wip adding separate config values for support tree algorithms

This commit is contained in:
tamasmeszaros 2022-12-06 17:46:27 +01:00
parent c79a46e6cb
commit 878f3b30dd
7 changed files with 432 additions and 247 deletions

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@ -495,6 +495,7 @@ static std::vector<std::string> s_Preset_sla_print_options {
"faded_layers",
"supports_enable",
"support_tree_type",
"support_head_front_diameter",
"support_head_penetration",
"support_head_width",
@ -512,6 +513,25 @@ static std::vector<std::string> s_Preset_sla_print_options {
"support_max_bridge_length",
"support_max_pillar_link_distance",
"support_object_elevation",
"branchingsupport_head_front_diameter",
"branchingsupport_head_penetration",
"branchingsupport_head_width",
"branchingsupport_pillar_diameter",
"branchingsupport_small_pillar_diameter_percent",
"branchingsupport_max_bridges_on_pillar",
"branchingsupport_max_weight_on_model",
"branchingsupport_pillar_connection_mode",
"branchingsupport_buildplate_only",
"branchingsupport_pillar_widening_factor",
"branchingsupport_base_diameter",
"branchingsupport_base_height",
"branchingsupport_base_safety_distance",
"branchingsupport_critical_angle",
"branchingsupport_max_bridge_length",
"branchingsupport_max_pillar_link_distance",
"branchingsupport_object_elevation",
"support_points_density_relative",
"support_points_minimal_distance",
"slice_closing_radius",

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@ -3273,6 +3273,191 @@ void PrintConfigDef::init_extruder_option_keys()
assert(std::is_sorted(m_extruder_retract_keys.begin(), m_extruder_retract_keys.end()));
}
void PrintConfigDef::init_sla_support_params(const std::string &prefix)
{
ConfigOptionDef* def;
def = this->add(prefix + "support_head_front_diameter", coFloat);
def->label = L("Pinhead front diameter");
def->category = L("Supports");
def->tooltip = L("Diameter of the pointing side of the head");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(0.4));
def = this->add(prefix + "support_head_penetration", coFloat);
def->label = L("Head penetration");
def->category = L("Supports");
def->tooltip = L("How much the pinhead has to penetrate the model surface");
def->sidetext = L("mm");
def->mode = comAdvanced;
def->min = 0;
def->set_default_value(new ConfigOptionFloat(0.2));
def = this->add(prefix + "support_head_width", coFloat);
def->label = L("Pinhead width");
def->category = L("Supports");
def->tooltip = L("Width from the back sphere center to the front sphere center");
def->sidetext = L("mm");
def->min = 0;
def->max = 20;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(1.0));
def = this->add(prefix + "support_pillar_diameter", coFloat);
def->label = L("Pillar diameter");
def->category = L("Supports");
def->tooltip = L("Diameter in mm of the support pillars");
def->sidetext = L("mm");
def->min = 0;
def->max = 15;
def->mode = comSimple;
def->set_default_value(new ConfigOptionFloat(1.0));
def = this->add(prefix + "support_small_pillar_diameter_percent", coPercent);
def->label = L("Small pillar diameter percent");
def->category = L("Supports");
def->tooltip = L("The percentage of smaller pillars compared to the normal pillar diameter "
"which are used in problematic areas where a normal pilla cannot fit.");
def->sidetext = L("%");
def->min = 1;
def->max = 100;
def->mode = comExpert;
def->set_default_value(new ConfigOptionPercent(50));
def = this->add(prefix + "support_max_bridges_on_pillar", coInt);
def->label = L("Max bridges on a pillar");
def->tooltip = L(
"Maximum number of bridges that can be placed on a pillar. Bridges "
"hold support point pinheads and connect to pillars as small branches.");
def->min = 0;
def->max = 50;
def->mode = comExpert;
def->set_default_value(new ConfigOptionInt(3));
def = this->add(prefix + "support_max_weight_on_model", coFloat);
def->label = L("Max weight on model");
def->category = L("Supports");
def->tooltip = L(
"Maximum weight of sub-trees that terminate on the model instead of the print bed. The weight is the sum of the lenghts of all "
"branches emanating from the endpoint.");
def->sidetext = L("mm");
def->min = 0;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(10.));
def = this->add(prefix + "support_pillar_connection_mode", coEnum);
def->label = L("Pillar connection mode");
def->tooltip = L("Controls the bridge type between two neighboring pillars."
