Calculates a vector lying a specified distance between two other vectors.
Given vectors v1 and v2, this function will calculate and return vector v lying between them. If pct != -1, vector v will be the point which is pct % of the way from v1 to v2. Otherwise, if pct equals -1, v will be the point along 'v1-v2' which is distance wid from v1.
Calculate the line, that is the result of the Intersection of triangle 1 and triangle 2.
This Method returns false, if there is no intersection. If there is an intersection, the start of the line is in line[0] and the end of the line is in line[1] and the method return true;
Find all observer sides on the first box that can see the other box.
Sides are numbered like this: 0=MinX(), 1=MaxX(), 2=MinY(), 3=MaxY(), 4=MinZ(), 5=MaxZ(). The given array should have place for 6 sides. This function returns the number of observer sides.
Calculate the set of outer planes between the two boxes.
Is something does not intersect this set of planes then it will not be between the two boxes. The given array of planes should have place for at least eight planes. This function returns the number of planes that are put in 'planes'.
Set the min and max vector if this vector exceeds their current limits.
This function will check each component of vector v against the maximum and minimum values specified by min and max. If the limits are exceeded, new min or max values will be set.
Tests which side of a plane the given 3D point is on.
Return -1 if point p is left of plane '0-v1-v2', 1 if point p is right of plane '0-v1-v2', or 0 if point p lies on plane '0-v1-v2'. Plane '0-v1-v2' is the plane passing through points <0,0,0>, v1, and v2.
Warning: the result of this function when 'p' is exactly on the plane 0-v1-v2 is undefined. It should return 0 but it will not often do that due to numerical inaccuracies. So you should probably test for this case seperatelly.
The documentation for this class was generated from the following file: