PrusaSlicer-NonPlainar/src/libslic3r/PrintConfig.hpp

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// Configuration store of Slic3r.
//
// The configuration store is either static or dynamic.
// DynamicPrintConfig is used mainly at the user interface. while the StaticPrintConfig is used
// during the slicing and the g-code generation.
//
// The classes derived from StaticPrintConfig form a following hierarchy.
//
// FullPrintConfig
// PrintObjectConfig
// PrintRegionConfig
// PrintConfig
// GCodeConfig
// HostConfig
//
#ifndef slic3r_PrintConfig_hpp_
#define slic3r_PrintConfig_hpp_
#include "libslic3r.h"
#include "Config.hpp"
namespace Slic3r {
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enum PrinterTechnology
{
// Fused Filament Fabrication
ptFFF,
// Stereolitography
ptSLA,
};
enum GCodeFlavor {
gcfRepRap, gcfRepetier, gcfTeacup, gcfMakerWare, gcfMarlin, gcfSailfish, gcfMach3, gcfMachinekit,
gcfSmoothie, gcfNoExtrusion,
};
enum PrintHostType {
htOctoPrint, htDuet,
};
enum InfillPattern {
ipRectilinear, ipGrid, ipTriangles, ipStars, ipCubic, ipLine, ipConcentric, ipHoneycomb, ip3DHoneycomb,
ipGyroid, ipHilbertCurve, ipArchimedeanChords, ipOctagramSpiral,
};
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enum SupportMaterialPattern {
smpRectilinear, smpRectilinearGrid, smpHoneycomb,
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};
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enum SeamPosition {
spRandom, spNearest, spAligned, spRear
};
enum FilamentType {
ftPLA, ftABS, ftPET, ftHIPS, ftFLEX, ftSCAFF, ftEDGE, ftNGEN, ftPVA
};
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template<> inline const t_config_enum_values& ConfigOptionEnum<PrinterTechnology>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["FFF"] = ptFFF;
keys_map["SLA"] = ptSLA;
}
return keys_map;
}
template<> inline const t_config_enum_values& ConfigOptionEnum<GCodeFlavor>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["reprap"] = gcfRepRap;
keys_map["repetier"] = gcfRepetier;
keys_map["teacup"] = gcfTeacup;
keys_map["makerware"] = gcfMakerWare;
keys_map["marlin"] = gcfMarlin;
keys_map["sailfish"] = gcfSailfish;
keys_map["smoothie"] = gcfSmoothie;
keys_map["mach3"] = gcfMach3;
keys_map["machinekit"] = gcfMachinekit;
keys_map["no-extrusion"] = gcfNoExtrusion;
}
return keys_map;
}
template<> inline const t_config_enum_values& ConfigOptionEnum<PrintHostType>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["octoprint"] = htOctoPrint;
keys_map["duet"] = htDuet;
}
return keys_map;
}
template<> inline const t_config_enum_values& ConfigOptionEnum<InfillPattern>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["rectilinear"] = ipRectilinear;
keys_map["grid"] = ipGrid;
keys_map["triangles"] = ipTriangles;
keys_map["stars"] = ipStars;
keys_map["cubic"] = ipCubic;
keys_map["line"] = ipLine;
keys_map["concentric"] = ipConcentric;
keys_map["honeycomb"] = ipHoneycomb;
keys_map["3dhoneycomb"] = ip3DHoneycomb;
keys_map["gyroid"] = ipGyroid;
keys_map["hilbertcurve"] = ipHilbertCurve;
keys_map["archimedeanchords"] = ipArchimedeanChords;
keys_map["octagramspiral"] = ipOctagramSpiral;
}
return keys_map;
}
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template<> inline const t_config_enum_values& ConfigOptionEnum<SupportMaterialPattern>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["rectilinear"] = smpRectilinear;
keys_map["rectilinear-grid"] = smpRectilinearGrid;
keys_map["honeycomb"] = smpHoneycomb;
}
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return keys_map;
}
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template<> inline const t_config_enum_values& ConfigOptionEnum<SeamPosition>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["random"] = spRandom;
keys_map["nearest"] = spNearest;
keys_map["aligned"] = spAligned;
keys_map["rear"] = spRear;
}
return keys_map;
}
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template<> inline const t_config_enum_values& ConfigOptionEnum<FilamentType>::get_enum_values() {
static t_config_enum_values keys_map;
if (keys_map.empty()) {
keys_map["PLA"] = ftPLA;
keys_map["ABS"] = ftABS;
keys_map["PET"] = ftPET;
keys_map["HIPS"] = ftHIPS;
keys_map["FLEX"] = ftFLEX;
keys_map["SCAFF"] = ftSCAFF;
keys_map["EDGE"] = ftEDGE;
keys_map["NGEN"] = ftNGEN;
keys_map["PVA"] = ftPVA;
}
return keys_map;
}
// Defines each and every confiuration option of Slic3r, including the properties of the GUI dialogs.
