ENH: open support wall count for normal support

1. open support wall count for normal support
  Enabling this option makes normal support stronger and gives
  better overhang quality, but also more difficult to removal.
  Jira: STUDIO-5192
2. fix a bug where tree support (hybrid style) may get overlapped
  extrusions near the walls.
3. fix a bug where raft layers can't be 1 in tree support
  Jira: STUDIO-5261

Change-Id: Iadc0c67a9b50b5b221c8e83d5aa22ed282018cf8
(cherry picked from commit c0bb0084e386cb70ed6e16edf93190e4b38f5b90)
This commit is contained in:
Arthur 2023-11-16 21:05:26 +08:00 committed by Lane.Wei
parent fc24aa6ead
commit bf93fd02fb
5 changed files with 89 additions and 77 deletions

View File

@ -9114,11 +9114,11 @@ msgstr "树状支撑分支直径"
msgid "This setting determines the initial diameter of support nodes."
msgstr "此设置确定了树状支撑节点的初始直径。"
msgid "Tree support wall loops"
msgstr "树状支撑外墙层数"
msgid "Support wall loops"
msgstr "支撑外墙层数"
msgid "This setting specify the count of walls around tree support"
msgstr "树状支撑外墙层数"
msgid "This setting specify the count of walls around support"
msgstr "此设置指定了支撑的外墙层数"
msgid "Tree support brim width"
msgstr "树状支撑裙边宽度"

View File

@ -3272,11 +3272,11 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionFloat(5.));
def = this->add("tree_support_wall_count", coInt);
def->label = L("Tree support wall loops");
def->label = L("Support wall loops");
def->category = L("Support");
def->tooltip = L("This setting specify the count of walls around tree support");
def->tooltip = L("This setting specify the count of walls around support");
def->min = 0;
def->mode = comDevelop;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionInt(1));
def = this->add("tree_support_brim_width", coFloat);

View File

@ -97,7 +97,7 @@ struct SupportParameters {
}
SupportMaterialPattern support_pattern = object_config.support_base_pattern;
this->with_sheath = is_tree(object_config.support_type) && object_config.tree_support_wall_count > 0;
this->with_sheath = /*is_tree(object_config.support_type) &&*/ object_config.tree_support_wall_count > 0;
this->base_fill_pattern =
support_pattern == smpHoneycomb ? ipHoneycomb :
this->support_density > 0.95 || this->with_sheath ? ipRectilinear : ipSupportBase;

View File

@ -19,11 +19,6 @@
#include "BuildVolume.hpp"
#include "ClipperUtils.hpp"
#define _L(s) Slic3r::I18N::translate(s)
#define USE_PLAN_LAYER_HEIGHTS 1
#define HEIGHT_TO_SWITCH_INFILL_DIRECTION 30 // change infill direction every 20mm
#ifndef M_PI
#define M_PI 3.1415926535897932384626433832795
#endif
@ -173,7 +168,7 @@ Lines spanning_tree_to_lines(const std::vector<MinimumSpanningTree>& spanning_tr
#ifdef SUPPORT_TREE_DEBUG_TO_SVG
static std::string get_svg_filename(std::string layer_nr_or_z, std::string tag = "bbl_ts")
static std::string get_svg_filename(const std::string& tag = "bbl_ts", const std::string& layer_nr_or_z="")
{
static bool rand_init = false;
@ -183,10 +178,13 @@ static std::string get_svg_filename(std::string layer_nr_or_z, std::string tag
}
int rand_num = rand() % 1000000;
//makedir("./SVG");
std::string prefix = "./SVG/";
std::string prefix = "C:/Users/arthur.tang/AppData/Roaming/BambuStudioInternal/SVG/";
//makedir(prefix);
std::string suffix = ".svg";
