the situation is this; i have a 3dimensional view, where i have drawn a line. i know the line direction vector (x,y,z) and i have a given value which is the radius of the cylinder. the direction vector is the center of my cylinder. i wish, based on the radius and direction vector to draw the cylinder. for that, given my working environment capabilities, i only need to calculate the points of the two disks which are the two limits of the cylinder ( i have the (x1,y1,z1), (x2,y2,z2) which are the start & end of the cylinder center) i need to take the normal of the direction vector and calculate all points of the disk which its center is either (x1,y1,z1) or (x2,y2,z2) together with the radius i already have. of course, everything is descrete, so 360 points (going with difference of 1degree) is good enough
closed as off topic by Justin ᚅᚔᚈᚄᚒᚔ, Matthew Strawbridge, martin clayton, Chris Gerken, Dante is not a Geek Dec 11 '12 at 2:48Questions on Stack Overflow are expected to relate to programming within the scope defined by the community. Consider editing the question or leaving comments for improvement if you believe the question can be reworded to fit within the scope. Read more about reopening questions here. If this question can be reworded to fit the rules in the help center, please edit the question. 


Let b be the centre of the base of the cylinder, c be the centre of the top of the cylinder, v be a vector pointing along the axis of the cylinder, and r be the cylinder's radius: Now let v̂ = v / v be the unit vector in the direction of v; let ŵ be an arbitrary unit vector perpendicular to v̂, and R(ŵ, v̂, θ) be the result of rotating ŵ through an angle of θ about the axis v̂. Then the points around the circumference of the base of the cylinder that you are looking for are b + r R(ŵ, v̂, θ) for θ between 0° and 359°. (And with c for b, you get the points around the circumference of the top of the cylinder.) To find ŵ, take the crossproduct of v̂ with any unit vector that's not parallel to v̂. In pseudocode:
R(ŵ, v̂, θ) can be computed using Rodrigues' rotation formula. (But most likely, whatever 3D library you are using will have a function for computing this: for example, in the Unity3D framework you can call 