" Can be zig-zag, cross (double zig-zag) or dynamic which"
" will automatically switch between the first two depending"
" on the distance of the two pillars.");
def->enum_keys_map = &ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_values();
def->enum_keys_map = &ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_values();
def->enum_values = ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_names();
def->enum_labels = ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_names();
def->enum_labels[0] = L("Zig-Zag");
def->enum_labels[1] = L("Cross");
def->enum_labels[2] = L("Dynamic");
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionEnum(SLAPillarConnectionMode::dynamic));
def = this->add(prefix + "support_buildplate_only", coBool);
def->label = L("Support on build plate only");
def->category = L("Supports");
def->tooltip = L("Only create support if it lies on a build plate. Don't create support on a print.");
def->mode = comSimple;
def->set_default_value(new ConfigOptionBool(false));
def = this->add(prefix + "support_pillar_widening_factor", coFloat);
def->label = L("Pillar widening factor");
def->category = L("Supports");
def->tooltip = L(
"Merging bridges or pillars into another pillars can "
"increase the radius. Zero means no increase, one means "
"full increase. The exact amount of increase is unspecified and can "
"change in the future. What is garanteed is that thickness will not "
"exceed \"support_base_diameter\"");
def->min = 0;
def->max = 1;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(0.5));
def = this->add(prefix + "support_base_diameter", coFloat);
def->label = L("Support base diameter");
def->category = L("Supports");
def->tooltip = L("Diameter in mm of the pillar base");
def->sidetext = L("mm");
def->min = 0;
def->max = 30;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(4.0));
def = this->add(prefix + "support_base_height", coFloat);
def->label = L("Support base height");
def->category = L("Supports");
def->tooltip = L("The height of the pillar base cone");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(1.0));
def = this->add(prefix + "support_base_safety_distance", coFloat);
def->label = L("Support base safety distance");
def->category = L("Supports");
def->tooltip = L(
"The minimum distance of the pillar base from the model in mm. "
"Makes sense in zero elevation mode where a gap according "
"to this parameter is inserted between the model and the pad.");
def->sidetext = L("mm");
def->min = 0;
def->max = 10;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(1));
def = this->add(prefix + "support_critical_angle", coFloat);
def->label = L("Critical angle");
def->category = L("Supports");
def->tooltip = L("The default angle for connecting support sticks and junctions.");
def->sidetext = L("°");
def->min = 0;
def->max = 90;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(45));
def = this->add(prefix + "support_max_bridge_length", coFloat);
def->label = L("Max bridge length");
def->category = L("Supports");
def->tooltip = L("The max length of a bridge");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(15.0));
def = this->add(prefix + "support_max_pillar_link_distance", coFloat);
def->label = L("Max pillar linking distance");
def->category = L("Supports");
def->tooltip = L("The max distance of two pillars to get linked with each other."
" A zero value will prohibit pillar cascading.");
def->sidetext = L("mm");
def->min = 0; // 0 means no linking
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(10.0));
def = this->add(prefix + "support_object_elevation", coFloat);
def->label = L("Object elevation");
def->category = L("Supports");
def->tooltip = L("How much the supports should lift up the supported object. "
"If \"Pad around object\" is enabled, this value is ignored.");
def->sidetext = L("mm");
def->min = 0;
def->max = 150; // This is the max height of print on SL1
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(5.0));
}
void PrintConfigDef::init_sla_params()
{
ConfigOptionDef* def;
@ -3619,185 +3804,8 @@ void PrintConfigDef::init_sla_params()
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionEnum(sla::SupportTreeType::Default));
def = this->add("support_head_front_diameter", coFloat);
def->label = L("Pinhead front diameter");
def->category = L("Supports");
def->tooltip = L("Diameter of the pointing side of the head");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(0.4));
def = this->add("support_head_penetration", coFloat);
def->label = L("Head penetration");
def->category = L("Supports");
def->tooltip = L("How much the pinhead has to penetrate the model surface");
def->sidetext = L("mm");
def->mode = comAdvanced;
def->min = 0;
def->set_default_value(new ConfigOptionFloat(0.2));
def = this->add("support_head_width", coFloat);
def->label = L("Pinhead width");
def->category = L("Supports");
def->tooltip = L("Width from the back sphere center to the front sphere center");
def->sidetext = L("mm");
def->min = 0;
def->max = 20;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(1.0));