return prefix + tag + "_" + layer_nr_or_z /*+ "_" + std::to_string(rand_num)*/ + suffix;
std::string name = prefix + tag;
if(!layer_nr_or_z.empty())
name+= "_" + layer_nr_or_z;
return name + suffix;
}
static void draw_contours_and_nodes_to_svg
@ -214,10 +212,7 @@ static void draw_contours_and_nodes_to_svg
bbox.max.y() = std::max(bbox.max.y(), (coord_t)scale_(10));
SVG svg;
if(!layer_nr_or_z.empty())
svg.open(get_svg_filename(layer_nr_or_z, name_prefix), bbox);
else
svg.open(name_prefix, bbox);
svg.open(get_svg_filename(name_prefix, layer_nr_or_z), bbox);
if (!svg.is_opened()) return;
// draw grid
@ -273,7 +268,7 @@ static void draw_layer_mst
bbox.merge(bb);
}
SVG svg(get_svg_filename(layer_nr_or_z, "mstree").c_str(), bbox);
SVG svg(get_svg_filename("mstree",layer_nr_or_z).c_str(), bbox);
if (!svg.is_opened()) return;
svg.draw(lines, "blue", coord_t(scale_(0.05)));
@ -290,7 +285,7 @@ static void draw_two_overhangs_to_svg(SupportLayer* ts_layer, const ExPolygons&
BoundingBox bbox2 = get_extents(overhangs2);
bbox1.merge(bbox2);
SVG svg(get_svg_filename(std::to_string(ts_layer->print_z), "two_overhangs"), bbox1);
SVG svg(get_svg_filename("two_overhangs", std::to_string(ts_layer->print_z)), bbox1);
if (!svg.is_opened()) return;
svg.draw(union_ex(overhangs1), "blue");
@ -303,7 +298,7 @@ static void draw_polylines(SupportLayer* ts_layer, Polylines& polylines)
return;
BoundingBox bbox = get_extents(polylines);
SVG svg(get_svg_filename(std::to_string(ts_layer->print_z), "lightnings"), bbox);
SVG svg(get_svg_filename("lightnings", std::to_string(ts_layer->print_z)), bbox);
if (!svg.is_opened()) return;
int id = 0;
@ -707,7 +702,7 @@ TreeSupport::TreeSupport(PrintObject& object, const SlicingParameters &slicing_p
m_support_params.independent_layer_height = false; // do not use independent layer height for 3D tree support
#endif
#ifdef SUPPORT_TREE_DEBUG_TO_SVG
SVG svg("SVG/machine_boarder.svg", m_object->bounding_box());
SVG svg(get_svg_filename("machine_boarder"), m_object->bounding_box());
if (svg.is_opened()) svg.draw(m_machine_border, "yellow");
#endif
}
@ -903,7 +898,7 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
if (!overhang.empty()) {
has_sharp_tails = true;
#ifdef SUPPORT_TREE_DEBUG_TO_SVG
SVG svg(format("SVG/sharp_tail_orig_%.02f.svg", layer->print_z), m_object->bounding_box());
SVG svg(get_svg_filename(format("sharp_tail_orig_%.02f", layer->print_z)), m_object->bounding_box());
if (svg.is_opened()) svg.draw(overhang, "red");
#endif
}
@ -1020,7 +1015,7 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
if (!overhang.empty())
has_sharp_tails = true;
#ifdef SUPPORT_TREE_DEBUG_TO_SVG
SVG svg(format("SVG/sharp_tail_%.02f.svg",layer->print_z), m_object->bounding_box());
SVG svg(get_svg_filename(format("sharp_tail_%.02f",layer->print_z)), m_object->bounding_box());
if (svg.is_opened()) svg.draw(overhang, "red");
#endif
}
@ -1033,6 +1028,8 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
for (size_t layer_nr = 0; layer_nr < m_object->layer_count(); layer_nr++) {
if (m_object->print()->canceled())
break;
if(layer_nr+m_raft_layers>=m_object->support_layer_count())
break;
SupportLayer* ts_layer = m_object->get_support_layer(layer_nr + m_raft_layers);
Layer* layer = m_object->get_layer(layer_nr);
