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Ported some ModelObject methods from Perl to C++.

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Added some utility functions to TriangleMesh, thanks to @alexrj
Some porting to C++ based on work by @alexrj.
This commit is contained in:
bubnikv 2017-08-02 16:05:18 +02:00
parent 777023c7a8
commit 31085fb1d7
7 changed files with 191 additions and 81 deletions
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77
lib/Slic3r/Model.pm
View File

@ -1,27 +1,8 @@
# extends C++ class Slic3r::Model # extends C++ class Slic3r::Model
package Slic3r::Model; package Slic3r::Model;
use File::Basename qw(basename);
use List::Util qw(first max any); use List::Util qw(first max any);
sub read_from_file {
my ($class, $input_file, $add_default_instances) = @_;
$add_default_instances //= 1;
my $model = $input_file =~ /\.[sS][tT][lL]$/ ? Slic3r::Model->load_stl(Slic3r::encode_path($input_file), basename($input_file))
: $input_file =~ /\.[oO][bB][jJ]$/ ? Slic3r::Model->load_obj(Slic3r::encode_path($input_file), basename($input_file))
: $input_file =~ /\.[aA][mM][fF](\.[xX][mM][lL])?$/ ? Slic3r::Model->load_amf(Slic3r::encode_path($input_file))
: $input_file =~ /\.[pP][rR][uU][sS][aA]$/ ? Slic3r::Model->load_prus(Slic3r::encode_path($input_file))
: die "Input file must have .stl, .obj or .amf(.xml) extension\n";
die "The supplied file couldn't be read because it's empty.\n"
if $model->objects_count == 0;
$_->set_input_file($input_file) for @{$model->objects};
$model->add_default_instances if $add_default_instances;
return $model;
}
sub merge { sub merge {
my $class = shift; my $class = shift;
my @models = @_; my @models = @_;
@ -70,38 +51,6 @@ sub set_material {
return $material; return $material;
} }
sub print_info {
my $self = shift;
$_->print_info for @{$self->objects};
}
sub looks_like_multipart_object {
my ($self) = @_;
return 0 if $self->objects_count == 1;
return 0 if any { $_->volumes_count > 1 } @{$self->objects};
return 0 if any { @{$_->config->get_keys} > 1 } @{$self->objects};
my %heights = map { $_ => 1 } map $_->mesh->bounding_box->z_min, map @{$_->volumes}, @{$self->objects};
return scalar(keys %heights) > 1;
}
sub convert_multipart_object {
my ($self) = @_;
my @objects = @{$self->objects};
my $object = $self->add_object(
input_file => $objects[0]->input_file,
);
foreach my $v (map @{$_->volumes}, @objects) {
my $volume = $object->add_volume($v);
$volume->set_name($v->object->name);
}
$object->add_instance($_) for map @{$_->instances}, @objects;
$self->delete_object($_) for reverse 0..($self->objects_count-2);
}
# Extends C++ class Slic3r::ModelMaterial # Extends C++ class Slic3r::ModelMaterial
package Slic3r::Model::Material; package Slic3r::Model::Material;
@ -113,7 +62,6 @@ sub apply {
# Extends C++ class Slic3r::ModelObject # Extends C++ class Slic3r::ModelObject
package Slic3r::Model::Object; package Slic3r::Model::Object;
use File::Basename qw(basename);
use List::Util qw(first sum); use List::Util qw(first sum);
sub add_volume { sub add_volume {
@ -193,29 +141,4 @@ sub mesh_stats {
return $self->volumes->[0]->mesh->stats; return $self->volumes->[0]->mesh->stats;
} }
sub print_info {
my $self = shift;
printf "Info about %s:\n", basename($self->input_file);
printf " size: x=%.3f y=%.3f z=%.3f\n", @{$self->raw_mesh->bounding_box->size};
if (my $stats = $self->mesh_stats) {
printf " number of facets: %d\n", $stats->{number_of_facets};
printf " number of shells: %d\n", $stats->{number_of_parts};
printf " volume: %.3f\n", $stats->{volume};
if ($self->needed_repair) {
printf " needed repair: yes\n";
printf " degenerate facets: %d\n", $stats->{degenerate_facets};
printf " edges fixed: %d\n", $stats->{edges_fixed};
printf " facets removed: %d\n", $stats->{facets_removed};
printf " facets added: %d\n", $stats->{facets_added};
printf " facets reversed: %d\n", $stats->{facets_reversed};
printf " backwards edges: %d\n", $stats->{backwards_edges};
} else {
printf " needed repair: no\n";
}
} else {
printf " number of facets: %d\n", scalar(map @{$_->facets}, grep !$_->modifier, @{$self->volumes});
}
}
1; 1;

