根据krlzlx的建议,我已将其作为一个新问题发布。
从这里开始:
3D Line Segment and Plane Intersection
我对这个算法有问题,我已经像这样实现了它:
template <class T>
class AnyCollision {
public:
std::pair<bool, T> operator()(Point3d &ray, Point3d &rayOrigin, Point3d &normal, Point3d &coord) const {
// get d value
float d = (normal.x * coord.x) + (normal.y * coord.y) + (normal.z * coord.z);
if (((normal.x * ray.x) + (normal.y * ray.y) + (normal.z * ray.z)) == 0) {
return std::make_pair(false, T());
}
// Compute the X value for the directed line ray intersecting the plane
float a = (d - ((normal.x * rayOrigin.x) + (normal.y * rayOrigin.y) + (normal.z * rayOrigin.z)) / ((normal.x * ray.x) + (normal.y * ray.y) + (normal.z * ray.z)));
// output contact point
float rayMagnitude = (sqrt(pow(ray.x, 2) + pow(ray.y, 2) + pow(ray.z, 2)));
Point3d rayNormalised((ray.x / rayMagnitude), (ray.y / rayMagnitude), (ray.z / rayMagnitude));
Point3d contact((rayOrigin.x + (rayNormalised.x * a)), (rayOrigin.y + (rayNormalised.y * a)), (rayOrigin.z + (rayNormalised.z * a))); //Make sure the ray vector is normalized
return std::make_pair(true, contact);
};
Point3d定义为:
class Point3d {
public:
double x;
double y;
double z;
/**
* constructor
*
* 0 all elements
*/
Point3d() {
x = 0.0;
y = 0.0;
z = 0.0;
}
我被迫使用这种结构,因为在较大的系统中,我在其中运行的组件是这样定义的,并且无法更改。
我的代码编译得很好,但测试我得到的点值不正确。 x,y,z的比例是正确的,但幅度是错误的。
例如:if:
rayOrigin.x = 0;
rayOrigin.y = 0;
rayOrigin.z = 0;
ray.x = 3;
ray.y = -5;
ray.z = 12;
normal.x = -3;
normal.y = 12;
normal.z = 0;
coord.x = 7;
coord.y = -5;
coord.z = 10;
我希望得到的结论是:
(0.63, 1.26, 1.89)
然而,它是:
(3.52, -5.87, 14.09)
5.09的幅度太大了。
我也测试过:
rayOrigin.x = 0;
rayOrigin.y = 0;
rayOrigin.z = 0;
ray.x = 2;
ray.y = 3;
ray.z = 3;
normal.x = 4;
normal.y = 1;
normal.z = 0;
p0.x = 2;
p0.y = 1;
p0.z = 5;
我希望得到的结论是:
(1.64, 2.45, 2.45)
然而,它是:
(3.83761, 5.75642, 5.75642)
2.34的幅度太大了?
答案 0 :(得分:1)
伪代码(不需要矢量归一化):
Diff = PlaneBaseCoordinate - RayOrigin
d = Normal.dot.Diff
e = Normal.dot.RayVector
if (e)
IntersectionPoint = RayOrigin + RayVector * d / e
otherwise
ray belongs to the plane or is parallel
快速检查:
Ray (0,0,0) (2,2,2) //to catch possible scale issues
Plane (0,1,0) (0,3,0) //plane y=1
Diff = (0,1,0)
d = 3
e = 6
IntersectionPoint = (0,0,0) + (2,2,2) * 3 / 6 = (1, 1, 1)