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WIP: Initial Fuzzy Skin implementaiton #2010

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Based on pull request Experimental fuzzy skin mode #4611 by @etet100
and on CuraEngine implementation of perimeter fuzzyfication
void FffPolygonGenerator::processFuzzyWalls(SliceMeshStorage& mesh)
This commit is contained in:
Vojtech Bubnik 2021-01-22 17:51:26 +01:00
parent d9448c9f2a
commit 4620402ab4
9 changed files with 320 additions and 4 deletions
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175
src/libslic3r/PerimeterGenerator.cpp
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@ -5,6 +5,7 @@
#include <cmath> #include <cmath>
#include <cassert> #include <cassert>
#include <chrono>
namespace Slic3r { namespace Slic3r {
@ -230,8 +231,128 @@ static ExtrusionEntityCollection traverse_loops(const PerimeterGenerator &perime
return out; return out;
} }
enum class FuzzyShape {
Triangle,
Sawtooth,
Random
};
static void fuzzy_polygon(Polygon &poly, FuzzyShape shape, double fuzzy_skin_thickness, double fuzzy_skin_point_dist)
{
#if 0
Point last = poly.points.at(poly.points.size() - 1);
Point last_processed = last;
double max_length = scale_(2);
double min_length = scale_(1);
if (poly.length() < scale_(5))
return;
deepness *= 3;
bool triangle_or_sawtooth = shape == FuzzyShape::Sawtooth;
double length_sum = 0;
Points::iterator it = poly.points.begin();
while (it != poly.points.end()) {
Point &pt = *it;
Line line(last, pt);
double length = line.length();
// split long line
if (length > max_length) {
auto parts = int(ceil(length / max_length));
if (parts == 2) {
Point point_to_insert(line.midpoint());
it = poly.points.insert(it, point_to_insert);
}
else {
Vector part_vector = line.vector() / parts;
Points points_to_insert;
Point point_to_insert(last);
while (--parts) {
point_to_insert += part_vector;
Point point_to_insert_2(point_to_insert);
points_to_insert.push_back(point_to_insert_2);
}
it = poly.points.insert(it, points_to_insert.begin(), points_to_insert.end());
}
continue;
}
length_sum += length;
// join short lines
if (length_sum < min_length) {
last = pt;
it = poly.points.erase(it);
continue;
}
line = Line(last_processed, pt);
last = pt;
last_processed = pt;
if (shape == FuzzyShape::Random) {
triangle_or_sawtooth = !(rand() % 2);
}
Point point_to_insert(triangle_or_sawtooth ? pt : line.midpoint());
int scale = (rand() % deepness) + 1;
Vec2d normal = line.normal().cast<double>();
normal /= line.length() / scale_(1.) / ((double)scale / 20.);
it = poly.points.insert(it, point_to_insert + normal.cast<coord_t>()) + 2;
length_sum = 0;
}
#else
const double min_dist_between_points = fuzzy_skin_point_dist * 3. / 4.; // hardcoded: the point distance may vary between 3/4 and 5/4 the supplied value
const double range_random_point_dist = fuzzy_skin_point_dist / 2.;
double dist_left_over = double(rand()) * (min_dist_between_points / 2) / double(RAND_MAX); // the distance to be traversed on the line before making the first new point
Point* p0 = &poly.points.back();
Points out;
out.reserve(poly.points.size());
for (Point &p1 : poly.points)
{ // 'a' is the (next) new point between p0 and p1
Vec2d p0p1 = (p1 - *p0).cast<double>();
double p0p1_size = p0p1.norm();
// so that p0p1_size - dist_last_point evaulates to dist_left_over - p0p1_size
double dist_last_point = dist_left_over + p0p1_size * 2.;
for (double p0pa_dist = dist_left_over; p0pa_dist < p0p1_size;
p0pa_dist += min_dist_between_points + double(rand()) * range_random_point_dist / double(RAND_MAX))
{
double r = double(rand()) * (fuzzy_skin_thickness * 2.) / double(RAND_MAX) - fuzzy_skin_thickness;
out.emplace_back(*p0 + (p0p1 * (p0pa_dist / p0p1_size) + perp(p0p1).cast<double>().normalized() * r).cast<coord_t>());
dist_last_point = p0pa_dist;
}
dist_left_over = p0p1_size - dist_last_point;
p0 = &p1;
}
while (out.size() < 3) {
size_t point_idx = poly.size() - 2;
out.emplace_back(poly[point_idx]);
if (point_idx == 0)
break;
-- point_idx;
}
if (out.size() >= 3)
poly.points = std::move(out);
#endif
}
