void FffPolygonGenerator::processFuzzyWalls(SliceMeshStorage& mesh)
{
if (mesh.getSettingAsCount("wall_line_count") == 0)
{
return;
}
int64_t fuzziness = mesh.getSettingInMicrons("magic_fuzzy_skin_thickness");
int64_t avg_dist_between_points = mesh.getSettingInMicrons("magic_fuzzy_skin_point_dist");
int64_t min_dist_between_points = avg_dist_between_points * 3 / 4; // hardcoded: the point distance may vary between 3/4 and 5/4 the supplied value
int64_t range_random_point_dist = avg_dist_between_points / 2;
for (unsigned int layer_nr = 0; layer_nr < mesh.layers.size(); layer_nr++)
{
SliceLayer& layer = mesh.layers[layer_nr];
for (SliceLayerPart& part : layer.parts)
{
Polygons results;
Polygons& skin = (mesh.getSettingAsSurfaceMode("magic_mesh_surface_mode") == ESurfaceMode::SURFACE)? part.outline : part.insets[0];
for (PolygonRef poly : skin)
{
// generate points in between p0 and p1
PolygonRef result = results.newPoly();
int64_t dist_left_over = rand() % (min_dist_between_points / 2); // the distance to be traversed on the line before making the first new point
Point* p0 = &poly.back();
for (Point& p1 : poly)
{ // 'a' is the (next) new point between p0 and p1
Point p0p1 = p1 - *p0;
int64_t p0p1_size = vSize(p0p1);
int64_t dist_last_point = dist_left_over + p0p1_size * 2; // so that p0p1_size - dist_last_point evaulates to dist_left_over - p0p1_size
for (int64_t p0pa_dist = dist_left_over; p0pa_dist < p0p1_size; p0pa_dist += min_dist_between_points + rand() % range_random_point_dist)
{
int r = rand() % (fuzziness * 2) - fuzziness;
Point perp_to_p0p1 = turn90CCW(p0p1);
Point fuzz = normal(perp_to_p0p1, r);
Point pa = *p0 + normal(p0p1, p0pa_dist) + fuzz;
result.add(pa);
dist_last_point = p0pa_dist;
}
dist_left_over = p0p1_size - dist_last_point;
p0 = &p1;
}
while (result.size() < 3 )
{
unsigned int point_idx = poly.size() - 2;
result.add(poly[point_idx]);
if (point_idx == 0) { break; }
point_idx--;
}
if (result.size() < 3)
{
result.clear();
for (Point& p : poly)
result.add(p);
}
}
skin = results;
}
}
}
void WallOverlapComputation::convertListPolygonToPolygon(ListPolygon& poly, PolygonRef result)
{
result.clear();
for (Point& p : poly)
{
result.add(p);
}
}
