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PrusaSlicer-NonPlainar/src/libslic3r/PrintConfig.hpp
Vojtech Bubnik b29c0ead7d Implemented configurable speed and acceleration settings for the first 
object layer over raft interface:
"first_layer_speed_over_raft", "first_layer_acceleration_over_raft".
Fixes I have a question about the speed of the first layer after the raft. #6623
Fixes Layer After Raft Is Not Considered First Layer! #6166
2021-08-31 16:03:14 +02:00

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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
//
#ifndef slic3r_PrintConfig_hpp_
#define slic3r_PrintConfig_hpp_
#include "libslic3r.h"
#include "Config.hpp"
#include <boost/preprocessor/facilities/empty.hpp>
#include <boost/preprocessor/punctuation/comma_if.hpp>
#include <boost/preprocessor/seq/for_each.hpp>
#include <boost/preprocessor/seq/for_each_i.hpp>
#include <boost/preprocessor/stringize.hpp>
#include <boost/preprocessor/tuple/elem.hpp>
#include <boost/preprocessor/tuple/to_seq.hpp>
// #define HAS_PRESSURE_EQUALIZER
namespace Slic3r {
enum GCodeFlavor : unsigned char {
gcfRepRapSprinter, gcfRepRapFirmware, gcfRepetier, gcfTeacup, gcfMakerWare, gcfMarlinLegacy, gcfMarlinFirmware, gcfSailfish, gcfMach3, gcfMachinekit,
gcfSmoothie, gcfNoExtrusion,
};
enum class MachineLimitsUsage {
EmitToGCode,
TimeEstimateOnly,
Ignore,
Count,
};
enum PrintHostType {
htPrusaLink, htOctoPrint, htDuet, htFlashAir, htAstroBox, htRepetier
};
enum AuthorizationType {
atKeyPassword, atUserPassword
};
enum class FuzzySkinType {
None,
External,
All,
};
enum InfillPattern : int {
ipRectilinear, ipMonotonic, ipAlignedRectilinear, ipGrid, ipTriangles, ipStars, ipCubic, ipLine, ipConcentric, ipHoneycomb, ip3DHoneycomb,
ipGyroid, ipHilbertCurve, ipArchimedeanChords, ipOctagramSpiral, ipAdaptiveCubic, ipSupportCubic, ipSupportBase, ipCount,
};
enum class IroningType {
TopSurfaces,
TopmostOnly,
AllSolid,
Count,
};
enum class SlicingMode
{
// Regular, applying ClipperLib::pftNonZero rule when creating ExPolygons.
Regular,
// Compatible with 3DLabPrint models, applying ClipperLib::pftEvenOdd rule when creating ExPolygons.
EvenOdd,
// Orienting all contours CCW, thus closing all holes.
CloseHoles,
};
enum SupportMaterialPattern {
smpRectilinear, smpRectilinearGrid, smpHoneycomb,
};
enum SupportMaterialStyle {
smsGrid, smsSnug,
};
enum SupportMaterialInterfacePattern {
smipAuto, smipRectilinear, smipConcentric,
};
enum SeamPosition {
spRandom, spNearest, spAligned, spRear
};
enum SLAMaterial {
slamTough,
slamFlex,
slamCasting,
slamDental,
slamHeatResistant,
};
enum SLADisplayOrientation {
sladoLandscape,
sladoPortrait
};
enum SLAPillarConnectionMode {
slapcmZigZag,
slapcmCross,
slapcmDynamic
};
enum BrimType {
btNoBrim,
btOuterOnly,
btInnerOnly,
btOuterAndInner,
};
enum DraftShield {
dsDisabled, dsLimited, dsEnabled
};
#define CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(NAME) \
template<> const t_config_enum_names& ConfigOptionEnum<NAME>::get_enum_names(); \
template<> const t_config_enum_values& ConfigOptionEnum<NAME>::get_enum_values();
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(PrinterTechnology)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(GCodeFlavor)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(MachineLimitsUsage)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(PrintHostType)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(AuthorizationType)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(FuzzySkinType)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(InfillPattern)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(IroningType)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SlicingMode)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SupportMaterialPattern)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SupportMaterialStyle)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SupportMaterialInterfacePattern)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SeamPosition)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SLADisplayOrientation)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(SLAPillarConnectionMode)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(BrimType)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(DraftShield)
CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS(ForwardCompatibilitySubstitutionRule)
#undef CONFIG_OPTION_ENUM_DECLARE_STATIC_MAPS
// 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);
// Array options growing with the number of extruders
const std::vector<std::string>& extruder_option_keys() const { return m_extruder_option_keys; }
// Options defining the extruder retract properties. These keys are sorted lexicographically.
// The extruder retract keys could be overidden by the same values defined at the Filament level
// (then the key is further prefixed with the "filament_" prefix).
const std::vector<std::string>& extruder_retract_keys() const { return m_extruder_retract_keys; }
private:
void init_common_params();
void init_fff_params();
void init_extruder_option_keys();
void init_sla_params();
std::vector<std::string> m_extruder_option_keys;
std::vector<std::string> m_extruder_retract_keys;
};
// The one and only global definition of SLic3r configuration options.
