PrusaSlicer-NonPlainar/src/PrusaSlicer.cpp
Vojtech Bubnik 8a2a9dba2f Eradicated admesh from TriangleMesh:
TriangleMesh newly only holds indexed_triangle_set and
TriangleMeshStats. TriangleMeshStats contains an excerpt of stl_stats.
TriangleMeshStats are updated when initializing with indexed_triangle_set.

Admesh triangle mesh fixing is newly only used when loading an STL.
AMF / 3MF / OBJ file formats are already indexed triangle sets, thus
they are no more converted to admesh stl_file format, nor fixed
through admesh repair machinery. When importing AMF / 3MF / OBJ files,
volume is calculated and if negative, all faces are flipped. Also
a bounding box and number of open edges is calculated.

Implemented its_number_of_patches(), its_num_open_edges()
Optimized its_split(), its_is_splittable() using a visitor pattern.

Reworked QHull integration into TriangleMesh:
    1) Face normals were not right.
    2) Indexed triangle set is newly emitted instead of duplicating
       vertices for each face.

Fixed cut_mesh(): Orient the triangulated faces correctly.
2021-09-20 17:12:22 +02:00

834 lines
37 KiB
C++

#ifdef WIN32
// Why?
#define _WIN32_WINNT 0x0502
// The standard Windows includes.
#define WIN32_LEAN_AND_MEAN
#define NOMINMAX
#include <Windows.h>
#include <wchar.h>
#ifdef SLIC3R_GUI
extern "C"
{
// Let the NVIDIA and AMD know we want to use their graphics card
// on a dual graphics card system.
__declspec(dllexport) DWORD NvOptimusEnablement = 0x00000001;
__declspec(dllexport) int AmdPowerXpressRequestHighPerformance = 1;
}
#endif /* SLIC3R_GUI */
#endif /* WIN32 */
#include <cstdio>
#include <string>
#include <cstring>
#include <iostream>
#include <math.h>
#include <boost/algorithm/string/predicate.hpp>
#include <boost/filesystem.hpp>
#include <boost/nowide/args.hpp>
#include <boost/nowide/cenv.hpp>
#include <boost/nowide/iostream.hpp>
#include <boost/nowide/integration/filesystem.hpp>
#include <boost/dll/runtime_symbol_info.hpp>
#include "unix/fhs.hpp" // Generated by CMake from ../platform/unix/fhs.hpp.in
#include "libslic3r/libslic3r.h"
#include "libslic3r/Config.hpp"
#include "libslic3r/Geometry.hpp"
#include "libslic3r/GCode/PostProcessor.hpp"
#include "libslic3r/Model.hpp"
#include "libslic3r/ModelArrange.hpp"
#include "libslic3r/Platform.hpp"
#include "libslic3r/Print.hpp"
#include "libslic3r/SLAPrint.hpp"
#include "libslic3r/TriangleMesh.hpp"
#include "libslic3r/Format/AMF.hpp"
#include "libslic3r/Format/3mf.hpp"
#include "libslic3r/Format/STL.hpp"
#include "libslic3r/Format/OBJ.hpp"
#include "libslic3r/Format/SL1.hpp"
#include "libslic3r/Utils.hpp"
#include "libslic3r/Thread.hpp"
#include "libslic3r/BlacklistedLibraryCheck.hpp"
#include "PrusaSlicer.hpp"
#ifdef SLIC3R_GUI
#include "slic3r/GUI/GUI_Init.hpp"
#endif /* SLIC3R_GUI */
using namespace Slic3r;
static PrinterTechnology get_printer_technology(const DynamicConfig &config)
{
const ConfigOptionEnum<PrinterTechnology> *opt = config.option<ConfigOptionEnum<PrinterTechnology>>("printer_technology");
return (opt == nullptr) ? ptUnknown : opt->value;
}
int CLI::run(int argc, char **argv)
{
// Mark the main thread for the debugger and for runtime checks.
set_current_thread_name("slic3r_main");
#ifdef __WXGTK__
// On Linux, wxGTK has no support for Wayland, and the app crashes on
// startup if gtk3 is used. This env var has to be set explicitly to
// instruct the window manager to fall back to X server mode.
