/// <summary>
/// The my distance of non parallel plane.
/// </summary>
/// <param name="firstFace">
/// The first face.
/// </param>
/// <param name="secondFace">
/// The second face.
/// </param>
/// <param name="distanceMax">
/// The distance max.
/// </param>
/// <returns>
/// The <see cref="double"/>.
/// </returns>
public static double MyDistanceOfNonParallelPlane(Face2 firstFace, Face2 secondFace, out double distanceMax)
{
// Proietto ogni vertice della prima faccia sulla seconda e calcolo la distanza minima e la massima.
double distanceMin = 100;
distanceMax = 0;
var saveFirstFace = ((Entity)firstFace).GetSafeEntity();
var swSafeFirstEntity = (Entity)saveFirstFace.GetSafeEntity();
var listVertexFirstFace = BRepFunctions.MyGetVertexFromFace(saveFirstFace);
double[] firstPoint;
double[] secondPoint;
var firstNormal = GeometryFunctions.MyGetNormalForPlaneFace(firstFace, out firstPoint);
var secondNormal = GeometryFunctions.MyGetNormalForPlaneFace(secondFace, out secondPoint);
var secondPlaneEquation = GeometryFunctions.MyGetPlaneEquation(secondNormal, secondPoint);
// Calcolo la proiezione dei vertici della prima faccia
foreach (Vertex vertex in listVertexFirstFace)
{
// Dal vertice ottengo il punto e lo proietto, considerando la retta passante per il punto e direzione firstNormal
double[] point = vertex.GetPoint();
double[] secondEquationLine;
var firstEquationLine = GeometryFunctions.MyLineEquation(firstNormal, point, out secondEquationLine);
var pointProjection = GeometryFunctions.MyPointIntersectionLinePlane(
firstEquationLine, secondEquationLine, secondPlaneEquation);
var distanceTest = MyDistanceTwoPoint(point, pointProjection);
if (distanceTest > distanceMax)
{
distanceMax = distanceTest;
}
if (distanceTest < distanceMin)
{
distanceMin = distanceTest;
}
}
return(distanceMin);
}
/// <summary>
/// The my distance parallel plane.
/// </summary>
/// <param name="firstFace">
/// The first face.
/// </param>
/// <param name="secondFace">
/// The second face.
/// </param>
/// <returns>
/// The <see cref="double"/>.
/// </returns>
public static double MyDistanceParallelPlane(Face2 firstFace, Face2 secondFace)
{
double distance;
double[] firstPoint;
double[] secondPoint;
var firstNormal = GeometryFunctions.MyGetNormalForPlaneFace(firstFace, out firstPoint);
var secondNormal = GeometryFunctions.MyGetNormalForPlaneFace(secondFace, out secondPoint);
var primoPiano = GeometryFunctions.MyGetPlaneEquation(firstNormal, firstPoint);
distance =
Math.Abs(
(double)primoPiano.GetValue(0) * (double)secondPoint.GetValue(0)
+ (double)primoPiano.GetValue(1) * (double)secondPoint.GetValue(1)
+ (double)primoPiano.GetValue(2) * (double)secondPoint.GetValue(2) + (double)primoPiano.GetValue(3))
/ Math.Sqrt(Math.Pow((double)firstNormal.GetValue(0), 2) + Math.Pow((double)firstNormal.GetValue(1), 2) + Math.Pow((double)firstNormal.GetValue(2), 2));
return(distance);
}