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Fixed conflicts after merging with master

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This commit is contained in:
Enrico Turri 2019-10-09 11:17:48 +02:00
commit 835ee148e5
12 changed files with 449 additions and 154 deletions
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94
src/libslic3r/Format/3mf.cpp
View file

@ -31,7 +31,8 @@ namespace pt = boost::property_tree;
// VERSION NUMBERS
// 0 : .3mf, files saved by older slic3r or other applications. No version definition in them.
// 1 : Introduction of 3mf versioning. No other change in data saved into 3mf files.
const unsigned int VERSION_3MF = 1;
// 2 : Meshes saved in their local system; Volumes' matrices and source data added to Metadata/Slic3r_PE_model.config file.
const unsigned int VERSION_3MF = 2;
const char* SLIC3RPE_3MF_VERSION = "slic3rpe:Version3mf"; // definition of the metadata name saved into .model file
const std::string MODEL_FOLDER = "3D/";
@ -87,6 +88,13 @@ const char* VOLUME_TYPE = "volume";
const char* NAME_KEY = "name";
const char* MODIFIER_KEY = "modifier";
const char* VOLUME_TYPE_KEY = "volume_type";
const char* MATRIX_KEY = "matrix";
const char* SOURCE_FILE_KEY = "source_file";
const char* SOURCE_OBJECT_ID_KEY = "source_object_id";
const char* SOURCE_VOLUME_ID_KEY = "source_volume_id";
const char* SOURCE_OFFSET_X_KEY = "source_offset_x";
const char* SOURCE_OFFSET_Y_KEY = "source_offset_y";
const char* SOURCE_OFFSET_Z_KEY = "source_offset_z";
const unsigned int VALID_OBJECT_TYPES_COUNT = 1;
const char* VALID_OBJECT_TYPES[] =
@ -148,11 +156,15 @@ bool get_attribute_value_bool(const char** attributes, unsigned int attributes_s
return (text != nullptr) ? (bool)::atoi(text) : true;
}
Slic3r::Transform3d get_transform_from_string(const std::string& mat_str)
Slic3r::Transform3d get_transform_from_3mf_specs_string(const std::string& mat_str)
{
// check: https://3mf.io/3d-manufacturing-format/ or https://github.com/3MFConsortium/spec_core/blob/master/3MF%20Core%20Specification.md
// to see how matrices are stored inside 3mf according to specifications
Slic3r::Transform3d ret = Slic3r::Transform3d::Identity();
if (mat_str.empty())
// empty string means default identity matrix
return Slic3r::Transform3d::Identity();
return ret;
std::vector<std::string> mat_elements_str;
boost::split(mat_elements_str, mat_str, boost::is_any_of(" "), boost::token_compress_on);
@ -160,9 +172,8 @@ Slic3r::Transform3d get_transform_from_string(const std::string& mat_str)
unsigned int size = (unsigned int)mat_elements_str.size();
if (size != 12)
// invalid data, return identity matrix
return Slic3r::Transform3d::Identity();
return ret;
Slic3r::Transform3d ret = Slic3r::Transform3d::Identity();
unsigned int i = 0;
// matrices are stored into 3mf files as 4x3
// we need to transpose them
@ -1375,7 +1386,7 @@ namespace Slic3r {
bool _3MF_Importer::_handle_start_component(const char** attributes, unsigned int num_attributes)
{
int object_id = get_attribute_value_int(attributes, num_attributes, OBJECTID_ATTR);
Transform3d transform = get_transform_from_string(get_attribute_value_string(attributes, num_attributes, TRANSFORM_ATTR));
Transform3d transform = get_transform_from_3mf_specs_string(get_attribute_value_string(attributes, num_attributes, TRANSFORM_ATTR));
IdToModelObjectMap::iterator object_item = m_objects.find(object_id);
if (object_item == m_objects.end())
@ -1421,7 +1432,7 @@ namespace Slic3r {
// see specifications
int object_id = get_attribute_value_int(attributes, num_attributes, OBJECTID_ATTR);
Transform3d transform = get_transform_from_string(get_attribute_value_string(attributes, num_attributes, TRANSFORM_ATTR));
Transform3d transform = get_transform_from_3mf_specs_string(get_attribute_value_string(attributes, num_attributes, TRANSFORM_ATTR));
int printable = get_attribute_value_bool(attributes, num_attributes, PRINTABLE_ATTR);
return _create_object_instance(object_id, transform, printable, 1);
@ -1634,6 +1645,21 @@ namespace Slic3r {
return false;
}
Slic3r::Geometry::Transformation transform;
if (m_version > 1)
{
// extract the volume transformation from the volume's metadata, if present
for (const Metadata& metadata : volume_data.metadata)
{
if (metadata.key == MATRIX_KEY)
{
transform.set_from_string(metadata.value);
break;
}
}
}
Transform3d inv_matrix = transform.get_matrix().inverse();
