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I know how to get the intersection point between a ray and a plane, if I know the ray and a point on the plane, and the plane normal.

In the code I use the plane is represented as signed offset from origin, and normal, and I need to get some, any point on the plane. How to do this?

So, the plane equation: Ax + By + Cz + D = 0, and I know A,B and C, that is basically the normal of the plane and I know D, which is the signed distance from the origin. And my question is, given that how do I get some 3D point on the plane?


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isn't any point satisfying the equation o point on the plane? – chaohuang Nov 17 '12 at 23:20
up vote 0 down vote accepted

You get one plane point by intersecting plane with a ray (line) :-)

Choose some point P=(x,y,z), calculate w=Ax+By+Cz.

If w=-D than P is on the plane.

For w!=-D, choose some direction Q=(dx,dy,dz) for which l=Adx+Bdy+Cdz!=0, e.g. q=(A,0,0), if B!=0 or C!=0. Than point P+l*Q/w is on the plane.

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If (A, B, C) are normalized vector, the point on the plane closest to original is simply:

(-AD, -BD, -CD)

This can be easily known from your description that (A, B, C) is the plane normal, and D is the distance between the plane and origin.

This method is simple and do not need any branching.

Point on plane closest to origin

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