I have a 3D model, represented something like this:

```
class Vertex
{
double x, y, z;
}
class Edge
{
Vertex *v1, *v2; // no particular order
Face *f1, *f2; // no particular order. f2 may be null.
}
class Face
{
List<Vertex*> vertices; // clockwise order
List<Edge*> edges; // clockwise order
}
class Model
{
List<Face*> faces;
List<Vertex*> vertices;
List<Edge*> edges;
}
```

Of course this can be transformed into whatever representation is most convenient.

I want to split this model, into several disconnected parts, along multiple loops of connected edges, and create new faces to cap the ends. Example with one loop:

The new faces should in the same position, and identical apart from their connections to other faces, but for this example I've moved them apart. How could I do this?

It does not matter if vertices are shared between the otherwise-disconnected parts.

Since every edge connects exactly two faces, I tried splitting each edge individually into two copies (one for each face). This does separate the model as required, but then I can't see a way to correctly add the new faces.

This question is tagged graph-algorithm because this problem seems like it's somehow related to graph theory.