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(In C#/XNA 4.0)

I have Vector3 cameraPosition, Vector3 targetPosition

I want to have my camera look at the target, always 'facing' it, but never rolling

So roll always is neutral, to view the target the camera always either adjusts pitch or yaw

I've tried countless combinations of methods and information I find here and on the web but I haven't found anything that works properly. I think my issue may be my 'Up' vector (which I've tried .Up, 1,0,0, 0,1,0, 0,0,1)

When I move my camera I do:

  CameraPosition += moveSpeed * vectorToAdd;

UpdateViewMatrix() is.. well, I've tried everything I have seen. At most simple...

   View = Matrix.CreateLookAt(CameraPosition, targetPosition, upVector);

Where upVector has been Vector3.Up, 1, 0, 0; 0, 1, 0; 0, 0, 1, or other more 'proper' attempts to get my actual up vector. This sounds like it's probably my problem..

This should be dead simple, help!

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As long as the 3rd arg of the CreateLookAt() is Vector3.Up (which is 0,1,0), the view matrix will not apply any roll. It is simply impossible. –  Steve H Dec 29 '10 at 12:53

2 Answers 2

up vote 1 down vote accepted

Ends up I was confusing myself somewhere about what things should look like and what I was actually considering "up" in my worldspace. I had to use up vector of (0, 0, 1) and things worked great

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Assuming a Y-up world space, absence of roll means that camera side vector has Y = 0. You have to get your view direction vector (normalize(targetPos - cameraPos)), and get such side vector that it's orthogonal to view and has Y = 0, in other words view.x * side.x + view.z * side.z = 0, view.y = 0. This is a simple 2d perpendicular, side = normalize(vector3(-view.z, 0, view.x)).

After you have the side vector, you can get up = cross(view, side) and construct the view matrix.

Depending on the handedness of your coordinate system, you may need to negate the side vector.

Note that there's a singularity at view.y = +-1 (side is a zero-length vector); this is because the roll is not defined for this pitch angle - any roll value gives the same transformation.

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On further reflection, for any sane LookAt function, this is equivalent to using an up-vector (0, 1, 0). –  zeuxcg Dec 29 '10 at 9:20

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