// This definition is constant.
extern const PrintConfigDef print_config_def;
class StaticPrintConfig;
// Minimum object distance for arrangement, based on printer technology.
double min_object_distance(const ConfigBase &cfg);
// 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 &rhs) : DynamicConfig(rhs) {}
DynamicPrintConfig(DynamicPrintConfig &&rhs) noexcept : DynamicConfig(std::move(rhs)) {}
explicit DynamicPrintConfig(const StaticPrintConfig &rhs);
explicit DynamicPrintConfig(const ConfigBase &rhs) : DynamicConfig(rhs) {}
DynamicPrintConfig& operator=(const DynamicPrintConfig &rhs) { DynamicConfig::operator=(rhs); return *this; }
DynamicPrintConfig& operator=(DynamicPrintConfig &&rhs) noexcept { DynamicConfig::operator=(std::move(rhs)); return *this; }
static DynamicPrintConfig full_print_config();
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_fdm();
void set_num_extruders(unsigned int num_extruders);
// 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); }
};
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; }
// Reference to the cached list of keys.
virtual const t_config_option_keys& keys_ref() const = 0;
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)
opt->set(def->default_value.get());
}
}
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. */ \
const ConfigOption* optptr(const t_config_option_key &opt_key) const override \
{ return s_cache_##CLASS_NAME.optptr(opt_key, this); } \
/* 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(); } \
const t_config_option_keys& keys_ref() const override { return s_cache_##CLASS_NAME.keys(); } \
static const CLASS_NAME& defaults() { assert(s_cache_##CLASS_NAME.initialized()); return s_cache_##CLASS_NAME.defaults(); } \
private: \
friend int print_config_static_initializer(); \
static void initialize_cache() \
{ \
assert(! s_cache_##CLASS_NAME.initialized()); \
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. */ \
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() { assert(s_cache_##CLASS_NAME.initialized()); *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 PRINT_CONFIG_CLASS_ELEMENT_DEFINITION(r, data, elem) BOOST_PP_TUPLE_ELEM(0, elem) BOOST_PP_TUPLE_ELEM(1, elem);
#define PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION2(KEY) cache.opt_add(BOOST_PP_STRINGIZE(KEY), base_ptr, this->KEY);
#define PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION(r, data, elem) PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION2(BOOST_PP_TUPLE_ELEM(1, elem))
#define PRINT_CONFIG_CLASS_ELEMENT_HASH(r, data, elem) boost::hash_combine(seed, BOOST_PP_TUPLE_ELEM(1, elem).hash());
#define PRINT_CONFIG_CLASS_ELEMENT_EQUAL(r, data, elem) if (! (BOOST_PP_TUPLE_ELEM(1, elem) == rhs.BOOST_PP_TUPLE_ELEM(1, elem))) return false;
#define PRINT_CONFIG_CLASS_ELEMENT_LOWER(r, data, elem) \
if (BOOST_PP_TUPLE_ELEM(1, elem) < rhs.BOOST_PP_TUPLE_ELEM(1, elem)) return true; \
if (! (BOOST_PP_TUPLE_ELEM(1, elem) == rhs.BOOST_PP_TUPLE_ELEM(1, elem))) return false;
#define PRINT_CONFIG_CLASS_DEFINE(CLASS_NAME, PARAMETER_DEFINITION_SEQ) \
class CLASS_NAME : public StaticPrintConfig { \
STATIC_PRINT_CONFIG_CACHE(CLASS_NAME) \
public: \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_DEFINITION, _, PARAMETER_DEFINITION_SEQ) \
size_t hash() const throw() \
{ \
size_t seed = 0; \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_HASH, _, PARAMETER_DEFINITION_SEQ) \
return seed; \
} \
bool operator==(const CLASS_NAME &rhs) const throw() \
{ \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_EQUAL, _, PARAMETER_DEFINITION_SEQ) \
return true; \
} \
bool operator!=(const CLASS_NAME &rhs) const throw() { return ! (*this == rhs); } \
bool operator<(const CLASS_NAME &rhs) const throw() \
{ \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_LOWER, _, PARAMETER_DEFINITION_SEQ) \
return false; \
} \
protected: \
void initialize(StaticCacheBase &cache, const char *base_ptr) \
{ \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION, _, PARAMETER_DEFINITION_SEQ) \
} \
};
#define PRINT_CONFIG_CLASS_DERIVED_CLASS_LIST_ITEM(r, data, i, elem) BOOST_PP_COMMA_IF(i) public elem
#define PRINT_CONFIG_CLASS_DERIVED_CLASS_LIST(CLASSES_PARENTS_TUPLE) BOOST_PP_SEQ_FOR_EACH_I(PRINT_CONFIG_CLASS_DERIVED_CLASS_LIST_ITEM, _, BOOST_PP_TUPLE_TO_SEQ(CLASSES_PARENTS_TUPLE))
#define PRINT_CONFIG_CLASS_DERIVED_INITIALIZER_ITEM(r, VALUE, i, elem) BOOST_PP_COMMA_IF(i) elem(VALUE)
#define PRINT_CONFIG_CLASS_DERIVED_INITIALIZER(CLASSES_PARENTS_TUPLE, VALUE) BOOST_PP_SEQ_FOR_EACH_I(PRINT_CONFIG_CLASS_DERIVED_INITIALIZER_ITEM, VALUE, BOOST_PP_TUPLE_TO_SEQ(CLASSES_PARENTS_TUPLE))
#define PRINT_CONFIG_CLASS_DERIVED_INITCACHE_ITEM(r, data, elem) this->elem::initialize(cache, base_ptr);
#define PRINT_CONFIG_CLASS_DERIVED_INITCACHE(CLASSES_PARENTS_TUPLE) BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_DERIVED_INITCACHE_ITEM, _, BOOST_PP_TUPLE_TO_SEQ(CLASSES_PARENTS_TUPLE))
#define PRINT_CONFIG_CLASS_DERIVED_HASH(r, data, elem) boost::hash_combine(seed, static_cast<const elem*>(this)->hash());
#define PRINT_CONFIG_CLASS_DERIVED_EQUAL(r, data, elem) \
if (! (*static_cast<const elem*>(this) == static_cast<const elem&>(rhs))) return false;
// Generic version, with or without new parameters. Don't use this directly.
#define PRINT_CONFIG_CLASS_DERIVED_DEFINE1(CLASS_NAME, CLASSES_PARENTS_TUPLE, PARAMETER_DEFINITION, PARAMETER_REGISTRATION, PARAMETER_HASHES, PARAMETER_EQUALS) \
class CLASS_NAME : PRINT_CONFIG_CLASS_DERIVED_CLASS_LIST(CLASSES_PARENTS_TUPLE) { \
STATIC_PRINT_CONFIG_CACHE_DERIVED(CLASS_NAME) \
CLASS_NAME() : PRINT_CONFIG_CLASS_DERIVED_INITIALIZER(CLASSES_PARENTS_TUPLE, 0) { assert(s_cache_##CLASS_NAME.initialized()); *this = s_cache_##CLASS_NAME.defaults(); } \
public: \
PARAMETER_DEFINITION \
size_t hash() const throw() \
{ \
size_t seed = 0; \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_DERIVED_HASH, _, BOOST_PP_TUPLE_TO_SEQ(CLASSES_PARENTS_TUPLE)) \
PARAMETER_HASHES \
return seed; \
} \
bool operator==(const CLASS_NAME &rhs) const throw() \
{ \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_DERIVED_EQUAL, _, BOOST_PP_TUPLE_TO_SEQ(CLASSES_PARENTS_TUPLE)) \
PARAMETER_EQUALS \
return true; \
} \
bool operator!=(const CLASS_NAME &rhs) const throw() { return ! (*this == rhs); } \
protected: \
CLASS_NAME(int) : PRINT_CONFIG_CLASS_DERIVED_INITIALIZER(CLASSES_PARENTS_TUPLE, 1) {} \
void initialize(StaticCacheBase &cache, const char* base_ptr) { \
PRINT_CONFIG_CLASS_DERIVED_INITCACHE(CLASSES_PARENTS_TUPLE) \
PARAMETER_REGISTRATION \
} \
};
// Variant without adding new parameters.
#define PRINT_CONFIG_CLASS_DERIVED_DEFINE0(CLASS_NAME, CLASSES_PARENTS_TUPLE) \
PRINT_CONFIG_CLASS_DERIVED_DEFINE1(CLASS_NAME, CLASSES_PARENTS_TUPLE, BOOST_PP_EMPTY(), BOOST_PP_EMPTY(), BOOST_PP_EMPTY(), BOOST_PP_EMPTY())
// Variant with adding new parameters.
#define PRINT_CONFIG_CLASS_DERIVED_DEFINE(CLASS_NAME, CLASSES_PARENTS_TUPLE, PARAMETER_DEFINITION_SEQ) \
PRINT_CONFIG_CLASS_DERIVED_DEFINE1(CLASS_NAME, CLASSES_PARENTS_TUPLE, \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_DEFINITION, _, PARAMETER_DEFINITION_SEQ), \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION, _, PARAMETER_DEFINITION_SEQ), \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_HASH, _, PARAMETER_DEFINITION_SEQ), \
BOOST_PP_SEQ_FOR_EACH(PRINT_CONFIG_CLASS_ELEMENT_EQUAL, _, PARAMETER_DEFINITION_SEQ))
// This object is mapped to Perl as Slic3r::Config::PrintObject.
PRINT_CONFIG_CLASS_DEFINE(
PrintObjectConfig,
((ConfigOptionFloat, brim_separation))
((ConfigOptionEnum<BrimType>, brim_type))
((ConfigOptionFloat, brim_width))
((ConfigOptionBool, clip_multipart_objects))
((ConfigOptionBool, dont_support_bridges))
((ConfigOptionFloat, elefant_foot_compensation))
((ConfigOptionFloatOrPercent, extrusion_width))
((ConfigOptionFloat, first_layer_acceleration_over_raft))
((ConfigOptionFloatOrPercent, first_layer_speed_over_raft))
((ConfigOptionBool, infill_only_where_needed))
// Force the generation of solid shells between adjacent materials/volumes.