// Does not store the actual values, but defines default values.
class PrintConfigDef : public ConfigDef
{
public:
PrintConfigDef();
static void handle_legacy(t_config_option_key &opt_key, std::string &value);
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private:
void init_common_params();
void init_fff_params();
void init_sla_params();
};
// The one and only global definition of SLic3r configuration options.
// This definition is constant.
extern const PrintConfigDef print_config_def;
// Slic3r dynamic configuration, used to override the configuration
// per object, per modification volume or per printing material.
// The dynamic configuration is also used to store user modifications of the print global parameters,
// so the modified configuration values may be diffed against the active configuration
// to invalidate the proper slicing resp. g-code generation processing steps.
// This object is mapped to Perl as Slic3r::Config.
class DynamicPrintConfig : public DynamicConfig
{
public:
DynamicPrintConfig() {}
DynamicPrintConfig(const DynamicPrintConfig &other) : DynamicConfig(other) {}
static DynamicPrintConfig* new_from_defaults();
static DynamicPrintConfig* new_from_defaults_keys(const std::vector<std::string> &keys);
// Overrides ConfigBase::def(). Static configuration definition. Any value stored into this ConfigBase shall have its definition here.
const ConfigDef* def() const override { return &print_config_def; }
void normalize();
// Validate the PrintConfig. Returns an empty string on success, otherwise an error message is returned.
std::string validate();
// Verify whether the opt_key has not been obsoleted or renamed.
// Both opt_key and value may be modified by handle_legacy().
// If the opt_key is no more valid in this version of Slic3r, opt_key is cleared by handle_legacy().
// handle_legacy() is called internally by set_deserialize().
void handle_legacy(t_config_option_key &opt_key, std::string &value) const override
{ PrintConfigDef::handle_legacy(opt_key, value); }
};
template<typename CONFIG>
void normalize_and_apply_config(CONFIG &dst, const DynamicPrintConfig &src)
{
DynamicPrintConfig src_normalized(src);
src_normalized.normalize();
dst.apply(src_normalized, true);
}
class StaticPrintConfig : public StaticConfig
{
public:
StaticPrintConfig() {}
// Overrides ConfigBase::def(). Static configuration definition. Any value stored into this ConfigBase shall have its definition here.
const ConfigDef* def() const override { return &print_config_def; }
protected:
// Verify whether the opt_key has not been obsoleted or renamed.
// Both opt_key and value may be modified by handle_legacy().
// If the opt_key is no more valid in this version of Slic3r, opt_key is cleared by handle_legacy().
// handle_legacy() is called internally by set_deserialize().
void handle_legacy(t_config_option_key &opt_key, std::string &value) const override
{ PrintConfigDef::handle_legacy(opt_key, value); }
// Internal class for keeping a dynamic map to static options.
class StaticCacheBase
{
public:
// To be called during the StaticCache setup.
// Add one ConfigOption into m_map_name_to_offset.
template<typename T>
void opt_add(const std::string &name, const char *base_ptr, const T &opt)
{
assert(m_map_name_to_offset.find(name) == m_map_name_to_offset.end());
m_map_name_to_offset[name] = (const char*)&opt - base_ptr;
}
protected:
std::map<std::string, ptrdiff_t> m_map_name_to_offset;
};
// Parametrized by the type of the topmost class owning the options.
template<typename T>
class StaticCache : public StaticCacheBase
{
public:
// Calling the constructor of m_defaults with 0 forces m_defaults to not run the initialization.
StaticCache() : m_defaults(nullptr) {}
~StaticCache() { delete m_defaults; m_defaults = nullptr; }
bool initialized() const { return ! m_keys.empty(); }
ConfigOption* optptr(const std::string &name, T *owner) const
{
const auto it = m_map_name_to_offset.find(name);
return (it == m_map_name_to_offset.end()) ? nullptr : reinterpret_cast<ConfigOption*>((char*)owner + it->second);
}
const ConfigOption* optptr(const std::string &name, const T *owner) const
{
const auto it = m_map_name_to_offset.find(name);
return (it == m_map_name_to_offset.end()) ? nullptr : reinterpret_cast<const ConfigOption*>((const char*)owner + it->second);
}
const std::vector<std::string>& keys() const { return m_keys; }
const T& defaults() const { return *m_defaults; }
// To be called during the StaticCache setup.
// Collect option keys from m_map_name_to_offset,
// assign default values to m_defaults.
void finalize(T *defaults, const ConfigDef *defs)
{
assert(defs != nullptr);
m_defaults = defaults;
m_keys.clear();
m_keys.reserve(m_map_name_to_offset.size());
for (const auto &kvp : defs->options) {
// Find the option given the option name kvp.first by an offset from (char*)m_defaults.
