# Converting 2D viewport translation to 3D rotation

I am trying to rotate a 3D Cylinder with reference to a 2D viewport. With the radius of the cylinder and the 2D translation known, how can i find out the angle it turns?

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It would be helpful to know more about your situation and what specifically you are trying to achieve. It's not clear how you want to be rotation and translation to be related. – Kendall Frey Mar 27 '13 at 17:30
@KendallFrey I have edited my post with an illustration hope you understand what i meant. Thanks! – icube Mar 27 '13 at 17:56
If you are trying to find appropriate search terms for a 2D-3D mapping, the usual term is "unproject", which reverse-walks a 2D construct (usually a point-ray) into a 3D ray. – JerKimball Mar 27 '13 at 22:24

Let's assume the cylinder rotates from A to B. Further, let's assume that A is `θ` degrees counterclockwise and B is `θ` degrees clockwise from the horizontal. Thus, the angle between A and B is `2θ`.

The y coordinate of A is given by `r*sin(θ)`, that of B is simply `-r*sin(θ)`.

Thus, `2*r*sin(θ) = D` (the pan distance)

Solve for `θ`:

``````θ = asin(D/(2*r))
``````

(where asin is the arc sine function)

Another (possibly more robust) method would be to compute the perpendicular and base of the triangle and then do an `atan2(perp,base)`.

The perpendicular is simply `D/2`, while the base is `sqrt(R*R - D*D/4)`.

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Wouldn't the formula you use depend on the projection you use? – Scott Chamberlain Mar 27 '13 at 20:29
Absolutely! Good point, @ScottChamberlain. I'm assuming this is for one of those "wheel" widgets like this one: android-devblog.blogspot.com/2010/05/wheel-ui-contol.html – Rahul Banerjee Mar 27 '13 at 22:15
@RahulBanerjee Thanks! Your formula seems to work great for my case. I am actually doing a 3D carousel with touch. Implementing it with Touch manipulation and inertia. – icube Mar 28 '13 at 1:52
Glad I guessed (almost) correctly! Thanks for the feedback :) – Rahul Banerjee Mar 28 '13 at 1:56