::setenv("GDK_BACKEND", "x11", /* replace */ true);
#endif
// Switch boost::filesystem to utf8.
try {
boost::nowide::nowide_filesystem();
} catch (const std::runtime_error& ex) {
std::string caption = std::string(SLIC3R_APP_NAME) + " Error";
std::string text = std::string("An error occured while setting up locale.\n") + (
#if !defined(_WIN32) && !defined(__APPLE__)
// likely some linux system
"You may need to reconfigure the missing locales, likely by running the \"locale-gen\" and \"dpkg-reconfigure locales\" commands.\n"
#endif
SLIC3R_APP_NAME " will now terminate.\n\n") + ex.what();
#if defined(_WIN32) && defined(SLIC3R_GUI)
if (m_actions.empty())
// Empty actions means Slicer is executed in the GUI mode. Show a GUI message.
MessageBoxA(NULL, text.c_str(), caption.c_str(), MB_OK | MB_ICONERROR);
#endif
boost::nowide::cerr << text.c_str() << std::endl;
return 1;
}
if (! this->setup(argc, argv))
return 1;
m_extra_config.apply(m_config, true);
m_extra_config.normalize_fdm();
PrinterTechnology printer_technology = get_printer_technology(m_config);
bool start_gui = m_actions.empty() &&
// cutting transformations are setting an "export" action.
std::find(m_transforms.begin(), m_transforms.end(), "cut") == m_transforms.end() &&
std::find(m_transforms.begin(), m_transforms.end(), "cut_x") == m_transforms.end() &&
std::find(m_transforms.begin(), m_transforms.end(), "cut_y") == m_transforms.end();
bool start_as_gcodeviewer =
#ifdef _WIN32
false;
#else
// On Unix systems, the prusa-slicer binary may be symlinked to give the application a different meaning.
boost::algorithm::iends_with(boost::filesystem::path(argv[0]).filename().string(), "gcodeviewer");
#endif // _WIN32
const std::vector<std::string> &load_configs = m_config.option<ConfigOptionStrings>("load", true)->values;
const ForwardCompatibilitySubstitutionRule config_substitution_rule = m_config.option<ConfigOptionEnum<ForwardCompatibilitySubstitutionRule>>("config_compatibility", true)->value;
// load config files supplied via --load
for (auto const &file : load_configs) {
if (! boost::filesystem::exists(file)) {
if (m_config.opt_bool("ignore_nonexistent_config")) {
continue;
} else {
boost::nowide::cerr << "No such file: " << file << std::endl;
return 1;
}
}
DynamicPrintConfig config;
ConfigSubstitutions config_substitutions;
try {
config_substitutions = config.load(file, config_substitution_rule);
} catch (std::exception &ex) {
boost::nowide::cerr << "Error while reading config file \"" << file << "\": " << ex.what() << std::endl;
return 1;
}
if (! config_substitutions.empty()) {
boost::nowide::cout << "The following configuration values were substituted when loading \" << file << \":\n";
for (const ConfigSubstitution &subst : config_substitutions)
boost::nowide::cout << "\tkey = \"" << subst.opt_def->opt_key << "\"\t loaded = \"" << subst.old_value << "\tsubstituted = \"" << subst.new_value->serialize() << "\"\n";
}
config.normalize_fdm();
PrinterTechnology other_printer_technology = get_printer_technology(config);
if (printer_technology == ptUnknown) {
printer_technology = other_printer_technology;
} else if (printer_technology != other_printer_technology && other_printer_technology != ptUnknown) {
boost::nowide::cerr << "Mixing configurations for FFF and SLA technologies" << std::endl;
return 1;
}
m_print_config.apply(config);
}
// are we starting as gcodeviewer ?
for (auto it = m_actions.begin(); it != m_actions.end(); ++it) {
if (*it == "gcodeviewer") {
start_gui = true;
start_as_gcodeviewer = true;
m_actions.erase(it);
break;
}
}
// Read input file(s) if any.
for (const std::string& file : m_input_files)
if (is_gcode_file(file) && boost::filesystem::exists(file)) {
start_as_gcodeviewer = true;
break;
}
if (!start_as_gcodeviewer) {
for (const std::string& file : m_input_files) {
if (!boost::filesystem::exists(file)) {
boost::nowide::cerr << "No such file: " << file << std::endl;
exit(1);
}
Model model;
try {
// When loading an AMF or 3MF, config is imported as well, including the printer technology.