((ConfigOptionBool, interface_shells))
((ConfigOptionFloat, layer_height))
((ConfigOptionFloat, mmu_segmented_region_max_width))
((ConfigOptionFloat, raft_contact_distance))
((ConfigOptionFloat, raft_expansion))
((ConfigOptionPercent, raft_first_layer_density))
((ConfigOptionFloat, raft_first_layer_expansion))
((ConfigOptionInt, raft_layers))
((ConfigOptionEnum<SeamPosition>, seam_position))
// ((ConfigOptionFloat, seam_preferred_direction))
// ((ConfigOptionFloat, seam_preferred_direction_jitter))
((ConfigOptionFloat, slice_closing_radius))
((ConfigOptionEnum<SlicingMode>, slicing_mode))
((ConfigOptionBool, support_material))
// 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))
((ConfigOptionFloat, support_material_bottom_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))
((ConfigOptionInt, support_material_bottom_interface_layers))
// Spacing between interface lines (the hatching distance). Set zero to get a solid interface.
((ConfigOptionFloat, support_material_interface_spacing))
((ConfigOptionFloatOrPercent, support_material_interface_speed))
((ConfigOptionEnum<SupportMaterialPattern>, support_material_pattern))
((ConfigOptionEnum<SupportMaterialInterfacePattern>, support_material_interface_pattern))
// Morphological closing of support areas. Only used for "sung" supports.
((ConfigOptionFloat, support_material_closing_radius))
// Spacing between support material lines (the hatching distance).
((ConfigOptionFloat, support_material_spacing))
((ConfigOptionFloat, support_material_speed))
((ConfigOptionEnum<SupportMaterialStyle>, support_material_style))
((ConfigOptionBool, support_material_synchronize_layers))
// Overhang angle threshold.
((ConfigOptionInt, support_material_threshold))
((ConfigOptionBool, support_material_with_sheath))
((ConfigOptionFloatOrPercent, support_material_xy_spacing))
((ConfigOptionBool, thick_bridges))
((ConfigOptionFloat, xy_size_compensation))
((ConfigOptionBool, wipe_into_objects))
)
// This object is mapped to Perl as Slic3r::Config::PrintRegion.
PRINT_CONFIG_CLASS_DEFINE(
PrintRegionConfig,
((ConfigOptionFloat, bridge_angle))
((ConfigOptionInt, bottom_solid_layers))
((ConfigOptionFloat, bottom_solid_min_thickness))
((ConfigOptionFloat, bridge_flow_ratio))
((ConfigOptionFloat, bridge_speed))
((ConfigOptionBool, ensure_vertical_shell_thickness))
((ConfigOptionEnum<InfillPattern>, top_fill_pattern))
((ConfigOptionEnum<InfillPattern>, bottom_fill_pattern))
((ConfigOptionFloatOrPercent, external_perimeter_extrusion_width))
((ConfigOptionFloatOrPercent, external_perimeter_speed))
((ConfigOptionBool, external_perimeters_first))
((ConfigOptionBool, extra_perimeters))
((ConfigOptionFloat, fill_angle))
((ConfigOptionPercent, fill_density))
((ConfigOptionEnum<InfillPattern>, fill_pattern))
((ConfigOptionEnum<FuzzySkinType>, fuzzy_skin))
((ConfigOptionFloat, fuzzy_skin_thickness))
((ConfigOptionFloat, fuzzy_skin_point_dist))
((ConfigOptionBool, gap_fill_enabled))
((ConfigOptionFloat, gap_fill_speed))
((ConfigOptionFloatOrPercent, infill_anchor))
((ConfigOptionFloatOrPercent, infill_anchor_max))
((ConfigOptionInt, infill_extruder))
((ConfigOptionFloatOrPercent, infill_extrusion_width))
((ConfigOptionInt, infill_every_layers))
((ConfigOptionFloatOrPercent, infill_overlap))
((ConfigOptionFloat, infill_speed))
// Ironing options
((ConfigOptionBool, ironing))
((ConfigOptionEnum<IroningType>, ironing_type))
((ConfigOptionPercent, ironing_flowrate))
((ConfigOptionFloat, ironing_spacing))
((ConfigOptionFloat, ironing_speed))
// Detect bridging perimeters
((ConfigOptionBool, overhangs))
((ConfigOptionInt, perimeter_extruder))
((ConfigOptionFloatOrPercent, perimeter_extrusion_width))
((ConfigOptionFloat, perimeter_speed))
// 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))
// Detect thin walls.
((ConfigOptionBool, thin_walls))
((ConfigOptionFloatOrPercent, top_infill_extrusion_width))
((ConfigOptionInt, top_solid_layers))
((ConfigOptionFloat, top_solid_min_thickness))
((ConfigOptionFloatOrPercent, top_solid_infill_speed))
((ConfigOptionBool, wipe_into_infill))
)
PRINT_CONFIG_CLASS_DEFINE(
MachineEnvelopeConfig,
// Allowing the machine limits to be completely ignored or used just for time estimator.
((ConfigOptionEnum<MachineLimitsUsage>, machine_limits_usage))
// 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 P... R... T...[mm/sec^2]
((ConfigOptionFloats, machine_max_acceleration_extruding))
((ConfigOptionFloats, machine_max_acceleration_retracting))
((ConfigOptionFloats, machine_max_acceleration_travel))
// 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))
)
// This object is mapped to Perl as Slic3r::Config::GCode.
