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How do I stack column-wise n vectors of shape (x,) where x could be any number?

For example,

from numpy import *
a = ones((3,))
b = ones((2,))

c = vstack((a,b)) # <-- gives an error
c = vstack((a[:,newaxis],b[:,newaxis])) #<-- also gives an error

hstack works fine but concatenates along the wrong dimension.

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1 Answer 1

up vote 7 down vote accepted

Short answer: you can't. NumPy does not support jagged arrays natively.

Long answer:

>>> a = ones((3,))
>>> b = ones((2,))
>>> c = array([a, b])
>>> c
array([[ 1.  1.  1.], [ 1.  1.]], dtype=object)

gives an array that may or may not behave as you expect. E.g. it doesn't support basic methods like sum or reshape, and you should treat this much as you'd treat the ordinary Python list [a, b] (iterate over it to perform operations instead of using vectorized idioms).

Several possible workarounds exist; the easiest is to coerce a and b to a common length, perhaps using masked arrays or NaN to signal that some indices are invalid in some rows. E.g. here's b as a masked array:

>>> ma.array(np.resize(b, a.shape[0]), mask=[False, False, True])
masked_array(data = [1.0 1.0 --],
             mask = [False False  True],
       fill_value = 1e+20)

This can be stacked with a as follows:

>>> ma.vstack([a, ma.array(np.resize(b, a.shape[0]), mask=[False, False, True])])
masked_array(data =
 [[1.0 1.0 1.0]
 [1.0 1.0 --]],
             mask =
 [[False False False]
 [False False  True]],
       fill_value = 1e+20)

(For some purposes, scipy.sparse may also be interesting.)

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To add to larsmans' solution, to find the largest of your "jagged" arrays, you could use max_entries = max([len(x) for x in [a, b]]), and to automatically generate the mask, use np.concatenate([np.zeros(len(b),dtype=bool), np.ones(max_entries-len(b), dtype=bool)]). –  Michael Currie May 23 '14 at 22:45

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