DynamicPrintConfig config;
ConfigSubstitutionContext config_substitutions(config_substitution_rule);
//FIXME should we check the version here? // | Model::LoadAttribute::CheckVersion ?
model = Model::read_from_file(file, &config, &config_substitutions, Model::LoadAttribute::AddDefaultInstances);
PrinterTechnology other_printer_technology = get_printer_technology(config);
if (printer_technology == ptUnknown) {
printer_technology = other_printer_technology;
}
else if (printer_technology != other_printer_technology && other_printer_technology != ptUnknown) {
boost::nowide::cerr << "Mixing configurations for FFF and SLA technologies" << std::endl;
return 1;
}
if (! config_substitutions.substitutions.empty()) {
boost::nowide::cout << "The following configuration values were substituted when loading \" << file << \":\n";
for (const ConfigSubstitution& subst : config_substitutions.substitutions)
boost::nowide::cout << "\tkey = \"" << subst.opt_def->opt_key << "\"\t loaded = \"" << subst.old_value << "\tsubstituted = \"" << subst.new_value->serialize() << "\"\n";
}
// config is applied to m_print_config before the current m_config values.
config += std::move(m_print_config);
m_print_config = std::move(config);
}
catch (std::exception& e) {
boost::nowide::cerr << file << ": " << e.what() << std::endl;
return 1;
}
if (model.objects.empty()) {
boost::nowide::cerr << "Error: file is empty: " << file << std::endl;
continue;
}
m_models.push_back(model);
}
}
// Apply command line options to a more specific DynamicPrintConfig which provides normalize()
// (command line options override --load files)
m_print_config.apply(m_extra_config, true);
// Normalizing after importing the 3MFs / AMFs
m_print_config.normalize_fdm();
if (printer_technology == ptUnknown)
printer_technology = std::find(m_actions.begin(), m_actions.end(), "export_sla") == m_actions.end() ? ptFFF : ptSLA;
m_print_config.option<ConfigOptionEnum<PrinterTechnology>>("printer_technology", true)->value = printer_technology;
// Initialize full print configs for both the FFF and SLA technologies.
FullPrintConfig fff_print_config;
SLAFullPrintConfig sla_print_config;
// Synchronize the default parameters and the ones received on the command line.
if (printer_technology == ptFFF) {
fff_print_config.apply(m_print_config, true);
m_print_config.apply(fff_print_config, true);
} else {
assert(printer_technology == ptSLA);
sla_print_config.output_filename_format.value = "[input_filename_base].sl1";
// The default bed shape should reflect the default display parameters
// and not the fff defaults.
double w = sla_print_config.display_width.getFloat();
double h = sla_print_config.display_height.getFloat();
sla_print_config.bed_shape.values = { Vec2d(0, 0), Vec2d(w, 0), Vec2d(w, h), Vec2d(0, h) };
sla_print_config.apply(m_print_config, true);
m_print_config.apply(sla_print_config, true);
}
{
std::string validity = m_print_config.validate();
if (! validity.empty()) {
boost::nowide::cerr << "Error: The composite configation is not valid: " << validity << std::endl;
return 1;
}
}
// Loop through transform options.
bool user_center_specified = false;
Points bed = get_bed_shape(m_print_config);
ArrangeParams arrange_cfg;
arrange_cfg.min_obj_distance = scaled(min_object_distance(m_print_config));
for (auto const &opt_key : m_transforms) {
if (opt_key == "merge") {
Model m;
for (auto &model : m_models)
for (ModelObject *o : model.objects)
m.add_object(*o);
// Rearrange instances unless --dont-arrange is supplied
if (! m_config.opt_bool("dont_arrange")) {
m.add_default_instances();
if (this->has_print_action())
arrange_objects(m, bed, arrange_cfg);
else
arrange_objects(m, InfiniteBed{}, arrange_cfg);
}
m_models.clear();
m_models.emplace_back(std::move(m));
} else if (opt_key == "duplicate") {
for (auto &model : m_models) {
const bool all_objects_have_instances = std::none_of(
model.objects.begin(), model.objects.end(),
[](ModelObject* o){ return o->instances.empty(); }
);
int dups = m_config.opt_int("duplicate");
if (!all_objects_have_instances) model.add_default_instances();
try {
if (dups > 1) {
// if all input objects have defined position(s) apply duplication to the whole model
duplicate(model, size_t(dups), bed, arrange_cfg);
} else {
arrange_objects(model, bed, arrange_cfg);
}
} catch (std::exception &ex) {
boost::nowide::cerr << "error: " << ex.what() << std::endl;
return 1;
}
}
} else if (opt_key == "duplicate_grid") {
std::vector<int> &ints = m_config.option<ConfigOptionInts>("duplicate_grid")->values;
const int x = ints.size() > 0 ? ints.at(0) : 1;
const int y = ints.size() > 1 ? ints.at(1) : 1;
const double distance = fff_print_config.duplicate_distance.value;
for (auto &model : m_models)
model.duplicate_objects_grid(x, y, (distance > 0) ? distance : 6); // TODO: this is not the right place for setting a default
} else if (opt_key == "center") {
user_center_specified = true;
for (auto &model : m_models) {
model.add_default_instances();
// this affects instances:
model.center_instances_around_point(m_config.option<ConfigOptionPoint>("center")->value);
// this affects volumes:
//FIXME Vojtech: Who knows why the complete model should be aligned with Z as a single rigid body?
