[ https://issues.apache.org/jira/browse/MATH1211?page=com.atlassian.jira.plugin.system.issuetabpanels:alltabpanel
]
Luc Maisonobe resolved MATH1211.

Resolution: Fixed
Fix Version/s: 3.5
Your analysis was perfectly correct and your solution was good. I only made
a minor change so it is easier to understand.
Fixed in git repository. Beware the fix is currently only in the MATH_3_X branch, which is
not the master branch. It will be included in the upcoming 3.5 release.
Thanks for the report and the fix.
> PolyhedronsSet.firstIntersection(Vector3D point, Line line) sometimes reports intersections
on wrong end of line
> 
>
> Key: MATH1211
> URL: https://issues.apache.org/jira/browse/MATH1211
> Project: Commons Math
> Issue Type: Bug
> Reporter: Mike Zimmerman
> Fix For: 3.5
>
> Attachments: IntersectionTest.java
>
>
> I constructed a PolyhedronsSet from a list of triangular faces representing an icosphere
(using the instructions found at https://mailarchives.apache.org/mod_mbox/commonsuser/201208.mbox/<5039FE35.2090307@free.fr>).
This seems to produce correct INSIDE/OUTSIDE results for randomly chosen points. I think
my mesh triangles are defined appropriately.
> However, using PolyhedronsSet.firstIntersection(Vector3D point, Line line) to shoot randomly
oriented rays from the origin sometimes gives a wrong mesh intersection point "behind" the
origin. The intersection algorithm is sometimes picking up faces of the sphereshaped mesh
on the wrong semiinfinite portion of the line, i.e. meshIntersectionPoint.subtract(point).dotProduct(line.getDirection())<0
where point is the Vector3D at center of the sphere and line extends outward through the mesh.
> I think the dot product above should always be positive. If multiple intersections exist
along a "whole" line then the first one in "front" of the line's origin should be returned.
This makes ray tracing with a PolyhedronsSet possible.

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