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I was using scipy.cluster.hierarchy.linkage method using a precomputed affinity matrix:

Here is the code generating that upper triangular matrix:

distances = np.zeros((len(reprs), len(reprs))) * -1
for i, j in it.combinations(range(len(reprs)), 2):
    distances[i][j] = (reprs[i] - reprs[j])**2

I can also represent it compactly:

distances = distances[np.triu_indices(len(reprs), 1)]

Now I wanted to try sklearn.cluster.AffinityPropagation instead, but I can't figure out how to send affinity matrix:

def affinity_cluster(distances):
    ap = sklearn.cluster.AffinityPropagation(preference="precomputed")
    d = ap.fit_predict(???)

From it's documentation:

fit(X) Create affinity matrix from negative euclidean distances, then apply affinity propagation clustering. Parameters :

X: array [n_samples, n_features] or [n_samples, n_samples] :
    Data matrix or, if affinity is precomputed, matrix of similarities / affinities.

fit_predict(X, y=None) Performs clustering on X and returns cluster labels. Parameters :

X : ndarray, shape (n_samples, n_features)
    Input data.

Returns : 

y : ndarray, shape (n_samples,)
    cluster labels

So, they are expecting a tuple of two elements, but I have an M*N matrice or a vector of M*N/2 elements.

So, how can I use sklearn.cluster.AffinityPropogation with an affinity matrix?

share|improve this question
up vote 1 down vote accepted

You need to pass a square, symmetric matrix. array [n_samples, n_samples] should be read array of shape (n_samples, n_samples). I'll fix the docs in a minute.

share|improve this answer
Thank you! That's a great library, and it's helping me tremendously on my graduation project. Also I'm trying to use it for converting my professors from MATLAB to Python. Will accept the answer when I have time to try. – utdemir Apr 5 '14 at 14:01

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