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I have a distance matrix presents the distance matrix for pairwise elements such as

    A B C D .....
A   n1 n2 n3
B n1    
C n2 n4
D n3 n5 ....... 

i input the array like for clustering

 arry=  [ 0 n1, n2, n3..
   n2 n4
   n3 n5 ]

T=sch.fcluster(Y, cutoff,'distance')
print T

Z=sch.dendrogram(Y, color_threshold=cutoff)

my fcluster output is like [ 4 10 12 1 5 13 2 11 1 7 8 3 14 6 10 16 9 15 1 7] from a previous poster of others Clustering with scipy - clusters via distance matrix, how to get back the original objects

I understand the output T[i] only presents the number of element in a cluster I link the original element A, B ,C ,D ,E..... elements with the cluster result and the dendrogram? and lab them properly into my figures.

share|improve this question
Seriously, read the scipy documentation.… – Anony-Mousse Feb 1 '13 at 7:33

1 Answer 1

up vote 0 down vote accepted

"I understand the output T[i] only presents the number of element in a cluster..."

T[j] is the "cluster number" of the j-th data point. That is, fcluster provides the assignments of data points to clusters. So, for example, if there are five data points, and fcluster puts the first, second and last in cluster 1 and the others in cluster 2, the return value of fcluster will be array([1, 1, 2, 2, 1]).

Here's a demo that shows how you can pull that data apart. For convenience, I've used fclusterdata instead of the combination of linkage and fcluster. fclusterdata returns the same thing as fcluster.

import numpy as np

def cluster_indices(cluster_assignments):
    n = cluster_assignments.max()
    indices = []
    for cluster_number in range(1, n + 1):
        indices.append(np.where(cluster_assignments == cluster_number)[0])
    return indices

if __name__ == "__main__":
    from scipy.cluster.hierarchy import fclusterdata

    # Make some test data.
    data = np.random.rand(15,2)

    # Compute the clusters.
    cutoff = 1.0
    cluster_assignments = fclusterdata(data, cutoff)

    # Print the indices of the data points in each cluster.
    num_clusters = cluster_assignments.max()
    print "%d clusters" % num_clusters
    indices = cluster_indices(cluster_assignments)
    for k, ind in enumerate(indices):
        print "cluster", k + 1, "is", ind

Typical output:

4 clusters
cluster 1 is [ 0  1  6  8 10 13 14]
cluster 2 is [ 3  4  5  7 11 12]
cluster 3 is [9]
cluster 4 is [2]
share|improve this answer
Thanks a lot!!! it is much clear the meaning of cluster_number in T[i]! :-) but how I link this data with the dendrogram generated? it looks like it would be easy if the T[i] points to the same cluster number. but if T[i] are not the same, how can i figure out which one includes which? – user1830108 Jan 31 '13 at 21:37
Have you read the documentation… ? – Anony-Mousse Feb 1 '13 at 7:33
yes, I think i know that docs. Thanks all the same although!. one more issues is in the tick/axis label for the hierarchy plot shows the index of the matrix for clustering. I can hide it and add one bar with the my elements names on it. but is there any better way or any exits method/function already help us do that? – user1830108 Feb 1 '13 at 16:24

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