void PerimeterGenerator::process() void PerimeterGenerator::process()
{ {
// nasty hack! initialize random generator
auto time_us = std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::time_point_cast<std::chrono::microseconds>(std::chrono::high_resolution_clock::now()).time_since_epoch()).count();
srand(this->layer_id * time_us);
// other perimeters // other perimeters
m_mm3_per_mm = this->perimeter_flow.mm3_per_mm(); m_mm3_per_mm = this->perimeter_flow.mm3_per_mm();
coord_t perimeter_width = this->perimeter_flow.scaled_width(); coord_t perimeter_width = this->perimeter_flow.scaled_width();
@ -272,6 +393,32 @@ void PerimeterGenerator::process()
m_lower_slices_polygons = offset(*this->lower_slices, float(scale_(+nozzle_diameter/2))); m_lower_slices_polygons = offset(*this->lower_slices, float(scale_(+nozzle_diameter/2)));
} }
// fuzzy skin configuration
double fuzzy_skin_thickness;
double fuzzy_skin_point_dist;
FuzzyShape fuzzy_skin_shape;
if (this->object_config->fuzzy_skin_perimeter_mode != FuzzySkinPerimeterMode::None) {
switch (this->object_config->fuzzy_skin_shape) {
case FuzzySkinShape::Triangle1:
case FuzzySkinShape::Triangle2:
case FuzzySkinShape::Triangle3:
fuzzy_skin_shape = FuzzyShape::Triangle;
break;
case FuzzySkinShape::Sawtooth1:
case FuzzySkinShape::Sawtooth2:
case FuzzySkinShape::Sawtooth3:
fuzzy_skin_shape = FuzzyShape::Sawtooth;
break;
case FuzzySkinShape::Random1:
case FuzzySkinShape::Random2:
case FuzzySkinShape::Random3:
fuzzy_skin_shape = FuzzyShape::Random;
break;
}
fuzzy_skin_thickness = scale_(this->object_config->fuzzy_skin_thickness);
fuzzy_skin_point_dist = scale_(this->object_config->fuzzy_skin_point_dist);
}
// we need to process each island separately because we might have different // we need to process each island separately because we might have different
// extra perimeters for each one // extra perimeters for each one
for (const Surface &surface : this->slices->surfaces) { for (const Surface &surface : this->slices->surfaces) {
@ -352,13 +499,35 @@ void PerimeterGenerator::process()
// If i > loop_number, we were looking just for gaps. // If i > loop_number, we were looking just for gaps.
break; break;
} }
for (const ExPolygon &expolygon : offsets) { for (ExPolygon &expolygon : offsets) {
// Outer contour may overlap with an inner contour, // Outer contour may overlap with an inner contour,
// inner contour may overlap with another inner contour, // inner contour may overlap with another inner contour,
// outer contour may overlap with itself. // outer contour may overlap with itself.
//FIXME evaluate the overlaps, annotate each point with an overlap depth, //FIXME evaluate the overlaps, annotate each point with an overlap depth,
// compensate for the depth of intersection.
contours[i].emplace_back(PerimeterGeneratorLoop(expolygon.contour, i, true)); bool skip_polygon = false;
if (this->object_config->fuzzy_skin_perimeter_mode != FuzzySkinPerimeterMode::None) {
if (i == 0 && (this->object_config->fuzzy_skin_perimeter_mode != FuzzySkinPerimeterMode::ExternalSkipFirst || this->layer_id > 0)) {
if (
this->object_config->fuzzy_skin_perimeter_mode == FuzzySkinPerimeterMode::External ||
this->object_config->fuzzy_skin_perimeter_mode == FuzzySkinPerimeterMode::ExternalSkipFirst
) {
ExPolygon expolygon_fuzzy(expolygon);
fuzzy_polygon(expolygon_fuzzy.contour, fuzzy_skin_shape, fuzzy_skin_thickness, fuzzy_skin_point_dist);
// compensate for the depth of intersection.
contours[i].emplace_back(PerimeterGeneratorLoop(expolygon_fuzzy.contour, i, true));
skip_polygon = true;
} else
fuzzy_polygon(expolygon.contour, fuzzy_skin_shape, fuzzy_skin_thickness, fuzzy_skin_point_dist);
}
}
if (!skip_polygon) {
// compensate for the depth of intersection.
contours[i].emplace_back(PerimeterGeneratorLoop(expolygon.contour, i, true));
}
if (! expolygon.holes.empty()) { if (! expolygon.holes.empty()) {
holes[i].reserve(holes[i].size() + expolygon.holes.size()); holes[i].reserve(holes[i].size() + expolygon.holes.size());
for (const Polygon &hole : expolygon.holes) for (const Polygon &hole : expolygon.holes)

