This is my first question here so I hope I'm doing it right.

I'm trying to build a raytracer for a school project, and I'd like to add some texture mapping to my basic shapes. I already did it for the sphere and it worked perfectly, this is the algorithm I used (UV mapping):

d = vector3d_normalize(vector3d_sub(hit->point, object->position));
u = 0.5 + atan2(d.z, d.x) / M_PI * 0.5;
v = 0.5 - asin(d.y) / M_PI;

For the cylinder, I can't find any algorithm so I'm trying different things but I can't make it work. Actually, it works fine for a cylinder when it's fixed at (x: 0, y: 0, z: 0) but from the moment I'm moving it in space, the texture looks stretched.

For the code at this moment, it's the following:

d = vector3d_sub(hit->point, vector3d_mult(object->position, ray->direction));
u = 0.5 + atan2(d.z, d.x) / M_PI * 0.5;
v = d.y / M_PI;
v = v - floor(v);

Cylinder in (0, 0, 0): img

With translation: img

I'm stuck so if you have any idea, it could help me a lot!

  • 1. what info about the cylinder you got: (Basis vectors,transform matrix + radius + height, base point + axis + radius)? 2. What is the input (ray intersection point , ray start point + direction) ? to enable texturing: 1. compute intersection 2. convert it to cylinder [LCS] local coordinate system 3. compute u,v as you did but from x,y,z in [LCS] – Spektre Mar 7 '17 at 7:34
  • 1
    The line: d = vector3d_sub(hit->point, vector3d_mult(object->position, ray->direction)); is a bit puzzling for me - what is supposed to happen there? – Matso Mar 10 '17 at 14:45

Here's some pseudo-code from Jamis' Buck's The Ray Tracer Challenge (highly recommended):

    // Based off of pseudocode from Jamis Buck: http://raytracerchallenge.com/bonus/texture-mapping.html
    // Input: point on the cylinder. The cylinder is assumed to be of radius 1, centered at the origin and parallel with the y axis.
    // Output: (u,v) with u and v both between 0 and 1.
    // u will vary from 0 to 1 with the azimuthal angle, counter-clockwise.
    // v will vary from 0 to 1 with whole units of y; note that the cylinder will have to be scaled by PI in the y axis to prevent stretching
    map_cylinder_point_to_uv(point: (x: float, y: float, z: float)) -> (float, float) {
        // compute the azimuthal angle, -PI < theta <= PI
        float theta = arctan2(point.x, point.z);
        // convert from radians to units
        // -0.5 < rawU <= 0.5
        float rawU = theta / (2 * Constants.PI)
        // convert to correct scale, and flip it so that u increases with theta counter-clockwise
        // 0 <= u < 1
        float u = 1 - (rawU + 0.5);

        // v will vary from 0 to 1 between whole units of y
        // Use whatever modulus method or operator your language has to gauarantee a positive value for v.
        // It's different for every programming language: https://en.wikipedia.org/wiki/Modulo_operation#In_programming_languages
        float v = point.y % 1

        return (u, v)

Your problem may have to do with the fact that you are placing a square texture on a cylinder, and the length of the texture applied to the side of a cylinder will be some multiple of 2 PI (the circumference of a circle). You may be able to fix your issue by simply scaling the cylinder in the y axis by PI or 2 PI.

If you don't want to be limited to cylinders of particular dimensions, and you have a texture that can be repeated like a checker pattern, then you can scale v to prevent stretching. Replace the v calculation above with this line, instead:

// let v go from 0 to 1 between 2*pi units of y
let v = point.y % (2 * Constants.PI) * 1 / (2 * Constants.PI);

I'll also note that these days there's also a separate stack exchange for computer graphics that might be of more help than SO: https://computergraphics.stackexchange.com/.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.