Exemplo n.º 1
0
        public static double SlopeAngle(ZZCoordinate firstPoint, ZZCoordinate nextPoint, bool degres = true)
        {
            double dx = nextPoint.X - firstPoint.X, dy = nextPoint.Y - firstPoint.Y;
            double slopeAngle;

            if (dx == 0)                          // Vertical slope
            {
                slopeAngle = (dy > 0) ? 90 : -90; // Upward / Downward
            }
            else if (dy == 0)                     // Horizontal slope
            {
                slopeAngle = (dx > 0) ? 0 : 180;  // Right / Left
            }
            else
            {
                slopeAngle = ZZMath.ToDegrees(Math.Atan(dy / dx));
                if (dx < 0)
                {
                    slopeAngle += 180;
                }
                else if (dy < 0)
                {
                    slopeAngle += 360; // Because ATan return a negative angle in the 2th and 4th quarter, but the 2th is made positive thanks to the +180
                }
            }

            return((degres) ? slopeAngle : ZZMath.ToRadians(slopeAngle));
        }
Exemplo n.º 2
0
        // http://villemin.gerard.free.fr/GeomLAV/Triangle/Calcul/RelQuel_fichiers/image089.jpg
        // C = point to check, A = first point of line, B = second point of line
        public static double GetDistancePointToLine(ZZCoordinate firstPoint, ZZCoordinate secondPoint, ZZCoordinate toCheck)
        {
            // Calculation of the triangle' sides' length
            double b = ZZMath.GetDistance(firstPoint, toCheck);
            double c = ZZMath.GetDistance(firstPoint, secondPoint);

            // Calculation of one of the angle attached to the straight line
            double angleFirstPoint = ZZMath.AngleFrom3Points(secondPoint, firstPoint, toCheck, true);
            // double angleA = angleARadian / (Math.PI / 180.0); // Falcultative: to know the angle in degrees

            double h = b * Math.Sin(angleFirstPoint);            // Perpendicular distance

            double c1 = b * Math.Cos(angleFirstPoint);           // Distance between firstPoint base of h (can be negative)
            double c2 = c - c1;                                  // Distance between secondPoint base of h (can be negative)

            double clickCoordToFirstPoint  = GetDistance(c1, h); // Distance between toCheck and firstPoint
            double clickCoordToSecondPoint = GetDistance(c2, h); // Distance between toCheck and secondPoint

            if (c1 >= 0 && c2 >= 0)                              // toCheck is between firstPoint and secondPoint perpendicularly
            {
                return(h);
            }
            else     // toCheck isn't betwwen firstPoint and secondPoint
            {
                return((clickCoordToFirstPoint < clickCoordToSecondPoint) ? clickCoordToFirstPoint : clickCoordToSecondPoint);
            }
        }