// splits volume out of imported geometry
TriangleMesh triangle_mesh;
stl_file &stl = triangle_mesh.stl;
@ -1651,7 +1677,12 @@ namespace Slic3r {
stl_facet& facet = stl.facet_start[i];
for (unsigned int v = 0; v < 3; ++v)
{
::memcpy(facet.vertex[v].data(), (const void*)&geometry.vertices[geometry.triangles[src_start_id + ii + v] * 3], 3 * sizeof(float));
unsigned int tri_id = geometry.triangles[src_start_id + ii + v] * 3;
Vec3f vertex(geometry.vertices[tri_id + 0], geometry.vertices[tri_id + 1], geometry.vertices[tri_id + 2]);
if (m_version > 1)
// revert the vertices to the original mesh reference system
vertex = (inv_matrix * vertex.cast<double>()).cast<float>();
::memcpy(facet.vertex[v].data(), (const void*)vertex.data(), 3 * sizeof(float));
}
}
@ -1659,10 +1690,12 @@ namespace Slic3r {
triangle_mesh.repair();
ModelVolume* volume = object.add_volume(std::move(triangle_mesh));
volume->center_geometry_after_creation();
// apply the volume matrix taken from the metadata, if present
if (m_version > 1)
volume->set_transformation(transform);
volume->calculate_convex_hull();
// apply volume's name and config data
// apply the remaining volume's metadata
for (const Metadata& metadata : volume_data.metadata)
{
if (metadata.key == NAME_KEY)
@ -1671,6 +1704,18 @@ namespace Slic3r {
volume->set_type(ModelVolumeType::PARAMETER_MODIFIER);
else if (metadata.key == VOLUME_TYPE_KEY)
volume->set_type(ModelVolume::type_from_string(metadata.value));
else if (metadata.key == SOURCE_FILE_KEY)
volume->source.input_file = metadata.value;
else if (metadata.key == SOURCE_OBJECT_ID_KEY)
volume->source.object_idx = ::atoi(metadata.value.c_str());
else if (metadata.key == SOURCE_VOLUME_ID_KEY)
volume->source.volume_idx = ::atoi(metadata.value.c_str());
else if (metadata.key == SOURCE_OFFSET_X_KEY)
volume->source.mesh_offset(0) = ::atof(metadata.value.c_str());
else if (metadata.key == SOURCE_OFFSET_Y_KEY)
volume->source.mesh_offset(1) = ::atof(metadata.value.c_str());
else if (metadata.key == SOURCE_OFFSET_Z_KEY)
volume->source.mesh_offset(2) = ::atof(metadata.value.c_str());
else
volume->config.set_deserialize(metadata.key, metadata.value);
}
@ -2116,7 +2161,7 @@ namespace Slic3r {
for (const BuildItem& item : build_items)
{
stream << " <" << ITEM_TAG << " objectid=\"" << item.id << "\" transform =\"";
stream << " <" << ITEM_TAG << " " << OBJECTID_ATTR << "=\"" << item.id << "\" " << TRANSFORM_ATTR << "=\"";
for (unsigned c = 0; c < 4; ++c)
{
for (unsigned r = 0; r < 3; ++r)
@ -2126,7 +2171,7 @@ namespace Slic3r {
stream << " ";
}
}
stream << "\" printable =\"" << item.printable << "\" />\n";
stream << "\" " << PRINTABLE_ATTR << "=\"" << item.printable << "\" />\n";
}
stream << " </" << BUILD_TAG << ">\n";
@ -2344,6 +2389,31 @@ namespace Slic3r {
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << VOLUME_TYPE_KEY << "\" " <<
VALUE_ATTR << "=\"" << ModelVolume::type_to_string(volume->type()) << "\"/>\n";
// stores volume's local matrix
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << MATRIX_KEY << "\" " << VALUE_ATTR << "=\"";
const Transform3d& matrix = volume->get_matrix();
for (int r = 0; r < 4; ++r)
{
for (int c = 0; c < 4; ++c)
{
stream << matrix(r, c);
if ((r != 3) || (c != 3))
stream << " ";
}
}
stream << "\"/>\n";
// stores volume's source data
if (!volume->source.input_file.empty())
{
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << SOURCE_FILE_KEY << "\" " << VALUE_ATTR << "=\"" << xml_escape(volume->source.input_file) << "\"/>\n";
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << SOURCE_OBJECT_ID_KEY << "\" " << VALUE_ATTR << "=\"" << volume->source.object_idx << "\"/>\n";
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << SOURCE_VOLUME_ID_KEY << "\" " << VALUE_ATTR << "=\"" << volume->source.volume_idx << "\"/>\n";
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << SOURCE_OFFSET_X_KEY << "\" " << VALUE_ATTR << "=\"" << volume->source.mesh_offset(0) << "\"/>\n";
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << SOURCE_OFFSET_Y_KEY << "\" " << VALUE_ATTR << "=\"" << volume->source.mesh_offset(1) << "\"/>\n";
stream << " <" << METADATA_TAG << " " << TYPE_ATTR << "=\"" << VOLUME_TYPE << "\" " << KEY_ATTR << "=\"" << SOURCE_OFFSET_Z_KEY << "\" " << VALUE_ATTR << "=\"" << volume->source.mesh_offset(2) << "\"/>\n";
}
// stores volume's config data
for (const std::string& key : volume->config.keys())
{

