Checking if a point is on a line segment, works except in some cases (rounding error?)

Question

For the issue below, is it a matter of I'm so close to zero but comparing zero with a tolerance won't work? The more precise the numbers, the more my check for an arc's point on a line fails and the less precise the more it works. The CAD drawing does have an arc that has a point on a line segment and that is where I get my input co-ordinates from for this test.

class Line
{
   public Point Point1 {get;set;}
   public Point Point2 {get;set;}
   public Line(double x1, double y1, double x2, double y2)
   {
      Point1 = new Point(x1,y1); Point2 = new Point(x2,y2);
   }
}

class Point
{ 
   public double X {get;set;}
   public double Y {get;set;}
   public Point (double x, double y)
   {
       X = x; Y = y;
  }
}

//4 decimal place numbers, works
Point arcEnd = new Point(3.8421, 16.9538); // these numbers don't 
//3.84212141717697, 
//16.9538136440052
Point arcStart = new Point(4.0921, 17.2038);

//test an arc point on/off the line
Line line = new Line(3.9336, 16.9538, 3.7171, 16.9538); 
//these numbers don't 3.93362776812308, 16.9538136440053, 
//3.71712141717697, 16.9538136440054

bool on_line = Sign(line.Point1, line.Point2, arcEnd) //true

//more precise numbers, from CAD / dxf drawing for line and arc, arc end 
//point touches somewhere on the line (included in comments above, fail)
//so on_line = true for the above inputs and the Sign function gives zero, 
//but when using the commented precise numbers sign gives back 1 and the 
//value computed in sign is 3.0639866299190109E-14.




public static bool Sign(Point Point1, Point Point2, Point point)
{
    double value = (Point2.X - Point1.X) * (p.Y - Point1.Y) - (Point2.Y - Point1.Y) * (p.X - Point1.X);

    return Equals(Math.Sign(value), 0);
}

public static bool Equals(double d1, double d2, double tolerance=0.000001)
{
    double a = Math.Abs(d1 - d2);
    double b = Math.Abs(d1 * tolerance);

    if (a <= b)
    {
       return true;
    }

    return false;
}

Reviewed formulas and stack overflow, the algorithm works a majority of the time but found cases it fails and I traced it to the included example and identified my check is giving back Sign = 1 not Sign = 0 for the above inputs and more precision.

Answer 1

You made two mistakes. First, you used Sign function in "Return Equals(Math.Sign(value), 0);", which will give you the value of 1 for any positive number and value of -1 for any negative number. This will destroy your attempt to use tolerance. Second, you tried to compare the difference with a ratio of the first number "b = Math.Abs(d1 * tolerance)", which will always return False. I recommend you compare it with tolerance itself, like this.

public static bool Sign(Point Point1, Point Point2, Point point)
{
    double value = (Point2.X - Point1.X) * (point.Y - Point1.Y) - (Point2.Y - Point1.Y) * (point.X - Point1.X);
    return Equals(value, 0);
}

public static bool Equals(double d1, double d2, double tolerance = 0.000001)
{
    double a = Math.Abs(d1 - d2);
    if (a <= tolerance)
        return true;
    return false;
}