1
lib/Slic3r/Print.pm
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@ -64,6 +64,7 @@ sub process {
Slic3r::trace(3, "Slicing process finished.") Slic3r::trace(3, "Slicing process finished.")
} }
# G-code export process, running at a background thread.
sub export_gcode { sub export_gcode {
my $self = shift; my $self = shift;
my %params = @_; my %params = @_;

121
xs/src/libslic3r/Model.cpp
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@ -1,8 +1,16 @@
#include "Model.hpp" #include "Model.hpp"
#include "Geometry.hpp" #include "Geometry.hpp"
#include "Format/AMF.hpp"
#include "Format/OBJ.hpp"
#include "Format/PRUS.hpp"
#include "Format/STL.hpp"
#include <float.h> #include <float.h>
#include <boost/algorithm/string/predicate.hpp>
#include <boost/filesystem.hpp>
namespace Slic3r { namespace Slic3r {
Model::Model(const Model &other) Model::Model(const Model &other)
@ -28,10 +36,36 @@ void Model::swap(Model &other)
std::swap(this->objects, other.objects); std::swap(this->objects, other.objects);
} }
Model::~Model() Model Model::read_from_file(const std::string &input_file, bool add_default_instances)
{ {
this->clear_objects(); Model model;
this->clear_materials();
bool result = false;
if (boost::algorithm::iends_with(input_file, ".stl"))
result = load_stl(input_file.c_str(), &model);
else if (boost::algorithm::iends_with(input_file, ".obj"))
result = load_obj(input_file.c_str(), &model);
else if (boost::algorithm::iends_with(input_file, ".amf") ||
boost::algorithm::iends_with(input_file, ".amf.xml"))
result = load_amf(input_file.c_str(), &model);
else if (boost::algorithm::iends_with(input_file, ".prusa"))
result = load_prus(input_file.c_str(), &model);
else
throw std::runtime_error("Unknown file format. Input file must have .stl, .obj, .amf(.xml) or .prusa extension.");
if (! result)
throw std::runtime_error("Loading of a model file failed.");
if (model.objects.empty())
throw std::runtime_error("The supplied file couldn't be read because it's empty");
for (ModelObject *o : model.objects)
o->input_file = input_file;
if (add_default_instances)
model.add_default_instances();
return model;
} }
ModelObject* Model::add_object() ModelObject* Model::add_object()
@ -279,6 +313,45 @@ void Model::duplicate_objects_grid(size_t x, size_t y, coordf_t dist)
} }
} }
bool Model::looks_like_multipart_object() const
{
if (this->objects.size() <= 1)
return false;
double zmin = std::numeric_limits<double>::max();
for (const ModelObject *obj : this->objects) {
if (obj->volumes.size() > 1 || obj->config.keys().size() > 1)
return false;
for (const ModelVolume *vol : obj->volumes) {
double zmin_this = vol->mesh.bounding_box().min.z;
if (zmin == std::numeric_limits<double>::max())
zmin = zmin_this;
else if (std::abs(zmin - zmin_this) > EPSILON)
// The volumes don't share zmin.
return true;
}
}
return false;
}
void Model::convert_multipart_object()
{
if (this->objects.empty())
return;
ModelObject* object = this->add_object();
object->input_file = this->objects.front()->input_file;
for (const ModelObject* o : this->objects)
for (const ModelVolume* v : o->volumes)
object->add_volume(*v)->name = o->name;
for (const ModelInstance* i : this->objects.front()->instances)
object->add_instance(*i);
while (this->objects.size() > 1)
this->delete_object(0);
}
ModelObject::ModelObject(Model *model, const ModelObject &other, bool copy_volumes) : ModelObject::ModelObject(Model *model, const ModelObject &other, bool copy_volumes) :
name(other.name), name(other.name),
input_file(other.input_file), input_file(other.input_file),
@ -662,6 +735,48 @@ void ModelObject::split(ModelObjectPtrs* new_objects)
return; return;
} }
void ModelObject::print_info() const
{
using namespace std;
cout << fixed;
cout << "[" << boost::filesystem::path(this->input_file).filename().string() << "]" << endl;
TriangleMesh mesh = this->raw_mesh();
mesh.check_topology();
BoundingBoxf3 bb = mesh.bounding_box();
Sizef3 size = bb.size();
cout << "size_x = " << size.x << endl;
cout << "size_y = " << size.y << endl;
cout << "size_z = " << size.z << endl;
cout << "min_x = " << bb.min.x << endl;
cout << "min_y = " << bb.min.y << endl;
cout << "min_z = " << bb.min.z << endl;
cout << "max_x = " << bb.max.x << endl;
cout << "max_y = " << bb.max.y << endl;
cout << "max_z = " << bb.max.z << endl;
cout << "number_of_facets = " << mesh.stl.stats.number_of_facets << endl;
cout << "manifold = " << (mesh.is_manifold() ? "yes" : "no") << endl;
mesh.repair(); // this calculates number_of_parts
if (mesh.needed_repair()) {
mesh.repair();
if (mesh.stl.stats.degenerate_facets > 0)
cout << "degenerate_facets = " << mesh.stl.stats.degenerate_facets << endl;
if (mesh.stl.stats.edges_fixed > 0)
cout << "edges_fixed = " << mesh.stl.stats.edges_fixed << endl;
if (mesh.stl.stats.facets_removed > 0)
cout << "facets_removed = " << mesh.stl.stats.facets_removed << endl;
if (mesh.stl.stats.facets_added > 0)
cout << "facets_added = " << mesh.stl.stats.facets_added << endl;
if (mesh.stl.stats.facets_reversed > 0)
cout << "facets_reversed = " << mesh.stl.stats.facets_reversed << endl;
if (mesh.stl.stats.backwards_edges > 0)
cout << "backwards_edges = " << mesh.stl.stats.backwards_edges << endl;
}
cout << "number_of_parts = " << mesh.stl.stats.number_of_parts << endl;
cout << "volume = " << mesh.volume() << endl;
}
void ModelVolume::material_id(t_model_material_id material_id) void ModelVolume::material_id(t_model_material_id material_id)
{ {
this->_material_id = material_id; this->_material_id = material_id;