1
src/libslic3r/Preset.cpp
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@ -411,6 +411,7 @@ const std::vector<std::string>& Preset::print_options()
"solid_infill_below_area", "only_retract_when_crossing_perimeters", "infill_first", "solid_infill_below_area", "only_retract_when_crossing_perimeters", "infill_first",
"ironing", "ironing_type", "ironing_flowrate", "ironing_speed", "ironing_spacing", "ironing", "ironing_type", "ironing_flowrate", "ironing_speed", "ironing_spacing",
"max_print_speed", "max_volumetric_speed", "avoid_crossing_perimeters_max_detour", "max_print_speed", "max_volumetric_speed", "avoid_crossing_perimeters_max_detour",
"fuzzy_skin_perimeter_mode", "fuzzy_skin_shape", "fuzzy_skin_thickness", "fuzzy_skin_point_dist",
#ifdef HAS_PRESSURE_EQUALIZER #ifdef HAS_PRESSURE_EQUALIZER
"max_volumetric_extrusion_rate_slope_positive", "max_volumetric_extrusion_rate_slope_negative", "max_volumetric_extrusion_rate_slope_positive", "max_volumetric_extrusion_rate_slope_negative",
#endif /* HAS_PRESSURE_EQUALIZER */ #endif /* HAS_PRESSURE_EQUALIZER */

62
src/libslic3r/PrintConfig.cpp
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@ -1007,6 +1007,68 @@ void PrintConfigDef::init_fff_params()
def->mode = comExpert; def->mode = comExpert;
def->set_default_value(new ConfigOptionInts { 0 }); def->set_default_value(new ConfigOptionInts { 0 });
def = this->add("fuzzy_skin_perimeter_mode", coEnum);
def->label = L("Fuzzy skin perimeter mode");
def->category = L("Fuzzy Skin");
def->tooltip = L("Fuzzy skin perimeter mode.");
def->enum_keys_map = &ConfigOptionEnum<FuzzySkinPerimeterMode>::get_enum_values();
def->enum_values.push_back("none");
def->enum_values.push_back("external_only");
def->enum_values.push_back("external_only_skip_first_layer");
def->enum_values.push_back("all");
def->enum_labels.push_back(L("None"));
def->enum_labels.push_back(L("External"));
def->enum_labels.push_back(L("External (skip first layer)"));
def->enum_labels.push_back(L("All perimeters"));
def->mode = comSimple;
def->set_default_value(new ConfigOptionEnum<FuzzySkinPerimeterMode>(FuzzySkinPerimeterMode::None));
def = this->add("fuzzy_skin_shape", coEnum);
def->label = L("Fuzzy skin shape");
def->category = L("Fuzzy Skin");
def->tooltip = L("Fuzzy skin shape.");
def->enum_keys_map = &ConfigOptionEnum<FuzzySkinShape>::get_enum_values();
def->enum_values.push_back("triangle1");
def->enum_values.push_back("triangle2");
def->enum_values.push_back("triangle3");
def->enum_values.push_back("sawtooth1");
def->enum_values.push_back("sawtooth2");
def->enum_values.push_back("sawtooth3");
def->enum_values.push_back("random1");
def->enum_values.push_back("random2");
def->enum_values.push_back("random3");
def->enum_labels.push_back(L("Triangle (1)"));
def->enum_labels.push_back(L("Triangle (2)"));
def->enum_labels.push_back(L("Triangle (3)"));
def->enum_labels.push_back(L("Sawtooth (1)"));
def->enum_labels.push_back(L("Sawtooth (2)"));
def->enum_labels.push_back(L("Sawtooth (3)"));
def->enum_labels.push_back(L("Random (1)"));
def->enum_labels.push_back(L("Random (2)"));
def->enum_labels.push_back(L("Random (3)"));
def->mode = comSimple;
def->set_default_value(new ConfigOptionEnum<FuzzySkinShape>(FuzzySkinShape::Triangle1));
def = this->add("fuzzy_skin_thickness", coFloat);
def->label = L("Fuzzy skin thickness");
def->category = L("Fuzzy Skin");
def->tooltip = L("");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(0.3));
def = this->add("fuzzy_skin_point_dist", coFloat);
def->label = L("Fuzzy skin point distance");
def->category = L("Fuzzy Skin");
def->tooltip = L("");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(0.8));
def = this->add("gap_fill_speed", coFloat); def = this->add("gap_fill_speed", coFloat);
def->label = L("Gap fill"); def->label = L("Gap fill");
def->category = L("Speed"); def->category = L("Speed");

