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Now i draw pictures in circle by formula :

     float x = CIRCLE_RADIUS *  (float) Math.sin(2f * Math.PI * drawSquareIndex / ITEMS_COUNT + angle) * 1.75f;

where x - is a X point of circle item.

And i have a circle.

enter image description here

but i want to draw pictures on ellipse. What the formula i need to use?

enter image description here

How i can do that?

P.S. sorry about quality. Make a question from phone.

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  • I am not sure I understand, do you mean you want to find the equation for ellipses? Or maybe do you want to find the equation based on the points? – Tonio Mar 26 '14 at 14:10
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You can use parametric ellipse equaition (a = b is a case of cirle):

x = a * cos(t)
y = b * sin(t)
t = 0..2*PI

In your case

  // Pseudo code
  for (double t = 0; t < 2 * PI; t += 0.001) { // <- or different step
    double x = RadiusX * Math.Cos(t);
    double y = RadiusY * Math.Sin(t);

    Paint(x, y);
  }
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  • That's if the ellipse is in canocical form, otherwise you need to take into account the center (x_c, y_c) of the ellipse and the angle phi between the X axis and the major axis of the ellipse. Then, x = x_c + a * cos(t) * cos(phi) - b * sin(t) * sin(phi) and y = y_c + a * cos(t) * sin(phi) - b * sin(t) * cos(phi) (ref) – Tonio Mar 26 '14 at 14:24
  • @Tonio: Yes, you're quite right: shifts by x and y axises and rotation transformations. But according the picture in the question it is the simplest (canonical) ellipse that's required. So I've omited x = x + dx; y = y + dy; and the rotation matrix – Dmitry Bychenko Mar 26 '14 at 14:27
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    That's true, I added it in the comment for reference. By the way, I made a mistake in my expressions of x and y, for reference, these are: x = x_c + a * cos(t) * cos(phi) - b * sin(t) * sin(phi) and y = y_c + a * cos(t) * sin(phi) + b * sin(t) * cos(phi). Which is probably why manipulating transformation matrices -- as you suggested -- helps to get clarity in equations and helps prevent sign mistakes ;) – Tonio Mar 26 '14 at 14:33

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