I'm working on a program that implements Minecraft's new model format, which allows the Resource Pack artist to create models using cubes and planes.
Now, for both cubes and planes, it defines them using a small amount of information - they both have a "from" and a "to", which is the top-left(-front) and bottom-right(-back). Since cubes are 3D, this is a simplistic process.. but the plane is a bit more confounding.
The format also adds a "facing", which basically defines the normal of the plane. I'm a bit unsure how to approach converting two points and a direction to a plane.
For example, here is a sample plane that is pointing upwards:
to: 16, 3, 16 from: 0, 3, 0 facing: 0, -1, 0
Now, in this example, it's fairly simple for me to extrapolate the two other corner points by simply rotating the from & to points about the "facing" axis by 90 degrees. However, when the quad is not completely square, the algorithm no longer works:
to: 0, 9, 16 from: 0, 0, 0 facing: -1, 0, 0
I really can't fathom how I could extrapolate the other 2 corner points from this and ensure that the quad is still facing the "facing" direction. For texturing purposes of course I need the quad to still be pointing in the direction of normal.
I feel like I'm missing a simple kind of operation here, like flipping the points around a perpendicular axis to land on the other points or something.
Any notes or points in the right direction are appreciated. (please note that I have trouble understanding the "written math" (not exactly sure what you call it), but I am fairly competent at understanding written programming math).