I'm using the Trickl-Cluster project to cluster my data set and Colt to memorize the data objects in matrices .

After executing this code

```
import cern.colt.matrix.DoubleMatrix2D;
import cern.colt.matrix.impl.DenseDoubleMatrix2D;
import com.trickl.cluster.KMeans;
DoubleMatrix2D dm1 = new DenseDoubleMatrix2D(3, 3);
dm1.setQuick(0, 0, 5.9);
dm1.setQuick(0, 1, 1.6);
dm1.setQuick(0, 2, 18.0);
dm1.setQuick(1, 0, 2.0);
dm1.setQuick(1, 1, 3.5);
dm1.setQuick(1, 2, 20.3);
dm1.setQuick(2, 0, 11.5);
dm1.setQuick(2, 1, 100.5);
dm1.setQuick(2, 2,6.5);
System.out.println (dm1);
KMeans km = new KMeans();
km.cluster(dm1 ,1);
DoubleMatrix2D dm11 = km.getPartition();
System.out.println (dm11);
DoubleMatrix2D dm111 = km.getMeans();
System.out.println (dm111);
```

I had the following output

```
3 x 3 matrix
5.9 1.6 18
2 3.5 20.3
11.5 100.5 6.5
3 x 1 matrix
1
1
1
3 x 1 matrix
6.466667
35.2
14.933333
```

Following the algorithm steps , it's strange when one expects 1 cluster and has 3 means The documentation is not so clear about that specific point .

This is the definition of the method Cluster according to the java doc of the project

```
void cluster(cern.colt.matrix.DoubleMatrix2D data, int clusters)
```

So logically speaking the `int clusters`

represents the number of the expected clusters after K-means terminates.

Have you any idea about the relation between the outputs of K-means class in the project and the K-means algorithm expected results?

Thank you.