Is there a better way to count how many times a given row appears in a numpy 2D array than

def get_count(array_2d, row):
    count = 0
    # iterate over rows, compare
    for r in array_2d[:,]:
        if np.equal(r, row).all():
            count += 1
    return count    

# let's make sure it works

array_2d = np.array([[1,2], [3,4]])
row = np.array([1,2])       

count = get_count(array_2d, row)
assert(count == 1)
  • 1
    If this code works, it should be on Code Review; not here. – Carcigenicate Jul 31 '16 at 18:47
  • 1
    @Carcigenicate, questions like this that (implicitly) ask for ways to replace loops with faster numpy methods are quite common on SO. It's very much a 'how to' kind of question. These questions do get asked on CR, but that forum is pickier as to presentation, and the numpy community is much smaller there. CR is better for code style review. I like working code on SO, it makes it easier to test my answer. – hpaulj Jul 31 '16 at 19:39

One simple way would be with broadcasting -

(array_2d == row).all(-1).sum()

Considering memory efficiency, here's one approach considering each row from array_2d as an indexing tuple on an n-dimensional grid and assuming positive numbers in the inputs -

dims = np.maximum(array_2d.max(0),row) + 1
array_1d = np.ravel_multi_index(array_2d.T,dims)
row_scalar = np.ravel_multi_index(row,dims)
count = (array_1d==row_scalar).sum()

Here's a post discussing the various aspects related to it.

Note: Using np.count_nonzero could be much faster to count booleans instead of summation with .sum(). So, do consider using it for both the above mentioned aproaches.

Here's a quick runtime test -

In [74]: arr = np.random.rand(10000)>0.5

In [75]: %timeit arr.sum()
10000 loops, best of 3: 29.6 µs per loop

In [76]: %timeit np.count_nonzero(arr)
1000000 loops, best of 3: 1.21 µs per loop
  • (array_2d == row).all(-1).sum() is exactly what I was looking for. Wasn't aware of all() params. – Nucular Aug 1 '16 at 11:25

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