def test_generate_kplusplus_centroids10000(self):
centroids = kmeans._generate_kplusplus(self.contigs,multinomial.log_probabilities,multinomial.fit_nonzero_parameters,self.cluster_count,dna.DNA.kmer_hash_count,self.rs)
print>>sys.stderr, centroids.shape
print>>sys.stderr, len(self.contigs)
print>>sys.stderr, self.cluster_count
self.params["centroids"] = centroids
(clusters,clust_prob,new_centroids) = kmeans._clustering(self.cluster_count,self.max_iter, self.run, self.epsilon, self.verbose, multinomial.log_probabilities,multinomial.fit_nonzero_parameters,**self.params)
assert_equal(len(centroids), self.cluster_count)
assert_equal(len(centroids[0]),dna.DNA.kmer_hash_count )
assert_equal(np.sum(centroids,axis=1).all(),1)
def test_generate_kplusplus_centroids(self):
centroids = kmeans._generate_kplusplus(self.contigs,multinomial.log_probabilities, multinomial.fit_nonzero_parameters,self.cluster_count,dna.DNA.kmer_hash_count,self.rs)
assert_equal(len(centroids), self.cluster_count)
assert_equal(len(centroids[0]),dna.DNA.kmer_hash_count )
assert_equal(np.sum(centroids,axis=1).all(),1)
correct_centroids = np.zeros((self.cluster_count,dna.DNA.kmer_hash_count))
correct_centroids[0,:] = multinomial.fit_nonzero_parameters([self.contigs[0], self.contigs[1]])
correct_centroids[1,:] = multinomial.fit_nonzero_parameters([self.contigs[2], self.contigs[3]])
correct_clusters = kmeans._expectation(self.contigs,multinomial.log_probabilities,correct_centroids)
correct_clust_prob = kmeans._evaluate_clustering(multinomial.log_probabilities, correct_clusters,correct_centroids)
self.params["centroids"] = correct_centroids
(clusters, clust_prob,new_centroids) = kmeans._clustering(self.cluster_count, self.max_iter, self.run, self.epsilon, self.verbose, multinomial.log_probabilities, multinomial.fit_nonzero_parameters, **self.params)
print clust_prob
assert_almost_equal(0, min(np.abs(clust_prob - np.array([-1659.9510320847476, -1652.322663414292, -1658.28785337, -1665.52431153]))))