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I have 4 points.. i can draw a polygon usign this code

var p = new Polygon();
p.Points.Add(new Point(0, 0));
p.Points.Add(new Point(70, 0));
p.Points.Add(new Point(90, 100));
p.Points.Add(new Point(0, 80));

How i can draw an 'ellipse' that will fit in this polygon, using Silverlight?

enter image description here

Question is still unanswared!!!

share|improve this question
3  
If you can't find any functions or code to do this for you right away (there might be, I just don't know of them), you can read up on this to give you ideas on how you can approach this. –  Jeff Mercado Mar 27 '11 at 19:13
    
tnx a lot for link, i'm not so good at math.. but i will try to 'get something' from this article.. –  Ai_boy Mar 27 '11 at 19:28
4  
Crucial info is missing: should the 'ellipse' have its axis x&y-aligned or can the axis be freely aligned? (According to your sample image one gets the impression that it should be x&y-aligned.) –  Dan Byström Mar 27 '11 at 20:34
1  
+1. Such an interesting question. –  Todd Main Mar 29 '11 at 23:46
1  
@Otaku, totally agree. :-) +1 also. –  Stephen Chung Mar 30 '11 at 6:38

4 Answers 4

One way is use QuadraticBezierSegment or BezierSegment.

For example, like this:

    <Path Stroke="Red" StrokeThickness="2" >
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                    <PathFigure StartPoint="0,40">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                <BezierSegment Point1="0,93"
                                           Point2="90,117"
                                           Point3="80,50"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
<Path Stroke="Red" StrokeThickness="2" >
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                    <PathFigure StartPoint="0,40">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                <BezierSegment Point1="0,-13"
                                           Point2="70,-17"
                                           Point3="80,50"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
<Polygon Points="0,0 70,0 90,100 0,80"></Polygon>

it look like this

it's not exact solution, for exact you must colculate exact points for curves and use 4 QuadraticBezierSegment

Edit: Example for QuadraticBezierSegment

<Path Stroke="Red" StrokeThickness="1">
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                    <PathFigure StartPoint="0,40">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="6,79"
                                           Point2="45,90"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
    <Path Stroke="Red" StrokeThickness="1">
        <Path.Data>
            <PathGeometry>
                <PathGeometry.Figures>
                    <PathFigureCollection>
                        <PathFigure StartPoint="45,90">
                            <PathFigure.Segments>
                                <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="80,91"
                                           Point2="80,50"
                                           />
                                </PathSegmentCollection>
                            </PathFigure.Segments>
                        </PathFigure>
                    </PathFigureCollection>
                </PathGeometry.Figures>
            </PathGeometry>
        </Path.Data>
    </Path>
    <Path Stroke="Red" StrokeThickness="1">
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                    <PathFigure StartPoint="0,40">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="2,3"
                                           Point2="35,0"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
    <Path Stroke="Red" StrokeThickness="1">
        <Path.Data>
            <PathGeometry>
                <PathGeometry.Figures>
                    <PathFigureCollection>
                        <PathFigure StartPoint="35,0">
                            <PathFigure.Segments>
                                <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="72,8"
                                           Point2="80,50"
                                           />
                                </PathSegmentCollection>
                            </PathFigure.Segments>
                        </PathFigure>
                    </PathFigureCollection>
                </PathGeometry.Figures>
            </PathGeometry>
        </Path.Data>
    </Path>
    <Polygon Name="pol"  Points="0,0 70,0 90,100 0,80" Stroke="Red" StrokeThickness="1"</Polygon>

this is image of this example

it still an experimental, not calculate point, but it quite exact.

Edit2: You may calculate points of curves with use of this image and my comments:

enter image description here

curves have a startpoint, midle point and endpoint. In this image start and end piont are L,M,N,O; and midle are W,X,Y,Z.

How for example we calculate point L:

Whith help of equation of line y = k * x + b we find equation of line AB,DC,AC,DB,AD. How cross of AC and DB we find R. How cross of AB and DC we find E. After that we find equation of line ER and how cross of ER and AD we find L.

How we calculate point W:

Whith help of equation for length l = sqrt(sqr(x2 - x1) + sqr(y2 - y1)) find length of AR. AW = AR/(4*pi) and whith help of this coefficient, and equation of line and equation for length, after solving of square equation we find W.

Other points we find similarly.

This algorithm not work only for polygon which have parallel line, but in this case algorithm is more easier. And coefficient for length are the same.