//model.align_to_ground();
BoundingBoxf3 bbox;
for (ModelObject *model_object : model.objects)
// We are interested into the Z span only, therefore it is sufficient to measure the bounding box of the 1st instance only.
bbox.merge(model_object->instance_bounding_box(0, false));
for (ModelObject *model_object : model.objects)
for (ModelInstance *model_instance : model_object->instances)
model_instance->set_offset(Z, model_instance->get_offset(Z) - bbox.min.z());
}
} else if (opt_key == "align_xy") {
const Vec2d &p = m_config.option<ConfigOptionPoint>("align_xy")->value;
for (auto &model : m_models) {
BoundingBoxf3 bb = model.bounding_box();
// this affects volumes:
model.translate(-(bb.min.x() - p.x()), -(bb.min.y() - p.y()), -bb.min.z());
}
} else if (opt_key == "dont_arrange") {
// do nothing - this option alters other transform options
} else if (opt_key == "ensure_on_bed") {
// do nothing, the value is used later
} else if (opt_key == "rotate") {
for (auto &model : m_models)
for (auto &o : model.objects)
// this affects volumes:
o->rotate(Geometry::deg2rad(m_config.opt_float(opt_key)), Z);
} else if (opt_key == "rotate_x") {
for (auto &model : m_models)
for (auto &o : model.objects)
// this affects volumes:
o->rotate(Geometry::deg2rad(m_config.opt_float(opt_key)), X);
} else if (opt_key == "rotate_y") {
for (auto &model : m_models)
for (auto &o : model.objects)
// this affects volumes:
o->rotate(Geometry::deg2rad(m_config.opt_float(opt_key)), Y);
} else if (opt_key == "scale") {
for (auto &model : m_models)
for (auto &o : model.objects)
// this affects volumes:
o->scale(m_config.get_abs_value(opt_key, 1));
} else if (opt_key == "scale_to_fit") {
const Vec3d &opt = m_config.opt<ConfigOptionPoint3>(opt_key)->value;
if (opt.x() <= 0 || opt.y() <= 0 || opt.z() <= 0) {
boost::nowide::cerr << "--scale-to-fit requires a positive volume" << std::endl;
return 1;
}
for (auto &model : m_models)
for (auto &o : model.objects)
// this affects volumes:
o->scale_to_fit(opt);
} else if (opt_key == "cut" || opt_key == "cut_x" || opt_key == "cut_y") {
std::vector<Model> new_models;
for (auto &model : m_models) {
model.translate(0, 0, -model.bounding_box().min.z()); // align to z = 0
size_t num_objects = model.objects.size();
for (size_t i = 0; i < num_objects; ++ i) {
#if 0
if (opt_key == "cut_x") {
o->cut(X, m_config.opt_float("cut_x"), &out);
} else if (opt_key == "cut_y") {
o->cut(Y, m_config.opt_float("cut_y"), &out);
} else if (opt_key == "cut") {
o->cut(Z, m_config.opt_float("cut"), &out);
}
#else
model.objects.front()->cut(0, m_config.opt_float("cut"), ModelObjectCutAttribute::KeepLower | ModelObjectCutAttribute::KeepUpper | ModelObjectCutAttribute::FlipLower);
#endif
model.delete_object(size_t(0));
}
}
// TODO: copy less stuff around using pointers
m_models = new_models;
if (m_actions.empty())
m_actions.push_back("export_stl");
}
#if 0
else if (opt_key == "cut_grid") {
std::vector<Model> new_models;
for (auto &model : m_models) {
TriangleMesh mesh = model.mesh();
mesh.repair();
std::vector<TriangleMesh> meshes = mesh.cut_by_grid(m_config.option<ConfigOptionPoint>("cut_grid")->value);
size_t i = 0;
for (TriangleMesh* m : meshes) {
Model out;
auto o = out.add_object();
o->add_volume(*m);
o->input_file += "_" + std::to_string(i++);
delete m;
}
}
// TODO: copy less stuff around using pointers
m_models = new_models;
if (m_actions.empty())
m_actions.push_back("export_stl");
}
#endif
else if (opt_key == "split") {
for (Model &model : m_models) {
size_t num_objects = model.objects.size();
for (size_t i = 0; i < num_objects; ++ i) {
ModelObjectPtrs new_objects;
model.objects.front()->split(&new_objects);
model.delete_object(size_t(0));
}
}
} else if (opt_key == "repair") {
// Models are repaired by default.