def = this->add("support_pillar_diameter", coFloat);
def->label = L("Pillar diameter");
def->category = L("Supports");
def->tooltip = L("Diameter in mm of the support pillars");
def->sidetext = L("mm");
def->min = 0;
def->max = 15;
def->mode = comSimple;
def->set_default_value(new ConfigOptionFloat(1.0));
def = this->add("support_small_pillar_diameter_percent", coPercent);
def->label = L("Small pillar diameter percent");
def->category = L("Supports");
def->tooltip = L("The percentage of smaller pillars compared to the normal pillar diameter "
"which are used in problematic areas where a normal pilla cannot fit.");
def->sidetext = L("%");
def->min = 1;
def->max = 100;
def->mode = comExpert;
def->set_default_value(new ConfigOptionPercent(50));
def = this->add("support_max_bridges_on_pillar", coInt);
def->label = L("Max bridges on a pillar");
def->tooltip = L(
"Maximum number of bridges that can be placed on a pillar. Bridges "
"hold support point pinheads and connect to pillars as small branches.");
def->min = 0;
def->max = 50;
def->mode = comExpert;
def->set_default_value(new ConfigOptionInt(3));
def = this->add("support_max_weight_on_model", coFloat);
def->label = L("Max weight on model");
def->category = L("Supports");
def->tooltip = L(
"Maximum weight of sub-trees that terminate on the model instead of the print bed. The weight is the sum of the lenghts of all "
"branches emanating from the endpoint.");
def->sidetext = L("mm");
def->min = 0;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(10.));
def = this->add("support_pillar_connection_mode", coEnum);
def->label = L("Pillar connection mode");
def->tooltip = L("Controls the bridge type between two neighboring pillars."
" Can be zig-zag, cross (double zig-zag) or dynamic which"
" will automatically switch between the first two depending"
" on the distance of the two pillars.");
def->enum_keys_map = &ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_values();
def->enum_keys_map = &ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_values();
def->enum_values = ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_names();
def->enum_labels = ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_names();
def->enum_labels[0] = L("Zig-Zag");
def->enum_labels[1] = L("Cross");
def->enum_labels[2] = L("Dynamic");
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionEnum(SLAPillarConnectionMode::dynamic));
def = this->add("support_buildplate_only", coBool);
def->label = L("Support on build plate only");
def->category = L("Supports");
def->tooltip = L("Only create support if it lies on a build plate. Don't create support on a print.");
def->mode = comSimple;
def->set_default_value(new ConfigOptionBool(false));
def = this->add("support_pillar_widening_factor", coFloat);
def->label = L("Pillar widening factor");
def->category = L("Supports");
def->tooltip = L(
"Merging bridges or pillars into another pillars can "
"increase the radius. Zero means no increase, one means "
"full increase. The exact amount of increase is unspecified and can "
"change in the future. What is garanteed is that thickness will not "
"exceed \"support_base_diameter\"");
def->min = 0;
def->max = 1;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(0.15));
def = this->add("support_base_diameter", coFloat);
def->label = L("Support base diameter");
def->category = L("Supports");
def->tooltip = L("Diameter in mm of the pillar base");
def->sidetext = L("mm");
def->min = 0;
def->max = 30;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(4.0));
def = this->add("support_base_height", coFloat);
def->label = L("Support base height");
def->category = L("Supports");
def->tooltip = L("The height of the pillar base cone");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(1.0));
def = this->add("support_base_safety_distance", coFloat);
def->label = L("Support base safety distance");
def->category = L("Supports");
def->tooltip = L(
"The minimum distance of the pillar base from the model in mm. "
"Makes sense in zero elevation mode where a gap according "
"to this parameter is inserted between the model and the pad.");
def->sidetext = L("mm");
def->min = 0;
def->max = 10;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(1));
def = this->add("support_critical_angle", coFloat);
def->label = L("Critical angle");
def->category = L("Supports");
def->tooltip = L("The default angle for connecting support sticks and junctions.");
def->sidetext = L("°");
def->min = 0;
def->max = 90;
def->mode = comExpert;
def->set_default_value(new ConfigOptionFloat(45));
def = this->add("support_max_bridge_length", coFloat);
def->label = L("Max bridge length");
def->category = L("Supports");
def->tooltip = L("The max length of a bridge");
def->sidetext = L("mm");
def->min = 0;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(15.0));
def = this->add("support_max_pillar_link_distance", coFloat);
def->label = L("Max pillar linking distance");
def->category = L("Supports");
def->tooltip = L("The max distance of two pillars to get linked with each other."
