I'm drawing a flat disk using gluDisk()
in my scene. gluDisk()
draws the disk facing the positive Z axis but I want it to be facing some arbitrary normal I have.
Clearly I need to use glRotate()
to get the disk facing properly but what should be the rotation? I remember this can be calculated using Quaternions but I can't seem to remember the math.



The solution should be pretty straightforward, and shouldn't require quarternions. The axis of rotation to get from Normal1 to Normal2 must be orthogonal to both, so just take their vector crossproduct. The amount of rotation is easily derived from their dotproduct. This value is A.B.cos(theta), but as the two normal vectors should be normalised it will give cos(theta), so just take the inverse cosine to get the rotation amount. The resulting vector and angle are the required parameters for p.s. don't forget that 


Quaternions describe a rotation about an axis.
For example, rotating it to face the positive Yaxis instead, you need to rotate it 90° around the Xaxis. The vector would be To rotate the figure from facing the positive Zaxis, to facing the vector If it is facing the positive Zaxis, the current vector would be



Rotation around an arbitrary axis: Given angle r in radians and unit vector u = ai + bj + ck or [a,b,c], define:
and construct from these values the rotation matrix:
To find the rotation you need to do, you can calculate the cross product between the current vector and the target vector. You will obtain the orthogonal vector (which will be your rotation vector to create the quaternion) and the length of this vector is the sin of the angle you have to compensate so that the start and target vector overlap. 