71
src/libslic3r/Format/AMF.cpp
View file

@ -12,6 +12,7 @@
#include "../PrintConfig.hpp"
#include "../Utils.hpp"
#include "../I18N.hpp"
#include "../Geometry.hpp"
#include "AMF.hpp"
@ -36,7 +37,8 @@
// Added x and y components of rotation
// Added x, y and z components of scale
// Added x, y and z components of mirror
const unsigned int VERSION_AMF = 2;
// 3 : Meshes saved in their local system; Added volumes' matrices and source data
const unsigned int VERSION_AMF = 3;
const char* SLIC3RPE_AMF_VERSION = "slic3rpe_amf_version";
const char* SLIC3R_CONFIG_TYPE = "slic3rpe_config";
@ -560,15 +562,30 @@ void AMFParserContext::endElement(const char * /* name */)
stl.stats.number_of_facets = int(m_volume_facets.size() / 3);
stl.stats.original_num_facets = stl.stats.number_of_facets;
stl_allocate(&stl);
Slic3r::Geometry::Transformation transform;
if (m_version > 2)
transform = m_volume->get_transformation();
Transform3d inv_matrix = transform.get_matrix().inverse();
for (size_t i = 0; i < m_volume_facets.size();) {
stl_facet &facet = stl.facet_start[i/3];
for (unsigned int v = 0; v < 3; ++ v)
memcpy(facet.vertex[v].data(), &m_object_vertices[m_volume_facets[i ++] * 3], 3 * sizeof(float));
for (unsigned int v = 0; v < 3; ++v)
{
unsigned int tri_id = m_volume_facets[i++] * 3;
Vec3f vertex(m_object_vertices[tri_id + 0], m_object_vertices[tri_id + 1], m_object_vertices[tri_id + 2]);
if (m_version > 2)
// revert the vertices to the original mesh reference system
vertex = (inv_matrix * vertex.cast<double>()).cast<float>();
::memcpy((void*)facet.vertex[v].data(), (const void*)vertex.data(), 3 * sizeof(float));
}
}
stl_get_size(&stl);
mesh.repair();
m_volume->set_mesh(std::move(mesh));
m_volume->center_geometry_after_creation();
// pass false if the mesh offset has been already taken from the data
m_volume->center_geometry_after_creation(m_volume->source.input_file.empty());
m_volume->calculate_convex_hull();
m_volume_facets.clear();
m_volume = nullptr;
@ -664,6 +681,29 @@ void AMFParserContext::endElement(const char * /* name */)
} else if (strcmp(opt_key, "volume_type") == 0) {
m_volume->set_type(ModelVolume::type_from_string(m_value[1]));
}
else if (strcmp(opt_key, "matrix") == 0) {
Geometry::Transformation transform;
transform.set_from_string(m_value[1]);
m_volume->set_transformation(transform);
}
else if (strcmp(opt_key, "source_file") == 0) {
m_volume->source.input_file = m_value[1];
}
else if (strcmp(opt_key, "source_object_id") == 0) {
m_volume->source.object_idx = ::atoi(m_value[1].c_str());
}
else if (strcmp(opt_key, "source_volume_id") == 0) {
m_volume->source.volume_idx = ::atoi(m_value[1].c_str());
}
else if (strcmp(opt_key, "source_offset_x") == 0) {
m_volume->source.mesh_offset(0) = ::atof(m_value[1].c_str());
}
else if (strcmp(opt_key, "source_offset_y") == 0) {
m_volume->source.mesh_offset(1) = ::atof(m_value[1].c_str());
}
else if (strcmp(opt_key, "source_offset_z") == 0) {
m_volume->source.mesh_offset(2) = ::atof(m_value[1].c_str());
}
}
} else if (m_path.size() == 3) {
if (m_path[1] == NODE_TYPE_MATERIAL) {
@ -1057,7 +1097,28 @@ bool store_amf(const char *path, Model *model, const DynamicPrintConfig *config)
if (volume->is_modifier())
stream << " <metadata type=\"slic3r.modifier\">1</metadata>\n";
stream << " <metadata type=\"slic3r.volume_type\">" << ModelVolume::type_to_string(volume->type()) << "</metadata>\n";
const indexed_triangle_set &its = volume->mesh().its;
stream << " <metadata type=\"slic3r.matrix\">";
const Transform3d& matrix = volume->get_matrix();
for (int r = 0; r < 4; ++r)
{
for (int c = 0; c < 4; ++c)
{
stream << matrix(r, c);
if ((r != 3) || (c != 3))
stream << " ";
}
}
stream << "</metadata>\n";
if (!volume->source.input_file.empty())
{
stream << " <metadata type=\"slic3r.source_file\">" << xml_escape(volume->source.input_file) << "</metadata>\n";
stream << " <metadata type=\"slic3r.source_object_id\">" << volume->source.object_idx << "</metadata>\n";
stream << " <metadata type=\"slic3r.source_volume_id\">" << volume->source.volume_idx << "</metadata>\n";
stream << " <metadata type=\"slic3r.source_offset_x\">" << volume->source.mesh_offset(0) << "</metadata>\n";
stream << " <metadata type=\"slic3r.source_offset_y\">" << volume->source.mesh_offset(1) << "</metadata>\n";
stream << " <metadata type=\"slic3r.source_offset_z\">" << volume->source.mesh_offset(2) << "</metadata>\n";
}
const indexed_triangle_set &its = volume->mesh().its;
for (size_t i = 0; i < its.indices.size(); ++i) {
stream << " <triangle>\n";
for (int j = 0; j < 3; ++j)

29
src/libslic3r/Geometry.cpp
View file

@ -14,6 +14,9 @@
#include <stack>
#include <vector>
#include <boost/algorithm/string/classification.hpp>
#include <boost/algorithm/string/split.hpp>
#ifdef SLIC3R_DEBUG
#include "SVG.hpp"
#endif
@ -1329,6 +1332,32 @@ void Transformation::set_from_transform(const Transform3d& transform)
// std::cout << "something went wrong in extracting data from matrix" << std::endl;
}
void Transformation::set_from_string(const std::string& transform_str)
{
Transform3d transform = Transform3d::Identity();
if (!transform_str.empty())
{
std::vector<std::string> mat_elements_str;
boost::split(mat_elements_str, transform_str, boost::is_any_of(" "), boost::token_compress_on);
unsigned int size = (unsigned int)mat_elements_str.size();
if (size == 16)
{
unsigned int i = 0;
for (unsigned int r = 0; r < 4; ++r)
{
for (unsigned int c = 0; c < 4; ++c)
{
transform(r, c) = ::atof(mat_elements_str[i++].c_str());
}
}
}
}
set_from_transform(transform);
}
void Transformation::reset()
{
m_offset = Vec3d::Zero();

1
src/libslic3r/Geometry.hpp
View file

@ -280,6 +280,7 @@ public:
void set_mirror(Axis axis, double mirror);
void set_from_transform(const Transform3d& transform);
void set_from_string(const std::string& transform_str);
void reset();

