## What I'm doing

I have a scene which algorithmically draws a `prism`

with a hexagonal cross-section and n layers of such prisms surrounding the center one, such that all the prisms together make a larger hexagon shape.

Now, each row of prisms is displaced from the next by a multiple of sqrt(3)/2 (because the dimensions of one prism are <1,sqrt(3)>, because sin(120/2°) = sqrt(3)/2).

I imagine that the float values of the resulting positions in relation to the dimensions of the prisms do not always exactly coincide in a way that produces zero gap between the objects. Hence, I don't get a smooth, uniform shape when I wrap the whole thing up in a `merge`

and assign it a transparent glassy material. Depending on the value of n, I get jittery weirdness at the edges inside the merge object, or shadows of some surfaces, or both.

This is a snippet from the comment block at the beginning of my code which explains the scene in ASCII art:

```
__
__/ \__
__/ \ 1/ \__
/ \13/ \ 6/ \
\17/ \ 2/ \10/
/ \14/ \ 7/ \ #3 is at <0,0,0>
\18/ \ 3/ \11/
/ \15/ \ 8/ \
\19/ \ 4/ \12/
\16/ \ 9/
\ 5/
```

The entire code is too long to paste here, but it's available here. It is probably also very painful to read, because I am a bad coder and because POVray doesn't have `#for`

loops.

## My question(s)

- How do I account for the unpredictability and imprecision of float values in making merges of mathematically positioned objects which only touch on the surface but do not overlap?
- Is this even supposed to work the way I want it to in POVray?
- Am I doing something very stupid here?