" A zero value will prohibit pillar cascading.");
def->sidetext = L("mm");
def->min = 0; // 0 means no linking
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(10.0));
def = this->add("support_object_elevation", coFloat);
def->label = L("Object elevation");
def->category = L("Supports");
def->tooltip = L("How much the supports should lift up the supported object. "
"If \"Pad around object\" is enabled, this value is ignored.");
def->sidetext = L("mm");
def->min = 0;
def->max = 150; // This is the max height of print on SL1
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(5.0));
init_sla_support_params("");
init_sla_support_params("branching");
def = this->add("support_points_density_relative", coInt);
def->label = L("Support points density");

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@ -185,6 +185,7 @@ private:
void init_fff_params();
void init_extruder_option_keys();
void init_sla_params();
void init_sla_support_params(const std::string &method_prefix);
std::vector<std::string> m_extruder_option_keys;
std::vector<std::string> m_extruder_retract_keys;
@ -891,6 +892,62 @@ PRINT_CONFIG_CLASS_DEFINE(
// and the model object's bounding box bottom. Units in mm.
((ConfigOptionFloat, support_object_elevation))/*= 5.0*/
// Branching tree
// Diameter in mm of the pointing side of the head.
((ConfigOptionFloat, branchingsupport_head_front_diameter))/*= 0.2*/
// How much the pinhead has to penetrate the model surface
((ConfigOptionFloat, branchingsupport_head_penetration))/*= 0.2*/
// Width in mm from the back sphere center to the front sphere center.
((ConfigOptionFloat, branchingsupport_head_width))/*= 1.0*/
// Radius in mm of the support pillars.
((ConfigOptionFloat, branchingsupport_pillar_diameter))/*= 0.8*/
// The percentage of smaller pillars compared to the normal pillar diameter
// which are used in problematic areas where a normal pilla cannot fit.
((ConfigOptionPercent, branchingsupport_small_pillar_diameter_percent))
// How much bridge (supporting another pinhead) can be placed on a pillar.
((ConfigOptionInt, branchingsupport_max_bridges_on_pillar))
// How the pillars are bridged together
((ConfigOptionEnum<SLAPillarConnectionMode>, branchingsupport_pillar_connection_mode))
// Generate only ground facing supports
((ConfigOptionBool, branchingsupport_buildplate_only))
((ConfigOptionFloat, branchingsupport_max_weight_on_model))
((ConfigOptionFloat, branchingsupport_pillar_widening_factor))
// Radius in mm of the pillar base.
((ConfigOptionFloat, branchingsupport_base_diameter))/*= 2.0*/
// The height of the pillar base cone in mm.
((ConfigOptionFloat, branchingsupport_base_height))/*= 1.0*/
// The minimum distance of the pillar base from the model in mm.
((ConfigOptionFloat, branchingsupport_base_safety_distance)) /*= 1.0*/
// The default angle for connecting support sticks and junctions.
((ConfigOptionFloat, branchingsupport_critical_angle))/*= 45*/
// The max length of a bridge in mm
((ConfigOptionFloat, branchingsupport_max_bridge_length))/*= 15.0*/
// The max distance of two pillars to get cross linked.
((ConfigOptionFloat, branchingsupport_max_pillar_link_distance))
// The elevation in Z direction upwards. This is the space between the pad
// and the model object's bounding box bottom. Units in mm.