13
xs/src/libslic3r/Model.hpp
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@ -126,6 +126,9 @@ public:
void cut(coordf_t z, Model* model) const; void cut(coordf_t z, Model* model) const;
void split(ModelObjectPtrs* new_objects); void split(ModelObjectPtrs* new_objects);
// Print object statistics to console.
void print_info() const;
private: private:
ModelObject(Model *model) : m_model(model), m_bounding_box_valid(false), layer_height_profile_valid(false) {} ModelObject(Model *model) : m_model(model), m_bounding_box_valid(false), layer_height_profile_valid(false) {}
ModelObject(Model *model, const ModelObject &other, bool copy_volumes = true); ModelObject(Model *model, const ModelObject &other, bool copy_volumes = true);
@ -232,7 +235,10 @@ public:
Model(const Model &other); Model(const Model &other);
Model& operator= (Model other); Model& operator= (Model other);
void swap(Model &other); void swap(Model &other);
~Model(); ~Model() { this->clear_objects(); this->clear_materials(); }
static Model read_from_file(const std::string &input_file, bool add_default_instances = true);
ModelObject* add_object(); ModelObject* add_object();
ModelObject* add_object(const char *name, const char *path, const TriangleMesh &mesh); ModelObject* add_object(const char *name, const char *path, const TriangleMesh &mesh);
ModelObject* add_object(const char *name, const char *path, TriangleMesh &&mesh); ModelObject* add_object(const char *name, const char *path, TriangleMesh &&mesh);
@ -259,6 +265,11 @@ public:
void duplicate(size_t copies_num, coordf_t dist, const BoundingBoxf* bb = NULL); void duplicate(size_t copies_num, coordf_t dist, const BoundingBoxf* bb = NULL);
void duplicate_objects(size_t copies_num, coordf_t dist, const BoundingBoxf* bb = NULL); void duplicate_objects(size_t copies_num, coordf_t dist, const BoundingBoxf* bb = NULL);
void duplicate_objects_grid(size_t x, size_t y, coordf_t dist); void duplicate_objects_grid(size_t x, size_t y, coordf_t dist);
bool looks_like_multipart_object() const;
void convert_multipart_object();
void print_info() const { for (const ModelObject *o : this->objects) o->print_info(); }
}; };
} }

