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Suppose I have an N*M*X-dimensional array "data", where N and M are fixed, but X is variable for each entry data[n][m].

(Edit: To clarify, I just used np.array() on the 3D python list which I used for reading in the data, so the numpy array is of dimensions N*M and its entries are variable-length lists)

I'd now like to compute the average over the X-dimension, so that I'm left with an N*M-dimensional array. Using np.average/mean with the axis-argument doesn't work, so the way I'm doing it right now is just iterating over N and M and appending the manually computed average to a new list, but that just doesn't feel very "python":

for n in data:
    for m in n:

Am I missing something obvious here? I'm trying to freshen up my python skills while I'm at it, so interesting/varied responses are more than welcome! :)


share|improve this question
How is the data stored? numpy doesn't provide any way to do jagged arrays (X is always a constant as far as numpy is concerned), so you must be filling those values with something or using a masked array or ... – mgilson Dec 13 '13 at 17:23
@mgilson Edited the question. I just had a 3D python list and called np.array() on it. So I guess it's a 2D array of list objects? – Samuel Neugber Dec 13 '13 at 17:28
If you don't know how the data is layed out, how should we? You can use the .shape and .dtype attributes of your array to check this. – Hannes Ovrén Dec 13 '13 at 17:31
up vote 3 down vote accepted

What about using np.vectorize:

do_avg = np.vectorize(np.average)
data_2d = do_avg(data)
share|improve this answer
Awesome, that works! – Samuel Neugber Dec 13 '13 at 17:38
data = np.array([[1,2,3],[0,3,2,4],[0,2],[1]]).reshape(2,2)
avg.flat=[np.average(x) for x in data.flat]
print avg
#array([[ 2.  ,  2.25],
#       [ 1.  ,  1.  ]])

This still iterates over the elements of data (nothing un-Pythonic about that). But since there's nothing special about the shape or axes of data, I'm just using data.flat. While appending to Python list, with numpy it is better to assign values to the elements of an existing array.

There are fast numeric methods to work with numpy arrays, but most (if not all) work with simple numeric dtypes. Here the array elements are object (either list or array), numpy has to resort to the usual Python iteration and list operations.

For this small example, this solution is a bit faster than Zwicker's vectorize. For larger data the two solutions take about the same time.

share|improve this answer
Interesting! I considered using reshape, but didn't quite know how. And I didn't mean iterating over elements wasn't un-pythonic, just that there would be a solution that reads a bit cleaner than using for-loops.. – Samuel Neugber Dec 15 '13 at 14:15
One or the other there's going to be a loop, whether it is in a compiled function, hidden in a Python function, or explicit. If the 3rd dimension wasn't jagged, it would be a true 3d array, and you could simply average on that 3rd dim. I should dig into vectorize to see what it does to hide the loop. – hpaulj Dec 15 '13 at 17:05

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