ConfigOption *opt = this->optptr(kvp.first, m_defaults);
if (opt == nullptr)
// This option is not defined by the ConfigBase of type T.
continue;
m_keys.emplace_back(kvp.first);
const ConfigOptionDef *def = defs->get(kvp.first);
assert(def != nullptr);
if (def->default_value != nullptr)
opt->set(def->default_value);
}
}
private:
T *m_defaults;
std::vector<std::string> m_keys;
};
};
#define STATIC_PRINT_CONFIG_CACHE_BASE(CLASS_NAME) \
public: \
/* Overrides ConfigBase::optptr(). Find ando/or create a ConfigOption instance for a given name. */ \
ConfigOption* optptr(const t_config_option_key &opt_key, bool create = false) override \
{ return s_cache_##CLASS_NAME.optptr(opt_key, this); } \
/* Overrides ConfigBase::keys(). Collect names of all configuration values maintained by this configuration store. */ \
t_config_option_keys keys() const override { return s_cache_##CLASS_NAME.keys(); } \
static const CLASS_NAME& defaults() { initialize_cache(); return s_cache_##CLASS_NAME.defaults(); } \
private: \
static void initialize_cache() \
{ \
if (! s_cache_##CLASS_NAME.initialized()) { \
CLASS_NAME *inst = new CLASS_NAME(1); \
inst->initialize(s_cache_##CLASS_NAME, (const char*)inst); \
s_cache_##CLASS_NAME.finalize(inst, inst->def()); \
} \
} \
/* Cache object holding a key/option map, a list of option keys and a copy of this static config initialized with the defaults. */ \
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static StaticPrintConfig::StaticCache<CLASS_NAME> s_cache_##CLASS_NAME;
#define STATIC_PRINT_CONFIG_CACHE(CLASS_NAME) \
STATIC_PRINT_CONFIG_CACHE_BASE(CLASS_NAME) \
public: \
/* Public default constructor will initialize the key/option cache and the default object copy if needed. */ \
CLASS_NAME() { initialize_cache(); *this = s_cache_##CLASS_NAME.defaults(); } \
protected: \
/* Protected constructor to be called when compounded. */ \
CLASS_NAME(int) {}
#define STATIC_PRINT_CONFIG_CACHE_DERIVED(CLASS_NAME) \
STATIC_PRINT_CONFIG_CACHE_BASE(CLASS_NAME) \
public: \
/* Overrides ConfigBase::def(). Static configuration definition. Any value stored into this ConfigBase shall have its definition here. */ \
const ConfigDef* def() const override { return &print_config_def; } \
/* Handle legacy and obsoleted config keys */ \
void handle_legacy(t_config_option_key &opt_key, std::string &value) const override \
{ PrintConfigDef::handle_legacy(opt_key, value); }
#define OPT_PTR(KEY) cache.opt_add(#KEY, base_ptr, this->KEY)
// This object is mapped to Perl as Slic3r::Config::PrintObject.
class PrintObjectConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(PrintObjectConfig)
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public:
ConfigOptionBool clip_multipart_objects;
ConfigOptionBool dont_support_bridges;
ConfigOptionFloat elefant_foot_compensation;
ConfigOptionFloatOrPercent extrusion_width;
ConfigOptionFloatOrPercent first_layer_height;
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ConfigOptionBool infill_only_where_needed;
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// Force the generation of solid shells between adjacent materials/volumes.
ConfigOptionBool interface_shells;
ConfigOptionFloat layer_height;
ConfigOptionInt raft_layers;
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ConfigOptionEnum<SeamPosition> seam_position;
// ConfigOptionFloat seam_preferred_direction;
// ConfigOptionFloat seam_preferred_direction_jitter;
ConfigOptionBool support_material;
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// Automatic supports (generated based on support_material_threshold).
ConfigOptionBool support_material_auto;
// Direction of the support pattern (in XY plane).
ConfigOptionFloat support_material_angle;
ConfigOptionBool support_material_buildplate_only;
ConfigOptionFloat support_material_contact_distance;
ConfigOptionInt support_material_enforce_layers;
ConfigOptionInt support_material_extruder;
ConfigOptionFloatOrPercent support_material_extrusion_width;
ConfigOptionBool support_material_interface_contact_loops;
ConfigOptionInt support_material_interface_extruder;
ConfigOptionInt support_material_interface_layers;
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// Spacing between interface lines (the hatching distance). Set zero to get a solid interface.
ConfigOptionFloat support_material_interface_spacing;
ConfigOptionFloatOrPercent support_material_interface_speed;
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ConfigOptionEnum<SupportMaterialPattern> support_material_pattern;
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// Spacing between support material lines (the hatching distance).
ConfigOptionFloat support_material_spacing;
ConfigOptionFloat support_material_speed;
ConfigOptionBool support_material_synchronize_layers;
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// Overhang angle threshold.