54
src/libslic3r/PrintConfig.hpp
View File

@ -43,6 +43,25 @@ enum AuthorizationType {
atKeyPassword, atUserPassword atKeyPassword, atUserPassword
}; };
enum class FuzzySkinPerimeterMode {
None,
External,
ExternalSkipFirst,
All
};
enum class FuzzySkinShape {
Triangle1,
Triangle2,
Triangle3,
Sawtooth1,
Sawtooth2,
Sawtooth3,
Random1,
Random2,
Random3
};
enum InfillPattern : int { enum InfillPattern : int {
ipRectilinear, ipMonotonic, ipAlignedRectilinear, ipGrid, ipTriangles, ipStars, ipCubic, ipLine, ipConcentric, ipHoneycomb, ip3DHoneycomb, ipRectilinear, ipMonotonic, ipAlignedRectilinear, ipGrid, ipTriangles, ipStars, ipCubic, ipLine, ipConcentric, ipHoneycomb, ip3DHoneycomb,
ipGyroid, ipHilbertCurve, ipArchimedeanChords, ipOctagramSpiral, ipAdaptiveCubic, ipSupportCubic, ipCount, ipGyroid, ipHilbertCurve, ipArchimedeanChords, ipOctagramSpiral, ipAdaptiveCubic, ipSupportCubic, ipCount,
@ -140,6 +159,33 @@ template<> inline const t_config_enum_values& ConfigOptionEnum<AuthorizationType
return keys_map; return keys_map;
} }
template<> inline const t_config_enum_values& ConfigOptionEnum<FuzzySkinPerimeterMode>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["none"] = int(FuzzySkinPerimeterMode::None);
keys_map["external_only"] = int(FuzzySkinPerimeterMode::External);
keys_map["external_only_skip_first_layer"] = int(FuzzySkinPerimeterMode::ExternalSkipFirst);
keys_map["all"] = int(FuzzySkinPerimeterMode::All);
}
return keys_map;
}
template<> inline const t_config_enum_values& ConfigOptionEnum<FuzzySkinShape>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["triangle1"] = int(FuzzySkinShape::Triangle1);
keys_map["triangle2"] = int(FuzzySkinShape::Triangle2);
keys_map["triangle3"] = int(FuzzySkinShape::Triangle3);
keys_map["sawtooth1"] = int(FuzzySkinShape::Sawtooth1);
keys_map["sawtooth2"] = int(FuzzySkinShape::Sawtooth2);
keys_map["sawtooth3"] = int(FuzzySkinShape::Sawtooth3);
keys_map["random1"] = int(FuzzySkinShape::Random1);
keys_map["random2"] = int(FuzzySkinShape::Random2);
keys_map["random3"] = int(FuzzySkinShape::Random3);
}
return keys_map;
}
template<> inline const t_config_enum_values& ConfigOptionEnum<InfillPattern>::get_enum_values() { template<> inline const t_config_enum_values& ConfigOptionEnum<InfillPattern>::get_enum_values() {
static t_config_enum_values keys_map; static t_config_enum_values keys_map;
if (keys_map.empty()) { if (keys_map.empty()) {
@ -432,6 +478,10 @@ public:
ConfigOptionFloat elefant_foot_compensation; ConfigOptionFloat elefant_foot_compensation;
ConfigOptionFloatOrPercent extrusion_width; ConfigOptionFloatOrPercent extrusion_width;
ConfigOptionFloatOrPercent first_layer_height; ConfigOptionFloatOrPercent first_layer_height;
ConfigOptionEnum<FuzzySkinPerimeterMode> fuzzy_skin_perimeter_mode;
ConfigOptionEnum<FuzzySkinShape> fuzzy_skin_shape;
ConfigOptionFloat fuzzy_skin_thickness;
ConfigOptionFloat fuzzy_skin_point_dist;
ConfigOptionBool infill_only_where_needed; ConfigOptionBool infill_only_where_needed;
// Force the generation of solid shells between adjacent materials/volumes. // Force the generation of solid shells between adjacent materials/volumes.
ConfigOptionBool interface_shells; ConfigOptionBool interface_shells;
@ -477,6 +527,10 @@ protected:
OPT_PTR(elefant_foot_compensation); OPT_PTR(elefant_foot_compensation);
OPT_PTR(extrusion_width); OPT_PTR(extrusion_width);
OPT_PTR(first_layer_height); OPT_PTR(first_layer_height);
OPT_PTR(fuzzy_skin_perimeter_mode);
OPT_PTR(fuzzy_skin_shape);
OPT_PTR(fuzzy_skin_thickness);
OPT_PTR(fuzzy_skin_point_dist);
OPT_PTR(infill_only_where_needed); OPT_PTR(infill_only_where_needed);
OPT_PTR(interface_shells); OPT_PTR(interface_shells);
OPT_PTR(layer_height); OPT_PTR(layer_height);

