4547755221
* Added changing of text color and inserted undo_button when some option is modified. * Call wxSetlocale(LC_NUMERIC, "C") when do language changing.
279 lines
16 KiB
C++
279 lines
16 KiB
C++
//#undef NDEBUG
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#include <cassert>
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#include "PresetBundle.hpp"
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#include "PresetHints.hpp"
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#include "Flow.hpp"
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#include <boost/algorithm/string/predicate.hpp>
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#include <wx/intl.h>
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#include "../../libslic3r/libslic3r.h"
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#include "GUI.hpp"
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namespace Slic3r {
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#define MIN_BUF_LENGTH 4096
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std::string PresetHints::cooling_description(const Preset &preset)
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{
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std::string out;
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char buf[MIN_BUF_LENGTH/*4096*/];
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if (preset.config.opt_bool("cooling", 0)) {
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int slowdown_below_layer_time = preset.config.opt_int("slowdown_below_layer_time", 0);
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int min_fan_speed = preset.config.opt_int("min_fan_speed", 0);
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int max_fan_speed = preset.config.opt_int("max_fan_speed", 0);
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int min_print_speed = int(preset.config.opt_float("min_print_speed", 0) + 0.5);
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int fan_below_layer_time = preset.config.opt_int("fan_below_layer_time", 0);
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sprintf(buf, _CHB(L("If estimated layer time is below ~%ds, fan will run at %d%% and print speed will be reduced so that no less than %ds are spent on that layer (however, speed will never be reduced below %dmm/s).")),
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slowdown_below_layer_time, max_fan_speed, slowdown_below_layer_time, min_print_speed);
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out += buf;
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if (fan_below_layer_time > slowdown_below_layer_time) {
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sprintf(buf, _CHB(L("\nIf estimated layer time is greater, but still below ~%ds, fan will run at a proportionally decreasing speed between %d%% and %d%%.")),
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fan_below_layer_time, max_fan_speed, min_fan_speed);
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out += buf;
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}
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out += _CHB(L("\nDuring the other layers, fan "));
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} else {
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out = _CHB(L("Fan "));
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}
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if (preset.config.opt_bool("fan_always_on", 0)) {
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int disable_fan_first_layers = preset.config.opt_int("disable_fan_first_layers", 0);
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int min_fan_speed = preset.config.opt_int("min_fan_speed", 0);
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sprintf(buf, _CHB(L("will always run at %d%% ")), min_fan_speed);
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out += buf;
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if (disable_fan_first_layers > 1) {
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sprintf(buf, _CHB(L("except for the first %d layers")), disable_fan_first_layers);
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out += buf;
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}
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else if (disable_fan_first_layers == 1)
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out += _CHB(L("except for the first layer"));
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} else
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out += _CHB(L("will be turned off."));
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return out;
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}
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static const ConfigOptionFloatOrPercent& first_positive(const ConfigOptionFloatOrPercent *v1, const ConfigOptionFloatOrPercent &v2, const ConfigOptionFloatOrPercent &v3)
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{
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return (v1 != nullptr && v1->value > 0) ? *v1 : ((v2.value > 0) ? v2 : v3);
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}
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std::string PresetHints::maximum_volumetric_flow_description(const PresetBundle &preset_bundle)
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{
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// Find out, to which nozzle index is the current filament profile assigned.
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int idx_extruder = 0;
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int num_extruders = (int)preset_bundle.filament_presets.size();
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for (; idx_extruder < num_extruders; ++ idx_extruder)
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if (preset_bundle.filament_presets[idx_extruder] == preset_bundle.filaments.get_selected_preset().name)
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break;
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if (idx_extruder == num_extruders)
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// The current filament preset is not active for any extruder.
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idx_extruder = -1;
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const DynamicPrintConfig &print_config = preset_bundle.prints .get_edited_preset().config;
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const DynamicPrintConfig &filament_config = preset_bundle.filaments.get_edited_preset().config;
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const DynamicPrintConfig &printer_config = preset_bundle.printers .get_edited_preset().config;
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// Current printer values.