ConfigOptionInt support_material_threshold;
ConfigOptionBool support_material_with_sheath;
ConfigOptionFloatOrPercent support_material_xy_spacing;
ConfigOptionFloat xy_size_compensation;
ConfigOptionBool wipe_into_objects;
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(clip_multipart_objects);
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OPT_PTR(dont_support_bridges);
OPT_PTR(elefant_foot_compensation);
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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(seam_preferred_direction);
// OPT_PTR(seam_preferred_direction_jitter);
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OPT_PTR(support_material);
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OPT_PTR(support_material_auto);
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OPT_PTR(support_material_angle);
OPT_PTR(support_material_buildplate_only);
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OPT_PTR(support_material_contact_distance);
OPT_PTR(support_material_enforce_layers);
OPT_PTR(support_material_interface_contact_loops);
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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_synchronize_layers);
OPT_PTR(support_material_xy_spacing);
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OPT_PTR(support_material_threshold);
OPT_PTR(support_material_with_sheath);
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OPT_PTR(xy_size_compensation);
OPT_PTR(wipe_into_objects);
}
};
// This object is mapped to Perl as Slic3r::Config::PrintRegion.
class PrintRegionConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(PrintRegionConfig)
public:
ConfigOptionFloat bridge_angle;
ConfigOptionInt bottom_solid_layers;
ConfigOptionFloat bridge_flow_ratio;
ConfigOptionFloat bridge_speed;
ConfigOptionBool ensure_vertical_shell_thickness;
ConfigOptionEnum<InfillPattern> external_fill_pattern;
ConfigOptionFloatOrPercent external_perimeter_extrusion_width;
ConfigOptionFloatOrPercent external_perimeter_speed;
ConfigOptionBool external_perimeters_first;
ConfigOptionBool extra_perimeters;
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ConfigOptionFloat fill_angle;
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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;
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// Detect bridging perimeters
ConfigOptionBool overhangs;
ConfigOptionInt perimeter_extruder;
ConfigOptionFloatOrPercent perimeter_extrusion_width;
ConfigOptionFloat perimeter_speed;
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// Total number of perimeters.
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;
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// Detect thin walls.
ConfigOptionBool thin_walls;
ConfigOptionFloatOrPercent top_infill_extrusion_width;
ConfigOptionInt top_solid_layers;
ConfigOptionFloatOrPercent top_solid_infill_speed;
ConfigOptionBool wipe_into_infill;
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(bridge_angle);
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OPT_PTR(bottom_solid_layers);
OPT_PTR(bridge_flow_ratio);
OPT_PTR(bridge_speed);
OPT_PTR(ensure_vertical_shell_thickness);
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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);
OPT_PTR(wipe_into_infill);
}
};
class MachineEnvelopeConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(MachineEnvelopeConfig)
public:
// M201 X... Y... Z... E... [mm/sec^2]
ConfigOptionFloats machine_max_acceleration_x;
ConfigOptionFloats machine_max_acceleration_y;
ConfigOptionFloats machine_max_acceleration_z;
ConfigOptionFloats machine_max_acceleration_e;
// M203 X... Y... Z... E... [mm/sec]
ConfigOptionFloats machine_max_feedrate_x;
ConfigOptionFloats machine_max_feedrate_y;
ConfigOptionFloats machine_max_feedrate_z;
ConfigOptionFloats machine_max_feedrate_e;
// M204 S... [mm/sec^2]
ConfigOptionFloats machine_max_acceleration_extruding;
// M204 T... [mm/sec^2]
ConfigOptionFloats machine_max_acceleration_retracting;
// M205 X... Y... Z... E... [mm/sec]
ConfigOptionFloats machine_max_jerk_x;
ConfigOptionFloats machine_max_jerk_y;
ConfigOptionFloats machine_max_jerk_z;
ConfigOptionFloats machine_max_jerk_e;
// M205 T... [mm/sec]
ConfigOptionFloats machine_min_travel_rate;
// M205 S... [mm/sec]
ConfigOptionFloats machine_min_extruding_rate;
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(machine_max_acceleration_x);
OPT_PTR(machine_max_acceleration_y);
OPT_PTR(machine_max_acceleration_z);
OPT_PTR(machine_max_acceleration_e);
OPT_PTR(machine_max_feedrate_x);
OPT_PTR(machine_max_feedrate_y);
OPT_PTR(machine_max_feedrate_z);
OPT_PTR(machine_max_feedrate_e);
OPT_PTR(machine_max_acceleration_extruding);
OPT_PTR(machine_max_acceleration_retracting);
OPT_PTR(machine_max_jerk_x);
OPT_PTR(machine_max_jerk_y);
OPT_PTR(machine_max_jerk_z);
OPT_PTR(machine_max_jerk_e);
OPT_PTR(machine_min_travel_rate);
OPT_PTR(machine_min_extruding_rate);
}
};
// This object is mapped to Perl as Slic3r::Config::GCode.
class GCodeConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(GCodeConfig)
public:
ConfigOptionString before_layer_gcode;
ConfigOptionString between_objects_gcode;
ConfigOptionFloats deretract_speed;
ConfigOptionString end_gcode;
ConfigOptionStrings end_filament_gcode;
ConfigOptionString extrusion_axis;
ConfigOptionFloats extrusion_multiplier;
ConfigOptionFloats filament_diameter;
ConfigOptionFloats filament_density;
ConfigOptionStrings filament_type;
ConfigOptionBools filament_soluble;
ConfigOptionFloats filament_cost;
ConfigOptionFloats filament_max_volumetric_speed;
ConfigOptionFloats filament_loading_speed;
ConfigOptionFloats filament_loading_speed_start;
ConfigOptionFloats filament_load_time;
ConfigOptionFloats filament_unloading_speed;
ConfigOptionFloats filament_unloading_speed_start;
ConfigOptionFloats filament_toolchange_delay;
ConfigOptionFloats filament_unload_time;
ConfigOptionInts filament_cooling_moves;
ConfigOptionFloats filament_cooling_initial_speed;
ConfigOptionFloats filament_minimal_purge_on_wipe_tower;
ConfigOptionFloats filament_cooling_final_speed;
ConfigOptionStrings filament_ramming_parameters;
ConfigOptionBool gcode_comments;
ConfigOptionEnum<GCodeFlavor> gcode_flavor;
ConfigOptionString layer_gcode;
ConfigOptionFloat max_print_speed;
ConfigOptionFloat max_volumetric_speed;
ConfigOptionFloat max_volumetric_extrusion_rate_slope_positive;
ConfigOptionFloat max_volumetric_extrusion_rate_slope_negative;
ConfigOptionPercents retract_before_wipe;
ConfigOptionFloats retract_length;
ConfigOptionFloats retract_length_toolchange;
ConfigOptionFloats retract_lift;
ConfigOptionFloats retract_lift_above;
ConfigOptionFloats retract_lift_below;
ConfigOptionFloats retract_restart_extra;
ConfigOptionFloats retract_restart_extra_toolchange;
ConfigOptionFloats retract_speed;
ConfigOptionString start_gcode;
ConfigOptionStrings start_filament_gcode;
ConfigOptionBool single_extruder_multi_material;
ConfigOptionBool single_extruder_multi_material_priming;
ConfigOptionString toolchange_gcode;
ConfigOptionFloat travel_speed;
ConfigOptionBool use_firmware_retraction;
ConfigOptionBool use_relative_e_distances;
ConfigOptionBool use_volumetric_e;
ConfigOptionBool variable_layer_height;
ConfigOptionFloat cooling_tube_retraction;
ConfigOptionFloat cooling_tube_length;
ConfigOptionFloat parking_pos_retraction;
ConfigOptionBool remaining_times;
ConfigOptionBool silent_mode;
ConfigOptionFloat extra_loading_move;
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std::string get_extrusion_axis() const
{
return
((this->gcode_flavor.value == gcfMach3) || (this->gcode_flavor.value == gcfMachinekit)) ? "A" :
(this->gcode_flavor.value == gcfNoExtrusion) ? "" : this->extrusion_axis.value;
}
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
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OPT_PTR(before_layer_gcode);
OPT_PTR(between_objects_gcode);
OPT_PTR(deretract_speed);
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OPT_PTR(end_gcode);
OPT_PTR(end_filament_gcode);
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OPT_PTR(extrusion_axis);
OPT_PTR(extrusion_multiplier);
OPT_PTR(filament_diameter);
OPT_PTR(filament_density);
OPT_PTR(filament_type);
OPT_PTR(filament_soluble);
OPT_PTR(filament_cost);
OPT_PTR(filament_max_volumetric_speed);
OPT_PTR(filament_loading_speed);
OPT_PTR(filament_loading_speed_start);
OPT_PTR(filament_load_time);
OPT_PTR(filament_unloading_speed);
OPT_PTR(filament_unloading_speed_start);
OPT_PTR(filament_unload_time);
OPT_PTR(filament_toolchange_delay);
OPT_PTR(filament_cooling_moves);
OPT_PTR(filament_cooling_initial_speed);
OPT_PTR(filament_minimal_purge_on_wipe_tower);
OPT_PTR(filament_cooling_final_speed);
OPT_PTR(filament_ramming_parameters);
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OPT_PTR(gcode_comments);
OPT_PTR(gcode_flavor);
OPT_PTR(layer_gcode);
OPT_PTR(max_print_speed);
OPT_PTR(max_volumetric_speed);
OPT_PTR(max_volumetric_extrusion_rate_slope_positive);
OPT_PTR(max_volumetric_extrusion_rate_slope_negative);
OPT_PTR(retract_before_wipe);
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OPT_PTR(retract_length);
OPT_PTR(retract_length_toolchange);
OPT_PTR(retract_lift);
OPT_PTR(retract_lift_above);
OPT_PTR(retract_lift_below);
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OPT_PTR(retract_restart_extra);
OPT_PTR(retract_restart_extra_toolchange);
OPT_PTR(retract_speed);
OPT_PTR(single_extruder_multi_material);
OPT_PTR(single_extruder_multi_material_priming);
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OPT_PTR(start_gcode);
OPT_PTR(start_filament_gcode);
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OPT_PTR(toolchange_gcode);
OPT_PTR(travel_speed);
OPT_PTR(use_firmware_retraction);
OPT_PTR(use_relative_e_distances);
OPT_PTR(use_volumetric_e);
OPT_PTR(variable_layer_height);
OPT_PTR(cooling_tube_retraction);
OPT_PTR(cooling_tube_length);
OPT_PTR(parking_pos_retraction);
OPT_PTR(remaining_times);
OPT_PTR(silent_mode);
OPT_PTR(extra_loading_move);
}
};
// This object is mapped to Perl as Slic3r::Config::Print.