Whith help of this algorithm i find point for 3 curves of your example:

<Path Stroke="Red" StrokeThickness="1">
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                    <PathFigure StartPoint="0,36">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="4.7,74.6"
                                           Point2="39.9,88.9"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
    <Path Stroke="Red" StrokeThickness="1">
        <Path.Data>
            <PathGeometry>
                <PathGeometry.Figures>
                    <PathFigureCollection>
                        <PathFigure StartPoint="39.9,88.9">
                            <PathFigure.Segments>
                                <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="83.43,92.7"
                                           Point2="78.8,43.9"
                                           />
                                </PathSegmentCollection>
                            </PathFigure.Segments>
                        </PathFigure>
                    </PathFigureCollection>
                </PathGeometry.Figures>
            </PathGeometry>
        </Path.Data>
    </Path>
    <Path Stroke="Red" StrokeThickness="1">
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                    <PathFigure StartPoint="0,36">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                    <QuadraticBezierSegment Point1="3.55,3.94"
                                           Point2="31.8,0"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>

And it curves exactly the same as ellipse line. Image below:

enter image description here

You may translate this algorithm to 'formula' and so find your solution.

You need 4 function for that:

1) find line coefficients from coordinates of 2 pionts

2) find coordinates of piont how cross of 2 lines from it's coefficients

3) find length of segment from coordinates of 2 points

4) find coordinates of piont whiсh lies on line with this start point and this length from line coefficients and coordinates of start point and length which you find in previous function divided by (4*pi)

Edit3: You may optimize this solution, it have some defects, how parallel line etc. But it fast and if you optimise it may satisfy your requirements.

Xaml:

<Path Stroke="Red" StrokeThickness="1">
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                        <PathFigure x:Name="pathleftdown" StartPoint="0,0">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                    <QuadraticBezierSegment x:Name="bezleftdown" Point1="0,0"
                                           Point2="0,0"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
    <Path Stroke="Red" StrokeThickness="1">
        <Path.Data>
            <PathGeometry>
                <PathGeometry.Figures>
                    <PathFigureCollection>
                        <PathFigure x:Name="pathrigthdown" StartPoint="0,0">
                            <PathFigure.Segments>
                                <PathSegmentCollection>
                                    <QuadraticBezierSegment x:Name="bezrigthdown" Point1="0,0"
                                           Point2="0,0"
                                           />
                                </PathSegmentCollection>
                            </PathFigure.Segments>
                        </PathFigure>
                    </PathFigureCollection>
                </PathGeometry.Figures>
            </PathGeometry>
        </Path.Data>
    </Path>
    <Path Stroke="Red" StrokeThickness="1">
    <Path.Data>
        <PathGeometry>
            <PathGeometry.Figures>
                <PathFigureCollection>
                        <PathFigure x:Name="pathleftup"  StartPoint="0,0">
                        <PathFigure.Segments>
                            <PathSegmentCollection>
                                    <QuadraticBezierSegment x:Name="bezleftup" Point1="0,0"
                                           Point2="0,0"
                                           />                                       
                            </PathSegmentCollection>
                        </PathFigure.Segments>
                    </PathFigure>
                </PathFigureCollection>
            </PathGeometry.Figures>
        </PathGeometry>
    </Path.Data>
</Path>
    <Path Stroke="Red" StrokeThickness="1">
        <Path.Data>
            <PathGeometry>
                <PathGeometry.Figures>
                    <PathFigureCollection>
                        <PathFigure x:Name="pathrigthup"  StartPoint="0,0">
                            <PathFigure.Segments>
                                <PathSegmentCollection>
                                    <QuadraticBezierSegment x:Name="bezrigthup" Point1="0,0"
                                           Point2="0,0"
                                           />
                                </PathSegmentCollection>
                            </PathFigure.Segments>
                        </PathFigure>
                    </PathFigureCollection>
                </PathGeometry.Figures>
            </PathGeometry>
        </Path.Data>
    </Path>

    <Polygon Name="pol"  Points="0,0 250,0 251,340 0,341" Stroke="Red" StrokeThickness="1"></Polygon>
    <Button Content="Generate" Width ="80" Height="30" HorizontalAlignment="Right" VerticalAlignment="Top"  Click="Button_Click"></Button>

and code:

private class pointXY
    {
        public double x;
        public double y;
    }
    private class lineKB
    {
        public double k;
        public double b;
        public bool flagXconst = false;
        public double xConst = 0;
    }

    private lineKB GetLineFromPonts(pointXY A, pointXY B)
    {
        lineKB line = new lineKB();
        if ((B.x - A.x) != 0)
        {
            line.k = (B.y - A.y) / (B.x - A.x);
            line.b = A.y - A.x * line.k;
        }
        else
        {
            line.xConst = A.x;
            line.flagXconst = true;
        }
        return line;
    }

