# OpenGL draw circle, weird bugs

I'm no mathematician, but I need to draw a filled in circle.

My approach was to use someone else's math to get all the points on the circumference of a circle, and turn them into a triangle fan.

I need the vertices in a vertex array, no immediate mode.

The circle does appear. However, when I try and overlay circles strange things happen. They appear only a second and then disappear. When I move my mouse out of the window a triangle sticks out from nowhere.

Here's the class:

``````class circle
{
//every coordinate with have an X and Y
private:
GLfloat *_vertices;
static const float DEG2RAD = 3.14159/180;

GLfloat _scalex, _scaley, _scalez;
int _cachearraysize;

public:

circle(float scalex, float scaley, float scalez, float radius, int numdegrees)
{
//360 degrees, 2 per coordinate, 2 coordinates for center and end of triangle fan
_cachearraysize = (numdegrees * 2) + 4;

_vertices = new GLfloat[_cachearraysize];
for(int x= 2; x < (_cachearraysize-2); x = x + 2)
{
}

//get the X as X of 0 and X of 180 degrees, subtract to get diameter.  divide
_vertices[0]= ((_vertices[2] - _vertices[362])/2) + _vertices[362];

//same idea for Y
_vertices[1]= ((_vertices[183] - _vertices[543])/2) + _vertices[543];

//close off the triangle fan at the same point as start
_vertices[_cachearraysize -1] = _vertices[0];
_vertices[_cachearraysize] = _vertices[1];

_scalex = scalex;
_scaley = scaley;
_scalez = scalez;

}
~circle()
{
delete[] _vertices;
}

void draw()
{
glScalef(_scalex, _scaley, _scalez);
glVertexPointer(2,GL_FLOAT, 0, _vertices);
glDrawArrays(GL_TRIANGLE_FAN, 0, _cachearraysize);
}
};
``````
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Where do you set up your depth testing? Can you post a minimal SDL/GLUT program that demonstrates the problem? – genpfault Nov 28 '10 at 7:37
Depth testing should be probably disabled if it's 2D and the OP expects the circles to appear in the order of being drawn. – Kos Nov 28 '10 at 14:16

That's some ugly code, I'd say - lots of magic numbers et cetera.

Try something like:

``````struct Point {
Point(float x, float y) : x(x), y(y) {}
float x, y;
};
std::vector<Point> points;
const float step = 0.1;

points.push_back(Point(0,0));
// iterate over the angle array
for (float a=0; a<2*M_PI; a+=step) {
}
// duplicate the first vertex after the centre
points.push_back(points.at(1));

// rendering:

glEnableClientState(GL_VERTEX_ARRAY);
glVertexPointer(2,GL_FLOAT,0, &points[0]);
glDrawArrays(GL_TRIANGLE_FAN,0,points.size());
``````

It's up to you to rewrite this as a class, as you prefer. The math behind is really simple, don't fear to try and understand it.

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