class PrintConfig : public MachineEnvelopeConfig, public GCodeConfig
{
STATIC_PRINT_CONFIG_CACHE_DERIVED(PrintConfig)
PrintConfig() : GCodeConfig(0) { initialize_cache(); *this = s_cache_PrintConfig.defaults(); }
public:
double min_object_distance() const;
static double min_object_distance(const ConfigBase *config);
ConfigOptionBool avoid_crossing_perimeters;
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ConfigOptionPoints bed_shape;
ConfigOptionInts bed_temperature;
ConfigOptionFloat bridge_acceleration;
ConfigOptionInts bridge_fan_speed;
ConfigOptionFloat brim_width;
ConfigOptionBool complete_objects;
ConfigOptionFloats colorprint_heights;
ConfigOptionBools cooling;
ConfigOptionFloat default_acceleration;
ConfigOptionInts disable_fan_first_layers;
ConfigOptionFloat duplicate_distance;
ConfigOptionFloat extruder_clearance_height;
ConfigOptionFloat extruder_clearance_radius;
ConfigOptionStrings extruder_colour;
ConfigOptionPoints extruder_offset;
ConfigOptionBools fan_always_on;
ConfigOptionInts fan_below_layer_time;
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ConfigOptionStrings filament_colour;
ConfigOptionStrings filament_notes;
ConfigOptionFloat first_layer_acceleration;
ConfigOptionInts first_layer_bed_temperature;
ConfigOptionFloatOrPercent first_layer_extrusion_width;
ConfigOptionFloatOrPercent first_layer_speed;
ConfigOptionInts first_layer_temperature;
ConfigOptionFloat infill_acceleration;
ConfigOptionBool infill_first;
ConfigOptionInts max_fan_speed;
ConfigOptionFloats max_layer_height;
ConfigOptionInts min_fan_speed;
ConfigOptionFloats min_layer_height;
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ConfigOptionFloat max_print_height;
ConfigOptionFloats 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;
ConfigOptionString printer_model;
ConfigOptionString printer_notes;
ConfigOptionFloat resolution;
ConfigOptionFloats retract_before_travel;
ConfigOptionBools retract_layer_change;
ConfigOptionFloat skirt_distance;
ConfigOptionInt skirt_height;
ConfigOptionInt skirts;
ConfigOptionInts slowdown_below_layer_time;
ConfigOptionBool spiral_vase;
ConfigOptionInt standby_temperature_delta;
ConfigOptionInts temperature;
ConfigOptionInt threads;
ConfigOptionBools wipe;
ConfigOptionBool wipe_tower;
ConfigOptionFloat wipe_tower_x;
ConfigOptionFloat wipe_tower_y;
ConfigOptionFloat wipe_tower_width;
ConfigOptionFloat wipe_tower_per_color_wipe;
ConfigOptionFloat wipe_tower_rotation_angle;
ConfigOptionFloat wipe_tower_bridging;
ConfigOptionFloats wiping_volumes_matrix;
ConfigOptionFloats wiping_volumes_extruders;
ConfigOptionFloat z_offset;
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ConfigOptionFloat bed_size_x;
ConfigOptionFloat bed_size_y;
ConfigOptionInt pixel_width;
ConfigOptionInt pixel_height;
ConfigOptionFloat exp_time;
ConfigOptionFloat exp_time_first;
protected:
PrintConfig(int) : GCodeConfig(1) {}
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
this->MachineEnvelopeConfig::initialize(cache, base_ptr);
this->GCodeConfig::initialize(cache, base_ptr);
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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(colorprint_heights);
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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_colour);
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OPT_PTR(extruder_offset);
OPT_PTR(fan_always_on);
OPT_PTR(fan_below_layer_time);
OPT_PTR(filament_colour);
OPT_PTR(filament_notes);
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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(infill_acceleration);
OPT_PTR(infill_first);
OPT_PTR(max_fan_speed);
OPT_PTR(max_layer_height);
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OPT_PTR(min_fan_speed);
OPT_PTR(min_layer_height);
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OPT_PTR(max_print_height);
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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(printer_model);
OPT_PTR(printer_notes);
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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(wipe);
OPT_PTR(wipe_tower);
OPT_PTR(wipe_tower_x);
OPT_PTR(wipe_tower_y);
OPT_PTR(wipe_tower_width);
OPT_PTR(wipe_tower_per_color_wipe);
OPT_PTR(wipe_tower_rotation_angle);
OPT_PTR(wipe_tower_bridging);
OPT_PTR(wiping_volumes_matrix);
OPT_PTR(wiping_volumes_extruders);
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OPT_PTR(z_offset);
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OPT_PTR(bed_size_x);
OPT_PTR(bed_size_y);
OPT_PTR(pixel_width);
OPT_PTR(pixel_height);
OPT_PTR(exp_time);
OPT_PTR(exp_time_first);
}
};
class HostConfig : public StaticPrintConfig
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{
STATIC_PRINT_CONFIG_CACHE(HostConfig)
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public:
ConfigOptionEnum<PrintHostType> host_type;
ConfigOptionString print_host;
ConfigOptionString printhost_apikey;
ConfigOptionString printhost_cafile;
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ConfigOptionString serial_port;
ConfigOptionInt serial_speed;
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protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(host_type);
OPT_PTR(print_host);
OPT_PTR(printhost_apikey);
OPT_PTR(printhost_cafile);
OPT_PTR(serial_port);
OPT_PTR(serial_speed);
}
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};
// This object is mapped to Perl as Slic3r::Config::Full.
