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refactor

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Justin Lin
2021-08-10 19:30:07 +08:00
parent 091f071cb5
commit 26a0d7a62e
1 changed files with 48 additions and 50 deletions
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50
src/experimental/tile_penrose3.scad
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@@ -1,16 +1,12 @@
use <ptf/ptf_rotate.scad>; use <ptf/ptf_rotate.scad>;
use <hull_polyline2d.scad>; use <hull_polyline2d.scad>;
// triangle: [type, pa, pb pc], c: false(36) or true(108) module tile_penrose3(radius, fn, n) {
// triangle: [type, pa, pb pc], c: false(36) or true(108)
PHI = 1.618033988749895; // golden ratio
PHI = 1.618033988749895; // golden ratio
n = 12; function _subdivide(triangles) =
a0 = 360 / n;
a2 = 180 - a0 * 2;
function _subdivide(triangles) =
[ [
for(tri = triangles) for(tri = triangles)
let( let(
@@ -22,23 +18,31 @@ function _subdivide(triangles) =
each (type ? _sub_a1(a, b, c) : _sub_a0(a, b, c)) each (type ? _sub_a1(a, b, c) : _sub_a0(a, b, c))
]; ];
function _sub_a0(a, b, c) = function _sub_a0(a, b, c) =
let(p = a + (b - a) / PHI) let(p = a + (b - a) / PHI)
[[false, c, p, b], [true, p, c, a]]; [[false, c, p, b], [true, p, c, a]];
function _sub_a1(a, b, c) = function _sub_a1(a, b, c) =
let( let(
q = b + (a - b) / PHI, q = b + (a - b) / PHI,
r = b + (c - b) / PHI r = b + (c - b) / PHI
) )
[[true, r, c, a], [true, q, r, b], [false, r, q, a]]; [[true, r, c, a], [true, q, r, b], [false, r, q, a]];
function _penrose3(triangles, n, i = 0) = function _penrose3(triangles, n, i = 0) =
i == n ? triangles : i == n ? triangles :
_penrose3(_subdivide(triangles), n, i+ 1); _penrose3(_subdivide(triangles), n, i+ 1);
module tile_penrose3(triangles, n) { a0 = 360 / fn;
a2 = 180 - a0 * 2;
shape_tri0 = [[0, 0], [radius, 0], ptf_rotate([radius, 0], a0)];
triangles = [
for(i = [0:fn - 1])
let(t = [for(p = shape_tri0) ptf_rotate(p, i * a0)])
i % 2 == 0 ? [false, t[0], t[1], t[2]] : [false, t[0], t[2], t[1]]
];
tris = _penrose3(triangles, n); tris = _penrose3(triangles, n);
for(t = tris) { for(t = tris) {
color(t[0] ? "white" : "black") color(t[0] ? "white" : "black")
@@ -48,28 +52,22 @@ module tile_penrose3(triangles, n) {
} }
} }
side = 10; radius = 10;
fn = 12;
shape_tri0 = [[0, 0], [side, 0], ptf_rotate([side, 0], a0)]; tile_penrose3(radius, fn, 0);
triangles = [
for(i = [0:n - 1])
let(t = [for(p = shape_tri0) ptf_rotate(p, i * a0)])
i % 2 == 0 ? [false, t[0], t[1], t[2]] : [false, t[0], t[2], t[1]]
];
tile_penrose3(triangles, 0);
translate([30, 0]) translate([30, 0])
tile_penrose3(triangles, 1); tile_penrose3(radius, fn, 1);
translate([60, 0]) translate([60, 0])
tile_penrose3(triangles, 2); tile_penrose3(radius, fn, 2);
translate([0, -30]) translate([0, -30])
tile_penrose3(triangles, 3); tile_penrose3(radius, fn, 3);
translate([30, -30]) translate([30, -30])
tile_penrose3(triangles, 4); tile_penrose3(radius, fn, 4);
translate([60, -30]) translate([60, -30])
tile_penrose3(triangles, 5); tile_penrose3(radius, fn, 5);