for (auto& overhang : ts_layer->overhang_areas) {
@ -1073,9 +1070,9 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
const Layer* layer1 = m_object->get_layer(cluster.min_layer);
BoundingBox bbox = cluster.merged_bbox;
bbox.merge(get_extents(layer1->lslices));
SVG svg(format("SVG/overhangCluster_%s-%s_%s-%s_tail=%s_cantilever=%s_small=%s.svg",
SVG svg(get_svg_filename(format("overhangCluster_%s-%s_%s-%s_tail=%s_cantilever=%s_small=%s",
cluster.min_layer, cluster.max_layer, layer1->print_z, m_object->get_layer(cluster.max_layer)->print_z,
cluster.is_sharp_tail, cluster.is_cantilever, cluster.is_small_overhang), bbox);
cluster.is_sharp_tail, cluster.is_cantilever, cluster.is_small_overhang)), bbox);
if (svg.is_opened()) {
svg.draw(layer1->lslices, "red");
svg.draw(cluster.merged_poly, "blue");
@ -1121,8 +1118,9 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
}
if (max_bridge_length > 0 && ts_layer->overhang_areas.size() > 0 && lower_layer) {
// do not break bridge for normal part in TreeHybrid
bool break_bridge = !(support_style == smsTreeHybrid && area(ts_layer->overhang_areas) > m_support_params.thresh_big_overhang);
// do not break bridge for normal part in TreeHybrid, nor Tree Strong
bool break_bridge = !(support_style == smsTreeHybrid && area(ts_layer->overhang_areas) > m_support_params.thresh_big_overhang)
&& !(support_style==smsTreeStrong);
m_object->remove_bridges_from_contacts(lower_layer, layer, extrusion_width_scaled, &ts_layer->overhang_areas, max_bridge_length, break_bridge);
}
@ -1156,7 +1154,7 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
if (layer->overhang_areas.empty() && (blockers.size()<=layer->id() || blockers[layer->id()].empty()))
continue;
SVG svg(format("SVG/overhang_areas_%s.svg", layer->print_z), m_object->bounding_box());
SVG svg(get_svg_filename("overhang_areas", std::to_string(layer->print_z)), m_object->bounding_box());
if (svg.is_opened()) {
svg.draw_outline(m_object->get_layer(layer->id())->lslices, "yellow");
svg.draw(layer->overhang_areas, "orange");
@ -1183,40 +1181,48 @@ void TreeSupport::detect_overhangs(bool detect_first_sharp_tail_only)
void TreeSupport::create_tree_support_layers()
{
int layer_id = 0;
{ //create raft layers
int layer_id = 0;
coordf_t raft_print_z = 0.f;
coordf_t raft_slice_z = 0.f;
// Insert the base layers.
for (size_t i = 0; i < m_slicing_params.base_raft_layers; i++, layer_id++) {
// 1st layer should use first_print_layer_height
coordf_t height = i == 0 ? m_slicing_params.first_print_layer_height : m_slicing_params.base_raft_layer_height;
{
// Do not add the raft contact layer, 1st layer should use first_print_layer_height
coordf_t height = m_slicing_params.first_print_layer_height;
raft_print_z += height;
raft_slice_z = raft_print_z - height / 2;
m_object->add_tree_support_layer(layer_id, height, raft_print_z, raft_slice_z);
m_object->add_tree_support_layer(layer_id++, height, raft_print_z, raft_slice_z);
}
// Insert the base layers.
for (size_t i = 1; i < m_slicing_params.base_raft_layers; i++) {
coordf_t height = m_slicing_params.base_raft_layer_height;
raft_print_z += height;
raft_slice_z = raft_print_z - height / 2;
m_object->add_tree_support_layer(layer_id++, height, raft_print_z, raft_slice_z);
}
// Insert the interface layers.
