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I would like call a function on each entry of an upper-triangular matrix. In order to avoid a messy nest of for loops, I am using the numpy.triu_indices function. My function works but I would like to know if there is a cleaner way to implement the indexing.

import numpy as np
def weighted_edges(adjmat):
    indices = np.triu_indices(len(adjmat))
    return ((x, y, adjmat[x,y]) for (x,y) in zip(indices[0], indices[1]))

I suspect that there is a way to implement this without needing to reference indices[i] in the zip call. Is there indeed a way to do so?

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1 Answer 1

up vote 1 down vote accepted

If you have an N x N matrix from which you want the upper triangular values, just do

import numpy as np
N = 5
x = np.arange(N**2).reshape(N, N)
upper = x[np.triu_indices(N, 0)]

If you want the triangular values offset from the main diagonal by k columns, then do

upper = x[np.triu_indices(N, k)]
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The only thing left to get the same as the OP function returns, is to stack the three arrays together and transpose them: np.vstack(indices+(adjmat[indices],)).T –  Jaime Jun 28 '13 at 16:16
Thanks very much. @Jaime: That is exactly what I needed to finish. I am struggling to understand the + operation. indices + adjmat[indices] gives me a result I understand, but I do not understand why indices + (adjmat[indices],) performs a union, instead of vector addition (adding nothing to the second array in indices). –  Eric Kightley Jun 28 '13 at 17:11
@EricKightley What np.triu_indices returns is a 2 element tuple, holding two arrays, one for indexing the rows, another for the columns. np.vstack needs a tuple (or list) of arrays to stack, so by adding the single element tuple (adjmat[indices,) to the indices tuple, we concatenate them and create a three element tuple, that gets stacked, and then transposed to fit your original output. –  Jaime Jun 28 '13 at 17:26

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