    private pointXY GetPointFromLines(lineKB a, lineKB b)
    {
        pointXY point = new pointXY();
        if (a.flagXconst)
        {
            point.x = a.xConst;
            point.y = a.xConst * b.k + b.b;
        }else
            if (b.flagXconst)
            {
                point.x = b.xConst;
                point.y = b.xConst * a.k + a.b;
            }
            else
            {
                point.x = (a.b - b.b) / (b.k - a.k);
                point.y = a.k * point.x + a.b;
            }
        return point;
    }

    private double LengthOfLine(pointXY A, pointXY B)
    {
        return Math.Sqrt((B.x - A.x) * (B.x - A.x) + (B.y - A.y) * (B.y - A.y));
    }

    private pointXY GetMidlePoint(pointXY S, double l, lineKB line, bool leftright)
    {
        double b = -2 * S.x - 2 * line.k * (-line.b + S.y);
        double a = (1 + line.k * line.k);
        double c = (S.x * S.x - l * l + (-line.b + S.y) * (-line.b + S.y));
        double d = b*b - 4 * a * c;
        double x1 = (-b + Math.Sqrt(d)) / (2 * a);
        double x2 = (-b - Math.Sqrt(d)) / (2 * a);
        pointXY ret = new pointXY();
        if (leftright)
            if (x1 > S.x) ret.x = x1;
            else ret.x = x2;
        else
            if (x1 < S.x) ret.x = x1;
            else ret.x = x2;
        ret.y = line.k * ret.x + line.b;
        return ret;
    }

    private void Button_Click(object sender, RoutedEventArgs e)
    {
        pointXY A = new pointXY();
        A.x = pol.Points[0].X;
        A.y = pol.Points[0].Y;
        pointXY B = new pointXY();
        B.x = pol.Points[1].X;
        B.y = pol.Points[1].Y;
        pointXY C = new pointXY();
        C.x = pol.Points[2].X;
        C.y = pol.Points[2].Y;
        pointXY D = new pointXY();
        D.x = pol.Points[3].X;
        D.y = pol.Points[3].Y;
        lineKB AC = GetLineFromPonts(A, C);
        lineKB BD = GetLineFromPonts(B, D);
        pointXY R = GetPointFromLines(AC, BD);

        lineKB AB = GetLineFromPonts(A, B);
        lineKB BC = GetLineFromPonts(B, C);
        lineKB CD = GetLineFromPonts(C, D);
        lineKB DA = GetLineFromPonts(D, A);

        pointXY E = GetPointFromLines(AB, CD);
        lineKB ER = GetLineFromPonts(E, R);
        pointXY L = GetPointFromLines(ER, DA);
        pointXY N = GetPointFromLines(ER, BC);

        pointXY F = GetPointFromLines(BC, DA);
        lineKB FR = GetLineFromPonts(F, R);
        pointXY M = GetPointFromLines(FR, AB);
        pointXY O = GetPointFromLines(FR, CD);

        pointXY W = GetMidlePoint(A, (LengthOfLine(A, R) / (4 * Math.PI)), AC, true);
        pointXY X = GetMidlePoint(B, (LengthOfLine(B, R) / (4 * Math.PI)), BD, false);
        pointXY Y = GetMidlePoint(C, (LengthOfLine(C, R) / (4 * Math.PI)), AC, false);
        pointXY Z = GetMidlePoint(D, (LengthOfLine(D, R) / (4 * Math.PI)), BD, true);

        pathleftup.StartPoint = new Point(L.x, L.y);
        bezleftup.Point1 = new Point(W.x, W.y);
        bezleftup.Point2 = new Point(M.x, M.y);

        pathleftdown.StartPoint = new Point(L.x, L.y);
        bezleftdown.Point1 = new Point(Z.x, Z.y);
        bezleftdown.Point2 = new Point(O.x, O.y);

        pathrigthdown.StartPoint = new Point(O.x, O.y);
        bezrigthdown.Point1 = new Point(Y.x, Y.y);
        bezrigthdown.Point2 = new Point(N.x, N.y);

        pathrigthup.StartPoint = new Point(M.x, M.y);
        bezrigthup.Point1 = new Point(X.x, X.y);
        bezrigthup.Point2 = new Point(N.x, N.y);

    }
share|improve this answer
    
could you make a simple example with QuadraticBezierSergemts, i tried to to this by my self but result is not so good :( –  Ai_boy Mar 29 '11 at 16:22
    