41
xs/src/libslic3r/TriangleMesh.cpp
View File

@ -215,6 +215,47 @@ TriangleMesh::repair() {
BOOST_LOG_TRIVIAL(debug) << "TriangleMesh::repair() finished"; BOOST_LOG_TRIVIAL(debug) << "TriangleMesh::repair() finished";
} }
float TriangleMesh::volume()
{
if (this->stl.stats.volume == -1)
stl_calculate_volume(&this->stl);
return this->stl.stats.volume;
}
void TriangleMesh::check_topology()
{
// checking exact
stl_check_facets_exact(&stl);
stl.stats.facets_w_1_bad_edge = (stl.stats.connected_facets_2_edge - stl.stats.connected_facets_3_edge);
stl.stats.facets_w_2_bad_edge = (stl.stats.connected_facets_1_edge - stl.stats.connected_facets_2_edge);
stl.stats.facets_w_3_bad_edge = (stl.stats.number_of_facets - stl.stats.connected_facets_1_edge);
// checking nearby
//int last_edges_fixed = 0;
float tolerance = stl.stats.shortest_edge;
float increment = stl.stats.bounding_diameter / 10000.0;
int iterations = 2;
if (stl.stats.connected_facets_3_edge < stl.stats.number_of_facets) {
for (int i = 0; i < iterations; i++) {
if (stl.stats.connected_facets_3_edge < stl.stats.number_of_facets) {
//printf("Checking nearby. Tolerance= %f Iteration=%d of %d...", tolerance, i + 1, iterations);
stl_check_facets_nearby(&stl, tolerance);
//printf(" Fixed %d edges.\n", stl.stats.edges_fixed - last_edges_fixed);
//last_edges_fixed = stl.stats.edges_fixed;
tolerance += increment;
} else {
break;
}
}
}
}
bool TriangleMesh::is_manifold() const
{
return this->stl.stats.connected_facets_3_edge == this->stl.stats.number_of_facets;
}
void void
TriangleMesh::reset_repair_stats() { TriangleMesh::reset_repair_stats() {
this->stl.stats.degenerate_facets = 0; this->stl.stats.degenerate_facets = 0;

3
xs/src/libslic3r/TriangleMesh.hpp
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@ -32,6 +32,9 @@ public:
void write_ascii(const char* output_file); void write_ascii(const char* output_file);
void write_binary(const char* output_file); void write_binary(const char* output_file);
void repair(); void repair();
float volume();
void check_topology();
bool is_manifold() const;
void WriteOBJFile(char* output_file); void WriteOBJFile(char* output_file);
void scale(float factor); void scale(float factor);
void scale(const Pointf3 &versor); void scale(const Pointf3 &versor);

16
xs/xsp/Model.xsp
View File

@ -15,6 +15,15 @@
Model(); Model();
~Model(); ~Model();
%name{read_from_file} Model(std::string input_file, bool add_default_instances = true)
%code%{
try {
RETVAL = new Model(Model::read_from_file(input_file, add_default_instances));
} catch (std::exception& e) {
croak("Error while opening %s: %s\n", input_file.c_str(), e.what());
}
%};
Clone<Model> clone() Clone<Model> clone()
%code%{ RETVAL = THIS; %}; %code%{ RETVAL = THIS; %};
@ -73,6 +82,11 @@
void duplicate_objects(unsigned int copies_num, double dist, BoundingBoxf* bb = NULL); void duplicate_objects(unsigned int copies_num, double dist, BoundingBoxf* bb = NULL);
void duplicate_objects_grid(unsigned int x, unsigned int y, double dist); void duplicate_objects_grid(unsigned int x, unsigned int y, double dist);
bool looks_like_multipart_object() const;
void convert_multipart_object();
void print_info() const;
bool store_stl(char *path, bool binary) bool store_stl(char *path, bool binary)
%code%{ TriangleMesh mesh = THIS->mesh(); RETVAL = Slic3r::store_stl(path, &mesh, binary); %}; %code%{ TriangleMesh mesh = THIS->mesh(); RETVAL = Slic3r::store_stl(path, &mesh, binary); %};
bool store_amf(char *path) bool store_amf(char *path)
@ -272,6 +286,8 @@ ModelMaterial::attributes()
RETVAL = new ModelObjectPtrs(); // leak? RETVAL = new ModelObjectPtrs(); // leak?
THIS->split(RETVAL); THIS->split(RETVAL);
%}; %};
void print_info() const;
}; };