for (size_t i = 0; i < m_slicing_params.interface_raft_layers; i++, layer_id++) {
for (size_t i = 0; i < m_slicing_params.interface_raft_layers; i++) {
coordf_t height = m_slicing_params.interface_raft_layer_height;
raft_print_z += height;
raft_slice_z = raft_print_z - height / 2;
m_object->add_tree_support_layer(layer_id, height, raft_print_z, raft_slice_z);
m_object->add_tree_support_layer(layer_id++, height, raft_print_z, raft_slice_z);
}
}
for (Layer *layer : m_object->layers()) {
SupportLayer* ts_layer = m_object->add_tree_support_layer(layer->id(), layer->height, layer->print_z, layer->slice_z);
SupportLayer* ts_layer = m_object->add_tree_support_layer(layer_id++, layer->height, layer->print_z, layer->slice_z);
if (ts_layer->id() > m_raft_layers) {
SupportLayer* lower_layer = m_object->get_support_layer(ts_layer->id() - 1);
lower_layer->upper_layer = ts_layer;
ts_layer->lower_layer = lower_layer;
if (lower_layer) {
lower_layer->upper_layer = ts_layer;
ts_layer->lower_layer = lower_layer;
}
}
}
}
static inline BoundingBox fill_expolygon_generate_paths(
ExtrusionEntitiesPtr &dst,
ExPolygon &&expolygon,
ExPolygon &expolygon,
Fill *filler,
const FillParams &fill_params,
ExtrusionRole role,
@ -1243,7 +1249,7 @@ static inline BoundingBox fill_expolygon_generate_paths(
static inline std::vector<BoundingBox> fill_expolygons_generate_paths(
ExtrusionEntitiesPtr &dst,
ExPolygons &&expolygons,
ExPolygons &expolygons,
Fill *filler,
const FillParams &fill_params,
ExtrusionRole role,
@ -1405,16 +1411,9 @@ void TreeSupport::generate_toolpaths()
// generate raft tool path
if (m_raft_layers > 0)
{
ExtrusionRole raft_contour_er = m_slicing_params.base_raft_layers > 0 ? erSupportMaterial : erSupportMaterialInterface;
SupportLayer *ts_layer = m_object->support_layers().front();
Flow flow = Flow(support_extrusion_width, ts_layer->height, nozzle_diameter);
Polygons loops;
for (const ExPolygon& expoly : raft_areas) {
loops.push_back(expoly.contour);
loops.insert(loops.end(), expoly.holes.begin(), expoly.holes.end());
}
extrusion_entities_append_loops(ts_layer->support_fills.entities, std::move(loops), raft_contour_er,
extrusion_entities_append_loops(ts_layer->support_fills.entities, to_polygons(raft_areas), erSupportMaterial,
float(flow.mm3_per_mm()), float(flow.width()), float(flow.height()));
raft_areas = offset_ex(raft_areas, -flow.scaled_spacing() / 2.);
}
@ -1422,6 +1421,7 @@ void TreeSupport::generate_toolpaths()
for (size_t layer_nr = 0; layer_nr < m_slicing_params.base_raft_layers; layer_nr++) {
SupportLayer *ts_layer = m_object->get_support_layer(layer_nr);
coordf_t expand_offset = (layer_nr == 0 ? 0. : -1.);
raft_areas = offset_ex(raft_areas, scale_(expand_offset));
Flow support_flow = Flow(support_extrusion_width, ts_layer->height, nozzle_diameter);
Fill* filler_interface = Fill::new_from_type(ipRectilinear);
@ -1432,16 +1432,25 @@ void TreeSupport::generate_toolpaths()
fill_params.density = object_config.raft_first_layer_density * 0.01;
fill_params.dont_adjust = true;
fill_expolygons_generate_paths(ts_layer->support_fills.entities, std::move(offset_ex(raft_areas, scale_(expand_offset))),
