# Move Camera Around Sphere

I'm trying to move my camera in a spherical motion around a model in my world. I've seen converting spherical coordinates(rho, theta, phi) to cartesian coordinates (x, y, z), but I'm not sure how to go about setting this up. Here is what I've tried to so far but it isn't continuously orbiting the model. It gets to a certain point and then the rotation seems to reverse itself.

Initialize `theta` and `phi`:

``````private float theta = 0.0f;
private float phi = 0.0f;
``````

Update `theta` and `phi` each frame:

``````// This should move the camera toward the upper-right continuously, correct?
theta = (theta+1.0f)%360;
phi = (phi+1.0f)%360;
``````

Convert `theta` and `phi` to cartesian coordinates for the camera:

``````camera.position.x = CAMERA_DISTANCE * (float)Math.sin(theta*MathHelper.PIOVER180) * (float)Math.cos(phi*MathHelper.PIOVER180);
camera.position.y = CAMERA_DISTANCE * (float)Math.sin(theta*MathHelper.PIOVER180) * (float)Math.sin(phi*MathHelper.PIOVER180);
camera.position.z = CAMERA_DISTANCE * (float)Math.cos(theta*MathHelper.PIOVER180);
``````

Then update the camera look at point and view matrix:

``````camera.lookAt(0, 0, 0);
camera.update();
``````

Note: I am using Java on Android with the libGDX framework and I am trying to control the rotation using an 2D on-screen virtual joystick and I still need to find a way to map the joystick to `theta` and `phi`.

Any help is greatly appreciated!

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## 1 Answer

I recently did something just like this. This website helped me a lot to visualize what I needed to do.

What you need to do is convert your local joystick coordinates (relative to it's center) to pitch and yaw values:

``````public float getPitch()
{
return (position.X - center.X) * MathHelper.PIOVER180;
}

public float getYaw()
{
return (position.Y - center.Y) * MathHelper.PIOVER180;
}
``````

Then you can use a quaternion to represent it's rotation:

``````public void rotate(float pitch, float yaw, float roll)
{
newQuat.setEulerAngles(-pitch, -yaw, roll);
rotationQuat.mulLeft(newQuat);
}
``````

Then you can apply the quaternion to the camera's view matrix using libGDX's built in `rotate(quaternion)` method:

``````camera.view.rotate(rotationQuat);

// Remember to set the camera to "look at" your model
camera.lookAt(0, 0, 0);
``````
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That worked perfectly! Thank you!! – Alex_Hyzer_Kenoyer Dec 26 '12 at 15:49