//for (auto &model : m_models)
// model.repair();
} else {
boost::nowide::cerr << "error: option not implemented yet: " << opt_key << std::endl;
return 1;
}
}
// All transforms have been dealt with. Now ensure that the objects are on bed.
// (Unless the user said otherwise.)
if (m_config.opt_bool("ensure_on_bed"))
for (auto &model : m_models)
for (auto &o : model.objects)
o->ensure_on_bed();
// loop through action options
for (auto const &opt_key : m_actions) {
if (opt_key == "help") {
this->print_help();
} else if (opt_key == "help_fff") {
this->print_help(true, ptFFF);
} else if (opt_key == "help_sla") {
this->print_help(true, ptSLA);
} else if (opt_key == "save") {
//FIXME check for mixing the FFF / SLA parameters.
// or better save fff_print_config vs. sla_print_config
m_print_config.save(m_config.opt_string("save"));
} else if (opt_key == "info") {
// --info works on unrepaired model
for (Model &model : m_models) {
model.add_default_instances();
model.print_info();
}
} else if (opt_key == "export_stl") {
for (auto &model : m_models)
model.add_default_instances();
if (! this->export_models(IO::STL))
return 1;
} else if (opt_key == "export_obj") {
for (auto &model : m_models)
model.add_default_instances();
if (! this->export_models(IO::OBJ))
return 1;
} else if (opt_key == "export_amf") {
if (! this->export_models(IO::AMF))
return 1;
} else if (opt_key == "export_3mf") {
if (! this->export_models(IO::TMF))
return 1;
} else if (opt_key == "export_gcode" || opt_key == "export_sla" || opt_key == "slice") {
if (opt_key == "export_gcode" && printer_technology == ptSLA) {
boost::nowide::cerr << "error: cannot export G-code for an FFF configuration" << std::endl;
return 1;
} else if (opt_key == "export_sla" && printer_technology == ptFFF) {
boost::nowide::cerr << "error: cannot export SLA slices for a SLA configuration" << std::endl;
return 1;
}
// Make a copy of the model if the current action is not the last action, as the model may be
// modified by the centering and such.
Model model_copy;
bool make_copy = &opt_key != &m_actions.back();
for (Model &model_in : m_models) {
if (make_copy)
model_copy = model_in;
Model &model = make_copy ? model_copy : model_in;
// If all objects have defined instances, their relative positions will be
// honored when printing (they will be only centered, unless --dont-arrange
// is supplied); if any object has no instances, it will get a default one
// and all instances will be rearranged (unless --dont-arrange is supplied).
std::string outfile = m_config.opt_string("output");
Print fff_print;
SLAPrint sla_print;
SL1Archive sla_archive(sla_print.printer_config());
sla_print.set_printer(&sla_archive);
sla_print.set_status_callback(
[](const PrintBase::SlicingStatus& s)
{
if(s.percent >= 0) // FIXME: is this sufficient?