((ConfigOptionFloat, branchingsupport_object_elevation))/*= 5.0*/
/////// Following options influence automatic support points placement:
((ConfigOptionInt, support_points_density_relative))
((ConfigOptionFloat, support_points_minimal_distance))

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@ -44,6 +44,9 @@ sla::SupportTreeConfig make_support_cfg(const SLAPrintObjectConfig& c)
scfg.enabled = c.supports_enable.getBool();
scfg.tree_type = c.support_tree_type.value;
switch(scfg.tree_type) {
case sla::SupportTreeType::Default: {
scfg.head_front_radius_mm = 0.5*c.support_head_front_diameter.getFloat();
double pillar_r = 0.5 * c.support_pillar_diameter.getFloat();
scfg.head_back_radius_mm = pillar_r;
@ -67,6 +70,37 @@ sla::SupportTreeConfig make_support_cfg(const SLAPrintObjectConfig& c)
scfg.max_bridges_on_pillar = unsigned(c.support_max_bridges_on_pillar.getInt());
scfg.max_weight_on_model_support = c.support_max_weight_on_model.getFloat();
break;
}
case sla::SupportTreeType::Branching:
[[fallthrough]];
case sla::SupportTreeType::Organic:{
scfg.head_front_radius_mm = 0.5*c.branchingsupport_head_front_diameter.getFloat();
double pillar_r = 0.5 * c.branchingsupport_pillar_diameter.getFloat();
scfg.head_back_radius_mm = pillar_r;
scfg.head_fallback_radius_mm =
0.01 * c.branchingsupport_small_pillar_diameter_percent.getFloat() * pillar_r;
scfg.head_penetration_mm = c.branchingsupport_head_penetration.getFloat();
scfg.head_width_mm = c.branchingsupport_head_width.getFloat();
scfg.object_elevation_mm = is_zero_elevation(c) ?
0. : c.branchingsupport_object_elevation.getFloat();
scfg.bridge_slope = c.branchingsupport_critical_angle.getFloat() * PI / 180.0 ;
scfg.max_bridge_length_mm = c.branchingsupport_max_bridge_length.getFloat();
scfg.max_pillar_link_distance_mm = c.branchingsupport_max_pillar_link_distance.getFloat();
scfg.pillar_connection_mode = c.branchingsupport_pillar_connection_mode.value;
scfg.ground_facing_only = c.branchingsupport_buildplate_only.getBool();
scfg.pillar_widening_factor = c.branchingsupport_pillar_widening_factor.getFloat();
scfg.base_radius_mm = 0.5*c.branchingsupport_base_diameter.getFloat();
scfg.base_height_mm = c.branchingsupport_base_height.getFloat();
scfg.pillar_base_safety_distance_mm =
c.branchingsupport_base_safety_distance.getFloat() < EPSILON ?
scfg.safety_distance_mm : c.branchingsupport_base_safety_distance.getFloat();
scfg.max_bridges_on_pillar = unsigned(c.branchingsupport_max_bridges_on_pillar.getInt());
scfg.max_weight_on_model_support = c.branchingsupport_max_weight_on_model.getFloat();
break;
}
}
return scfg;
}

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@ -374,25 +374,45 @@ void ConfigManipulation::toggle_print_sla_options(DynamicPrintConfig* config)
bool is_default_tree = treetype == sla::SupportTreeType::Default;
bool is_branching_tree = treetype == sla::SupportTreeType::Branching;
toggle_field("support_head_front_diameter", supports_en);
toggle_field("support_head_penetration", supports_en);
toggle_field("support_head_width", supports_en);
toggle_field("support_pillar_diameter", supports_en);
toggle_field("support_small_pillar_diameter_percent", supports_en);
toggle_field("support_tree_type", supports_en);
toggle_field("support_head_front_diameter", supports_en && is_default_tree);
toggle_field("support_head_penetration", supports_en && is_default_tree);
toggle_field("support_head_width", supports_en && is_default_tree);
toggle_field("support_pillar_diameter", supports_en && is_default_tree);
toggle_field("support_small_pillar_diameter_percent", supports_en && is_default_tree);
toggle_field("support_max_bridges_on_pillar", supports_en && is_default_tree);
toggle_field("support_pillar_connection_mode", supports_en && is_default_tree);
toggle_field("support_tree_type", supports_en);
toggle_field("support_buildplate_only", supports_en);
toggle_field("support_base_diameter", supports_en);
toggle_field("support_base_height", supports_en);
toggle_field("support_base_safety_distance", supports_en);
toggle_field("support_critical_angle", supports_en);
toggle_field("support_max_bridge_length", supports_en);
toggle_field("support_buildplate_only", supports_en && is_default_tree);
toggle_field("support_base_diameter", supports_en && is_default_tree);
toggle_field("support_base_height", supports_en && is_default_tree);
toggle_field("support_base_safety_distance", supports_en && is_default_tree);
toggle_field("support_critical_angle", supports_en && is_default_tree);
toggle_field("support_max_bridge_length", supports_en && is_default_tree);
