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#ifndef slic3r_PrintConfig_hpp_
#define slic3r_PrintConfig_hpp_
#include "libslic3r.h"
#include "Config.hpp"
#define OPT_PTR(KEY) if (opt_key == #KEY) return &this->KEY
namespace Slic3r {
enum GCodeFlavor {
gcfRepRap, gcfTeacup, gcfMakerWare, gcfSailfish, gcfMach3, gcfMachinekit, gcfNoExtrusion,
};
enum InfillPattern {
ipRectilinear, ipGrid, ipLine, ipConcentric, ipHoneycomb, ip3DHoneycomb,
ipHilbertCurve, ipArchimedeanChords, ipOctagramSpiral,
};
enum SupportMaterialPattern {
smpRectilinear, smpRectilinearGrid, smpHoneycomb, smpPillars,
};
enum SeamPosition {
spRandom, spNearest, spAligned
};
template<> inline t_config_enum_values ConfigOptionEnum<GCodeFlavor>::get_enum_values() {
t_config_enum_values keys_map;
keys_map["reprap"] = gcfRepRap;
keys_map["teacup"] = gcfTeacup;
keys_map["makerware"] = gcfMakerWare;
keys_map["sailfish"] = gcfSailfish;
keys_map["mach3"] = gcfMach3;
keys_map["machinekit"] = gcfMachinekit;
keys_map["no-extrusion"] = gcfNoExtrusion;
return keys_map;
}
template<> inline t_config_enum_values ConfigOptionEnum<InfillPattern>::get_enum_values() {
t_config_enum_values keys_map;
keys_map["rectilinear"] = ipRectilinear;
keys_map["grid"] = ipGrid;
keys_map["line"] = ipLine;
keys_map["concentric"] = ipConcentric;
keys_map["honeycomb"] = ipHoneycomb;
keys_map["3dhoneycomb"] = ip3DHoneycomb;
keys_map["hilbertcurve"] = ipHilbertCurve;
keys_map["archimedeanchords"] = ipArchimedeanChords;
keys_map["octagramspiral"] = ipOctagramSpiral;
return keys_map;
}
template<> inline t_config_enum_values ConfigOptionEnum<SupportMaterialPattern>::get_enum_values() {
t_config_enum_values keys_map;
keys_map["rectilinear"] = smpRectilinear;
keys_map["rectilinear-grid"] = smpRectilinearGrid;
keys_map["honeycomb"] = smpHoneycomb;
keys_map["pillars"] = smpPillars;
return keys_map;
}
template<> inline t_config_enum_values ConfigOptionEnum<SeamPosition>::get_enum_values() {
t_config_enum_values keys_map;
keys_map["random"] = spRandom;
keys_map["nearest"] = spNearest;
keys_map["aligned"] = spAligned;
return keys_map;
}
class PrintConfigDef : public ConfigDef
{
public:
PrintConfigDef();
};
extern PrintConfigDef print_config_def;
class PrintConfigBase : public virtual ConfigBase
{
public:
PrintConfigBase() {
this->def = &print_config_def;
};
double min_object_distance() const;
};
class DynamicPrintConfig : public PrintConfigBase, public DynamicConfig
{
public:
DynamicPrintConfig() : PrintConfigBase(), DynamicConfig() {};
void normalize();
};
class StaticPrintConfigBase : public PrintConfigBase, public StaticConfig
{
public:
StaticPrintConfigBase() : PrintConfigBase(), StaticConfig() {};
};
class PrintObjectConfig : public virtual StaticPrintConfigBase
{
public:
ConfigOptionBool dont_support_bridges;
ConfigOptionFloatOrPercent extrusion_width;
ConfigOptionFloatOrPercent first_layer_height;
ConfigOptionBool infill_only_where_needed;
ConfigOptionBool interface_shells;
ConfigOptionFloat layer_height;
ConfigOptionInt raft_layers;
ConfigOptionEnum<SeamPosition> seam_position;
ConfigOptionBool support_material;
ConfigOptionInt support_material_angle;
ConfigOptionFloat support_material_contact_distance;
ConfigOptionInt support_material_enforce_layers;
ConfigOptionInt support_material_extruder;
ConfigOptionFloatOrPercent support_material_extrusion_width;
ConfigOptionInt support_material_interface_extruder;
ConfigOptionInt support_material_interface_layers;