PRINT_CONFIG_CLASS_DEFINE(
GCodeConfig,
((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_spool_weight))
((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))
((ConfigOptionBool, gcode_label_objects))
((ConfigOptionString, layer_gcode))
((ConfigOptionFloat, max_print_speed))
((ConfigOptionFloat, max_volumetric_speed))
//#ifdef HAS_PRESSURE_EQUALIZER
// ((ConfigOptionFloat, max_volumetric_extrusion_rate_slope_positive))
// ((ConfigOptionFloat, max_volumetric_extrusion_rate_slope_negative))
//#endif
((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))
((ConfigOptionBool, wipe_tower_no_sparse_layers))
((ConfigOptionString, toolchange_gcode))
((ConfigOptionFloat, travel_speed))
((ConfigOptionFloat, travel_speed_z))
((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))
((ConfigOptionBool, high_current_on_filament_swap))
((ConfigOptionFloat, parking_pos_retraction))
((ConfigOptionBool, remaining_times))
((ConfigOptionBool, silent_mode))
((ConfigOptionFloat, extra_loading_move))
((ConfigOptionString, color_change_gcode))
((ConfigOptionString, pause_print_gcode))
((ConfigOptionString, template_custom_gcode))
)
static inline std::string get_extrusion_axis(const GCodeConfig &cfg)
{
return
((cfg.gcode_flavor.value == gcfMach3) || (cfg.gcode_flavor.value == gcfMachinekit)) ? "A" :
(cfg.gcode_flavor.value == gcfNoExtrusion) ? "" : cfg.extrusion_axis.value;
}
// This object is mapped to Perl as Slic3r::Config::Print.
PRINT_CONFIG_CLASS_DERIVED_DEFINE(
PrintConfig,
(MachineEnvelopeConfig, GCodeConfig),
((ConfigOptionBool, avoid_crossing_perimeters))
((ConfigOptionFloatOrPercent, avoid_crossing_perimeters_max_detour))
((ConfigOptionPoints, bed_shape))
((ConfigOptionInts, bed_temperature))
((ConfigOptionFloat, bridge_acceleration))
((ConfigOptionInts, bridge_fan_speed))
((ConfigOptionBool, complete_objects))
((ConfigOptionFloats, colorprint_heights))
((ConfigOptionBools, cooling))
((ConfigOptionFloat, default_acceleration))
((ConfigOptionInts, disable_fan_first_layers))
((ConfigOptionEnum<DraftShield>, draft_shield))
((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))
((ConfigOptionStrings, filament_colour))
((ConfigOptionStrings, filament_notes))
((ConfigOptionFloat, first_layer_acceleration))
((ConfigOptionInts, first_layer_bed_temperature))
((ConfigOptionFloatOrPercent, first_layer_extrusion_width))
((ConfigOptionFloatOrPercent, first_layer_height))
((ConfigOptionFloatOrPercent, first_layer_speed))
((ConfigOptionInts, first_layer_temperature))
((ConfigOptionInts, full_fan_speed_layer))
((ConfigOptionFloat, infill_acceleration))
((ConfigOptionBool, infill_first))
((ConfigOptionInts, max_fan_speed))
((ConfigOptionFloats, max_layer_height))
((ConfigOptionInts, min_fan_speed))
((ConfigOptionFloats, min_layer_height))
((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_brim_width))
((ConfigOptionFloat, wipe_tower_bridging))
((ConfigOptionFloats, wiping_volumes_matrix))
((ConfigOptionFloats, wiping_volumes_extruders))
((ConfigOptionFloat, z_offset))
)
// This object is mapped to Perl as Slic3r::Config::Full.
PRINT_CONFIG_CLASS_DERIVED_DEFINE0(
FullPrintConfig,
(PrintObjectConfig, PrintRegionConfig, PrintConfig)
)
// Validate the FullPrintConfig. Returns an empty string on success, otherwise an error message is returned.
std::string validate(const FullPrintConfig &config);
PRINT_CONFIG_CLASS_DEFINE(
SLAPrintConfig,
((ConfigOptionString, output_filename_format))
)
PRINT_CONFIG_CLASS_DEFINE(
SLAPrintObjectConfig,
((ConfigOptionFloat, layer_height))
//Number of the layers needed for the exposure time fade [3;20]
((ConfigOptionInt, faded_layers))/*= 10*/
((ConfigOptionFloat, slice_closing_radius))
((ConfigOptionEnum<SlicingMode>, slicing_mode))
// Enabling or disabling support creation
((ConfigOptionBool, supports_enable))
// Diameter in mm of the pointing side of the head.
((ConfigOptionFloat, support_head_front_diameter))/*= 0.2*/
// How much the pinhead has to penetrate the model surface
((ConfigOptionFloat, support_head_penetration))/*= 0.2*/
// Width in mm from the back sphere center to the front sphere center.
((ConfigOptionFloat, support_head_width))/*= 1.0*/
// Radius in mm of the support pillars.
((ConfigOptionFloat, support_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, support_small_pillar_diameter_percent))
// How much bridge (supporting another pinhead) can be placed on a pillar.