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float nozzle_diameter = (float)printer_config.opt_float("nozzle_diameter", idx_extruder);
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// Print config values
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double layer_height = print_config.opt_float("layer_height");
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double first_layer_height = print_config.get_abs_value("first_layer_height", layer_height);
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double support_material_speed = print_config.opt_float("support_material_speed");
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double support_material_interface_speed = print_config.get_abs_value("support_material_interface_speed", support_material_speed);
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double bridge_speed = print_config.opt_float("bridge_speed");
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double bridge_flow_ratio = print_config.opt_float("bridge_flow_ratio");
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double perimeter_speed = print_config.opt_float("perimeter_speed");
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double external_perimeter_speed = print_config.get_abs_value("external_perimeter_speed", perimeter_speed);
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double gap_fill_speed = print_config.opt_float("gap_fill_speed");
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double infill_speed = print_config.opt_float("infill_speed");
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double small_perimeter_speed = print_config.get_abs_value("small_perimeter_speed", perimeter_speed);
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double solid_infill_speed = print_config.get_abs_value("solid_infill_speed", infill_speed);
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double top_solid_infill_speed = print_config.get_abs_value("top_solid_infill_speed", solid_infill_speed);
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// Maximum print speed when auto-speed is enabled by setting any of the above speed values to zero.
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double max_print_speed = print_config.opt_float("max_print_speed");
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// Maximum volumetric speed allowed for the print profile.
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double max_volumetric_speed = print_config.opt_float("max_volumetric_speed");
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const auto &extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("extrusion_width");
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const auto &external_perimeter_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("external_perimeter_extrusion_width");
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const auto &first_layer_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("first_layer_extrusion_width");
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const auto &infill_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("infill_extrusion_width");
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const auto &perimeter_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("perimeter_extrusion_width");
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const auto &solid_infill_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("solid_infill_extrusion_width");
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const auto &support_material_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("support_material_extrusion_width");
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const auto &top_infill_extrusion_width = *print_config.option<ConfigOptionFloatOrPercent>("top_infill_extrusion_width");
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const auto &first_layer_speed = *print_config.option<ConfigOptionFloatOrPercent>("first_layer_speed");
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// Index of an extruder assigned to a feature. If set to 0, an active extruder will be used for a multi-material print.
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// If different from idx_extruder, it will not be taken into account for this hint.
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auto feature_extruder_active = [idx_extruder, num_extruders](int i) {
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return i <= 0 || i > num_extruders || idx_extruder == -1 || idx_extruder == i - 1;
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};
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bool perimeter_extruder_active = feature_extruder_active(print_config.opt_int("perimeter_extruder"));
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bool infill_extruder_active = feature_extruder_active(print_config.opt_int("infill_extruder"));
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bool solid_infill_extruder_active = feature_extruder_active(print_config.opt_int("solid_infill_extruder"));
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bool support_material_extruder_active = feature_extruder_active(print_config.opt_int("support_material_extruder"));
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bool support_material_interface_extruder_active = feature_extruder_active(print_config.opt_int("support_material_interface_extruder"));
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// Current filament values
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double filament_diameter = filament_config.opt_float("filament_diameter", 0);
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double filament_crossection = M_PI * 0.25 * filament_diameter * filament_diameter;
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double extrusion_multiplier = filament_config.opt_float("extrusion_multiplier", 0);
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// The following value will be annotated by this hint, so it does not take part in the calculation.
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// double filament_max_volumetric_speed = filament_config.opt_float("filament_max_volumetric_speed", 0);
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std::string out;
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for (size_t idx_type = (first_layer_extrusion_width.value == 0) ? 1 : 0; idx_type < 3; ++ idx_type) {
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// First test the maximum volumetric extrusion speed for non-bridging extrusions.