ConfigOptionFloat support_material_interface_spacing;
ConfigOptionFloatOrPercent support_material_interface_speed;
ConfigOptionEnum<SupportMaterialPattern> support_material_pattern;
ConfigOptionFloat support_material_spacing;
ConfigOptionFloat support_material_speed;
ConfigOptionInt support_material_threshold;
ConfigOptionFloat xy_size_compensation;
PrintObjectConfig() : StaticPrintConfigBase() {
this->set_defaults();
};
ConfigOption* option(const t_config_option_key &opt_key, bool create = false) {
OPT_PTR(dont_support_bridges);
OPT_PTR(extrusion_width);
OPT_PTR(first_layer_height);
OPT_PTR(infill_only_where_needed);
OPT_PTR(interface_shells);
OPT_PTR(layer_height);
OPT_PTR(raft_layers);
OPT_PTR(seam_position);
OPT_PTR(support_material);
OPT_PTR(support_material_angle);
OPT_PTR(support_material_contact_distance);
OPT_PTR(support_material_enforce_layers);
OPT_PTR(support_material_extruder);
OPT_PTR(support_material_extrusion_width);
OPT_PTR(support_material_interface_extruder);
OPT_PTR(support_material_interface_layers);
OPT_PTR(support_material_interface_spacing);
OPT_PTR(support_material_interface_speed);
OPT_PTR(support_material_pattern);
OPT_PTR(support_material_spacing);
OPT_PTR(support_material_speed);
OPT_PTR(support_material_threshold);
OPT_PTR(xy_size_compensation);
return NULL;
};
};
class PrintRegionConfig : public virtual StaticPrintConfigBase
{
public:
ConfigOptionInt bottom_solid_layers;
ConfigOptionFloat bridge_flow_ratio;
ConfigOptionFloat bridge_speed;
ConfigOptionEnum<InfillPattern> external_fill_pattern;
ConfigOptionFloatOrPercent external_perimeter_extrusion_width;
ConfigOptionFloatOrPercent external_perimeter_speed;
ConfigOptionBool external_perimeters_first;
ConfigOptionBool extra_perimeters;
ConfigOptionInt fill_angle;
ConfigOptionPercent fill_density;
ConfigOptionEnum<InfillPattern> fill_pattern;
ConfigOptionFloat gap_fill_speed;
ConfigOptionInt infill_extruder;
ConfigOptionFloatOrPercent infill_extrusion_width;
ConfigOptionInt infill_every_layers;
ConfigOptionFloatOrPercent infill_overlap;
ConfigOptionFloat infill_speed;
ConfigOptionBool overhangs;
ConfigOptionInt perimeter_extruder;
ConfigOptionFloatOrPercent perimeter_extrusion_width;
ConfigOptionFloat perimeter_speed;
ConfigOptionInt perimeters;
ConfigOptionFloatOrPercent small_perimeter_speed;
ConfigOptionFloat solid_infill_below_area;
ConfigOptionInt solid_infill_extruder;
ConfigOptionFloatOrPercent solid_infill_extrusion_width;
ConfigOptionInt solid_infill_every_layers;
ConfigOptionFloatOrPercent solid_infill_speed;
ConfigOptionBool thin_walls;
ConfigOptionFloatOrPercent top_infill_extrusion_width;
ConfigOptionInt top_solid_layers;
ConfigOptionFloatOrPercent top_solid_infill_speed;
PrintRegionConfig() : StaticPrintConfigBase() {
this->set_defaults();
};
ConfigOption* option(const t_config_option_key &opt_key, bool create = false) {
OPT_PTR(bottom_solid_layers);
OPT_PTR(bridge_flow_ratio);
OPT_PTR(bridge_speed);
OPT_PTR(external_fill_pattern);
OPT_PTR(external_perimeter_extrusion_width);
OPT_PTR(external_perimeter_speed);
OPT_PTR(external_perimeters_first);
OPT_PTR(extra_perimeters);
OPT_PTR(fill_angle);
OPT_PTR(fill_density);
OPT_PTR(fill_pattern);
OPT_PTR(gap_fill_speed);
OPT_PTR(infill_extruder);
OPT_PTR(infill_extrusion_width);
OPT_PTR(infill_every_layers);
OPT_PTR(infill_overlap);
OPT_PTR(infill_speed);
OPT_PTR(overhangs);
OPT_PTR(perimeter_extruder);
OPT_PTR(perimeter_extrusion_width);
OPT_PTR(perimeter_speed);
