
AABBTriangle intersection point
Hello.
I'm in need of testing if an axis oriented bounding box collides with a triangle (set of triangles as a terrain), and if it does  in which point. I found few algorithms on the internet, but I can't determine the intersection point, which is essential for me here.
Is there an algorithm to achieve what I need? Or maybe is there some method that suits this task better?
Thanks.

Intern
Contributor
First, you need to better define what you need. The intersection of a triangle and a bounding box rarely has only one point; most of the times, its an edge.
In case you do this without predefined methods:
You could simply write some algorithms that test whether one point is in the box and the other points are out of it, then an intersection is quaranteed (the intersection point can then easily be calculated). If all points are outside the box but the triangle cuts it nevertheless, you need to split the triangle in its edges and the boxes in its squares and do edgeplaneintersections. Those routines are fairly easy to code once you know the underlying maths

I got it, I just wanted to simplify the question, and it went in wrong direction
What I understood, good thing would be to check raytriangle intersection, where there are three rays  for the triangle edges, that would check for intersection with each of box's rectangles?
I already got pretty good raytriangle intersection method, so it can be good idea, but won't checking it every time the object moves, be kind of bottleneck? Well, I will implement it first, and then check it's performance. Thanks for pointing me the right way! I will surely post more here.

The triangle and the box could intersect even if none of the triangle edges intersects the box. Picture a large triangle, and a small box sitting in the middle of the triangle.
Brokenmind: Wouldn't the intersection typically be a polygon? At least that's the case if you look at the triangle as a 2D area, and the cube as a 3D volume. The intersection is then a subset of the triangle.
At first sight, I would probably solve this with a clipping algorithm. Start with the original triangle, and clip it with the 6 planes that define the box, one by one.

Intern
Contributor
You're right, I forgot to mention that each of the tests that was done with the triangle edges and the quad must also be done with the quad edges and the triangle.
The intersection would be a polygon or at least a line strip if you look at the triangle  cube intersection. For simplicity, I would suggest to divide it into the triangle  quad intersection which then only gets an edge as intersection, given the two faces don't intersect coplanarly (then it gets ugly ).
@OP: Depending on the field of use, you could also use a tree to resemble your geometry (BBtree, KDtree or such) to get rid of the O(nē) bottleneck. This doesn't help with the pure intersection mathematics, though.

I still think that anything based on edges is going to be very cumbersome to implement. Picture the triangle completely inside the cube. No triangle edge intersects a face of the cube. No cube edge intersects the triangle. Yet, the triangle and the cube intersect. You could handle this case with additional conditions, but it's going to get painful.
The clipping approach I suggested seems much simpler. It's just like clipping of a triangle against the view volume if you implement an OpenGL style renderer in software.
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