4
src/libslic3r/PrintObject.cpp
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@ -521,6 +521,10 @@ bool PrintObject::invalidate_state_by_config_options(const std::vector<t_config_
|| opt_key == "gap_fill_speed" || opt_key == "gap_fill_speed"
|| opt_key == "overhangs" || opt_key == "overhangs"
|| opt_key == "first_layer_extrusion_width" || opt_key == "first_layer_extrusion_width"
|| opt_key == "fuzzy_skin_perimeter_mode"
|| opt_key == "fuzzy_skin_shape"
|| opt_key == "fuzzy_skin_thickness"
|| opt_key == "fuzzy_skin_point_dist"
|| opt_key == "perimeter_extrusion_width" || opt_key == "perimeter_extrusion_width"
|| opt_key == "infill_overlap" || opt_key == "infill_overlap"
|| opt_key == "thin_walls" || opt_key == "thin_walls"

4
src/slic3r/GUI/Field.cpp
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@ -1200,6 +1200,10 @@ boost::any& Choice::get_value()
} }
else if (m_opt_id.compare("ironing_type") == 0) else if (m_opt_id.compare("ironing_type") == 0)
m_value = static_cast<IroningType>(ret_enum); m_value = static_cast<IroningType>(ret_enum);
else if (m_opt_id.compare("fuzzy_skin_perimeter_mode") == 0)
m_value = static_cast<FuzzySkinPerimeterMode>(ret_enum);
else if (m_opt_id.compare("fuzzy_skin_shape") == 0)
m_value = static_cast<FuzzySkinShape>(ret_enum);
else if (m_opt_id.compare("gcode_flavor") == 0) else if (m_opt_id.compare("gcode_flavor") == 0)
m_value = static_cast<GCodeFlavor>(ret_enum); m_value = static_cast<GCodeFlavor>(ret_enum);
else if (m_opt_id.compare("machine_limits_usage") == 0) else if (m_opt_id.compare("machine_limits_usage") == 0)

