** OPTION #1 **
Use a body with two fixtures: The first would be a central circle shape to give the body some mass. The second would be the ellipse, with the vertices made from a chain shape.
The first fixture allows you to have the body act like a body with some mass, while the second fixture will allow you to handle collisions properly.
I did an example for a roulette wheel recently. I posted the code below to create that. Replace the constant value for the radius (OUTER_RADIUS) with the polar form of the radius for an ellipse found here on wikipedia.
const float32 INNER_RADIUS = 2.50;
const float32 OUTER_RADIUS = 3.0;
const float32 BALL_RADIUS = 0.1;
const uint32 DIVISIONS = 36;
// Create the body.
bodyDef.position = position;
bodyDef.type = b2_dynamicBody;
_body = _world->CreateBody(&bodyDef);
assert(_body != NULL);
// Now attach fixtures to the body.
fixtureDef.density = 1.0;
fixtureDef.friction = 1.0;
fixtureDef.restitution = 0.9;
fixtureDef.isSensor = false;
// Inner circle.
circleShape.m_radius = INNER_RADIUS;
fixtureDef.shape = &circleShape;
// Outer shape.
const float32 SPIKE_DEGREE = 2*M_PI/180;
for(int idx = 0; idx < DIVISIONS; idx++)
float32 angle = ((M_PI*2)/DIVISIONS)*idx;
float32 xPos, yPos;
xPos = OUTER_RADIUS*cosf(angle);
yPos = OUTER_RADIUS*sinf(angle);
fixtureDef.shape = &chainShape;
You can also check out this post for the roulette wheel (plus picture goodness) solution.
Instead of using a chain/edge shape, you can create a triangle fan of fixtures. Once you have the vertices for the ellipse, you could do something like:
triVerts = Vec2(0,0);
for(int idx = 1; idx < vertices.size(); idx++)
fixtureDef.shape = ▵
// Assumes the vertices are going around
// the ellipse clockwise as angle increases.
triVerts = vertices[idx-1];
triVerts = vertices[idx];
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