To get the triangles index:

```
poly = delaunay.outputs[0]
tindex = poly.polys.data.to_array().reshape(-1, 4)[:, 1:]
```

`poly`

is a PolyData object, `poly.polys`

is a CellArray object that stores the index information.
For detail about CellArray: http://www.vtk.org/doc/nightly/html/classvtkCellArray.html

To get the center of every circumcircle, you need to loop every triangle and calculate the center:

```
centers = []
for i in xrange(poly.number_of_cells):
cell = poly.get_cell(i)
points = cell.points.to_array()[:, :-1].tolist()
center = [0, 0]
points.append(center)
cell.circumcircle(*points)
centers.append(center)
centers = np.array(centers)
```

`cell.circumcircle()`

is a static function, so you need to pass all the points of the triangle as arguments, the center data will be returned by modify the fourth argument.

Here is the full code:

```
import numpy as np
from enthought.mayavi import mlab
x = np.array([0, 1, 2, 0, 1, 2, 0, 1, 2])
y = np.array([0, 0, 0, 1, 1, 1, 2, 2, 2])
z = np.zeros(9)
vtk_source = mlab.pipeline.scalar_scatter(x, y, z, figure=False)
delaunay = mlab.pipeline.delaunay2d(vtk_source)
poly = delaunay.outputs[0]
tindex = poly.polys.data.to_array().reshape(-1, 4)[:, 1:]
centers = []
for i in xrange(poly.number_of_cells):
cell = poly.get_cell(i)
points = cell.points.to_array()[:, :-1].tolist()
center = [0, 0]
points.append(center)
cell.circumcircle(*points)
centers.append(center)
centers = np.array(centers)
print centers
print tindex
```

The output is:

```
[[ 1.5 0.5]
[ 1.5 0.5]
[ 0.5 1.5]
[ 0.5 0.5]
[ 0.5 0.5]
[ 0.5 1.5]
[ 1.5 1.5]
[ 1.5 1.5]]
[[5 4 2]
[4 1 2]
[7 6 4]
[4 3 1]
[3 0 1]
[6 3 4]
[8 7 4]
[8 4 5]]
```

The result may not be the same as `matplotlib.delaunay`

, because there are many possible solutions.