OPT_PTR(perimeters);
OPT_PTR(small_perimeter_speed);
OPT_PTR(solid_infill_below_area);
OPT_PTR(solid_infill_extruder);
OPT_PTR(solid_infill_extrusion_width);
OPT_PTR(solid_infill_every_layers);
OPT_PTR(solid_infill_speed);
OPT_PTR(thin_walls);
OPT_PTR(top_infill_extrusion_width);
OPT_PTR(top_solid_infill_speed);
OPT_PTR(top_solid_layers);
return NULL;
};
};
class GCodeConfig : public virtual StaticPrintConfigBase
{
public:
ConfigOptionString before_layer_gcode;
ConfigOptionString end_gcode;
ConfigOptionString extrusion_axis;
ConfigOptionFloats extrusion_multiplier;
ConfigOptionFloats filament_diameter;
ConfigOptionBool gcode_comments;
ConfigOptionEnum<GCodeFlavor> gcode_flavor;
ConfigOptionString layer_gcode;
ConfigOptionFloat max_print_speed;
ConfigOptionFloat max_volumetric_speed;
ConfigOptionFloat pressure_advance;
ConfigOptionFloats retract_length;
ConfigOptionFloats retract_length_toolchange;
ConfigOptionFloats retract_lift;
ConfigOptionFloats retract_restart_extra;
ConfigOptionFloats retract_restart_extra_toolchange;
ConfigOptionFloats retract_speed;
ConfigOptionString start_gcode;
ConfigOptionString toolchange_gcode;
ConfigOptionFloat travel_speed;
ConfigOptionBool use_firmware_retraction;
ConfigOptionBool use_relative_e_distances;
ConfigOptionBool use_volumetric_e;
GCodeConfig() : StaticPrintConfigBase() {
this->set_defaults();
};
ConfigOption* option(const t_config_option_key &opt_key, bool create = false) {
OPT_PTR(before_layer_gcode);
OPT_PTR(end_gcode);
OPT_PTR(extrusion_axis);
OPT_PTR(extrusion_multiplier);
OPT_PTR(filament_diameter);
OPT_PTR(gcode_comments);
OPT_PTR(gcode_flavor);
OPT_PTR(layer_gcode);
OPT_PTR(max_print_speed);
OPT_PTR(max_volumetric_speed);
OPT_PTR(pressure_advance);
OPT_PTR(retract_length);
OPT_PTR(retract_length_toolchange);
OPT_PTR(retract_lift);
OPT_PTR(retract_restart_extra);
OPT_PTR(retract_restart_extra_toolchange);
OPT_PTR(retract_speed);
OPT_PTR(start_gcode);
OPT_PTR(toolchange_gcode);
OPT_PTR(travel_speed);
OPT_PTR(use_firmware_retraction);
OPT_PTR(use_relative_e_distances);
OPT_PTR(use_volumetric_e);
return NULL;
};
std::string get_extrusion_axis() const
{
if ((this->gcode_flavor.value == gcfMach3) || (this->gcode_flavor.value == gcfMachinekit)) {
return "A";
} else if (this->gcode_flavor.value == gcfNoExtrusion) {
return "";
} else {
return this->extrusion_axis.value;
}
};
};
class PrintConfig : public GCodeConfig
{
public:
ConfigOptionBool avoid_crossing_perimeters;
ConfigOptionPoints bed_shape;
ConfigOptionInt bed_temperature;
ConfigOptionFloat bridge_acceleration;
ConfigOptionInt bridge_fan_speed;
ConfigOptionFloat brim_width;
ConfigOptionBool complete_objects;
ConfigOptionBool cooling;
ConfigOptionFloat default_acceleration;
ConfigOptionInt disable_fan_first_layers;
ConfigOptionFloat duplicate_distance;
ConfigOptionFloat extruder_clearance_height;
ConfigOptionFloat extruder_clearance_radius;
ConfigOptionPoints extruder_offset;
ConfigOptionBool fan_always_on;
ConfigOptionInt fan_below_layer_time;
ConfigOptionStrings filament_colour;
ConfigOptionFloat first_layer_acceleration;
ConfigOptionInt first_layer_bed_temperature;
ConfigOptionFloatOrPercent first_layer_extrusion_width;
ConfigOptionFloatOrPercent first_layer_speed;
ConfigOptionInts first_layer_temperature;
ConfigOptionBool gcode_arcs;
ConfigOptionFloat infill_acceleration;
ConfigOptionBool infill_first;
ConfigOptionInt max_fan_speed;
ConfigOptionInt min_fan_speed;
ConfigOptionFloat min_print_speed;