printf("%3d%s %s\n", s.percent, "% =>", s.text.c_str());
});
PrintBase *print = (printer_technology == ptFFF) ? static_cast<PrintBase*>(&fff_print) : static_cast<PrintBase*>(&sla_print);
if (! m_config.opt_bool("dont_arrange")) {
if (user_center_specified) {
Vec2d c = m_config.option<ConfigOptionPoint>("center")->value;
arrange_objects(model, InfiniteBed{scaled(c)}, arrange_cfg);
} else
arrange_objects(model, bed, arrange_cfg);
}
if (printer_technology == ptFFF) {
for (auto* mo : model.objects)
fff_print.auto_assign_extruders(mo);
}
print->apply(model, m_print_config);
std::string err = print->validate();
if (! err.empty()) {
boost::nowide::cerr << err << std::endl;
return 1;
}
if (print->empty())
boost::nowide::cout << "Nothing to print for " << outfile << " . Either the print is empty or no object is fully inside the print volume." << std::endl;
else
try {
std::string outfile_final;
print->process();
if (printer_technology == ptFFF) {
// The outfile is processed by a PlaceholderParser.
outfile = fff_print.export_gcode(outfile, nullptr, nullptr);
outfile_final = fff_print.print_statistics().finalize_output_path(outfile);
} else {
outfile = sla_print.output_filepath(outfile);
// We need to finalize the filename beforehand because the export function sets the filename inside the zip metadata
outfile_final = sla_print.print_statistics().finalize_output_path(outfile);
sla_archive.export_print(outfile_final, sla_print);
}
if (outfile != outfile_final) {
if (Slic3r::rename_file(outfile, outfile_final)) {
boost::nowide::cerr << "Renaming file " << outfile << " to " << outfile_final << " failed" << std::endl;
return 1;
}
outfile = outfile_final;
}
// Run the post-processing scripts if defined.
run_post_process_scripts(outfile, fff_print.full_print_config());
boost::nowide::cout << "Slicing result exported to " << outfile << std::endl;
} catch (const std::exception &ex) {
boost::nowide::cerr << ex.what() << std::endl;
return 1;
}
/*
print.center = ! m_config.has("center")
&& ! m_config.has("align_xy")
&& ! m_config.opt_bool("dont_arrange");
print.set_model(model);
// start chronometer
typedef std::chrono::high_resolution_clock clock_;
typedef std::chrono::duration<double, std::ratio<1> > second_;
std::chrono::time_point<clock_> t0{ clock_::now() };
const std::string outfile = this->output_filepath(model, IO::Gcode);
try {
print.export_gcode(outfile);
} catch (std::runtime_error &e) {
boost::nowide::cerr << e.what() << std::endl;
return 1;
}
boost::nowide::cout << "G-code exported to " << outfile << std::endl;
// output some statistics
double duration { std::chrono::duration_cast<second_>(clock_::now() - t0).count() };
boost::nowide::cout << std::fixed << std::setprecision(0)
<< "Done. Process took " << (duration/60) << " minutes and "
<< std::setprecision(3)
<< std::fmod(duration, 60.0) << " seconds." << std::endl
<< std::setprecision(2)
<< "Filament required: " << print.total_used_filament() << "mm"
<< " (" << print.total_extruded_volume()/1000 << "cm3)" << std::endl;
*/
}
} else {
boost::nowide::cerr << "error: option not supported yet: " << opt_key << std::endl;
return 1;
}
}
if (start_gui) {
#ifdef SLIC3R_GUI
Slic3r::GUI::GUI_InitParams params;
params.argc = argc;
params.argv = argv;
params.load_configs = load_configs;
params.extra_config = std::move(m_extra_config);
params.input_files = std::move(m_input_files);
params.start_as_gcodeviewer = start_as_gcodeviewer;
return Slic3r::GUI::GUI_Run(params);
#else // SLIC3R_GUI
// No GUI support. Just print out a help.
this->print_help(false);
// If started without a parameter, consider it to be OK, otherwise report an error code (no action etc).
return (argc == 0) ? 0 : 1;
#endif // SLIC3R_GUI
}
return 0;
}
bool CLI::setup(int argc, char **argv)
{
{
Slic3r::set_logging_level(1);
const char *loglevel = boost::nowide::getenv("SLIC3R_LOGLEVEL");
if (loglevel != nullptr) {
if (loglevel[0] >= '0' && loglevel[0] <= '9' && loglevel[1] == 0)
set_logging_level(loglevel[0] - '0');
else
boost::nowide::cerr << "Invalid SLIC3R_LOGLEVEL environment variable: " << loglevel << std::endl;
}
}
// Detect the operating system flavor after SLIC3R_LOGLEVEL is set.
detect_platform();
#ifdef WIN32
// Notify user that a blacklisted DLL was injected into PrusaSlicer process (for example Nahimic, see GH #5573).
