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Maths101 question - does anyone know how to calculate an ellipse (width/height) that will enclose a given rectangle. Obviously there is no single ellipse - I'm after an algorithm that will give me various width/height combinations - or perhaps the smallest area of ellipse? It's for a GUI, so an aesthetically pleasing ratio of height/width is what I'm looking for.

Thanks in advance.

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closed as off topic by Bill the Lizard Aug 27 '11 at 22:28

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Bill the Lizard. the line between math and programming is blurry at best, and in this case, this is completely relevant to progamming. I need to draw a gradient that is inside a rectangle. The best way to do that is to determine the points that are on an ellipse that circumscribe my rectangle. Bam. Math, sucka. –  colinta Sep 7 '12 at 22:11

5 Answers 5

up vote 4 down vote accepted

The equation for a ellipse centered in the origin is

(x/A)^2 + (y/B)^2 = 1

Now if you want to enclose a rectangle of MxN with a eclipse you can move its center to the origin of coordinates. The top right coordinates are (M/2,N/2), replacing in the ellipse equation you have a formula you can use to solve B given A (or A given B).

If you have a rectangle of 4x2, the top-right coordinates are (2,1), replacing you have the (2/A)^2 + (1/B)^2 = 1, then if A=4 solving for B gives B=1/sqrt(1-(1/2)^2).

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Thanks for the explanation - makes total sense now. –  Scotty Jan 12 '09 at 20:59

If you give your ellipse the same aspect ratio as the rectangle, you can work on the basis that what you want is a circle enclosing a square then stretched as if you've transformed the square into the required rectangle.

For a square with half side length = 1, the radius of the circle would be sqrt(2).

So, sweeping theta from 0 - 360', the ellipse's coordinate points will be:

  • x = cos(theta) * sqrt(2) * rect.width + x.center;
  • y = sin(theta) * sqrt(2) * rect.height + y.center;

where rect.width and rect.height are the half widths of the relevant sides.

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Very nice solution, +1. –  mstrobl Jan 11 '09 at 19:37
actually it's not quite right yet - I'm still working on it... –  Alnitak Jan 11 '09 at 19:37
ok, I think the maths is actually right now. I've tested the formulae on Grapher.app –  Alnitak Jan 11 '09 at 19:54
This is perfect. To be absolutely clear, you can get the dimensions of the bounding ellipse by just multiplying the dimensions of the rectangle by sqrt(2). –  Xanthir Aug 30 '09 at 17:15
If you want to change the aspect ratio you can use width' = sqrt(rect.width^2 + ratio^2 * rect.height^2) and height' = width' / ratio with ratio being the requested aspect ratio (width/height) for the ellipse. –  Paul B. Jun 1 '12 at 15:09
  1. Ellipse formula is (x/A)^2+(y/B)^2=1, where A and B are radiuses of ellipse
  2. Rectangle sides are Rw and Rh
  3. Let's assume we want ellipse with same proportions as rectangle; then, if we image square in circle (A=B,Rq=Rh) and squeeze it, we well keep ratio of ellipse A/B same as ratio of rectangle sides Rw/Rh;

This leads us to following system of equations:

Lets solve it: A=B*(Rw/Rh)

And final solution:


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Assuming you mean circumscribed (which is more precise than "enclosed"), you can read about how to circumscribe a rectangle here. From there, you can stretch it to rectangular, as Alnitak says.

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Experimentally, I found that an ellipse defined by a rectangle that is sqrt(2) larger than the inner rectangle works. So pass sqrt(2) to this function, and you will get the appropriate rectangle:

RectangleF boundingEllipse = GetScaledRectangle(innerRect, Convert.ToSingle(Math.Sqrt(2d)));

private RectangleF GetScaledRectangle(RectangleF rect, float scale) { float width = rect.Width * scale; float height = rect.Height * scale;

float gap = width - rect.Width;
float left = rect.Left - (gap / 2f);

gap = height - rect.Height;
float top = rect.Top - (gap / 2f);

return new RectangleF(left, top, width, height);


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