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the situation is this; i have a 3-dimensional 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

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closed as off topic by Justin ᚅᚔᚈᚄᚒᚔ, Matthew Strawbridge, martin clayton, Chris Gerken, Dante is not a Geek Dec 11 '12 at 2:48

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This question is a better fit for Math.SE; StackOverflow is for programming-specific questions. –  Justin ᚅᚔᚈᚄᚒᚔ Dec 10 '12 at 21:02
This is a bad fit for math se. So, @e-r-a-n, you need to clarify the question. Do you want to calculate the surface points for this cylinder and project them for visualization ? Or do you already have something that can do the plotting ? What is the actual problem you have ? –  mmgp Dec 10 '12 at 21:11

1 Answer 1

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 = v / |v| be the unit vector in the direction of v; let ŵ be an arbitrary unit vector perpendicular to , and R(ŵ, , θ) be the result of rotating ŵ through an angle of θ about the axis .

Then the points around the circumference of the base of the cylinder that you are looking for are b + r R(ŵ, , 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 cross-product of with any unit vector that's not parallel to . In pseudo-code:

if v̂[0] < v̂[1]:
    ŵ = v̂ × {1, 0, 0}
    ŵ = v̂ × {0, 1, 0}

R(ŵ, , 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 Quaternion.AngleAxis to turn axis-angle representation into a quaternion, and then multiply the quaternion by a vector to get the rotated vector.)

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