// We hope that if a DLL is being injected into a PrusaSlicer process, it happens at the very start of the application,
// thus we shall detect them now.
if (BlacklistedLibraryCheck::get_instance().perform_check()) {
std::wstring text = L"Following DLLs have been injected into the PrusaSlicer process:\n\n";
text += BlacklistedLibraryCheck::get_instance().get_blacklisted_string();
text += L"\n\n"
L"PrusaSlicer is known to not run correctly with these DLLs injected. "
L"We suggest stopping or uninstalling these services if you experience "
L"crashes or unexpected behaviour while using PrusaSlicer.\n"
L"For example, ASUS Sonic Studio injects a Nahimic driver, which makes PrusaSlicer "
L"to crash on a secondary monitor, see PrusaSlicer github issue #5573";
MessageBoxW(NULL, text.c_str(), L"Warning"/*L"Incopatible library found"*/, MB_OK);
}
#endif
// See Invoking prusa-slicer from $PATH environment variable crashes #5542
// boost::filesystem::path path_to_binary = boost::filesystem::system_complete(argv[0]);
boost::filesystem::path path_to_binary = boost::dll::program_location();
// Path from the Slic3r binary to its resources.
#ifdef __APPLE__
// The application is packed in the .dmg archive as 'Slic3r.app/Contents/MacOS/Slic3r'
// The resources are packed to 'Slic3r.app/Contents/Resources'
boost::filesystem::path path_resources = boost::filesystem::canonical(path_to_binary).parent_path() / "../Resources";
#elif defined _WIN32
// The application is packed in the .zip archive in the root,
// The resources are packed to 'resources'
// Path from Slic3r binary to resources:
boost::filesystem::path path_resources = path_to_binary.parent_path() / "resources";
#elif defined SLIC3R_FHS
// The application is packaged according to the Linux Filesystem Hierarchy Standard
// Resources are set to the 'Architecture-independent (shared) data', typically /usr/share or /usr/local/share
boost::filesystem::path path_resources = SLIC3R_FHS_RESOURCES;
#else
// The application is packed in the .tar.bz archive (or in AppImage) as 'bin/slic3r',
// The resources are packed to 'resources'
// Path from Slic3r binary to resources:
boost::filesystem::path path_resources = boost::filesystem::canonical(path_to_binary).parent_path() / "../resources";
#endif
set_resources_dir(path_resources.string());
set_var_dir((path_resources / "icons").string());
set_local_dir((path_resources / "localization").string());
set_sys_shapes_dir((path_resources / "shapes").string());
// Parse all command line options into a DynamicConfig.
// If any option is unsupported, print usage and abort immediately.
t_config_option_keys opt_order;
if (! m_config.read_cli(argc, argv, &m_input_files, &opt_order)) {
// Separate error message reported by the CLI parser from the help.
boost::nowide::cerr << std::endl;
this->print_help();
return false;
}
// Parse actions and transform options.
for (auto const &opt_key : opt_order) {
if (cli_actions_config_def.has(opt_key))
m_actions.emplace_back(opt_key);
else if (cli_transform_config_def.has(opt_key))
m_transforms.emplace_back(opt_key);
}
{
const ConfigOptionInt *opt_loglevel = m_config.opt<ConfigOptionInt>("loglevel");
if (opt_loglevel != 0)
set_logging_level(opt_loglevel->value);
}
//FIXME Validating at this stage most likely does not make sense, as the config is not fully initialized yet.
std::string validity = m_config.validate();
// Initialize with defaults.
for (const t_optiondef_map *options : { &cli_actions_config_def.options, &cli_transform_config_def.options, &cli_misc_config_def.options })
for (const std::pair<t_config_option_key, ConfigOptionDef> &optdef : *options)
m_config.option(optdef.first, true);
set_data_dir(m_config.opt_string("datadir"));
//FIXME Validating at this stage most likely does not make sense, as the config is not fully initialized yet.
