# Python - How to reduce the number of entries per row or symmetric matrix by keeping K largest values

I have a symmetric similarity matrix and I want to keep only the k largest value in each row.

Here's some code that does exactly what I want, but I'm wondering if there's a better way. Particularly the flatten/reshape is a bit clumsy. Thanks in advance.

Note that nrows (below) will have to scale into the tens of thousands.

``````from scipy.spatial.distance import pdist, squareform
random.seed(1)
nrows = 4
a = (random.rand(nrows,nrows))

# Generate a symmetric similarity matrix
s = 1-squareform( pdist( a, 'cosine' ) )

# Generate the sorted indices
ss = argsort(s.view(np.ndarray), axis=1)[:,::-1]
s2 = ss + (arange(ss.shape[0])*ss.shape[1])[:,None]

# Zero-out after k-largest-value entries in each row
k = 3 # Number of top-values to keep, per row
s = s.flatten()
s[s2[:,k:].flatten()] = 0
print "Desired output:\n", s.reshape(nrows,nrows)
``````

Gives:

``````Start with:
[[ 1.          0.61103296  0.82177072  0.92487807]
[ 0.61103296  1.          0.94246304  0.7212526 ]
[ 0.82177072  0.94246304  1.          0.87247418]
[ 0.92487807  0.7212526   0.87247418  1.        ]]
Desired output:
[[ 1.          0.          0.82177072  0.92487807]
[ 0.          1.          0.94246304  0.7212526 ]
[ 0.          0.94246304  1.          0.87247418]
[ 0.92487807  0.          0.87247418  1.        ]]
``````
-

Not a considerable improvement, but to avoid the flatten and reshape you can use `np.put`:

``````# Generate the sorted indices
ss = np.argsort(s.view(np.ndarray), axis=1)[:,::-1]
ss += (np.arange(ss.shape[0])*ss.shape[1])[:,None] #Add in place, probably trivial improvement

k=3
np.put(s,ss[:,k:],0) #or s.flat[ss[:,k:]]=0
print s

[[ 1.          0.          0.82177072  0.92487807]
[ 0.          1.          0.94246304  0.7212526 ]
[ 0.          0.94246304  1.          0.87247418]
[ 0.92487807  0.          0.87247418  1.        ]]
``````
-
Exactly what I was looking for. Thanks Ophion! – zbinsd Aug 15 '13 at 21:59

If you find yourself generating long lists of indices into an array, there is a good chance that it can be solved in more elegant way using boolean matrices. In your case:

``````a = np.random.rand(5, 5)
a = a + a.T # make it symmetrical

sort_idx = np.argsort(np.argsort(a, axis=1), axis=1)
k = 3 # values to keep
# if you want a copy of the original
mask = (sort_idx >= a.shape[1] - k) # positions we want to keep
b = np.zeros_like(a)

# if you wantrd to do the operation in-place
# mask = (sort_idx < a.shape[1] - k) # positions we want to zero
# a[mask] = 0

>>> a
array([[ 1.87816548,  0.86562424,  1.94171234,  0.96565312,  0.53451029],
[ 0.86562424,  1.13762348,  1.48565754,  0.78031763,  0.51448499],
[ 1.94171234,  1.48565754,  1.39960519,  0.57456214,  1.32608456],
[ 0.96565312,  0.78031763,  0.57456214,  1.56469221,  0.74632264],
[ 0.53451029,  0.51448499,  1.32608456,  0.74632264,  0.55378676]])
>>> b
array([[ 1.87816548,  0.        ,  1.94171234,  0.96565312,  0.        ],
[ 0.86562424,  1.13762348,  1.48565754,  0.        ,  0.        ],
[ 1.94171234,  1.48565754,  1.39960519,  0.        ,  0.        ],
[ 0.96565312,  0.78031763,  0.        ,  1.56469221,  0.        ],
[ 0.        ,  0.        ,  1.32608456,  0.74632264,  0.55378676]])
``````
-
your first row hides the largest value (1.909...) It should keep the three (or 'k') largest values per row, right? – zbinsd Sep 14 '13 at 0:49
@zbinsd Yes, you are absolutely right. It's easy to solve, by running `argsort` a second time, see my edit. I also changed the indexing condition, to keep the largest, not the smallest. – Jaime Sep 16 '13 at 18:48