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I am interested in generating a list (or np.array) of np.arrays from a global 2D array, based on a matching boolean mask using numpy, for a particular axis. I was wondering if np.ma.mask() or similar could be employed...

An example is probably better:

number= 10
x = np.linspace(0,number,num=number+1,dtype=int)
B = np.vstack((x%3==0, x%2==0, x%1==0))
X = np.vstack((x//3, x//2, x-1))

list_ = []
for i in range(1,number+1):
    pointer = X[:,i][B[:,i]]
    list_.append(pointer)

print(list_)
[array([0]), array([1, 1]), array([1, 2]), array([2, 3]), array([4]), array([2, 3, 5]), array([6]), array([4, 7]), array([3, 8]), array([5, 9])]

In the for-loop, I am basically extracting the values on axis=1 in the 2D array X, based on the boolean mask B. I achieve this by iterating over axis=0 and selecting X[:,i][B[:,i]]. I am wondering whether it is possible to do this without the loop, since the range can be very big, and do it entirely in numpy, perhaps using a where statement on np.ma.array(X,mask=B)?

Cheers!

1

Here are the steps I would follow to solve the case in a vectorized manner -

  1. Use boolean indexing to select the valid elements from X.
  2. Get the indices at which we see column indices shifting for the input mask. This would be achieved after transposing the mask, using np.where and selecting the first input arg.
  3. Finally, with those indices, split the valid elements array obtained in step 1.

The implementation would look like this -

cut_idx = np.unique(np.where(B[:,1:].T)[0],return_index=True)[1]
out_list_ = np.split(X[:,1:].T[B[:,1:].T],cut_idx[1:])

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