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Given a list of numpy arrays, each with the same dimensions, how can I find which array contains the maximum value on an element-by-element basis?


import numpy as np
def find_index_where_max_occurs(my_list):
    # d = ...  something goes here ...
    return d



array_of_indices_where_max_occurs = find_index_where_max_occurs(my_list)

# This is what I want:
# >>> print array_of_indices_where_max_occurs
# array([1,2,0,0])
# i.e. for the first element, the maximum value occurs in array b which is at index 1 in my_list.

Any help would be much appreciated... thanks!

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3 Answers 3

up vote 3 down vote accepted

Another option if you want an array:

>>> np.array((a, b, c)).argmax(axis=0)
array([1, 2, 0, 0])


def f(my_list):
    return np.array(my_list).argmax(axis=0)

This works with multidimensional arrays, too.

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Thanks - this looks good. I think I'll mark this as my preferred answer. I know this wasn't part of my original question, but could this be extended to work with 2d numpy arrays? –  Pete W Apr 25 '13 at 15:08
@PeteW With the result being another 2d array? or a 1d array? –  Lev Levitsky Apr 25 '13 at 15:10
Another 2d array... –  Pete W Apr 25 '13 at 15:11
@PeteW np.dstack((a,b,c)).argmax(axis=2) –  askewchan Apr 25 '13 at 15:17
@PeteW I think the edited version works with both 1D and 2D arrays –  Lev Levitsky Apr 25 '13 at 15:19

For the fun of it, I realised that @Lev's original answer was faster than his generalized edit, so this is the generalized stacking version which is much faster than the np.asarray version, but it is not very elegant.

np.concatenate((a[None,...], b[None,...], c[None,...]), axis=0).argmax(0)

That is:

def bystack(arrs):
    return np.concatenate([arr[None,...] for arr in arrs], axis=0).argmax(0)

Some explanation:

I've added a new axis to each array: arr[None,...] is equivalent to arr[np.newaxis,...] which is the same as arr[np.newaxis,:,:,:] where the ... expands to be the appropriate number dimensions. The reason for this is because np.concatenate will then stack along the new dimension, which is 0 since the None is at the front.

So, for example:

In [286]: a
array([[0, 1],
       [2, 3]])

In [287]: b
array([[10, 11],
       [12, 13]])

In [288]: np.concatenate((a[None,...],b[None,...]),axis=0)
array([[[ 0,  1],
        [ 2,  3]],

       [[10, 11],
        [12, 13]]])

In case it helps to understand, this would work too:

np.concatenate((a[...,None], b[...,None], c[...,None]), axis=a.ndim).argmax(a.ndim)

where the new axis is now added at the end, so we must stack and maximize along that last axis, which will be a.ndim. For a, b, and c being 2d, we could do this:

np.concatenate((a[:,:,None], b[:,:,None], c[:,:,None]), axis=2).argmax(2)

Which is equivalent to the dstack I mentioned in my comment above (dstack adds a third axis to stack along if it doesn't exist in the arrays).

To test:

N = 10
M = 2

a = np.random.random((N,)*M)
b = np.random.random((N,)*M)
c = np.random.random((N,)*M)

def bystack(arrs):
    return np.concatenate([arr[None,...] for arr in arrs], axis=0).argmax(0)

def byarray(arrs):
    return np.array(arrs).argmax(axis=0)

def byasarray(arrs):
    return np.asarray(arrs).argmax(axis=0)

def bylist(arrs):
    assert arrs[0].ndim == 1, "ndim must be 1"
    return [np.argmax(x) for x in zip(*arrs)]

In [240]: timeit bystack((a,b,c))
100000 loops, best of 3: 18.3 us per loop

In [241]: timeit byarray((a,b,c))
10000 loops, best of 3: 89.7 us per loop

In [242]: timeit byasarray((a,b,c))
10000 loops, best of 3: 90.0 us per loop

In [259]: timeit bylist((a,b,c))
1000 loops, best of 3: 267 us per loop
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Very nice. I need to wrap my head around those None axes and ellipses... once –  Lev Levitsky Apr 25 '13 at 15:43
@LevLevitsky None here does the same as np.newaxis, which increases ndim, adding a length-` dimension in the spot where the np.newaxis is. I put it at the beginning, so that shape goes from (n,m) to (1,n,m) then stacked and maxed along that axis. I could have put it at the end and stacked/maxed over axis=a.ndim isntead of axis=0. Without the extra axis, np.concatenate won't increase the ndim so one will be lost in the maxing. –  askewchan Apr 25 '13 at 15:45
@LevLevitsky I've added an explanation to the edit. –  askewchan Apr 25 '13 at 15:51
Thank you, that helps. –  Lev Levitsky Apr 25 '13 at 17:03
Thanks again -awesome! –  Pete W Apr 25 '13 at 21:15
[np.argmax(x) for x in zip(*my_list)]

Well, this is just a list, but you know how to make it an array if you want. :)

To explain what this does: zip(*my_list) is equivalent to zip(a,b,c), which gives you a generator to loop over. Each step in the loop gives you a tuple like (a[i], b[i], c[i]), where i is the step in the loop. Then, np.argmax gives you the index of that tuple for the element with the largest value.

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Thanks - nice solution! –  Pete W Apr 25 '13 at 15:12

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