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use circle_packing

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Justin Lin
2022-05-31 14:36:23 +08:00
parent 8c3a7d7f7a
commit b80ea25688
1 changed files with 15 additions and 54 deletions
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69
examples/packing_circles.scad
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@@ -1,66 +1,27 @@
use <util/rand.scad>; use <util/rand.scad>;
use <experimental/circle_packing.scad>;
size = [500, 250]; size = [200, 100];
min_radius = 5; density = 2;
max_radius = 50; min_radius = 1;
total_circles = 100; point_numbers = 100;
function _packing_circles_out_of_range(size, c) =
c[0] + c[2] >= size[0] ||
c[0] - c[2] <= 0 ||
c[1] + c[2] >= size[1] ||
c[1] - c[2] <= 0;
function _packing_circles_overlapping(circles, c, i = 0) = points = [
i == len(circles) ? false : for(i = [0:point_numbers - 1])
let( [rand(0, size.x), rand(0, size.y)]
x = c[0] - circles[i][0], ];
y = c[1] - circles[i][1],
a = c[2] + circles[i][2],
collision = a ^ 2 >= x ^2 + y ^ 2
)
collision || _packing_circles_overlapping(circles, c, i + 1);
function _packing_circles_packable(size, circles, c) =
!_packing_circles_overlapping(circles, c) &&
!_packing_circles_out_of_range(size, c);
function _packing_circles_new_min_circle(size, min_radius, attempts, circles, i = 0) = circles = circle_packing(points, density, min_radius);
i == attempts ? [] : mr = max([for(c = circles) c[1]]);
let(c = [rand() * size[0], rand() * size[1], min_radius])
_packing_circles_packable(size, circles, c) ? c :
_packing_circles_new_min_circle(size, min_radius, attempts, circles, i + 1);
function _packing_circles_increase_radius(size, circles, c, max_radius) =
c[2] == max_radius || !_packing_circles_packable(size, circles, c) ?
[c[0], c[1], c[2] - 1] :
_packing_circles_increase_radius(size, circles, [c[0], c[1], c[2] + 1], max_radius);
function _packing_circles_new_circle(size, min_radius, max_radius, attempts, circles) =
let(c = _packing_circles_new_min_circle(size, min_radius, attempts, circles))
c == [] ? [] : _packing_circles_increase_radius(size, circles, c, max_radius);
function _packing_circles(size, min_radius, max_radius, total_circles, attempts, circles = [], i = 0) =
i == total_circles ? circles :
let(c = _packing_circles_new_circle(size, min_radius, max_radius, attempts, circles))
c == [] ? _packing_circles(size, min_radius, max_radius, total_circles, attempts, circles) :
_packing_circles(size, min_radius, max_radius, total_circles, attempts, [each circles, c], i + 1);
function packing_circles(size, min_radius, max_radius, total_circles, attempts = 100) =
_packing_circles(is_num(size) ? [size, size] : size, min_radius, max_radius, total_circles, attempts);
circles = packing_circles(size, min_radius, max_radius, total_circles);
mr = max([for(c = circles) c[2]]);
translate([0, 0, mr]) translate([0, 0, mr])
for(c = circles) { for(c = circles) {
translate([c[0], c[1]]) translate(c[0])
sphere(c[2], $fn = 48); sphere(c[1], $fn = 48);
} }
for(c = circles) { for(c = circles) {
translate([c[0], c[1]]) translate(c[0])
linear_extrude(mr) linear_extrude(mr)
circle(c[2]/ 3, $fn = 48); circle(c[1]/ 3, $fn = 48);
} }
linear_extrude(1) square(size); linear_extrude(1) square(size);