How do I iterate over a numpy array of n dimensions and create a new array of similar shape.

e.g. for the inputs:

import numpy as np

arr = np.array([[1,2,3],
alpha = 3.
median = np.median(arr)

I would like to build a new array of same (4,3) with flags set to 1 for a random condition. e.g.

flag = (arr[i,j] > median - alpha) or (arr[i,j] < median + alpha)

I would solve this with 2 for statements

flags = arr * 0 
for i in range(arr.shape[0]):
    for j in range(arr.shape[1]):
         flags[i,j] = (arr[i,j] > median - alpha) or (arr[i,j] < median + alpha)

Is there a way to solve this in a simpler and more efficient pythonic way ? The solution should ideally also work for n dimensional arrays (1,2, ... n dimensions)

  • Umm, right now you're generating True flags unless arr[i,j] == median * alpha. Is that what you want? – Daniel F Oct 17 '17 at 9:32
  • True, this is though just an example. What I am asking is the iteration process. I will update the condition to make a bit more sense – Valerian Oct 17 '17 at 9:35

You don't have to iterate at all.

np.logical_or(arr < median - alpha, arr > median + alpha)

Numpy is done to avoid loop:

alpha = 3.
median = np.median(arr)

abs(arr-median) < alpha

#array([[ True,  True,  True],
#      [ True,  True,  True],
#      [False, False, False],
#      [False, False, False]], dtype=bool)

And of course it works for any number of dimensions.

More generally, you can avoid loops each time you can formulate your condition with numpy logic functions. Python and and or operator do not map on numpy arrays, and using them implies loop and slow down.

  • Sure but your answer is "using" the particular condition that I set. In some cases though this condition may be very complex (or even worse may not be a condition at all) so I was wondering if there is a a more generic solution to avoid these kind of loops. – Valerian Oct 18 '17 at 6:53

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