ConfigOptionFloat min_skirt_length;
ConfigOptionString notes;
ConfigOptionFloats nozzle_diameter;
ConfigOptionBool only_retract_when_crossing_perimeters;
ConfigOptionBool ooze_prevention;
ConfigOptionString output_filename_format;
ConfigOptionFloat perimeter_acceleration;
ConfigOptionStrings post_process;
ConfigOptionFloat resolution;
ConfigOptionFloats retract_before_travel;
ConfigOptionBools retract_layer_change;
ConfigOptionFloat skirt_distance;
ConfigOptionInt skirt_height;
ConfigOptionInt skirts;
ConfigOptionInt slowdown_below_layer_time;
ConfigOptionBool spiral_vase;
ConfigOptionInt standby_temperature_delta;
ConfigOptionInts temperature;
ConfigOptionInt threads;
ConfigOptionFloat vibration_limit;
ConfigOptionBools wipe;
ConfigOptionFloat z_offset;
PrintConfig() : GCodeConfig() {
this->set_defaults();
};
ConfigOption* option(const t_config_option_key &opt_key, bool create = false) {
OPT_PTR(avoid_crossing_perimeters);
OPT_PTR(bed_shape);
OPT_PTR(bed_temperature);
OPT_PTR(bridge_acceleration);
OPT_PTR(bridge_fan_speed);
OPT_PTR(brim_width);
OPT_PTR(complete_objects);
OPT_PTR(cooling);
OPT_PTR(default_acceleration);
OPT_PTR(disable_fan_first_layers);
OPT_PTR(duplicate_distance);
OPT_PTR(extruder_clearance_height);
OPT_PTR(extruder_clearance_radius);
OPT_PTR(extruder_offset);
OPT_PTR(fan_always_on);
OPT_PTR(fan_below_layer_time);
OPT_PTR(filament_colour);
OPT_PTR(first_layer_acceleration);
OPT_PTR(first_layer_bed_temperature);
OPT_PTR(first_layer_extrusion_width);
OPT_PTR(first_layer_speed);
OPT_PTR(first_layer_temperature);
OPT_PTR(gcode_arcs);
OPT_PTR(infill_acceleration);
OPT_PTR(infill_first);
OPT_PTR(max_fan_speed);
OPT_PTR(min_fan_speed);
OPT_PTR(min_print_speed);
OPT_PTR(min_skirt_length);
OPT_PTR(notes);
OPT_PTR(nozzle_diameter);
OPT_PTR(only_retract_when_crossing_perimeters);
OPT_PTR(ooze_prevention);
OPT_PTR(output_filename_format);
OPT_PTR(perimeter_acceleration);
OPT_PTR(post_process);
OPT_PTR(resolution);
OPT_PTR(retract_before_travel);
OPT_PTR(retract_layer_change);
OPT_PTR(skirt_distance);
OPT_PTR(skirt_height);
OPT_PTR(skirts);
OPT_PTR(slowdown_below_layer_time);
OPT_PTR(spiral_vase);
OPT_PTR(standby_temperature_delta);
OPT_PTR(temperature);
OPT_PTR(threads);
OPT_PTR(vibration_limit);
OPT_PTR(wipe);
OPT_PTR(z_offset);
// look in parent class
ConfigOption* opt;
if ((opt = GCodeConfig::option(opt_key, create)) != NULL) return opt;
return NULL;
};
};
class HostConfig : public virtual StaticPrintConfigBase
{
public:
ConfigOptionString octoprint_host;
ConfigOptionString octoprint_apikey;
ConfigOptionString serial_port;
ConfigOptionInt serial_speed;
HostConfig() : StaticPrintConfigBase() {
this->set_defaults();
};
ConfigOption* option(const t_config_option_key &opt_key, bool create = false) {
OPT_PTR(octoprint_host);
OPT_PTR(octoprint_apikey);
OPT_PTR(serial_port);
OPT_PTR(serial_speed);
return NULL;
};
};
class FullPrintConfig
: public PrintObjectConfig, public PrintRegionConfig, public PrintConfig, public HostConfig
{
public:
ConfigOption* option(const t_config_option_key &opt_key, bool create = false) {
ConfigOption* opt;
if ((opt = PrintObjectConfig::option(opt_key, create)) != NULL) return opt;
if ((opt = PrintRegionConfig::option(opt_key, create)) != NULL) return opt;
if ((opt = PrintConfig::option(opt_key, create)) != NULL) return opt;
if ((opt = HostConfig::option(opt_key, create)) != NULL) return opt;
return NULL;
};
};
}
#endif
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