@Ai_boy Ok, i add it later, and add comment to you post when add. –  Sonorx Mar 29 '11 at 16:45
    
Tnx a lot.. i try to find a 'formula' for that case.. –  Ai_boy Mar 29 '11 at 22:09
    
@Ai_boy i try to help you, if i find, than add it to my answer –  Sonorx Mar 30 '11 at 1:50
2  
You put quite a bit of work into this. Thanks for giving us your best :) –  Tim Post Mar 31 '11 at 13:12

With the information given by Jeff M I created a function that returns an ellipse fitting in a polygon:

Ellipse FitEllipse(Polygon poly)
    {
        double W0 = poly.Points[0].X;
        double W1 = poly.Points[0].Y;
        double X0 = poly.Points[1].X;
        double X1 = poly.Points[1].Y;
        double Y0 = poly.Points[2].X;
        double Y1 = poly.Points[2].Y;
        double Z0 = poly.Points[3].X;
        double Z1 = poly.Points[3].Y;

        double A =  X0 * Y0 * Z1 - W0 * Y0 * Z1 - X0 * Y1 * Z0 + W0 * Y1 * Z0 - W0 * X1 * Z0 + W1 * X0 * Z0 + W0 * X1 * Y0 - W1 * X0 * Y0;
        double B =  W0 * Y0 * Z1 - W0 * X0 * Z1 - X0 * Y1 * Z0 + X1 * Y0 * Z0 - W1 * Y0 * Z0 + W1 * X0 * Z0 + W0 * X0 * Y1 - W0 * X1 * Y0;
        double C =  X0 * Y0 * Z1 - W0 * X0 * Z1 - W0 * Y1 * Z0 - X1 * Y0 * Z0 + W1 * Y0 * Z0 + W0 * X1 * Z0 + W0 * X0 * Y1 - W1 * X0 * Y0;
        double D =  X1 * Y0 * Z1 - W1 * Y0 * Z1 - W0 * X1 * Z1 + W1 * X0 * Z1 - X1 * Y1 * Z0 + W1 * Y1 * Z0 + W0 * X1 * Y1 - W1 * X0 * Y1;
        double E = -X0 * Y1 * Z1 + W0 * Y1 * Z1 + X1 * Y0 * Z1 - W0 * X1 * Z1 - W1 * Y1 * Z0 + W1 * X1 * Z0 + W1 * X0 * Y1 - W1 * X1 * Y0;
        double F =  X0 * Y1 * Z1 - W0 * Y1 * Z1 + W1 * Y0 * Z1 - W1 * X0 * Z1 - X1 * Y1 * Z0 + W1 * X1 * Z0 + W0 * X1 * Y1 - W1 * X1 * Y0;
        double G =  X0 * Z1 - W0 * Z1 - X1 * Z0 + W1 * Z0 - X0 * Y1 + W0 * Y1 + X1 * Y0 - W1 * Y0;
        double H =  Y0 * Z1 - X0 * Z1 - Y1 * Z0 + X1 * Z0 + W0 * Y1 - W1 * Y0 - W0 * X1 + W1 * X0;
        double I =  Y0 * Z1 - W0 * Z1 - Y1 * Z0 + W1 * Z0 + X0 * Y1 - X1 * Y0 + W0 * X1 - W1 * X0;

        double detT = A * E * I + B * F * G + C * D * H - A * F * H - B * D * I - C * E * G;

        double J = (E * I - F * H) / detT;
        double K = (C * H - B * I) / detT;
        double L = (B * F - C * E) / detT;
        double M = (F * G - D * I) / detT;
        double N = (A * I - C * G) / detT;
        double O = (C * D - A * F) / detT;
        double P = (D * H - E * G) / detT;
        double Q = (B * G - A * H) / detT;
        double R = (A * E - B * D) / detT;

        double a = J * J + M * M + P * P;
        double b = J * K + M * N - P * Q;
        double c = K * K + N * N - Q * Q;
        double d = J * L + M * O - P * R;
        double f = K * L + N * O - Q * R;
        double g = L * L + O * O - R * R;

        double Ex = (c * d - b * f) / (b * b - a * c);
        double Ey = (a * f - b * d) / (b * b - a * c);

        double Ea = Math.Sqrt(2.0 * (a * f * f + c * d * d + g * b * b - 2.0 * b * d * f - a * c * g) / ((b * b - a * c) * (Math.Sqrt((a - c) * (a - c) + 4.0 * b * b) - (a + c))));
        double Eb = Math.Sqrt(2.0 * (a * f * f + c * d * d + g * b * b - 2.0 * b * d * f - a * c * g) / ((a * c - b * b) * (Math.Sqrt((a - c) * (a - c) + 4.0 * b * b) + (a + c))));

        double phi = 0;

        if (b == 0 && a < c) {
            phi = 0;
        } else if (b == 0 && a > c) {
            phi = Math.PI / 2;
        } else if (b != 0 && a < c) {
            phi = (Math.PI / 2 - Math.Atan((a - c) / (2 * b))) / 2;
        } else if (b != 0 && a > c) {
            phi = (Math.PI / 2 - Math.Atan((a - c) / (2 * b))) / 2 + Math.PI / 2;
        }

