Numpy cross product of vertical vectors

I am looking for an elegant way to compute the cross product for vectors that have more lines than columns.

I tried: np.cross([[a],[b],[c]],[[d],[e],[f]]) with a to f being floats and I got:

ValueError: incompatible dimensions for cross product

I also tried to pass values 0 and 1 to optional parameters axisa, axisb, axisc and axis mentionned in the documentation, but it did not help.

If it is not possible to do that, does that mean that users are expected to prefer using vectors with shape (1,3) over (3,1) ?

• I am hesitating to close because I made a mistake when doing my tests. On the other hand there is no such example in the documentation and this answer could be useful when found via a search engine. – Gabriel Devillers Jun 6 '18 at 22:12

I don't see any error message when doing:

a, b, c, d, e, f = 1, 2, 3, 4, 5, 6

np.cross([[a],[b],[c]],[[d],[e],[f]], axis=0)
# array([[-3],
#        [ 6],
#        [-3]])

If the shape is (1, 3) instead of (3, 1), you can simply do

np.cross([a, b, c], [d, e, f])
# array([-3,  6, -3])

It depends on what output you want.

If you want a scalar output that is a*d + b*e + c*f, then do:

np.dot([1,2,3],[4,5,6])

If you want a vector output that has 3 elements and is perpendicular to the first two vectors (output of the cross product), then do:

np.cross([1,2,3],[4,5,6])

No need for the second set of brackets in the example you gave =)