23
src/libslic3r/Model.cpp
View file

@ -141,12 +141,12 @@ Model Model::read_from_archive(const std::string& input_file, DynamicPrintConfig
for (ModelObject *o : model.objects)
{
if (boost::algorithm::iends_with(input_file, ".zip.amf"))
{
// we remove the .zip part of the extension to avoid it be added to filenames when exporting
o->input_file = boost::ireplace_last_copy(input_file, ".zip.", ".");
}
else
// if (boost::algorithm::iends_with(input_file, ".zip.amf"))
// {
// // we remove the .zip part of the extension to avoid it be added to filenames when exporting
// o->input_file = boost::ireplace_last_copy(input_file, ".zip.", ".");
// }
// else
o->input_file = input_file;
}
@ -170,6 +170,9 @@ ModelObject* Model::add_object(const char *name, const char *path, const Triangl
new_object->input_file = path;
ModelVolume *new_volume = new_object->add_volume(mesh);
new_volume->name = name;
new_volume->source.input_file = path;
new_volume->source.object_idx = (int)this->objects.size() - 1;
new_volume->source.volume_idx = (int)new_object->volumes.size() - 1;
new_object->invalidate_bounding_box();
return new_object;
}
@ -182,6 +185,9 @@ ModelObject* Model::add_object(const char *name, const char *path, TriangleMesh
new_object->input_file = path;
ModelVolume *new_volume = new_object->add_volume(std::move(mesh));
new_volume->name = name;
new_volume->source.input_file = path;
new_volume->source.object_idx = (int)this->objects.size() - 1;
new_volume->source.volume_idx = (int)new_object->volumes.size() - 1;
new_object->invalidate_bounding_box();
return new_object;
}
@ -1543,7 +1549,7 @@ bool ModelVolume::is_splittable() const
return m_is_splittable == 1;
}
void ModelVolume::center_geometry_after_creation()
void ModelVolume::center_geometry_after_creation(bool update_source_offset)
{
Vec3d shift = this->mesh().bounding_box().center();
if (!shift.isApprox(Vec3d::Zero()))
@ -1554,6 +1560,9 @@ void ModelVolume::center_geometry_after_creation()
const_cast<TriangleMesh*>(m_convex_hull.get())->translate(-(float)shift(0), -(float)shift(1), -(float)shift(2));
translate(shift);
}
if (update_source_offset)
source.mesh_offset = shift;
}
void ModelVolume::calculate_convex_hull()

26
src/libslic3r/Model.hpp
View file

@ -392,6 +392,18 @@ class ModelVolume final : public ObjectBase
{
public:
std::string name;
// struct used by reload from disk command to recover data from disk
struct Source
{
std::string input_file;
int object_idx{ -1 };
int volume_idx{ -1 };
Vec3d mesh_offset{ Vec3d::Zero() };
template<class Archive> void serialize(Archive& ar) { ar(input_file, object_idx, volume_idx, mesh_offset); }
};
Source source;
// The triangular model.
const TriangleMesh& mesh() const { return *m_mesh.get(); }
void set_mesh(const TriangleMesh &mesh) { m_mesh = std::make_shared<const TriangleMesh>(mesh); }
@ -440,7 +452,7 @@ public:
// Translates the mesh and the convex hull so that the origin of their vertices is in the center of this volume's bounding box.
// Attention! This method may only be called just after ModelVolume creation! It must not be called once the TriangleMesh of this ModelVolume is shared!
void center_geometry_after_creation();
void center_geometry_after_creation(bool update_source_offset = true);
void calculate_convex_hull();
const TriangleMesh& get_convex_hull() const;
@ -529,7 +541,7 @@ private:
// Copying an existing volume, therefore this volume will get a copy of the ID assigned.
ModelVolume(ModelObject *object, const ModelVolume &other) :
ObjectBase(other),
name(other.name), m_mesh(other.m_mesh), m_convex_hull(other.m_convex_hull), config(other.config), m_type(other.m_type), object(object), m_transformation(other.m_transformation)
name(other.name), source(other.source), m_mesh(other.m_mesh), m_convex_hull(other.m_convex_hull), config(other.config), m_type(other.m_type), object(object), m_transformation(other.m_transformation)
{
assert(this->id().valid()); assert(this->config.id().valid()); assert(this->id() != this->config.id());
assert(this->id() == other.id() && this->config.id() == other.config.id());
@ -537,7 +549,7 @@ private:
}
// Providing a new mesh, therefore this volume will get a new unique ID assigned.
ModelVolume(ModelObject *object, const ModelVolume &other, const TriangleMesh &&mesh) :
name(other.name), m_mesh(new TriangleMesh(std::move(mesh))), config(other.config), m_type(other.m_type), object(object), m_transformation(other.m_transformation)
name(other.name), source(other.source), m_mesh(new TriangleMesh(std::move(mesh))), config(other.config), m_type(other.m_type), object(object), m_transformation(other.m_transformation)
{
assert(this->id().valid()); assert(this->config.id().valid()); assert(this->id() != this->config.id());
assert(this->id() != other.id() && this->config.id() == other.config.id());
@ -558,8 +570,8 @@ private:
}
template<class Archive> void load(Archive &ar) {
bool has_convex_hull;
ar(name, m_mesh, m_type, m_material_id, m_transformation, m_is_splittable, has_convex_hull);
cereal::load_by_value(ar, config);
ar(name, source, m_mesh, m_type, m_material_id, m_transformation, m_is_splittable, has_convex_hull);
cereal::load_by_value(ar, config);
assert(m_mesh);
if (has_convex_hull) {
cereal::load_optional(ar, m_convex_hull);
@ -571,8 +583,8 @@ private:
}
template<class Archive> void save(Archive &ar) const {
bool has_convex_hull = m_convex_hull.get() != nullptr;
ar(name, m_mesh, m_type, m_material_id, m_transformation, m_is_splittable, has_convex_hull);
cereal::save_by_value(ar, config);
ar(name, source, m_mesh, m_type, m_material_id, m_transformation, m_is_splittable, has_convex_hull);
cereal::save_by_value(ar, config);
if (has_convex_hull)
cereal::save_optional(ar, m_convex_hull);
}