        Ellipse el = new Ellipse();
        el.Height = Ea * 2;
        el.Width  = Eb * 2;

        el.RenderTransform = new RotateTransform(phi * 180 / Math.PI);

        return el;
    }
share|improve this answer
    
Wow, you made a lot of work. Man you awsome :) But it's "overkilling" in my point of view.. and also "render transform".. i don't think that browser will handle a lot this kind of "ellipses" –  Ai_boy Mar 29 '11 at 16:21
4  
I can only keep track of 4 meaningless variable-names at a time. –  BlueRaja - Danny Pflughoeft Mar 30 '11 at 6:16
    
+1 @Ai_boy I don't see how this is overkill at all. Looks like exactly what you want and RenderTransforms should be cheap enough. –  Patrick Klug Mar 30 '11 at 7:49
    
and if i draw 5000 of those 'ellipses' each second, it will render fast? irony you soulution is perfect.. but not in my case, sorry... –  Ai_boy Mar 30 '11 at 7:55

Although four bezier curves should do it quite fine (and is probably the simplest solution), I am proposing a different method here, just for kicks. :-)

Think of your problem this way: Given a regular rectangle, draw an ellipse inside, then deform the rectangle into your final shape.

I don't think your deform transformation is linear, so you probably can't simply find a matrix for it (note: I may be wrong, and would love to be proven wrong; any math buffs here?) Also see edit below.

One method is: draw your ellipse, then pull/push each of the four corners one by one. By deforming only one corner of a shape, you can always interpolate any point on the ellipse curve to its new position by keeping the diagonal between the left and right corners intact.

EDIT: TRANSFORM

Start with a square (and a circle inside).

  1. Rotate by 45 degress such that the diagonals are axes
  2. Scale both axes to the right scales so that they match the relative lengths of the new shape's two diagonals
  3. Skew one axis to the angle between the two diagonals of the new shape
  4. Translate one axis to make the origin point match the crossing-point of the new shape's diagonals

Notice that all four transformations are either pure linear or affine (i.e. linear + translation), so they are each representable with a transformation matrix. The end result is another affine transformation, which can also be represented by a matrix.

So your circle shape gets transformed by this matrix into the new shape.

I hope I haven't made a mistake in my math...

share|improve this answer
    
Well that's may be a solution.. but i think Matrix transformation wouldn't be so fast.. anyway, you have an intresting idia here, i try to implement it, but i'm not good at math –  Ai_boy Mar 30 '11 at 6:06
1  
+1 It's not linear, but projective; so you could still find a (4x4) matrix for it. –  BlueRaja - Danny Pflughoeft Mar 30 '11 at 6:20
    
Really? I though that projective transformation cannot handle arbitrary translations on all four corners... i.e. the four transformed corners must still obey certain mathematical relationship... :-) –  Stephen Chung Mar 30 '11 at 6:33
    
Thought of a new transformation method. See edit. –  Stephen Chung Mar 30 '11 at 6:40
3  
@Ai_boy, Silverlight falls back to software rendering when GPU is not available. So you don't need to worry about it. Anything that runs on a GPU will run without a GPU. Matrix manipulations are still the fastest since software rendering in Silverlight is still heavily vector/matrix based. Also, it leverages the SIMD instructions of the CPU. –  Stephen Chung Mar 30 '11 at 11:42

There's a small bug in Karsten's code around

} else if (b != 0 && a < c) {
    phi = (Math.PI / 2 - Math.Atan((a - c) / (2 * b))) / 2;
} else if (b != 0 && a > c) {       

It returns phi = 0 when a==c, which is incorrect. Instead, the above lines should be

} else if (b != 0 && a < c) {
    phi = (Math.PI / 2 - Math.Atan((a - c) / (2 * b))) / 2;
} else if (b != 0 && a >= c) {

or

} else if (b != 0 && a <= c) {
     phi = (Math.PI / 2 - Math.Atan((a - c) / (2 * b))) / 2;
} else if (b != 0 && a > c) {
share|improve this answer

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