I'm trying to implementing a *k*-medoids clustering algorithm in Python/NumPy. As part of this algo, I have to compute the sum of distances from objects to their "medoids" (cluster representatives).

I have: a distance matrix on five points

```
n_samples = 5
D = np.array([[ 0. , 3.04959014, 4.74341649, 3.72424489, 6.70298441],
[ 3.04959014, 0. , 5.38516481, 4.52216762, 6.16846821],
[ 4.74341649, 5.38516481, 0. , 1.02469508, 8.23711114],
[ 3.72424489, 4.52216762, 1.02469508, 0. , 7.69025357],
[ 6.70298441, 6.16846821, 8.23711114, 7.69025357, 0. ]])
```

a set of initial medoids

```
medoids = np.array([0, 3])
```

and the cluster memberships

```
cl = np.array([0, 0, 1, 1, 0])
```

I can compute the required sum using

```
>>> np.sum(D[i, medoids[cl[i]]] for i in xrange(n_samples))
10.777269622938899
```

but that uses a Python loop. Am I missing some kind of vectorized idiom for computing this sum?