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I have a 40*4 matrixM and a vectorA with 40 elements. I want to calculate the cosine distance between A and each column vector in M.

Do I really need to write like this?

 print [cosine(M[:,i],A) for i in range(A.shape[1])]

Or there's another better way to do this?

The document of cosine can be viewed here: http://docs.scipy.org/doc/scipy/reference/generated/scipy.spatial.distance.cosine.html#scipy.spatial.distance.cosine


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Could you show M.shape and A.shape outputs. for (40,4),(40,1) your code provides 1x1 list instead of 4x1. for other variants - errors with alignement. better means faster, more beautiful or something else? –  adray Nov 3 '12 at 17:04

3 Answers 3

up vote 1 down vote accepted

Perhaps a more functional way would be to use functools.partial to bind the second argument of cosine to A and then use map to apply this bound function to the columns of M

map(partial(cosine,v=A), M.transpose())
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It seems scipy.spatial.distance.cosine really only works for vectors. To efficiently compute cosine distances using vectorized expressions, do

normM = np.sqrt((M ** 2).sum(axis=0))
normA = np.sqrt((A ** 2).sum())
cossim = np.dot(M.T, A) / (normM * normA)
dist = 1. - cossim

Assuming M.shape == (40,4), A.shape == (4,), and neither is an np.matrix.

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If efficiency is important this solution is 5 times faster than the others –  Will Nov 4 '12 at 15:09

It seems that according to this question, Numpy has a Pythonic way to iterate over the columns of a matrix. This way, you could write:

print [cosine(column,A) for column in M.transpose()]
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