fill_expolygons_generate_paths(ts_layer->support_fills.entities, raft_areas,
filler_interface, fill_params, erSupportMaterial, support_flow);
}
// subtract the non-raft support bases, otherwise we'll get support base on top of raft interfaces which is not stable
SupportLayer* first_non_raft_layer = m_object->get_support_layer(m_raft_layers);
ExPolygons first_non_raft_base;
for (auto& area_group : first_non_raft_layer->area_groups) {
if (area_group.type == SupportLayer::BaseType)
first_non_raft_base.emplace_back(*area_group.area);
}
ExPolygons raft_base_areas = intersection_ex(raft_areas, first_non_raft_base);
ExPolygons raft_interface_areas = diff_ex(raft_areas, raft_base_areas);
for (size_t layer_nr = m_slicing_params.base_raft_layers;
layer_nr < m_slicing_params.base_raft_layers + m_slicing_params.interface_raft_layers;
layer_nr++)
{
SupportLayer *ts_layer = m_object->get_support_layer(layer_nr);
coordf_t expand_offset = (layer_nr == 0 ? 0. : -1.);
Flow support_flow(support_extrusion_width, ts_layer->height, nozzle_diameter);
Fill* filler_interface = Fill::new_from_type(ipRectilinear);
@ -1452,8 +1461,12 @@ void TreeSupport::generate_toolpaths()
fill_params.density = interface_density;
fill_params.dont_adjust = true;
fill_expolygons_generate_paths(ts_layer->support_fills.entities, std::move(offset_ex(raft_areas, scale_(expand_offset))),
fill_expolygons_generate_paths(ts_layer->support_fills.entities, raft_interface_areas,
filler_interface, fill_params, erSupportMaterialInterface, support_flow);
fill_params.density = object_config.raft_first_layer_density * 0.01;
fill_expolygons_generate_paths(ts_layer->support_fills.entities, raft_base_areas,
filler_interface, fill_params, erSupportMaterial, support_flow);
}
BoundingBox bbox_object(Point(-scale_(1.), -scale_(1.0)), Point(scale_(1.), scale_(1.)));
@ -1474,7 +1487,7 @@ void TreeSupport::generate_toolpaths()
if (m_object->print()->canceled())
break;
m_object->print()->set_status(70, (boost::format(_L("Support: generate toolpath at layer %d")) % layer_id).str());
m_object->print()->set_status(70, (boost::format(_u8L("Support: generate toolpath at layer %d")) % layer_id).str());
SupportLayer* ts_layer = m_object->get_support_layer(layer_id);
Flow support_flow(support_extrusion_width, ts_layer->height, nozzle_diameter);
@ -1542,9 +1555,6 @@ void TreeSupport::generate_toolpaths()
bool need_infill = with_infill;
if(m_object_config->support_base_pattern==smpDefault)
need_infill &= area_group.need_infill;
size_t walls = wall_count;
if (layer_id == 0) walls = std::numeric_limits<size_t>::max();
else if (area_group.need_extra_wall && walls < 2) walls += 1;
std::shared_ptr<Fill> filler_support = std::shared_ptr<Fill>(Fill::new_from_type(layer_id == 0 ? ipConcentric : m_support_params.base_fill_pattern));
filler_support->set_bounding_box(bbox_object);
@ -1560,11 +1570,14 @@ void TreeSupport::generate_toolpaths()
if (need_infill && m_support_params.base_fill_pattern != ipLightning) {
// allow infill-only mode if support is thick enough (so min_wall_count is 0);
// otherwise must draw 1 wall
// Don't need extra walls if we have infill. Extra walls may overlap with the infills.
