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numpy - Find minimum cosine distance between two matrices

I have two 2D np.arrays let's call them A and B, both having the shape. For every vector in 2D array A I need to find the vector in matrix B, that have the minimum cosine distance. To do this I just have a double for loop inside of which I try to find the minimum value. So basically I do the following:

from scipy.spatial.distance import cosine
l, res = A.shape[0], []
for i in xrange(l):
    minimum = min((cosine(A[i], B[j]), j) for j in xrange(l))
    res.append(minimum[1])

In the code above one of the loop is hidden behind a comprehension. Everything works fine, but the double for loop makes it too slow (I tried to rewrite it with a double comprehension, which made things a little bit faster, but still slow).

I believe that there is a numpy function that can achieve the following faster (using some linear-algebra).

So is there a way to achieve what I want faster?

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From the cosine docs we have the following info -

scipy.spatial.distance.cosine(u, v) : Computes the Cosine distance between 1-D arrays.

The Cosine distance between u and v, is defined as

enter image description here

where u?v is the dot product of u and v.

Using the above formula, we would have one vectorized solution using `NumPy's broadcasting capability, like so -

# Get the dot products, L2 norms and thus cosine distances
dots = np.dot(A,B.T)
l2norms = np.sqrt(((A**2).sum(1)[:,None])*((B**2).sum(1)))
cosine_dists = 1 - (dots/l2norms)

# Get min values (if needed) and corresponding indices along the rows for res.
# Take care of zero L2 norm values, by using nanmin and nanargmin  
minval = np.nanmin(cosine_dists,axis=1)
cosine_dists[np.isnan(cosine_dists).all(1),0] = 0
res = np.nanargmin(cosine_dists,axis=1)

Runtime tests -

In [81]: def org_app(A,B):
    ...:    l, res, minval = A.shape[0], [], []
    ...:    for i in xrange(l):
    ...:        minimum = min((cosine(A[i], B[j]), j) for j in xrange(l))
    ...:        res.append(minimum[1])
    ...:        minval.append(minimum[0])
    ...:    return res, minval
    ...: 
    ...: def vectorized(A,B):
    ...:     dots = np.dot(A,B.T)
    ...:     l2norms = np.sqrt(((A**2).sum(1)[:,None])*((B**2).sum(1)))
    ...:     cosine_dists = 1 - (dots/l2norms)
    ...:     minval = np.nanmin(cosine_dists,axis=1)
    ...:     cosine_dists[np.isnan(cosine_dists).all(1),0] = 0
    ...:     res = np.nanargmin(cosine_dists,axis=1)
    ...:     return res, minval
    ...: 

In [82]: A = np.random.rand(400,500)
    ...: B = np.random.rand(400,500)
    ...: 

In [83]: %timeit org_app(A,B)
1 loops, best of 3: 10.8 s per loop

In [84]: %timeit vectorized(A,B)
10 loops, best of 3: 145 ms per loop

Verify results -

In [86]: x1, y1 = org_app(A, B)
    ...: x2, y2 = vectorized(A, B)
    ...: 

In [87]: np.allclose(np.asarray(x1),x2)
Out[87]: True

In [88]: np.allclose(np.asarray(y1)[~np.isnan(np.asarray(y1))],y2[~np.isnan(y2)])
Out[88]: True

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