class FullPrintConfig :
public PrintObjectConfig,
public PrintRegionConfig,
public PrintConfig,
public HostConfig
{
STATIC_PRINT_CONFIG_CACHE_DERIVED(FullPrintConfig)
FullPrintConfig() : PrintObjectConfig(0), PrintRegionConfig(0), PrintConfig(0), HostConfig(0) { initialize_cache(); *this = s_cache_FullPrintConfig.defaults(); }
public:
// Validate the FullPrintConfig. Returns an empty string on success, otherwise an error message is returned.
std::string validate();
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protected:
// Protected constructor to be called to initialize ConfigCache::m_default.
FullPrintConfig(int) : PrintObjectConfig(0), PrintRegionConfig(0), PrintConfig(0), HostConfig(0) {}
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
this->PrintObjectConfig::initialize(cache, base_ptr);
this->PrintRegionConfig::initialize(cache, base_ptr);
this->PrintConfig ::initialize(cache, base_ptr);
this->HostConfig ::initialize(cache, base_ptr);
}
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};
class SLAPrintObjectConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(SLAPrintObjectConfig)
public:
ConfigOptionFloat layer_height;
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// Radius in mm of the pointing side of the head.
ConfigOptionFloat head_front_radius_mm /*= 0.2*/;
// How much the pinhead has to penetrate the model surface
ConfigOptionFloat head_penetraiton /*= 0.2*/;
// Radius of the back side of the 3d arrow.
ConfigOptionFloat head_back_radius_mm /*= 0.5*/;
// Width in mm from the back sphere center to the front sphere center.
ConfigOptionFloat head_width_mm /*= 1.0*/;
// Radius in mm of the support pillars.
// TODO: This parameter is invalid. The pillar radius will be dynamic in
// nature. Merged pillars will have an increased thickness. This parameter
// may serve as the maximum radius, or maybe an increase when two are merged
// The default radius will be derived from head_back_radius_mm
ConfigOptionFloat pillar_radius_mm /*= 0.8*/;
// Radius in mm of the pillar base.
ConfigOptionFloat base_radius_mm /*= 2.0*/;
// The height of the pillar base cone in mm.
ConfigOptionFloat base_height_mm /*= 1.0*/;
// The default angle for connecting support sticks and junctions.
ConfigOptionFloat tilt /*= M_PI/4*/;
// The max length of a bridge in mm
ConfigOptionFloat max_bridge_length_mm /*= 15.0*/;
// Now for the base pool (plate) ///////////////////////////////////////////
ConfigOptionFloat pool_wall_thickness_mm /*= 2*/;
ConfigOptionFloat pool_wall_height_mm /*= 5*/;
ConfigOptionFloat pool_max_merge_distance_mm /*= 50*/;
ConfigOptionFloat pool_edge_radius_mm /*= 1*/;
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(layer_height);
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OPT_PTR(head_front_radius_mm);
OPT_PTR(head_penetraiton);
OPT_PTR(head_back_radius_mm);
OPT_PTR(head_width_mm);
OPT_PTR(pillar_radius_mm);
OPT_PTR(base_radius_mm);
OPT_PTR(base_height_mm);
OPT_PTR(tilt);
OPT_PTR(max_bridge_length_mm);
OPT_PTR(pool_wall_thickness_mm);
OPT_PTR(pool_wall_height_mm);
OPT_PTR(pool_max_merge_distance_mm);
OPT_PTR(pool_edge_radius_mm);
}
};
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class SLAMaterialConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(SLAMaterialConfig)
public:
ConfigOptionFloat initial_layer_height;
ConfigOptionFloat exposure_time;
ConfigOptionFloat initial_exposure_time;
ConfigOptionFloats material_correction_printing;
ConfigOptionFloats material_correction_curing;
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(initial_layer_height);
OPT_PTR(exposure_time);
OPT_PTR(initial_exposure_time);
OPT_PTR(material_correction_printing);
OPT_PTR(material_correction_curing);
}
};
class SLAPrinterConfig : public StaticPrintConfig
{
STATIC_PRINT_CONFIG_CACHE(SLAPrinterConfig)
public:
ConfigOptionEnum<PrinterTechnology> printer_technology;
ConfigOptionPoints bed_shape;
ConfigOptionFloat max_print_height;
ConfigOptionFloat display_width;
ConfigOptionFloat display_height;
ConfigOptionInt display_pixels_x;
ConfigOptionInt display_pixels_y;
ConfigOptionFloats printer_correction;
protected:
void initialize(StaticCacheBase &cache, const char *base_ptr)
{
OPT_PTR(printer_technology);
OPT_PTR(bed_shape);
OPT_PTR(max_print_height);
OPT_PTR(display_width);
OPT_PTR(display_height);
OPT_PTR(display_pixels_x);
OPT_PTR(display_pixels_y);
OPT_PTR(printer_correction);
}
};
class SLAFullPrintConfig : public SLAPrinterConfig, public SLAPrintObjectConfig, public SLAMaterialConfig
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{
STATIC_PRINT_CONFIG_CACHE_DERIVED(SLAFullPrintConfig)
SLAFullPrintConfig() : SLAPrinterConfig(0), SLAPrintObjectConfig(0), SLAMaterialConfig(0) { initialize_cache(); *this = s_cache_SLAFullPrintConfig.defaults(); }
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public:
// Validate the SLAFullPrintConfig. Returns an empty string on success, otherwise an error message is returned.