size_t min_wall_count = offset(poly, -scale_(support_spacing * 1.5)).empty() ? 1 : 0;
make_perimeter_and_infill(ts_layer->support_fills.entities, *m_object->print(), poly, std::max(min_wall_count, walls), flow,
make_perimeter_and_infill(ts_layer->support_fills.entities, *m_object->print(), poly, std::max(min_wall_count, wall_count), flow,
erSupportMaterial, filler_support.get(), support_density);
}
else {
else {
size_t walls = wall_count;
if (area_group.need_extra_wall && walls < 2) walls += 1;
for (size_t i = 1; i < walls; i++) {
Polygons contour_new = offset(poly.contour, -(i - 0.5f) * flow.scaled_spacing(), jtSquare);
loops.insert(loops.end(), contour_new.begin(), contour_new.end());
@ -1616,7 +1629,7 @@ void TreeSupport::generate_toolpaths()
float(flow.mm3_per_mm()), float(flow.width()), float(flow.height()));
#ifdef SUPPORT_TREE_DEBUG_TO_SVG
std::string name = "./SVG/trees_polyline_" + std::to_string(ts_layer->print_z) /*+ "_" + std::to_string(rand_num)*/ + ".svg";
std::string name = get_svg_filename("trees_polyline", std::to_string(ts_layer->print_z));
BoundingBox bbox = get_extents(ts_layer->base_areas);
SVG svg(name, bbox);
if (svg.is_opened()) {
@ -1870,7 +1883,7 @@ void TreeSupport::generate()
// Generate overhang areas
profiler.stage_start(STAGE_DETECT_OVERHANGS);
m_object->print()->set_status(55, _L("Support: detect overhangs"));
m_object->print()->set_status(55, _u8L("Support: detect overhangs"));
detect_overhangs();
profiler.stage_finish(STAGE_DETECT_OVERHANGS);
@ -1883,7 +1896,7 @@ void TreeSupport::generate()
std::vector<TreeSupport3D::SupportElements> move_bounds(m_highest_overhang_layer + 1);
profiler.stage_start(STAGE_GENERATE_CONTACT_NODES);
#if USE_SUPPORT_3D
m_object->print()->set_status(56, _L("Support: precalculate avoidance"));
m_object->print()->set_status(56, _u8L("Support: precalculate avoidance"));
Points bedpts = m_machine_border.contour.points;
BuildVolume build_volume{ Pointfs{ unscaled(bedpts[0]), unscaled(bedpts[1]),unscaled(bedpts[2]),unscaled(bedpts[3])}, m_print_config->printable_height };
@ -1904,7 +1917,7 @@ void TreeSupport::generate()
SupportGeneratorLayerStorage layer_storage;
std::vector<Polygons> overhangs;
m_object->print()->set_status(57, _L("Support: generate contact points"));
m_object->print()->set_status(57, _u8L("Support: generate contact points"));
if (support_style != smsTreeHybrid) {
overhangs.resize(m_object->support_layer_count());
for (size_t i = 0; i < overhangs.size(); i++) {
@ -1920,7 +1933,7 @@ void TreeSupport::generate()
//Drop nodes to lower layers.
profiler.stage_start(STAGE_DROP_DOWN_NODES);
m_object->print()->set_status(60, _L("Support: propagate branches"));
m_object->print()->set_status(60, _u8L("Support: propagate branches"));
drop_nodes(contact_nodes);
profiler.stage_finish(STAGE_DROP_DOWN_NODES);
@ -1928,14 +1941,14 @@ void TreeSupport::generate()
//Generate support areas.
profiler.stage_start(STAGE_DRAW_CIRCLES);
m_object->print()->set_status(65, _L("Support: draw polygons"));
m_object->print()->set_status(65, _u8L("Support: draw polygons"));
draw_circles(contact_nodes);
profiler.stage_finish(STAGE_DRAW_CIRCLES);
clear_contact_nodes(contact_nodes);
profiler.stage_start(STAGE_GENERATE_TOOLPATHS);
m_object->print()->set_status(69, _L("Support: generate toolpath"));
m_object->print()->set_status(69, _u8L("Support: generate toolpath"));
generate_toolpaths();
profiler.stage_finish(STAGE_GENERATE_TOOLPATHS);
@ -2316,7 +2329,7 @@ void TreeSupport::draw_circles(const std::vector<std::vector<Node*>>& contact_no
}
m_object->print()->set_status(65, (boost::format( _L("Support: generate polygons at layer %d")) % layer_nr).str());
m_object->print()->set_status(65, (boost::format( _u8L("Support: generate polygons at layer %d")) % layer_nr).str());
// join roof segments
double contact_dist_scaled = scale_(0.5);// scale_(m_slicing_params.gap_support_object);
