# How do I stack vectors of different lengths in NumPy?

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.

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

``````>>> 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), 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), mask=[False, False, True])])
[[1.0 1.0 1.0]
[1.0 1.0 --]],
[[False False False]
[False False  True]],
fill_value = 1e+20)
``````

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

• 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
• Surely there must be a way! If a 1 dimensional array in numpy is just storing object pointers to other multidimensional arrays, then why do the multidimensional arrays have to be the same? Surely not? Help appreciated. – CodeCabbie Apr 27 '17 at 13:42

In general, there is an ambiguity in putting together arrays of different length because alignment of data might matter. `Pandas` has different advanced solutions to deal with that, e.g. to merge series into dataFrames.

If you just want to populate columns starting from first element, what I usually do is build a matrix and populate columns. Of course you need to fill the empty spaces in the matrix with a null value (in this case `np.nan`)

``````a = ones((3,))
b = ones((2,))
arraylist=[a,b]

outarr=np.ones((np.max([len(ps) for ps in arraylist]),len(arraylist)))*np.nan #define empty array
for i,c in enumerate(arraylist):  #populate columns
outarr[:len(c),i]=c

In : outarr
Out:
array([[  1.,   1.],
[  1.,   1.],
[  1.,  nan]])
``````

There is a new library for efficiently handling this type of arrays: https://github.com/scikit-hep/awkward-array

I know this is a really old post and that there may be a better way of doing this, BUT why not just use append for such an operation:

``````import numpy as np
a = np.ones((3,))
b = np.ones((2,))
c = np.append(a, b)
print(c)
``````

output:

``````[1. 1. 1. 1. 1.]
``````