((ConfigOptionInt, support_max_bridges_on_pillar))
// How the pillars are bridged together
((ConfigOptionEnum<SLAPillarConnectionMode>, support_pillar_connection_mode))
// Generate only ground facing supports
((ConfigOptionBool, support_buildplate_only))
// TODO: unimplemented at the moment. This coefficient will have an impact
// when bridges and pillars are merged. The resulting pillar should be a bit
// thicker than the ones merging into it. How much thicker? I don't know
// but it will be derived from this value.
((ConfigOptionFloat, support_pillar_widening_factor))
// Radius in mm of the pillar base.
((ConfigOptionFloat, support_base_diameter))/*= 2.0*/
// The height of the pillar base cone in mm.
((ConfigOptionFloat, support_base_height))/*= 1.0*/
// The minimum distance of the pillar base from the model in mm.
((ConfigOptionFloat, support_base_safety_distance)) /*= 1.0*/
// The default angle for connecting support sticks and junctions.
((ConfigOptionFloat, support_critical_angle))/*= 45*/
// The max length of a bridge in mm
((ConfigOptionFloat, support_max_bridge_length))/*= 15.0*/
// The max distance of two pillars to get cross linked.
((ConfigOptionFloat, support_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, support_object_elevation))/*= 5.0*/
/////// Following options influence automatic support points placement:
((ConfigOptionInt, support_points_density_relative))
((ConfigOptionFloat, support_points_minimal_distance))
// Now for the base pool (pad) /////////////////////////////////////////////
// Enabling or disabling support creation
((ConfigOptionBool, pad_enable))
// The thickness of the pad walls
((ConfigOptionFloat, pad_wall_thickness))/*= 2*/
// The height of the pad from the bottom to the top not considering the pit
((ConfigOptionFloat, pad_wall_height))/*= 5*/
// How far should the pad extend around the contained geometry
((ConfigOptionFloat, pad_brim_size))
// The greatest distance where two individual pads are merged into one. The
// distance is measured roughly from the centroids of the pads.
((ConfigOptionFloat, pad_max_merge_distance))/*= 50*/
// The smoothing radius of the pad edges
// ((ConfigOptionFloat, pad_edge_radius))/*= 1*/;
// The slope of the pad wall...
((ConfigOptionFloat, pad_wall_slope))
// /////////////////////////////////////////////////////////////////////////
// Zero elevation mode parameters:
// - The object pad will be derived from the model geometry.
// - There will be a gap between the object pad and the generated pad
// according to the support_base_safety_distance parameter.
// - The two pads will be connected with tiny connector sticks
// /////////////////////////////////////////////////////////////////////////
// Disable the elevation (ignore its value) and use the zero elevation mode
((ConfigOptionBool, pad_around_object))
((ConfigOptionBool, pad_around_object_everywhere))
// This is the gap between the object bottom and the generated pad
((ConfigOptionFloat, pad_object_gap))
// How far to place the connector sticks on the object pad perimeter
((ConfigOptionFloat, pad_object_connector_stride))
// The width of the connectors sticks
((ConfigOptionFloat, pad_object_connector_width))
// How much should the tiny connectors penetrate into the model body
((ConfigOptionFloat, pad_object_connector_penetration))
// /////////////////////////////////////////////////////////////////////////
// Model hollowing parameters:
// - Models can be hollowed out as part of the SLA print process
// - Thickness of the hollowed model walls can be adjusted
// -
// - Additional holes will be drilled into the hollow model to allow for
// - resin removal.
// /////////////////////////////////////////////////////////////////////////
((ConfigOptionBool, hollowing_enable))
// The minimum thickness of the model walls to maintain. Note that the
// resulting walls may be thicker due to smoothing out fine cavities where
// resin could stuck.
((ConfigOptionFloat, hollowing_min_thickness))
// Indirectly controls the voxel size (resolution) used by openvdb
((ConfigOptionFloat, hollowing_quality))
// Indirectly controls the minimum size of created cavities.