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bool first_layer = idx_type == 0;
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bool bridging = idx_type == 2;
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const ConfigOptionFloatOrPercent *first_layer_extrusion_width_ptr = (first_layer && first_layer_extrusion_width.value > 0) ?
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&first_layer_extrusion_width : nullptr;
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const float lh = float(first_layer ? first_layer_height : layer_height);
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const float bfr = bridging ? bridge_flow_ratio : 0.f;
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double max_flow = 0.;
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std::string max_flow_extrusion_type;
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auto limit_by_first_layer_speed = [&first_layer_speed, first_layer](double speed_normal, double speed_max) {
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if (first_layer && first_layer_speed.value > 0)
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// Apply the first layer limit.
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speed_normal = first_layer_speed.get_abs_value(speed_normal);
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return (speed_normal > 0.) ? speed_normal : speed_max;
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};
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if (perimeter_extruder_active) {
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double external_perimeter_rate = Flow::new_from_config_width(frExternalPerimeter,
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first_positive(first_layer_extrusion_width_ptr, external_perimeter_extrusion_width, extrusion_width),
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nozzle_diameter, lh, bfr).mm3_per_mm() *
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(bridging ? bridge_speed :
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limit_by_first_layer_speed(std::max(external_perimeter_speed, small_perimeter_speed), max_print_speed));
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if (max_flow < external_perimeter_rate) {
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max_flow = external_perimeter_rate;
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max_flow_extrusion_type = _CHB(L("external perimeters"));
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}
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double perimeter_rate = Flow::new_from_config_width(frPerimeter,
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first_positive(first_layer_extrusion_width_ptr, perimeter_extrusion_width, extrusion_width),
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nozzle_diameter, lh, bfr).mm3_per_mm() *
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(bridging ? bridge_speed :
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limit_by_first_layer_speed(std::max(perimeter_speed, small_perimeter_speed), max_print_speed));
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if (max_flow < perimeter_rate) {
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max_flow = perimeter_rate;
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max_flow_extrusion_type = _CHB(L("perimeters"));
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}
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}
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if (! bridging && infill_extruder_active) {
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double infill_rate = Flow::new_from_config_width(frInfill,
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first_positive(first_layer_extrusion_width_ptr, infill_extrusion_width, extrusion_width),
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nozzle_diameter, lh, bfr).mm3_per_mm() * limit_by_first_layer_speed(infill_speed, max_print_speed);
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if (max_flow < infill_rate) {
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max_flow = infill_rate;
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max_flow_extrusion_type = _CHB(L("infill"));
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}
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}
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if (solid_infill_extruder_active) {
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double solid_infill_rate = Flow::new_from_config_width(frInfill,
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first_positive(first_layer_extrusion_width_ptr, solid_infill_extrusion_width, extrusion_width),
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nozzle_diameter, lh, 0).mm3_per_mm() *
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(bridging ? bridge_speed : limit_by_first_layer_speed(solid_infill_speed, max_print_speed));
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if (max_flow < solid_infill_rate) {
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max_flow = solid_infill_rate;
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max_flow_extrusion_type = _CHB(L("solid infill"));
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}
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if (! bridging) {
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double top_solid_infill_rate = Flow::new_from_config_width(frInfill,
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first_positive(first_layer_extrusion_width_ptr, top_infill_extrusion_width, extrusion_width),
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nozzle_diameter, lh, bfr).mm3_per_mm() * limit_by_first_layer_speed(top_solid_infill_speed, max_print_speed);
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if (max_flow < top_solid_infill_rate) {
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max_flow = top_solid_infill_rate;
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max_flow_extrusion_type = _CHB(L("top solid infill"));
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}
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}
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}
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if (support_material_extruder_active) {
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double support_material_rate = Flow::new_from_config_width(frSupportMaterial,
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first_positive(first_layer_extrusion_width_ptr, support_material_extrusion_width, extrusion_width),
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nozzle_diameter, lh, bfr).mm3_per_mm() *
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(bridging ? bridge_speed : limit_by_first_layer_speed(support_material_speed, max_print_speed));
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if (max_flow < support_material_rate) {
