14

There are lots of solutions to do this for a single array, but what about a matrix, such as:

>>> k
array([[ 35,  48,  63],
       [ 60,  77,  96],
       [ 91, 112, 135]])

You can use k.max(), but of course this only returns the highest value, 135. What if I want the second or third?

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10

You can flatten the matrix and then sort it:

>>> k = np.array([[ 35,  48,  63],
...        [ 60,  77,  96],
...        [ 91, 112, 135]])
>>> flat=k.flatten()
>>> flat.sort()
>>> flat
array([ 35,  48,  60,  63,  77,  91,  96, 112, 135])
>>> flat[-2]
112
>>> flat[-3]
96
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  • 5
    np.partition may be faster - it does a partial sort, just enough to divide the array into 2 parts. – hpaulj Oct 17 '15 at 0:46
  • Ooh I like that. – rofls Oct 17 '15 at 0:48
  • This method might be better if he wants to grab multiple elements though, say the 2nd, 3rd largest, etc... since they will all be available with no further operations other than indexing. – rofls Oct 17 '15 at 0:49
  • Is there an efficient way in numpy to do this without resorting the array? – Aaron Lelevier Jun 13 '18 at 14:23
  • @AaronLelevier sure, use np.sort which returns a sorted array instead of the array method, which flattens it in place: sorted_flat = np.sort(flat) – rofls Jun 14 '18 at 7:27
22

As said, np.partition should be faster (at most O(n) running time):

np.partition(k.flatten(), -2)[-2]

should return the 2nd largest element. (partition guarantees that the numbered element is in position, all elements before are smaller, and all behind are bigger).

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  • 2
    This may be (should be) faster than sorting.... – Yan King Yin Apr 4 '18 at 12:26
  • 1
    @YanKingYin: yes, optimal sorting (e.g. mergesort) takes O(n log(n)) – serv-inc Apr 5 '18 at 7:40
  • > should return the 2nd largest element — is it true? From documentation: The ordering of the elements in the two partitions is undefined. – diraria Oct 19 '18 at 17:57
  • 1
    @diraria: exactly. The only position that is fixed is the 2nd position. The partitions to the left and right are always smaller and bigger, but unordered. – serv-inc Oct 20 '18 at 13:11
1
nums = [[ 35,  48,  63],
        [ 60,  77,  96],
        [ 91, 112, 135]]

highs = [max(lst) for lst in nums]
highs[nth]
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  • Please add some info on how did you achieve this. Not just the code. – R4444 May 11 at 0:19
  • 1. for loop returns nested lists 2. max() function returns high number from nested list and appends inside highs 3. and highs[nth] - returns high number depended with index – Luka Tikaradze May 12 at 5:44
1

Using the 'unique' function is a very clean way to do it, but likely not the fastest:

k = array([[ 35,  48,  63],
           [ 60,  77,  96],
           [ 91, 112, 135]])
i = numpy.unique(k)[-2]

for the second largest

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0
import numpy as np
a=np.array([[1,2,3],[4,5,6]])
a=a.reshape((a.shape[0])*(a.shape[1]))  # n is the nth largest taken by us
print(a[np.argsort()[-n]])
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  • 2
    Thanks for contributing. Your answer might be more useful if you explain your thinking. – Eric Wilson Sep 22 '17 at 18:06
  • Please check arsort syntax – pushpen.paul Apr 22 '18 at 13:36
0

Another way of doing this when repeating elements are presented in the array at hand. If we have something like 

a = np.array([[1,1],[3,4]])

then the second largest element will be 3, not 1.

Alternatively, one could use the following snippet:

second_largest = sorted(list(set(a.flatten().tolist())))[-2]

First, flatten matrix, then only leave unique elements, then back to the mutable list, sort it and take the second element. This should return the second largest element from the end even if there are repeating elements in the array.

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