130
src/slic3r/GUI/GLCanvas3D.cpp
View file

@ -1747,101 +1747,114 @@ void GLCanvas3D::reload_scene(bool refresh_immediately, bool force_full_scene_re
_set_current();
struct ModelVolumeState {
ModelVolumeState(const GLVolume *volume) :
model_volume(nullptr), geometry_id(volume->geometry_id), volume_idx(-1) {}
ModelVolumeState(const ModelVolume *model_volume, const ObjectID &instance_id, const GLVolume::CompositeID &composite_id) :
model_volume(model_volume), geometry_id(std::make_pair(model_volume->id().id, instance_id.id)), composite_id(composite_id), volume_idx(-1) {}
ModelVolumeState(const ObjectID &volume_id, const ObjectID &instance_id) :
model_volume(nullptr), geometry_id(std::make_pair(volume_id.id, instance_id.id)), volume_idx(-1) {}
bool new_geometry() const { return this->volume_idx == size_t(-1); }
const ModelVolume *model_volume;
ModelVolumeState(const GLVolume* volume) :
model_volume(nullptr), geometry_id(volume->geometry_id), volume_idx(-1) {}
ModelVolumeState(const ModelVolume* model_volume, const ObjectID& instance_id, const GLVolume::CompositeID& composite_id) :
model_volume(model_volume), geometry_id(std::make_pair(model_volume->id().id, instance_id.id)), composite_id(composite_id), volume_idx(-1) {}
ModelVolumeState(const ObjectID& volume_id, const ObjectID& instance_id) :
model_volume(nullptr), geometry_id(std::make_pair(volume_id.id, instance_id.id)), volume_idx(-1) {}
bool new_geometry() const { return this->volume_idx == size_t(-1); }
const ModelVolume* model_volume;
// ObjectID of ModelVolume + ObjectID of ModelInstance
// or timestamp of an SLAPrintObjectStep + ObjectID of ModelInstance
std::pair<size_t, size_t> geometry_id;
GLVolume::CompositeID composite_id;
// Volume index in the new GLVolume vector.
size_t volume_idx;
size_t volume_idx;
};
std::vector<ModelVolumeState> model_volume_state;
std::vector<ModelVolumeState> aux_volume_state;
std::vector<ModelVolumeState> aux_volume_state;
struct GLVolumeState {
GLVolumeState() :
volume_idx(-1) {}
GLVolumeState(const GLVolume* volume, unsigned int volume_idx) :
composite_id(volume->composite_id), volume_idx(volume_idx) {}
GLVolume::CompositeID composite_id;
// Volume index in the old GLVolume vector.
size_t volume_idx;
};
// SLA steps to pull the preview meshes for.
typedef std::array<SLAPrintObjectStep, 2> SLASteps;
SLASteps sla_steps = { slaposSupportTree, slaposPad };
struct SLASupportState {
std::array<PrintStateBase::StateWithTimeStamp, std::tuple_size<SLASteps>::value> step;
std::array<PrintStateBase::StateWithTimeStamp, std::tuple_size<SLASteps>::value> step;
};
// State of the sla_steps for all SLAPrintObjects.
std::vector<SLASupportState> sla_support_state;
std::vector<size_t> instance_ids_selected;
std::vector<size_t> map_glvolume_old_to_new(m_volumes.volumes.size(), size_t(-1));
std::vector<GLVolumeState> deleted_volumes;
std::vector<GLVolume*> glvolumes_new;
glvolumes_new.reserve(m_volumes.volumes.size());
auto model_volume_state_lower = [](const ModelVolumeState &m1, const ModelVolumeState &m2) { return m1.geometry_id < m2.geometry_id; };
auto model_volume_state_lower = [](const ModelVolumeState& m1, const ModelVolumeState& m2) { return m1.geometry_id < m2.geometry_id; };
m_reload_delayed = ! m_canvas->IsShown() && ! refresh_immediately && ! force_full_scene_refresh;
m_reload_delayed = !m_canvas->IsShown() && !refresh_immediately && !force_full_scene_refresh;
PrinterTechnology printer_technology = m_process->current_printer_technology();
PrinterTechnology printer_technology = m_process->current_printer_technology();
int volume_idx_wipe_tower_old = -1;
// Release invalidated volumes to conserve GPU memory in case of delayed refresh (see m_reload_delayed).
// First initialize model_volumes_new_sorted & model_instances_new_sorted.
for (int object_idx = 0; object_idx < (int)m_model->objects.size(); ++ object_idx) {
const ModelObject *model_object = m_model->objects[object_idx];
for (int instance_idx = 0; instance_idx < (int)model_object->instances.size(); ++ instance_idx) {
const ModelInstance *model_instance = model_object->instances[instance_idx];
for (int volume_idx = 0; volume_idx < (int)model_object->volumes.size(); ++ volume_idx) {
const ModelVolume *model_volume = model_object->volumes[volume_idx];
model_volume_state.emplace_back(model_volume, model_instance->id(), GLVolume::CompositeID(object_idx, volume_idx, instance_idx));
for (int object_idx = 0; object_idx < (int)m_model->objects.size(); ++object_idx) {
const ModelObject* model_object = m_model->objects[object_idx];
for (int instance_idx = 0; instance_idx < (int)model_object->instances.size(); ++instance_idx) {
const ModelInstance* model_instance = model_object->instances[instance_idx];
for (int volume_idx = 0; volume_idx < (int)model_object->volumes.size(); ++volume_idx) {
const ModelVolume* model_volume = model_object->volumes[volume_idx];
model_volume_state.emplace_back(model_volume, model_instance->id(), GLVolume::CompositeID(object_idx, volume_idx, instance_idx));
}
}
}
if (printer_technology == ptSLA) {
const SLAPrint *sla_print = this->sla_print();
#ifndef NDEBUG
const SLAPrint* sla_print = this->sla_print();
#ifndef NDEBUG
// Verify that the SLAPrint object is synchronized with m_model.
check_model_ids_equal(*m_model, sla_print->model());
#endif /* NDEBUG */
#endif /* NDEBUG */
sla_support_state.reserve(sla_print->objects().size());
for (const SLAPrintObject *print_object : sla_print->objects()) {
for (const SLAPrintObject* print_object : sla_print->objects()) {
