Ok, so I'm going out on a limb here. You have nodes (A,B,C,D) and you have lines segments between them. This could be considered as a Graph(V,E), which may suit you better than a tree.

Now for WPF:

Your Vertex class would have an Edges property of type ObservableCollection
Your Vertex class would have a Point property of type Point.
Your Edge class would have an Vertices property of type ObservableCollection, which will be 2.

Your ViewModel would contain a list of all edges and all vertices, which you will bind to.

Your View will DataTemplate your edge as a Line. Within the DataTemplate, you would drill into both vertices on the edge to get either end of your line. (You could use a small Ellipse for your Vertex.)

Now for the Math:

```
private static Point[] Translate(Point[] points, double tX, double tY)
{
return points.Select(p => new Point(p.X + tX, p.Y + tY)).ToArray();
}
private static Point[] Rotate(Point[] points, double theta)
{
return points.Select(p =>
new Point(p.X * Math.Cos(theta) - p.Y * Math.Sin(theta),
p.X * Math.Sin(theta) + p.Y * Math.Cos(theta)))
.ToArray();
}
public Point[] RotatePointsAroundPoint(Point[] points, Point origin, double theta)
{
var tPoints = Translate(points, -origin.X, -origin.Y);
tPoints = Rotate(tPoints, theta);
return Translate(tPoints, origin.X, origin.Y);
}
public void RotateGraph(Vertex[] vertices, Point origin, double theta)
{
var points = vertices.Select(v => v.Point).ToArray();
var tPoints = RotatePointsAroundPoint(points, origin, theta);
for(var i = 0; i < vertices.Length; i++)
vertices[i].Point = tPoints[i];
}
```

With this, you simply need to determine the origin and the degree of rotation. Once you call the setter on `Vertex.Point`

, the `NotifyPropertyChanged`

event will update the `View`

.