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I have to draw an ellipse of arbitrary size and orientation pixel by pixel. It seems pretty easy to draw an ellipse whose major and minor axes align with the x and y axes, but rotating the ellipse by an arbitrary angle seems trickier. Initially I though it might work to draw the unrotated ellipse and apply a rotation matrix to each point, but it seems as though that could cause errors do to rounding, and I need rather high precision.

Is my suspicion about this method correct? How could I accomplish this task more precisely?

I'm programming in C++ (although that shouldn't really matter since this is a more algorithm-oriented question).

Edit: as David pointed out, I guess I may really be wondering how to do pixel interpolation.

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Use:

x = X cos(a) - Y sin(a)
y = Y cos(a) + X sin(a)

Where a is the angle of anticlockwise rotation, (x, y) are the new coordinates, and (X, Y) are the old.

You should use floats to preserve precision. Just go through every point, apply the transformation, and voilà.

Edit: after some searching, here's some code from Microsoft: http://research.microsoft.com/en-us/um/people/awf/graphics/bres-ellipse.html that draws rastered conic sections.

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    I believe this runs the usual risk with "forward" transformations: that the aliasing will cause you to "skip" pixels in the transformed coordinates. – dmckee --- ex-moderator kitten Jun 11 '10 at 19:18
  • Yeah, that's why I've been looking for a different method. Are there any good ways to deal with aliasing? – amc Jun 11 '10 at 19:19
  • Yeah, I mean, it all depends on what library you use to do your drawing. But aliasing will screw up any type of rotation. Your question should be "how do I do pixel interpolation?" :) – David Titarenco Jun 11 '10 at 19:20
  • @amc: I read working solution once, but it's in a book somewhere... I'll dig it up and post it if I find time and no one eats me to it. – dmckee --- ex-moderator kitten Jun 11 '10 at 19:22
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    Added a link to some fun code by MS, it's pretty verbose so it should be easy to follow :} – David Titarenco Jun 11 '10 at 19:47
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Bresenham (famous for his line drawing algorithm) also has an algorithm for drawing an ellipse. You can try to google bresenham ellipse.

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Use the Bresenham method of drawing axis-aligned ellipses, but apply a shear to the drawn ellipse. You will also need to modify the lengths of the axes. A sheared ellipse is also an ellipse. This method preserves the Bresenham advantage of drawing filled ellipses using horizontal line segments. What you need in order to do this is the function which maps a specification of an ellipse in terms of axes and rotation into a different set of axes and a shear. A solution is available online at http://scratch.mit.edu/projects/50039326/ with a discussion about the method and a description of the math involved at http://scratch.mit.edu/discuss/topic/94194/

The mapping was discovered by Nathan Dinsmore (user nXIII at the MIT Scratch site)

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  • This is amazing. Should be the top answer as it's a new, better, solution to an old question. – tukra May 31 '16 at 7:36
  • Without a doubt this is the right answer. But why in the world was this implemented in scratch :/ – Enrico Borba Jul 30 '18 at 6:07
  • There's javascript code at the foot of g6auc.me.uk/ellipses/index.html which may be more accessible. – Graham Toal Jul 31 '18 at 9:08

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