I have a 2D numpy array A. For example:

A = np.array([[1, 2],
              [3, 4],
              [5, 6],
              [7, 8],
              [9, 0]])

I have another label array B corresponding to rows of A. For example:

B = np.array([0, 1, 2, 0, 1])

I want to split A into 3 arrays based on their labels, so the result would be:

[[[1, 2],
  [7, 8]],
 [[3, 4],
  [9, 0]],
 [[5, 6]]]

Are there any numpy built in functions to achieve this?

Right now, my solution is rather ugly and involves repeating calling numpy.where in a for-loop, and slicing the indices tuples to contain only the rows.

  • Are the labels always evenly distributed like that? Can the result always become an array? Commented Jul 10, 2021 at 23:49
  • Please correct your sample arrays to have commas so we can paste them into a console Commented Jul 11, 2021 at 0:05

4 Answers 4


Here's one way to do it:

  1. hstack both the array together.
  2. sort the array by the last column
  3. split the array based on unique value index
a = np.hstack((A,B[:,None]))
a = a[a[:, -1].argsort()]
a = np.split(a[:,:-1], np.unique(a[:, -1], return_index=True)[1][1:])
[array([[1, 2],
        [7, 8]]),
 array([[3, 4],
        [9, 0]]),
 array([[5, 6]])]
  • You can just argsort the labels, which is much faster Commented Jul 10, 2021 at 23:48

You could also use Pandas for this because it's designed for labelled data and has a powerful groupby method.

import pandas as pd
index = pd.Index(B, name='label')
df = pd.DataFrame(A, index=index)
groups = {k: v.values for k, v in df.groupby('label')}

This produces a dictionary of arrays of the grouped values:

{0: array([[1, 2],
        [7, 8]]), 1: array([[3, 4],
        [9, 0]]), 2: array([[5, 6]])}

For a list of the arrays you can do this instead:

groups = [v.values for k, v in df.groupby('label')]

If the output can always be an array because the labels are equally distributed, you only need to sort the data by label:

idx = B.argsort()
n = np.flatnonzero(np.diff(idx))[0] + 1
result = A[idx].reshape(n, A.shape[0] // n, A.shape[1])

If the labels aren't equally distributed, you'll have to make a list in the outer dimension:

_, indices, counts = np.unique(B, return_counts=True, return_inverse=True)
result = np.split(A[indices.argsort()], counts.cumsum()[:-1])

Using the equivalent of np.where is not very efficient, but you can do it without a loop:

b, idx = np.unique(B, return_inverse=True)
mask = idx[:, None] == np.arange(b.size)
result = np.split(A[idx.argsort()], np.count_nonzero(mask, axis=0).cumsum()[:-1])

You can compute the mask simulataneously for all the labels and apply it to the sorted A (A[idx.argsort()]) by counting the number of matching elements in each category (np.count_nonzero(mask, axis=0).cumsum()). The last index is stripped off the cumulative sum because np.split always adds an implicit total index.


This is probably the simplest way:

groups = [A[B == label, :] for label in np.unique(B)]


[array([[1, 2],
       [7, 8]]), array([[3, 4],
       [9, 0]]), array([[5, 6]])]
  • OP specifically said they didn't want to loop over a mask on each index Commented Jul 11, 2021 at 0:13

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