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max_flow = support_material_rate;
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max_flow_extrusion_type = _CHB(L("support"));
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}
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}
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if (support_material_interface_extruder_active) {
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double support_material_interface_rate = Flow::new_from_config_width(frSupportMaterialInterface,
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first_positive(first_layer_extrusion_width_ptr, support_material_extrusion_width, extrusion_width),
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nozzle_diameter, lh, bfr).mm3_per_mm() *
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(bridging ? bridge_speed : limit_by_first_layer_speed(support_material_interface_speed, max_print_speed));
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if (max_flow < support_material_interface_rate) {
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max_flow = support_material_interface_rate;
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max_flow_extrusion_type = _CHB(L("support interface"));
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}
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}
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//FIXME handle gap_fill_speed
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if (! out.empty())
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out += "\n";
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out += (first_layer ? _CHB(L("First layer volumetric")) : (bridging ? _CHB(L("Bridging volumetric")) : _CHB(L("Volumetric"))));
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out += _CHB(L(" flow rate is maximized "));
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bool limited_by_max_volumetric_speed = max_volumetric_speed > 0 && max_volumetric_speed < max_flow;
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out += (limited_by_max_volumetric_speed ?
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_CHB(L("by the print profile maximum")) :
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(_CHB(L("when printing ")) + max_flow_extrusion_type))
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+ _CHB(L(" with a volumetric rate "));
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if (limited_by_max_volumetric_speed)
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max_flow = max_volumetric_speed;
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char buf[MIN_BUF_LENGTH/*2048*/];
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sprintf(buf, _CHB(L("%3.2f mm³/s")), max_flow);
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out += buf;
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sprintf(buf, _CHB(L(" at filament speed %3.2f mm/s.")), max_flow / filament_crossection);
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out += buf;
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}
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return out;
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}
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std::string PresetHints::recommended_thin_wall_thickness(const PresetBundle &preset_bundle)
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{
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const DynamicPrintConfig &print_config = preset_bundle.prints .get_edited_preset().config;
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const DynamicPrintConfig &printer_config = preset_bundle.printers .get_edited_preset().config;
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float layer_height = float(print_config.opt_float("layer_height"));
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int num_perimeters = print_config.opt_int("perimeters");
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bool thin_walls = print_config.opt_bool("thin_walls");
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float nozzle_diameter = float(printer_config.opt_float("nozzle_diameter", 0));
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std::string out;
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if (layer_height <= 0.f){
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out += _CHB(L("Recommended object thin wall thickness: Not available due to invalid layer height."));
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return out;
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}
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Flow external_perimeter_flow = Flow::new_from_config_width(
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frExternalPerimeter,
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*print_config.opt<ConfigOptionFloatOrPercent>("external_perimeter_extrusion_width"),
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nozzle_diameter, layer_height, false);
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Flow perimeter_flow = Flow::new_from_config_width(
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frPerimeter,
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*print_config.opt<ConfigOptionFloatOrPercent>("perimeter_extrusion_width"),
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nozzle_diameter, layer_height, false);
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if (num_perimeters > 0) {
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int num_lines = std::min(num_perimeters * 2, 10);
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char buf[MIN_BUF_LENGTH/*256*/];
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sprintf(buf, _CHB(L("Recommended object thin wall thickness for layer height %.2f and ")), layer_height);
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out += buf;
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// Start with the width of two closely spaced
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double width = external_perimeter_flow.width + external_perimeter_flow.spacing();
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for (int i = 2; i <= num_lines; thin_walls ? ++ i : i += 2) {
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if (i > 2)
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out += ", ";
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sprintf(buf, _CHB(L("%d lines: %.2lf mm")), i, width);
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out += buf;
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width += perimeter_flow.spacing() * (thin_walls ? 1.f : 2.f);
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}
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}
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return out;
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}
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}; // namespace Slic3r
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