There are quite a few different ways to do this, depending on the performance and accuracy you need and how much geometric code you're willing to write.

**1. Using FillContains**

One way is to construct successive line geometries and use path.Data.FillContains(geometry) to determine whether they intersect the figure. Something along these lines:

```
Transform rotation = new RotateTransform { Angle = 30 };
double max = path.Width + path.Height;
double current = 0;
for(double delta = max/2; delta > 0.25; delta = delta/2)
{
var line = new LineGeometry(
new Point(centerX + current, centerY),
new Point(centerX + max, centerY),
rotation);
if(path.Data.FillContains(line))
current += delta;
}
var intersectPoint = rotation.Transform(new Point(current, 0));
```

**2. Using GetFlattenedPathGeometry**

Another way is to use GetFlattenedPathGeometry:

```
var flattened = path.Data.GetFlattenedPathGeometry();
var segment = pg.Figures[0].Segments[0] as PolyLineSegment;
Point[] points = segment.Points;
for(int i=0; i<points.Count-1; i++)
{
... check for intersection with the line from points[i] to points[i+1] ...
}
```

This can be faster because the geometry is only processed once but requires you to code your own line intersection algorithm (which is very simple).

**3. Using PathGeometry.CreateFromGeometry**

The most efficient way of all is to convert the given geometry into a PathGeometry and then manually iterate through the Figures and Segments in the geometry:

var geo = PathGeometry.CreateFromGeometry(path.Data);
foreach(var figure in geo.Figures)
foreach(var segment in figure.Segments)
if(segment is LineSegment)
...
else if(segment is ArcSegment)
...
else if(segment is BezierSegment)
...
else if(segment is QuadraticBezierSegment)
...
else if(segment is PolyLineSegment)
...
else if(segment is PolyBezierSegment)
...
else if(segment is PolyQuadraticBezierSegment)
...

This approach requires quite a lot of geometric analysis code but is extremely fast because WPF doesn't have to construct a flattened geometry or do repeated intersections. This is the technique I generally use when I need my code to run very fast.

**Note on GetWidenedPathGeometry**

Everything I've said so far will give you intersections between the geometric path data and your intersecting line: It does not take into account line width, end caps, etc. To take these into account as well you will need to use `GetWidenedPathGeometry`

as follows:

```
var widenedData = path.Data.GetWidenedPathGeometry(new Pen { ... });
```

Where the Pen parameters are set from path.Stroke, path.StrokeWidth, etc.

After doing this, use one of the above techniques replacing "path.Data" with "widenedData".