@ -2523,7 +2536,7 @@ void TreeSupport::draw_circles(const std::vector<std::vector<Node*>>& contact_no
std::map<const Polygon*, std::tuple<int, Point, Point>> holePropagationInfos;
for (int layer_nr = m_object->layer_count() - 1; layer_nr > 0; layer_nr--) {
if (print->canceled()) break;
m_object->print()->set_status(66, (boost::format(_L("Support: fix holes at layer %d")) % layer_nr).str());
m_object->print()->set_status(66, (boost::format(_u8L("Support: fix holes at layer %d")) % layer_nr).str());
const std::vector<Node*>& curr_layer_nodes = contact_nodes[layer_nr];
SupportLayer* ts_layer = m_object->get_support_layer(layer_nr + m_raft_layers);
@ -2620,8 +2633,7 @@ void TreeSupport::draw_circles(const std::vector<std::vector<Node*>>& contact_no
ExPolygons& roof_1st_layer = ts_layer->roof_1st_layer;
ExPolygons roofs = roof_areas; append(roofs, roof_1st_layer);
if (base_areas.empty() && roof_areas.empty() && roof_1st_layer.empty()) continue;
char fname[10]; sprintf(fname, "%d_%.2f", layer_nr, ts_layer->print_z);
draw_contours_and_nodes_to_svg("", base_areas, roofs, ts_layer->lslices, {}, {}, get_svg_filename(fname, "circles"), { "base", "roof", "lslices" }, { "blue","red","black" });
draw_contours_and_nodes_to_svg(format("%d_%.2f", layer_nr, ts_layer->print_z), base_areas, roofs, ts_layer->lslices, {}, {}, "circles", {"base", "roof", "lslices"}, {"blue","red","black"});
}
#endif // SUPPORT_TREE_DEBUG_TO_SVG
@ -2697,7 +2709,7 @@ void TreeSupport::drop_nodes(std::vector<std::vector<Node*>>& contact_nodes)
std::deque<std::pair<size_t, Node*>> unsupported_branch_leaves; // All nodes that are leaves on this layer that would result in unsupported ('mid-air') branches.
const Layer* ts_layer = m_object->get_support_layer(layer_nr);
m_object->print()->set_status(60, (boost::format(_L("Support: propagate branches at layer %d")) % layer_nr).str());
m_object->print()->set_status(60, (boost::format(_u8L("Support: propagate branches at layer %d")) % layer_nr).str());
Polygons layer_contours = std::move(m_ts_data->get_contours_with_holes(layer_nr));
//std::unordered_map<Line, bool, LineHash>& mst_line_x_layer_contour_cache = m_mst_line_x_layer_contour_caches[layer_nr];
@ -3357,7 +3369,7 @@ std::vector<LayerHeightData> TreeSupport::plan_layer_heights(std::vector<std::ve
std::vector<LayerHeightData> layer_heights(contact_nodes.size());
std::vector<int> bounds;
if (!USE_PLAN_LAYER_HEIGHTS || layer_height == max_layer_height || !m_support_params.independent_layer_height) {
if (layer_height == max_layer_height || !m_support_params.independent_layer_height) {
for (int layer_nr = 0; layer_nr < contact_nodes.size(); layer_nr++) {
layer_heights[layer_nr] = {m_object->get_layer(layer_nr)->print_z, m_object->get_layer(layer_nr)->height, layer_nr > 0 ? size_t(layer_nr - 1) : 0};
}

View File

@ -617,11 +617,11 @@ void ConfigManipulation::toggle_print_fff_options(DynamicPrintConfig *config, co
//toggle_field("support_closing_radius", have_support_material && support_style == smsSnug);
bool support_is_tree = config->opt_bool("enable_support") && is_tree(support_type);
for (auto el : {"tree_support_branch_angle", "tree_support_wall_count", "tree_support_branch_distance", "tree_support_branch_diameter","tree_support_brim_width"})
for (auto el : {"tree_support_branch_angle", "tree_support_branch_distance", "tree_support_branch_diameter","tree_support_brim_width"})
toggle_field(el, support_is_tree);
// hide tree support settings when normal is selected
for (auto el : {"tree_support_branch_angle", "tree_support_wall_count", "tree_support_branch_distance", "tree_support_branch_diameter", "max_bridge_length","tree_support_brim_width" })
for (auto el : {"tree_support_branch_angle", "tree_support_branch_distance", "tree_support_branch_diameter", "max_bridge_length","tree_support_brim_width" })
toggle_line(el, support_is_tree);
toggle_line("support_critical_regions_only", is_auto(support_type) && support_is_tree);