if (!validity.empty()) {
boost::nowide::cerr << "error: " << validity << std::endl;
return false;
}
return true;
}
void CLI::print_help(bool include_print_options, PrinterTechnology printer_technology) const
{
boost::nowide::cout
<< SLIC3R_BUILD_ID << " " << "based on Slic3r"
#ifdef SLIC3R_GUI
<< " (with GUI support)"
#else /* SLIC3R_GUI */
<< " (without GUI support)"
#endif /* SLIC3R_GUI */
<< std::endl
<< "https://github.com/prusa3d/PrusaSlicer" << std::endl << std::endl
<< "Usage: prusa-slicer [ ACTIONS ] [ TRANSFORM ] [ OPTIONS ] [ file.stl ... ]" << std::endl
<< std::endl
<< "Actions:" << std::endl;
cli_actions_config_def.print_cli_help(boost::nowide::cout, false);
boost::nowide::cout
<< std::endl
<< "Transform options:" << std::endl;
cli_transform_config_def.print_cli_help(boost::nowide::cout, false);
boost::nowide::cout
<< std::endl
<< "Other options:" << std::endl;
cli_misc_config_def.print_cli_help(boost::nowide::cout, false);
boost::nowide::cout
<< std::endl
<< "Print options are processed in the following order:" << std::endl
<< "\t1) Config keys from the command line, for example --fill-pattern=stars" << std::endl
<< "\t (highest priority, overwrites everything below)" << std::endl
<< "\t2) Config files loaded with --load" << std::endl
<< "\t3) Config values loaded from amf or 3mf files" << std::endl;
if (include_print_options) {
boost::nowide::cout << std::endl;
print_config_def.print_cli_help(boost::nowide::cout, true, [printer_technology](const ConfigOptionDef &def)
{ return printer_technology == ptAny || def.printer_technology == ptAny || printer_technology == def.printer_technology; });
} else {
boost::nowide::cout
<< std::endl
<< "Run --help-fff / --help-sla to see the full listing of print options." << std::endl;
}
}
bool CLI::export_models(IO::ExportFormat format)
{
for (Model &model : m_models) {
const std::string path = this->output_filepath(model, format);
bool success = false;
switch (format) {
case IO::AMF: success = Slic3r::store_amf(path.c_str(), &model, nullptr, false); break;
case IO::OBJ: success = Slic3r::store_obj(path.c_str(), &model); break;
case IO::STL: success = Slic3r::store_stl(path.c_str(), &model, true); break;
case IO::TMF: success = Slic3r::store_3mf(path.c_str(), &model, nullptr, false); break;
default: assert(false); break;
}
if (success)
std::cout << "File exported to " << path << std::endl;
else {
std::cerr << "File export to " << path << " failed" << std::endl;
return false;
}
}
return true;
}
std::string CLI::output_filepath(const Model &model, IO::ExportFormat format) const
{
std::string ext;
switch (format) {
case IO::AMF: ext = ".zip.amf"; break;
case IO::OBJ: ext = ".obj"; break;
case IO::STL: ext = ".stl"; break;
case IO::TMF: ext = ".3mf"; break;
default: assert(false); break;
};
auto proposed_path = boost::filesystem::path(model.propose_export_file_name_and_path(ext));
// use --output when available
std::string cmdline_param = m_config.opt_string("output");
if (! cmdline_param.empty()) {
// if we were supplied a directory, use it and append our automatically generated filename
boost::filesystem::path cmdline_path(cmdline_param);
if (boost::filesystem::is_directory(cmdline_path))
proposed_path = cmdline_path / proposed_path.filename();
else
proposed_path = cmdline_path;
}
return proposed_path.string();
}
#if defined(_MSC_VER) || defined(__MINGW32__)
extern "C" {
__declspec(dllexport) int __stdcall slic3r_main(int argc, wchar_t **argv)
{
// Convert wchar_t arguments to UTF8.
std::vector<std::string> argv_narrow;
std::vector<char*> argv_ptrs(argc + 1, nullptr);
for (size_t i = 0; i < argc; ++ i)
argv_narrow.emplace_back(boost::nowide::narrow(argv[i]));
for (size_t i = 0; i < argc; ++ i)
argv_ptrs[i] = argv_narrow[i].data();
// Call the UTF8 main.
return CLI().run(argc, argv_ptrs.data());
}
}
#else /* _MSC_VER */
int main(int argc, char **argv)
{
return CLI().run(argc, argv);
}
#endif /* _MSC_VER */