I have a camera that orbits around a fixed point using quaternions. The problem is that as the camera rotates around the x-axis and passes over a pole, that the camera will flip and produce a mirrored image. This makes sense because the camera is facing the opposite way but the up vector of the camera hasn't changed. Clearly, a new up vector needs to be calculated from the look vector and the right vector but I can't seem to get it to work. Note: this uses http://commons.apache.org/math/api-2.2/org/apache/commons/math/geometry/Rotation.html to represent quaternions.

Anyway, I'm using the following basic procedure to rotate the camera.

The rotation quaternion is initialised to the identity [1, 0, 0, 0]:

```
private Rotation total = Rotation.IDENTITY;
```

And the up vector of the camera is initialised as:

```
private Vector3D up = new Vector3D(0, 1, 0);
```

Rotation is done by storing the current rotation of the camera as a quaternion and then applying any subsequent rotations to this quaternion, the combined quaternion (total) is then used to rotate the position of the camera. The following code describes this procedure:

```
/**
* Rotates the camera by combining the current rotation (total) with any new axis/angle representation of a new rotation (newAxis, rotation).
*/
public void rotateCamera() {
if (rotation != 0) {
//Construct quaternion from the new rotation:
Rotation local = new Rotation(Math.cos(rotation/2), Math.sin(rotation/2) * newAxis.getX(), Math.sin(rotation/2) * newAxis.getY(), Math.sin(rotation/2) * newAxis.getZ(), true);
//Generate new camera rotation quaternion from current rotation quaternion and new rotation quaternion:
total = total.applyTo(local);
//Rotate the position of the camera using the camera rotation quaternion:
cam = rotateVector(local, cam);
//rotation is complete so set the next rotation to 0
rotation = 0;
}
}
/**
* Rotate a vector around a quaternion rotation.
*
* @param rotation The quaternion rotation.
* @param vector A vector to be rotated.
* @return The rotated vector.
*/
public Vector3D rotateVector(Rotation rotation, Vector3D vector) {
//set world centre to origin, i.e. (width/2, height/2, 0) to (0, 0, 0)
vector = new Vector3D(vector.getX() - width/2, vector.getY() - height/2, vector.getZ());
//rotate vector
vector = rotation.applyTo(vector);
//set vector in world coordinates, i.e. (0, 0, 0) to (width/2, height/2, 0)
return new Vector3D(vector.getX() + width/2, vector.getY() + height/2, vector.getZ());
}
```

The fields newAxis and rotation which store the axis/angle of any new rotation are generated by key presses as follows:

```
@Override
public void keyPressed(KeyEvent e) {
if (e.getKeyCode() == KeyEvent.VK_W) {
camera.setAxis(new Vector3D(1, 0, 0));
camera.setRotation(0.1);
}
if (e.getKeyCode() == KeyEvent.VK_A) {
camera.setAxis(new Vector3D(0, 1, 0));
camera.setRotation(0.1);
}
if (e.getKeyCode() == KeyEvent.VK_S) {
camera.setAxis(new Vector3D(1, 0, 0));
camera.setRotation(-0.1);
}
if (e.getKeyCode() == KeyEvent.VK_D) {
camera.setAxis(new Vector3D(0, 1, 0));
camera.setRotation(-0.1);
}
}
```

During each render loop the rotateCamera() method is called and then the following code sets the camera:

```
glu.gluLookAt(camera.getCam().getX(), camera.getCam().getY(), camera.getCam().getZ(), camera.getView().getX(), camera.getView().getY(), camera.getView().getZ(), 0, 1, 0);
```