((ConfigOptionFloat, hollowing_closing_distance))
)
PRINT_CONFIG_CLASS_DEFINE(
SLAMaterialConfig,
((ConfigOptionFloat, initial_layer_height))
((ConfigOptionFloat, bottle_cost))
((ConfigOptionFloat, bottle_volume))
((ConfigOptionFloat, bottle_weight))
((ConfigOptionFloat, material_density))
((ConfigOptionFloat, exposure_time))
((ConfigOptionFloat, initial_exposure_time))
((ConfigOptionFloats, material_correction))
)
PRINT_CONFIG_CLASS_DEFINE(
SLAPrinterConfig,
((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))
((ConfigOptionEnum<SLADisplayOrientation>,display_orientation))
((ConfigOptionBool, display_mirror_x))
((ConfigOptionBool, display_mirror_y))
((ConfigOptionFloats, relative_correction))
((ConfigOptionFloat, absolute_correction))
((ConfigOptionFloat, elefant_foot_compensation))
((ConfigOptionFloat, elefant_foot_min_width))
((ConfigOptionFloat, gamma_correction))
((ConfigOptionFloat, fast_tilt_time))
((ConfigOptionFloat, slow_tilt_time))
((ConfigOptionFloat, area_fill))
((ConfigOptionFloat, min_exposure_time))
((ConfigOptionFloat, max_exposure_time))
((ConfigOptionFloat, min_initial_exposure_time))
((ConfigOptionFloat, max_initial_exposure_time))
)
PRINT_CONFIG_CLASS_DERIVED_DEFINE0(
SLAFullPrintConfig,
(SLAPrinterConfig, SLAPrintConfig, SLAPrintObjectConfig, SLAMaterialConfig)
)
#undef STATIC_PRINT_CONFIG_CACHE
#undef STATIC_PRINT_CONFIG_CACHE_BASE
#undef STATIC_PRINT_CONFIG_CACHE_DERIVED
#undef PRINT_CONFIG_CLASS_ELEMENT_DEFINITION
#undef PRINT_CONFIG_CLASS_ELEMENT_EQUAL
#undef PRINT_CONFIG_CLASS_ELEMENT_LOWER
#undef PRINT_CONFIG_CLASS_ELEMENT_HASH
#undef PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION
#undef PRINT_CONFIG_CLASS_ELEMENT_INITIALIZATION2
#undef PRINT_CONFIG_CLASS_DEFINE
#undef PRINT_CONFIG_CLASS_DERIVED_CLASS_LIST
#undef PRINT_CONFIG_CLASS_DERIVED_CLASS_LIST_ITEM
#undef PRINT_CONFIG_CLASS_DERIVED_DEFINE
#undef PRINT_CONFIG_CLASS_DERIVED_DEFINE0
#undef PRINT_CONFIG_CLASS_DERIVED_DEFINE1
#undef PRINT_CONFIG_CLASS_DERIVED_HASH
#undef PRINT_CONFIG_CLASS_DERIVED_EQUAL
#undef PRINT_CONFIG_CLASS_DERIVED_INITCACHE_ITEM
#undef PRINT_CONFIG_CLASS_DERIVED_INITCACHE
#undef PRINT_CONFIG_CLASS_DERIVED_INITIALIZER
#undef PRINT_CONFIG_CLASS_DERIVED_INITIALIZER_ITEM
class CLIActionsConfigDef : public ConfigDef
{
public:
CLIActionsConfigDef();
};
class CLITransformConfigDef : public ConfigDef
{
public:
CLITransformConfigDef();
};
class CLIMiscConfigDef : public ConfigDef
{
public:
CLIMiscConfigDef();
};
// This class defines the command line options representing actions.
extern const CLIActionsConfigDef cli_actions_config_def;
// This class defines the command line options representing transforms.
extern const CLITransformConfigDef cli_transform_config_def;
// This class defines all command line options that are not actions or transforms.
extern const CLIMiscConfigDef cli_misc_config_def;
class DynamicPrintAndCLIConfig : public DynamicPrintConfig
{
public:
DynamicPrintAndCLIConfig() {}
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; }
// 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;
private:
class PrintAndCLIConfigDef : public ConfigDef
{
public:
PrintAndCLIConfigDef() {
this->options.insert(print_config_def.options.begin(), print_config_def.options.end());
this->options.insert(cli_actions_config_def.options.begin(), cli_actions_config_def.options.end());
this->options.insert(cli_transform_config_def.options.begin(), cli_transform_config_def.options.end());
this->options.insert(cli_misc_config_def.options.begin(), cli_misc_config_def.options.end());
for (const auto &kvp : this->options)
this->by_serialization_key_ordinal[kvp.second.serialization_key_ordinal] = &kvp.second;
}
// Do not release the default values, they are handled by print_config_def & cli_actions_config_def / cli_transform_config_def / cli_misc_config_def.
~PrintAndCLIConfigDef() { this->options.clear(); }
};
static PrintAndCLIConfigDef s_def;
};
Points get_bed_shape(const DynamicPrintConfig &cfg);
Points get_bed_shape(const PrintConfig &cfg);
Points get_bed_shape(const SLAPrinterConfig &cfg);
// ModelConfig is a wrapper around DynamicPrintConfig with an addition of a timestamp.
// Each change of ModelConfig is tracked by assigning a new timestamp from a global counter.
// The counter is used for faster synchronization of the background slicing thread
// with the front end by skipping synchronization of equal config dictionaries.
// The global counter is also used for avoiding unnecessary serialization of config
// dictionaries when taking an Undo snapshot.
//
// The global counter is NOT thread safe, therefore it is recommended to use ModelConfig from
// the main thread only.
//
// As there is a global counter and it is being increased with each change to any ModelConfig,
// if two ModelConfig dictionaries differ, they should differ with their timestamp as well.
// Therefore copying the ModelConfig including its timestamp is safe as there is no harm
// in having multiple ModelConfig with equal timestamps as long as their dictionaries are equal.
//
// The timestamp is used by the Undo/Redo stack. As zero timestamp means invalid timestamp
// to the Undo/Redo stack (zero timestamp means the Undo/Redo stack needs to serialize and
// compare serialized data for differences), zero timestamp shall never be used.
// Timestamp==1 shall only be used for empty dictionaries.
class ModelConfig
{
public:
// Following method clears the config and increases its timestamp, so the deleted
// state is considered changed from perspective of the undo/redo stack.
void reset() { m_data.clear(); touch(); }
void assign_config(const ModelConfig &rhs) {
if (m_timestamp != rhs.m_timestamp) {
m_data = rhs.m_data;
m_timestamp = rhs.m_timestamp;
}
}
void assign_config(ModelConfig &&rhs) {
if (m_timestamp != rhs.m_timestamp) {
m_data = std::move(rhs.m_data);
m_timestamp = rhs.m_timestamp;
rhs.reset();
}
}
// Modification of the ModelConfig is not thread safe due to the global timestamp counter!