SLASupportState state;
for (size_t istep = 0; istep < sla_steps.size(); ++ istep) {
state.step[istep] = print_object->step_state_with_timestamp(sla_steps[istep]);
if (state.step[istep].state == PrintStateBase::DONE) {
if (! print_object->has_mesh(sla_steps[istep]))
for (size_t istep = 0; istep < sla_steps.size(); ++istep) {
state.step[istep] = print_object->step_state_with_timestamp(sla_steps[istep]);
if (state.step[istep].state == PrintStateBase::DONE) {
if (!print_object->has_mesh(sla_steps[istep]))
// Consider the DONE step without a valid mesh as invalid for the purpose
// of mesh visualization.
state.step[istep].state = PrintStateBase::INVALID;
else
for (const ModelInstance *model_instance : print_object->model_object()->instances)
// Only the instances, which are currently printable, will have the SLA support structures kept.
// The instances outside the print bed will have the GLVolumes of their support structures released.
if (model_instance->is_printable())
for (const ModelInstance* model_instance : print_object->model_object()->instances)
// Only the instances, which are currently printable, will have the SLA support structures kept.
// The instances outside the print bed will have the GLVolumes of their support structures released.
if (model_instance->is_printable())
aux_volume_state.emplace_back(state.step[istep].timestamp, model_instance->id());
}
}
sla_support_state.emplace_back(state);
}
sla_support_state.emplace_back(state);
}
}
std::sort(model_volume_state.begin(), model_volume_state.end(), model_volume_state_lower);
std::sort(aux_volume_state .begin(), aux_volume_state .end(), model_volume_state_lower);
std::sort(aux_volume_state.begin(), aux_volume_state.end(), model_volume_state_lower);
// Release all ModelVolume based GLVolumes not found in the current Model.
for (size_t volume_id = 0; volume_id < m_volumes.volumes.size(); ++ volume_id) {
GLVolume *volume = m_volumes.volumes[volume_id];
for (size_t volume_id = 0; volume_id < m_volumes.volumes.size(); ++volume_id) {
GLVolume* volume = m_volumes.volumes[volume_id];
ModelVolumeState key(volume);
ModelVolumeState *mvs = nullptr;
ModelVolumeState* mvs = nullptr;
if (volume->volume_idx() < 0) {
auto it = std::lower_bound(aux_volume_state.begin(), aux_volume_state.end(), key, model_volume_state_lower);
auto it = std::lower_bound(aux_volume_state.begin(), aux_volume_state.end(), key, model_volume_state_lower);
if (it != aux_volume_state.end() && it->geometry_id == key.geometry_id)
// This can be an SLA support structure that should not be rendered (in case someone used undo
// to revert to before it was generated). We only reuse the volume if that's not the case.
if (m_model->objects[volume->composite_id.object_id]->sla_points_status != sla::PointsStatus::NoPoints)
mvs = &(*it);
} else {
auto it = std::lower_bound(model_volume_state.begin(), model_volume_state.end(), key, model_volume_state_lower);
}
else {
auto it = std::lower_bound(model_volume_state.begin(), model_volume_state.end(), key, model_volume_state_lower);
if (it != model_volume_state.end() && it->geometry_id == key.geometry_id)
mvs = &(*it);
mvs = &(*it);
}
// Emplace instance ID of the volume. Both the aux volumes and model volumes share the same instance ID.
// The wipe tower has its own wipe_tower_instance_id().
@ -1854,19 +1867,23 @@ void GLCanvas3D::reload_scene(bool refresh_immediately, bool force_full_scene_re
assert(volume_idx_wipe_tower_old == -1);
volume_idx_wipe_tower_old = (int)volume_id;
}
if (! m_reload_delayed)
if (!m_reload_delayed)
{
deleted_volumes.emplace_back(volume, volume_id);
delete volume;
} else {
}
}
else {
// This GLVolume will be reused.
volume->set_sla_shift_z(0.0);
map_glvolume_old_to_new[volume_id] = glvolumes_new.size();
mvs->volume_idx = glvolumes_new.size();
glvolumes_new.emplace_back(volume);
// Update color of the volume based on the current extruder.
if (mvs->model_volume != nullptr) {
int extruder_id = mvs->model_volume->extruder_id();
if (extruder_id != -1)
volume->extruder_id = extruder_id;
if (mvs->model_volume != nullptr) {
int extruder_id = mvs->model_volume->extruder_id();
if (extruder_id != -1)
volume->extruder_id = extruder_id;
volume->is_modifier = !mvs->model_volume->is_model_part();
volume->set_color_from_model_volume(mvs->model_volume);
@ -1884,6 +1901,16 @@ void GLCanvas3D::reload_scene(bool refresh_immediately, bool force_full_scene_re
bool update_object_list = false;
auto find_old_volume_id = [&deleted_volumes](const GLVolume::CompositeID& id) -> unsigned int {
for (unsigned int i = 0; i < (unsigned int)deleted_volumes.size(); ++i)
{
const GLVolumeState& v = deleted_volumes[i];
if (v.composite_id == id)
return v.volume_idx;
}
return (unsigned int)-1;
};
if (m_volumes.volumes != glvolumes_new)
update_object_list = true;
m_volumes.volumes = std::move(glvolumes_new);
@ -1898,9 +1925,12 @@ void GLCanvas3D::reload_scene(bool refresh_immediately, bool force_full_scene_re
assert(it != model_volume_state.end() && it->geometry_id == key.geometry_id);
if (it->new_geometry()) {
// New volume.
unsigned int old_id = find_old_volume_id(it->composite_id);
if (old_id != -1)
map_glvolume_old_to_new[old_id] = m_volumes.volumes.size();
m_volumes.load_object_volume(&model_object, obj_idx, volume_idx, instance_idx, m_color_by, m_initialized);
m_volumes.volumes.back()->geometry_id = key.geometry_id;
update_object_list = true;
update_object_list = true;
} else {
// Recycling an old GLVolume.
GLVolume &existing_volume = *m_volumes.volumes[it->volume_idx];

