# Determining if a point is inside a polyhedron

I'm attempting to determine if a specific point lies inside a polyhedron. In my current implementation, the method I'm working on take the point we're looking for an array of the faces of the polyhedron (triangles in this case, but it could be other polygons later). I've been trying to work from the info found here: http://softsurfer.com/Archive/algorithm_0111/algorithm_0111.htm

Below, you'll see my "inside" method. I know that the nrml/normal thing is kind of weird .. it's the result of old code. When I was running this it seemed to always return true no matter what input I give it. (This is solved, please see my answer below -- this code is working now).

``````bool Container::inside(Point* point, float* polyhedron[3], int faces) {
Vector* dS = Vector::fromPoints(point->X, point->Y, point->Z,
100, 100, 100);
int T_e = 0;
int T_l = 1;

for (int i = 0; i < faces; i++) {
float* polygon = polyhedron[i];

float* nrml = normal(&polygon[0], &polygon[1], &polygon[2]);
Vector* normal = new Vector(nrml[0], nrml[1], nrml[2]);
delete nrml;

float N = -((point->X-polygon[0][0])*normal->X +
(point->Y-polygon[0][1])*normal->Y +
(point->Z-polygon[0][2])*normal->Z);
float D = dS->dot(*normal);

if (D == 0) {
if (N < 0) {
return false;
}

continue;
}

float t = N/D;

if (D < 0) {
T_e = (t > T_e) ? t : T_e;
if (T_e > T_l) {
return false;
}
} else {
T_l = (t < T_l) ? t : T_l;
if (T_l < T_e) {
return false;
}
}
}

return true;
}
``````

This is in C++ but as mentioned in the comments, it's really very language agnostic.

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You should update this question so that it is more language agnostic. What you are asking is not specific to openGL or C++. Once you have a general theory you can adapt it to what every language and 3D API you want –  thecoshman Jan 16 '12 at 9:27
create a simple case where you can verify it's not inside the object, then start debugging it..the code looks about right after quickly skimming through it.. –  duedl0r Jan 16 '12 at 9:30
This doesn't look like a very robust method. First, it will only work with convex polyhedra. Second, it will fail for all kinds of boundary cases (chosen ray lies in the plane of one of the faces, etc). –  n.m. Jan 16 '12 at 17:39
I'm not worried about concave polyhedra, so that doesn't matter. However, I am open to suggestions on how to catch more boundary cases. –  gregghz Jan 16 '12 at 17:54
@duedl0r, Thanks for what should have been an obvious approach. Heeding that simple advice is what lead me to my solution. –  gregghz Jan 16 '12 at 18:56

It turns out that the problem was my reading of the algorithm referenced in the link above. I was reading:

``````N = - dot product of (P0-Vi) and ni;
``````

as

``````N = - dot product of S and ni;
``````

Having changed this, the code above now seems to work correctly. (I'm also updating the code in the question to reflect the correct solution).

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