toggle_field("support_max_pillar_link_distance", supports_en && is_default_tree);
toggle_field("support_pillar_widening_factor", supports_en && is_branching_tree);
toggle_field("support_max_weight_on_model", supports_en && is_branching_tree);
toggle_field("support_points_density_relative", supports_en);
toggle_field("support_points_minimal_distance", supports_en);
toggle_field("support_pillar_widening_factor", supports_en && is_default_tree);
toggle_field("support_max_weight_on_model", supports_en && is_default_tree);
toggle_field("support_points_density_relative", supports_en && is_default_tree);
toggle_field("support_points_minimal_distance", supports_en && is_default_tree);
toggle_field("branchingsupport_head_front_diameter", supports_en && is_branching_tree);
toggle_field("branchingsupport_head_penetration", supports_en && is_branching_tree);
toggle_field("branchingsupport_head_width", supports_en && is_branching_tree);
toggle_field("branchingsupport_pillar_diameter", supports_en && is_branching_tree);
toggle_field("branchingsupport_small_pillar_diameter_percent", supports_en && is_branching_tree);
toggle_field("branchingsupport_max_bridges_on_pillar", supports_en && is_branching_tree);
toggle_field("branchingsupport_pillar_connection_mode", supports_en && is_branching_tree);
toggle_field("branchingsupport_buildplate_only", supports_en && is_branching_tree);
toggle_field("branchingsupport_base_diameter", supports_en && is_branching_tree);
toggle_field("branchingsupport_base_height", supports_en && is_branching_tree);
toggle_field("branchingsupport_base_safety_distance", supports_en && is_branching_tree);
toggle_field("branchingsupport_critical_angle", supports_en && is_branching_tree);
toggle_field("branchingsupport_max_bridge_length", supports_en && is_branching_tree);
toggle_field("branchingsupport_max_pillar_link_distance", supports_en && is_branching_tree);
toggle_field("branchingsupport_pillar_widening_factor", supports_en && is_branching_tree);
toggle_field("branchingsupport_max_weight_on_model", supports_en && is_branching_tree);
toggle_field("branchingsupport_points_density_relative", supports_en && is_branching_tree);
toggle_field("branchingsupport_points_minimal_distance", supports_en && is_branching_tree);
bool pad_en = config->opt_bool("pad_enable");
@ -407,7 +427,8 @@ void ConfigManipulation::toggle_print_sla_options(DynamicPrintConfig* config)
bool zero_elev = config->opt_bool("pad_around_object") && pad_en;
toggle_field("support_object_elevation", supports_en && !zero_elev);
toggle_field("support_object_elevation", supports_en && is_default_tree && !zero_elev);
toggle_field("branchingsupport_object_elevation", supports_en && is_branching_tree && !zero_elev);
toggle_field("pad_object_gap", zero_elev);
toggle_field("pad_around_object_everywhere", zero_elev);
toggle_field("pad_object_connector_stride", zero_elev);

View File

@ -4821,6 +4821,43 @@ void TabSLAMaterial::update()
wxGetApp().mainframe->on_config_changed(m_config);
}
void TabSLAPrint::build_sla_support_params(const std::string &prefix,
const Slic3r::GUI::PageShp &page)
{
auto optgroup = page->new_optgroup(L("Support head"));
optgroup->append_single_option_line(prefix + "support_head_front_diameter");
optgroup->append_single_option_line(prefix + "support_head_penetration");
optgroup->append_single_option_line(prefix + "support_head_width");
optgroup = page->new_optgroup(L("Support pillar"));
optgroup->append_single_option_line(prefix + "support_pillar_diameter");
optgroup->append_single_option_line(prefix + "support_small_pillar_diameter_percent");
optgroup->append_single_option_line(prefix + "support_max_bridges_on_pillar");
optgroup->append_single_option_line(prefix + "support_pillar_connection_mode");
optgroup->append_single_option_line(prefix + "support_buildplate_only");
optgroup->append_single_option_line(prefix + "support_pillar_widening_factor");
optgroup->append_single_option_line(prefix + "support_max_weight_on_model");
optgroup->append_single_option_line(prefix + "support_base_diameter");
optgroup->append_single_option_line(prefix + "support_base_height");
optgroup->append_single_option_line(prefix + "support_base_safety_distance");
// Mirrored parameter from Pad page for toggling elevation on the same page
optgroup->append_single_option_line(prefix + "support_object_elevation");
Line line{ "", "" };
line.full_width = 1;
line.widget = [this](wxWindow* parent) {
return description_line_widget(parent, &m_support_object_elevation_description_line);
};
optgroup->append_line(line);