11
src/slic3r/GUI/GUI_ObjectList.cpp
View file

@ -1571,6 +1571,12 @@ void ObjectList::append_menu_item_export_stl(wxMenu* menu) const
menu->AppendSeparator();
}
void ObjectList::append_menu_item_reload_from_disk(wxMenu* menu) const
{
append_menu_item(menu, wxID_ANY, _(L("Reload from disk")), _(L("Reload the selected volumes from disk")),
[this](wxCommandEvent&) { wxGetApp().plater()->reload_from_disk(); }, "", menu, []() { return wxGetApp().plater()->can_reload_from_disk(); }, wxGetApp().plater());
}
void ObjectList::append_menu_item_change_extruder(wxMenu* menu) const
{
const wxString name = _(L("Change extruder"));
@ -1620,6 +1626,7 @@ void ObjectList::create_object_popupmenu(wxMenu *menu)
append_menu_items_osx(menu);
#endif // __WXOSX__
append_menu_item_reload_from_disk(menu);
append_menu_item_export_stl(menu);
append_menu_item_fix_through_netfabb(menu);
append_menu_item_scale_selection_to_fit_print_volume(menu);
@ -1643,6 +1650,7 @@ void ObjectList::create_sla_object_popupmenu(wxMenu *menu)
append_menu_items_osx(menu);
#endif // __WXOSX__
append_menu_item_reload_from_disk(menu);
append_menu_item_export_stl(menu);
append_menu_item_fix_through_netfabb(menu);
// rest of a object_sla_menu will be added later in:
@ -1655,8 +1663,9 @@ void ObjectList::create_part_popupmenu(wxMenu *menu)
append_menu_items_osx(menu);
#endif // __WXOSX__
append_menu_item_fix_through_netfabb(menu);
append_menu_item_reload_from_disk(menu);
append_menu_item_export_stl(menu);
append_menu_item_fix_through_netfabb(menu);
append_menu_item_split(menu);

3
src/slic3r/GUI/GUI_ObjectList.hpp
View file

@ -237,7 +237,8 @@ public:
wxMenuItem* append_menu_item_printable(wxMenu* menu, wxWindow* parent);
void append_menu_items_osx(wxMenu* menu);
wxMenuItem* append_menu_item_fix_through_netfabb(wxMenu* menu);
void append_menu_item_export_stl(wxMenu* menu) const ;
void append_menu_item_export_stl(wxMenu* menu) const;
void append_menu_item_reload_from_disk(wxMenu* menu) const;
void append_menu_item_change_extruder(wxMenu* menu) const;
void append_menu_item_delete(wxMenu* menu);
void append_menu_item_scale_selection_to_fit_print_volume(wxMenu* menu);

