O(m log m). The factor between these two complexities for m and n as in the OP's above comment is 4, which is more than compensated for by getting rid of the Python loops. As Paul noted above, if n is really small, there might be better alternatives. – Sven Marnach Apr 27 '11 at 19:46
@Voo: yea complexity isn't everything. in this case having this done in C beats mine by a lot (~3x faster) - and by enough so that i no longer have to worry about it, though if i need something faster i'll come back for more. but - how would you trivially do it on O(n)? – Claudiu Apr 27 '11 at 22:39

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