// Don't call modification methods from the back-end!
// Assign methods don't assign if src==dst to not having to bump the timestamp in case they are equal.
void assign_config(const DynamicPrintConfig &rhs) { if (m_data != rhs) { m_data = rhs; this->touch(); } }
void assign_config(DynamicPrintConfig &&rhs) { if (m_data != rhs) { m_data = std::move(rhs); this->touch(); } }
void apply(const ModelConfig &other, bool ignore_nonexistent = false) { this->apply(other.get(), ignore_nonexistent); }
void apply(const ConfigBase &other, bool ignore_nonexistent = false) { m_data.apply_only(other, other.keys(), ignore_nonexistent); this->touch(); }
void apply_only(const ModelConfig &other, const t_config_option_keys &keys, bool ignore_nonexistent = false) { this->apply_only(other.get(), keys, ignore_nonexistent); }
void apply_only(const ConfigBase &other, const t_config_option_keys &keys, bool ignore_nonexistent = false) { m_data.apply_only(other, keys, ignore_nonexistent); this->touch(); }
bool set_key_value(const std::string &opt_key, ConfigOption *opt) { bool out = m_data.set_key_value(opt_key, opt); this->touch(); return out; }
template<typename T>
void set(const std::string &opt_key, T value) { m_data.set(opt_key, value, true); this->touch(); }
void set_deserialize(const t_config_option_key &opt_key, const std::string &str, ConfigSubstitutionContext &substitution_context, bool append = false)
{ m_data.set_deserialize(opt_key, str, substitution_context, append); this->touch(); }
bool erase(const t_config_option_key &opt_key) { bool out = m_data.erase(opt_key); if (out) this->touch(); return out; }
// Getters are thread safe.
// The following implicit conversion breaks the Cereal serialization.
// operator const DynamicPrintConfig&() const throw() { return this->get(); }
const DynamicPrintConfig& get() const throw() { return m_data; }
bool empty() const throw() { return m_data.empty(); }
size_t size() const throw() { return m_data.size(); }
auto cbegin() const { return m_data.cbegin(); }
auto cend() const { return m_data.cend(); }
t_config_option_keys keys() const { return m_data.keys(); }
bool has(const t_config_option_key &opt_key) const { return m_data.has(opt_key); }
const ConfigOption* option(const t_config_option_key &opt_key) const { return m_data.option(opt_key); }
int opt_int(const t_config_option_key &opt_key) const { return m_data.opt_int(opt_key); }
int extruder() const { return opt_int("extruder"); }
double opt_float(const t_config_option_key &opt_key) const { return m_data.opt_float(opt_key); }
std::string opt_serialize(const t_config_option_key &opt_key) const { return m_data.opt_serialize(opt_key); }
// Return an optional timestamp of this object.
// If the timestamp returned is non-zero, then the serialization framework will
// only save this object on the Undo/Redo stack if the timestamp is different
// from the timestmap of the object at the top of the Undo / Redo stack.
virtual uint64_t timestamp() const throw() { return m_timestamp; }
bool timestamp_matches(const ModelConfig &rhs) const throw() { return m_timestamp == rhs.m_timestamp; }
// Not thread safe! Should not be called from other than the main thread!
void touch() { m_timestamp = ++ s_last_timestamp; }
private:
friend class cereal::access;
template<class Archive> void serialize(Archive& ar) { ar(m_timestamp); ar(m_data); }
uint64_t m_timestamp { 1 };
DynamicPrintConfig m_data;
static uint64_t s_last_timestamp;
};
} // namespace Slic3r
// Serialization through the Cereal library
namespace cereal {
// Let cereal know that there are load / save non-member functions declared for DynamicPrintConfig, ignore serialize / load / save from parent class DynamicConfig.
template <class Archive> struct specialize<Archive, Slic3r::DynamicPrintConfig, cereal::specialization::non_member_load_save> {};
template<class Archive> void load(Archive& archive, Slic3r::DynamicPrintConfig &config)
{
size_t cnt;
archive(cnt);
config.clear();
for (size_t i = 0; i < cnt; ++ i) {
size_t serialization_key_ordinal;
archive(serialization_key_ordinal);
assert(serialization_key_ordinal > 0);
auto it = Slic3r::print_config_def.by_serialization_key_ordinal.find(serialization_key_ordinal);
assert(it != Slic3r::print_config_def.by_serialization_key_ordinal.end());
config.set_key_value(it->second->opt_key, it->second->load_option_from_archive(archive));
}
}
template<class Archive> void save(Archive& archive, const Slic3r::DynamicPrintConfig &config)
{
size_t cnt = config.size();
archive(cnt);
for (auto it = config.cbegin(); it != config.cend(); ++it) {
const Slic3r::ConfigOptionDef* optdef = Slic3r::print_config_def.get(it->first);
assert(optdef != nullptr);
assert(optdef->serialization_key_ordinal > 0);
archive(optdef->serialization_key_ordinal);
optdef->save_option_to_archive(archive, it->second.get());
}
}
}
#endif
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