optgroup = page->new_optgroup(L("Connection of the support sticks and junctions"));
optgroup->append_single_option_line(prefix + "support_critical_angle");
optgroup->append_single_option_line(prefix + "support_max_bridge_length");
optgroup->append_single_option_line(prefix + "support_max_pillar_link_distance");
}
void TabSLAPrint::build()
{
m_presets = &m_preset_bundle->sla_prints;
@ -4833,42 +4870,47 @@ void TabSLAPrint::build()
optgroup->append_single_option_line("faded_layers");
page = add_options_page(L("Supports"), "support"/*"sla_supports"*/);
// page = add_options_page(L("Branching"), "supports");
optgroup = page->new_optgroup(L("Supports"));
optgroup->append_single_option_line("supports_enable");
optgroup->append_single_option_line("support_tree_type");
optgroup = page->new_optgroup(L("Support head"));
optgroup->append_single_option_line("support_head_front_diameter");
optgroup->append_single_option_line("support_head_penetration");
optgroup->append_single_option_line("support_head_width");
build_sla_support_params("", page);
build_sla_support_params("branching", page);
// optgroup = page->new_optgroup(L("Support head"));
// optgroup->append_single_option_line("support_head_front_diameter");
// optgroup->append_single_option_line("support_head_penetration");
// optgroup->append_single_option_line("support_head_width");
optgroup = page->new_optgroup(L("Support pillar"));
optgroup->append_single_option_line("support_pillar_diameter");
optgroup->append_single_option_line("support_small_pillar_diameter_percent");
optgroup->append_single_option_line("support_max_bridges_on_pillar");
// optgroup = page->new_optgroup(L("Support pillar"));
// optgroup->append_single_option_line("support_pillar_diameter");
// optgroup->append_single_option_line("support_small_pillar_diameter_percent");
// optgroup->append_single_option_line("support_max_bridges_on_pillar");
optgroup->append_single_option_line("support_pillar_connection_mode");
optgroup->append_single_option_line("support_buildplate_only");
optgroup->append_single_option_line("support_pillar_widening_factor");
optgroup->append_single_option_line("support_max_weight_on_model");
optgroup->append_single_option_line("support_base_diameter");
optgroup->append_single_option_line("support_base_height");
optgroup->append_single_option_line("support_base_safety_distance");
// optgroup->append_single_option_line("support_pillar_connection_mode");
// optgroup->append_single_option_line("support_buildplate_only");
// optgroup->append_single_option_line("support_pillar_widening_factor");
// optgroup->append_single_option_line("support_max_weight_on_model");
// optgroup->append_single_option_line("support_base_diameter");
// optgroup->append_single_option_line("support_base_height");
// optgroup->append_single_option_line("support_base_safety_distance");
// Mirrored parameter from Pad page for toggling elevation on the same page
optgroup->append_single_option_line("support_object_elevation");
// // Mirrored parameter from Pad page for toggling elevation on the same page
// optgroup->append_single_option_line("support_object_elevation");
Line line{ "", "" };
line.full_width = 1;
line.widget = [this](wxWindow* parent) {
return description_line_widget(parent, &m_support_object_elevation_description_line);
};
optgroup->append_line(line);
// Line line{ "", "" };
// line.full_width = 1;
// line.widget = [this](wxWindow* parent) {
// return description_line_widget(parent, &m_support_object_elevation_description_line);
// };
// optgroup->append_line(line);
optgroup = page->new_optgroup(L("Connection of the support sticks and junctions"));
optgroup->append_single_option_line("support_critical_angle");
optgroup->append_single_option_line("support_max_bridge_length");
optgroup->append_single_option_line("support_max_pillar_link_distance");
// optgroup = page->new_optgroup(L("Connection of the support sticks and junctions"));
// optgroup->append_single_option_line("support_critical_angle");
// optgroup->append_single_option_line("support_max_bridge_length");
// optgroup->append_single_option_line("support_max_pillar_link_distance");
optgroup = page->new_optgroup(L("Automatic generation"));
optgroup->append_single_option_line("support_points_density_relative");

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@ -526,6 +526,9 @@ public:
class TabSLAPrint : public Tab
{
void build_sla_support_params(const std::string &prefix,
const Slic3r::GUI::PageShp &page);
public:
TabSLAPrint(wxBookCtrlBase* parent) :
Tab(parent, _(L("Print Settings")), Slic3r::Preset::TYPE_SLA_PRINT) {}