I'm writing a basic 2D shape library in Python (primarily for manipulating SVG drawings), and I'm at a loss for how to efficiently calculate the intersection points of two ellipses.

Each ellipse is defined by the following variables (all floats):

```
c: center point (x, y)
hradius: "horizontal" radius
vradius: "vertical" radius
phi: rotation from coordinate system's x-axis to ellipse's horizontal axis
```

Ignoring when the ellipses are identical, there could be 0 through 4 intersection points (no intersection, tangent, partially overlapping, partially overlapping and internally tangent, and fully overlapping).

I've found a few potential solutions:

- SymPy geometry module - This basically just plugs the ellipse equations into SymPy's solver. I'm not sure whether this makes sense without already having the solver. (Incidentally, I would have used SymPy instead of rolling my own, but it performs horribly when dealing with crazy floats)
- How to detect if an ellipse intersects(collides with) a circle - This could probably be adapted for two ellipses, but I'm a little fuzzy on how to turn it into sensible code.
- How Ellipse to Ellipse intersection? - The library the answer references (CADEMIA) might have a good algorithm, but I can't even figure out if it's open source.
- Wikipedia: Intersecting Two Conics - I don't have enough of a grasp of linear algebra to understand this solution.

Any suggestions on how I should go about calculating the intersections? Speed (it might have to calculate a lot of intersections) and elegance are the primary criteria. Code would be fantastic, but even a good direction to go in would be helpful.