// std::string validate();
protected:
// Protected constructor to be called to initialize ConfigCache::m_default.
SLAFullPrintConfig(int) : SLAPrinterConfig(0), SLAPrintObjectConfig(0), SLAMaterialConfig(0) {}
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void initialize(StaticCacheBase &cache, const char *base_ptr)
{
this->SLAPrinterConfig ::initialize(cache, base_ptr);
this->SLAPrintObjectConfig::initialize(cache, base_ptr);
this->SLAMaterialConfig ::initialize(cache, base_ptr);
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}
};
#undef STATIC_PRINT_CONFIG_CACHE
#undef STATIC_PRINT_CONFIG_CACHE_BASE
#undef STATIC_PRINT_CONFIG_CACHE_DERIVED
#undef OPT_PTR
class CLIConfigDef : public ConfigDef
{
public:
CLIConfigDef();
};
extern const CLIConfigDef cli_config_def;
#define OPT_PTR(KEY) if (opt_key == #KEY) return &this->KEY
class CLIConfig : public virtual ConfigBase, public StaticConfig
{
public:
ConfigOptionFloat cut;
ConfigOptionString datadir;
ConfigOptionBool dont_arrange;
ConfigOptionBool export_3mf;
ConfigOptionBool gui;
ConfigOptionBool info;
ConfigOptionBool help;
ConfigOptionStrings load;
ConfigOptionBool no_gui;
ConfigOptionString output;
ConfigOptionPoint print_center;
ConfigOptionFloat rotate;
ConfigOptionFloat rotate_x;
ConfigOptionFloat rotate_y;
ConfigOptionString save;
ConfigOptionFloat scale;
// ConfigOptionPoint3 scale_to_fit;
ConfigOptionBool slice;
CLIConfig() : ConfigBase(), StaticConfig()
{
this->set_defaults();
};
// Overrides ConfigBase::def(). Static configuration definition. Any value stored into this ConfigBase shall have its definition here.
const ConfigDef* def() const override { return &cli_config_def; }
ConfigOption* optptr(const t_config_option_key &opt_key, bool create = false) override
{
OPT_PTR(cut);
OPT_PTR(datadir);
OPT_PTR(dont_arrange);
OPT_PTR(export_3mf);
OPT_PTR(gui);
OPT_PTR(help);
OPT_PTR(info);
OPT_PTR(load);
OPT_PTR(no_gui);
OPT_PTR(output);
OPT_PTR(print_center);
OPT_PTR(rotate);
OPT_PTR(rotate_x);
OPT_PTR(rotate_y);
OPT_PTR(save);
OPT_PTR(scale);
// OPT_PTR(scale_to_fit);
OPT_PTR(slice);
return NULL;
}
};
#undef OPT_PTR
class DynamicPrintAndCLIConfig : public DynamicPrintConfig
{
public:
DynamicPrintAndCLIConfig() { this->apply(FullPrintConfig::defaults()); this->apply(CLIConfig()); }
DynamicPrintAndCLIConfig(const DynamicPrintAndCLIConfig &other) : DynamicPrintConfig(other) {}
// Overrides ConfigBase::def(). Static configuration definition. Any value stored into this ConfigBase shall have its definition here.
const ConfigDef* def() const override { return &s_def; }
private:
class PrintAndCLIConfigDef : public ConfigDef
{
public:
PrintAndCLIConfigDef() {
this->options.insert(print_config_def.options.begin(), print_config_def.options.end());
this->options.insert(cli_config_def.options.begin(), cli_config_def.options.end());
}
// Do not release the default values, they are handled by print_config_def & cli_config_def.
~PrintAndCLIConfigDef() { this->options.clear(); }
};
static PrintAndCLIConfigDef s_def;
};
/// Iterate through all of the print options and write them to a stream.
std::ostream& print_print_options(std::ostream& out);
/// Iterate through all of the CLI options and write them to a stream.
std::ostream& print_cli_options(std::ostream& out);
} // namespace Slic3r
#endif