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There is a fast way to draw circle like this

void DrawCircle(float cx, float cy, float r, int num_segments) 
{ 
    float theta = 2 * 3.1415926 / float(num_segments); 
    float c = cosf(theta);//precalculate the sine and cosine
    float s = sinf(theta);
    float t;

    float x = r;//we start at angle = 0 
    float y = 0; 

    glBegin(GL_LINE_LOOP); 
    for(int ii = 0; ii < num_segments; ii++) 
    { 
        glVertex2f(x + cx, y + cy);//output vertex 

        //apply the rotation matrix
        t = x;
        x = c * x - s * y;
        y = s * t + c * y;
    } 
    glEnd(); 
}

I am wondering if there is a similar way to draw ellipse where its major/minor axes vector and size are both known.

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That code will never be "efficient" as long as you use immediate mode (glBegin, glVertex, glEnd, etc.) –  Axel Gneiting May 4 '11 at 19:11

2 Answers 2

up vote 2 down vote accepted

There is no way to draw a curve in openGL, just a lot of straight lines. But if you used vertex buffer objects then you won't have to send each vertex to the graphics card which will be much faster.

My Java Example

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If the ellipse is ((x-cx)/a)^2 + ((y-cy)/b)^2 = 1 then change the glVertex2f call to glVertext2d(a*x + cx, b*y + cy);

To simplify the sums, lets suppose for a while that the ellipse is centred at the origin.

If the ellipse is rotated so that the semi-major axis (of length a) makes an angle theta with the x axis, then the ellipse is the set of points p so that p' * inv(C) * p = 1, where C is the matrix R(theta) * D * R(theta)' where ' denotes transpose and D is the diagonal matrix with entries a*a,b*b (b the length of the semi-minor axis). If L is the cholesky factor (eg here) of C then the ellipse is the set of points p so that (inv(L) * p)'*(inv(L) *p ) = 1, so that L maps the unit circle to the ellipse. If we have computed L as ( u 0 ; v w) (just once, before the loop) then the glVertexf call becomes glVertex2f( u*x + cx, v*x + w*y + cy);

L can be calculated like this (where C is cos(theta) and S is sin(theta)):

u = sqrt( C*C*a*a + S*S*b*b); v = C*S*(a*a-b*b); w = a*b/u;

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I think this only works when the ellipse axes are aligned to the X and Y axes (if even then?). –  LarsH May 5 '11 at 14:38

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