4
src/slic3r/GUI/GUI.cpp
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@ -182,6 +182,10 @@ void change_opt_value(DynamicPrintConfig& config, const t_config_option_key& opt
config.set_key_value(opt_key, new ConfigOptionEnum<InfillPattern>(boost::any_cast<InfillPattern>(value))); config.set_key_value(opt_key, new ConfigOptionEnum<InfillPattern>(boost::any_cast<InfillPattern>(value)));
else if (opt_key.compare("ironing_type") == 0) else if (opt_key.compare("ironing_type") == 0)
config.set_key_value(opt_key, new ConfigOptionEnum<IroningType>(boost::any_cast<IroningType>(value))); config.set_key_value(opt_key, new ConfigOptionEnum<IroningType>(boost::any_cast<IroningType>(value)));
else if (opt_key.compare("fuzzy_skin_perimeter_mode") == 0)
config.set_key_value(opt_key, new ConfigOptionEnum<FuzzySkinPerimeterMode>(boost::any_cast<FuzzySkinPerimeterMode>(value)));
else if (opt_key.compare("fuzzy_skin_shape") == 0)
config.set_key_value(opt_key, new ConfigOptionEnum<FuzzySkinShape>(boost::any_cast<FuzzySkinShape>(value)));
else if (opt_key.compare("gcode_flavor") == 0) else if (opt_key.compare("gcode_flavor") == 0)
config.set_key_value(opt_key, new ConfigOptionEnum<GCodeFlavor>(boost::any_cast<GCodeFlavor>(value))); config.set_key_value(opt_key, new ConfigOptionEnum<GCodeFlavor>(boost::any_cast<GCodeFlavor>(value)));
else if (opt_key.compare("machine_limits_usage") == 0) else if (opt_key.compare("machine_limits_usage") == 0)

6
src/slic3r/GUI/OptionsGroup.cpp
View File

@ -870,6 +870,12 @@ boost::any ConfigOptionsGroup::get_config_value(const DynamicPrintConfig& config
else if (opt_key == "ironing_type") { else if (opt_key == "ironing_type") {
ret = static_cast<int>(config.option<ConfigOptionEnum<IroningType>>(opt_key)->value); ret = static_cast<int>(config.option<ConfigOptionEnum<IroningType>>(opt_key)->value);
} }
else if (opt_key == "fuzzy_skin_perimeter_mode") {
ret = static_cast<int>(config.option<ConfigOptionEnum<FuzzySkinPerimeterMode>>(opt_key)->value);
}
else if (opt_key == "fuzzy_skin_shape") {
ret = static_cast<int>(config.option<ConfigOptionEnum<FuzzySkinShape>>(opt_key)->value);
}
else if (opt_key == "gcode_flavor") { else if (opt_key == "gcode_flavor") {
ret = static_cast<int>(config.option<ConfigOptionEnum<GCodeFlavor>>(opt_key)->value); ret = static_cast<int>(config.option<ConfigOptionEnum<GCodeFlavor>>(opt_key)->value);
} }

14
src/slic3r/GUI/Tab.cpp
View File

@ -1434,6 +1434,18 @@ void TabPrint::build()
optgroup->append_single_option_line("seam_position", category_path + "seam-position"); optgroup->append_single_option_line("seam_position", category_path + "seam-position");
optgroup->append_single_option_line("external_perimeters_first", category_path + "external-perimeters-first"); optgroup->append_single_option_line("external_perimeters_first", category_path + "external-perimeters-first");
optgroup = page->new_optgroup(L("Fuzzy skin (experimental)"));
Option option = optgroup->get_option("fuzzy_skin_perimeter_mode");
option.opt.width = 30;
optgroup->append_single_option_line(option);
#if 0
option = optgroup->get_option("fuzzy_skin_shape");
option.opt.width = 30;
optgroup->append_single_option_line(option);
#endif
optgroup->append_single_option_line(optgroup->get_option("fuzzy_skin_thickness"));
optgroup->append_single_option_line(optgroup->get_option("fuzzy_skin_point_dist"));
page = add_options_page(L("Infill"), "infill"); page = add_options_page(L("Infill"), "infill");
category_path = "infill_42#"; category_path = "infill_42#";
optgroup = page->new_optgroup(L("Infill")); optgroup = page->new_optgroup(L("Infill"));
@ -1597,7 +1609,7 @@ void TabPrint::build()
optgroup = page->new_optgroup(L("Output file")); optgroup = page->new_optgroup(L("Output file"));
optgroup->append_single_option_line("gcode_comments"); optgroup->append_single_option_line("gcode_comments");
optgroup->append_single_option_line("gcode_label_objects"); optgroup->append_single_option_line("gcode_label_objects");
Option option = optgroup->get_option("output_filename_format"); option = optgroup->get_option("output_filename_format");
option.opt.full_width = true; option.opt.full_width = true;
optgroup->append_single_option_line(option); optgroup->append_single_option_line(option);