211
src/slic3r/GUI/Plater.cpp
View file

@ -10,6 +10,7 @@
#include <boost/algorithm/string.hpp>
#include <boost/optional.hpp>
#include <boost/filesystem/path.hpp>
#include <boost/filesystem/operations.hpp>
#include <boost/log/trivial.hpp>
#include <wx/sizer.h>
@ -1913,6 +1914,7 @@ struct Plater::priv
bool can_fix_through_netfabb() const;
bool can_set_instance_to_object() const;
bool can_mirror() const;
bool can_reload_from_disk() const;
void msw_rescale_object_menu();
@ -1949,7 +1951,6 @@ private:
* */
std::string m_last_fff_printer_profile_name;
std::string m_last_sla_printer_profile_name;
bool m_update_objects_list_on_loading{ true };
};
const std::regex Plater::priv::pattern_bundle(".*[.](amf|amf[.]xml|zip[.]amf|3mf|prusa)", std::regex::icase);
@ -2475,11 +2476,8 @@ std::vector<size_t> Plater::priv::load_model_objects(const ModelObjectPtrs &mode
_(L("Object too large?")));
}
if (m_update_objects_list_on_loading)
{
for (const size_t idx : obj_idxs) {
wxGetApp().obj_list()->add_object_to_list(idx);
}
for (const size_t idx : obj_idxs) {
wxGetApp().obj_list()->add_object_to_list(idx);
}
update();
@ -3103,88 +3101,110 @@ void Plater::priv::update_sla_scene()
void Plater::priv::reload_from_disk()
{
Plater::TakeSnapshot snapshot(q, _(L("Reload from Disk")));
Plater::TakeSnapshot snapshot(q, _(L("Reload from disk")));
auto& selection = get_selection();
const auto obj_orig_idx = selection.get_object_idx();
if (selection.is_wipe_tower() || obj_orig_idx == -1) { return; }
int instance_idx = selection.get_instance_idx();
const Selection& selection = get_selection();
auto *object_orig = model.objects[obj_orig_idx];
std::vector<fs::path> input_paths(1, object_orig->input_file);
// disable render to avoid to show intermediate states
view3D->get_canvas3d()->enable_render(false);
// disable update of objects list while loading to avoid to show intermediate states
m_update_objects_list_on_loading = false;
const auto new_idxs = load_files(input_paths, true, false);
if (new_idxs.empty())
{
// error while loading
view3D->get_canvas3d()->enable_render(true);
if (selection.is_wipe_tower())
return;
}
for (const auto idx : new_idxs)
// struct to hold selected ModelVolumes by their indices
struct SelectedVolume
{
ModelObject *object = model.objects[idx];
object->config.apply(object_orig->config);
int object_idx;
int volume_idx;
object->clear_instances();
for (const ModelInstance *instance : object_orig->instances)
// operators needed by std::algorithms
bool operator < (const SelectedVolume& other) const { return (object_idx < other.object_idx) || ((object_idx == other.object_idx) && (volume_idx < other.volume_idx)); }
bool operator == (const SelectedVolume& other) const { return (object_idx == other.object_idx) && (volume_idx == other.volume_idx); }
};
std::vector<SelectedVolume> selected_volumes;
// collects selected ModelVolumes
const std::set<unsigned int>& selected_volumes_idxs = selection.get_volume_idxs();
for (unsigned int idx : selected_volumes_idxs)
{
const GLVolume* v = selection.get_volume(idx);
int o_idx = v->object_idx();
int v_idx = v->volume_idx();
selected_volumes.push_back({ o_idx, v_idx });
}
std::sort(selected_volumes.begin(), selected_volumes.end());
selected_volumes.erase(std::unique(selected_volumes.begin(), selected_volumes.end()), selected_volumes.end());
// collects paths of files to load
std::vector<fs::path> input_paths;
for (const SelectedVolume& v : selected_volumes)
{
const ModelVolume* volume = model.objects[v.object_idx]->volumes[v.volume_idx];
if (!volume->source.input_file.empty() && boost::filesystem::exists(volume->source.input_file))
input_paths.push_back(volume->source.input_file);
}
std::sort(input_paths.begin(), input_paths.end());
input_paths.erase(std::unique(input_paths.begin(), input_paths.end()), input_paths.end());
// load one file at a time
for (size_t i = 0; i < input_paths.size(); ++i)
{
const auto& path = input_paths[i].string();
Model new_model;
try
{
object->add_instance(*instance);
}
for (const ModelVolume* v : object_orig->volumes)
{
if (v->is_modifier())
object->add_volume(*v);
}
Vec3d offset = object_orig->origin_translation - object->origin_translation;
if (object->volumes.size() == object_orig->volumes.size())
{
for (size_t i = 0; i < object->volumes.size(); i++)
new_model = Model::read_from_file(path, nullptr, true, false);
for (ModelObject* model_object : new_model.objects)
{
object->volumes[i]->config.apply(object_orig->volumes[i]->config);
object->volumes[i]->translate(offset);
model_object->center_around_origin();
model_object->ensure_on_bed();
}
}
catch (std::exception&)
{
// error while loading
view3D->get_canvas3d()->enable_render(true);
return;
}
// XXX: Restore more: layer_height_ranges, layer_height_profile (?)
// update the selected volumes whose source is the current file
for (const SelectedVolume& old_v : selected_volumes)
{
ModelObject* old_model_object = model.objects[old_v.object_idx];
ModelVolume* old_volume = old_model_object->volumes[old_v.volume_idx];
int new_volume_idx = old_volume->source.volume_idx;
int new_object_idx = old_volume->source.object_idx;
if (old_volume->source.input_file == path)
{
if (new_object_idx < (int)new_model.objects.size())
{
ModelObject* new_model_object = new_model.objects[new_object_idx];
if (new_volume_idx < (int)new_model_object->volumes.size())
{
old_model_object->add_volume(*new_model_object->volumes[new_volume_idx]);
ModelVolume* new_volume = old_model_object->volumes.back();
new_volume->set_new_unique_id();
new_volume->config.apply(old_volume->config);
new_volume->set_type(old_volume->type());
new_volume->set_material_id(old_volume->material_id());
new_volume->set_transformation(old_volume->get_transformation());
new_volume->translate(new_volume->get_transformation().get_matrix(true) * (new_volume->source.mesh_offset - old_volume->source.mesh_offset));
std::swap(old_model_object->volumes[old_v.volume_idx], old_model_object->volumes.back());
old_model_object->delete_volume(old_model_object->volumes.size() - 1);
}
}
}
}
}
// re-enable update of objects list
m_update_objects_list_on_loading = true;
model.adjust_min_z();
// puts the new objects into the list
for (const auto idx : new_idxs)
{
wxGetApp().obj_list()->add_object_to_list(idx);
}
remove(obj_orig_idx);
// update 3D scene
update();
// new GLVolumes have been created at this point, so update their printable state
for (size_t i = 0; i < model.objects.size(); ++i)
{
view3D->get_canvas3d()->update_instance_printable_state_for_object(i);
}
// re-enable render
view3D->get_canvas3d()->enable_render(true);
// the previous call to remove() clears the selection
// select newly added objects
selection.clear();
for (const auto idx : new_idxs)
{
selection.add_instance((unsigned int)idx - 1, instance_idx, false);
}
}
void Plater::priv::fix_through_netfabb(const int obj_idx, const int vol_idx/* = -1*/)
@ -3609,6 +3629,9 @@ bool Plater::priv::init_common_menu(wxMenu* menu, const bool is_part/* = false*/
append_menu_item(menu, wxID_ANY, _(L("Delete")) + "\tDel", _(L("Remove the selected object")),
[this](wxCommandEvent&) { q->remove_selected(); }, "delete", nullptr, [this]() { return can_delete(); }, q);
append_menu_item(menu, wxID_ANY, _(L("Reload from disk")), _(L("Reload the selected volumes from disk")),
[this](wxCommandEvent&) { q->reload_from_disk(); }, "", menu, [this]() { return can_reload_from_disk(); }, q);
sidebar->obj_list()->append_menu_item_export_stl(menu);
}
else {
@ -3635,8 +3658,8 @@ bool Plater::priv::init_common_menu(wxMenu* menu, const bool is_part/* = false*/
wxMenuItem* menu_item_printable = sidebar->obj_list()->append_menu_item_printable(menu, q);
menu->AppendSeparator();
append_menu_item(menu, wxID_ANY, _(L("Reload from Disk")), _(L("Reload the selected file from Disk")),
[this](wxCommandEvent&) { reload_from_disk(); });
append_menu_item(menu, wxID_ANY, _(L("Reload from disk")), _(L("Reload the selected object from disk")),
[this](wxCommandEvent&) { reload_from_disk(); }, "", nullptr, [this]() { return can_reload_from_disk(); }, q);
append_menu_item(menu, wxID_ANY, _(L("Export as STL")) + dots, _(L("Export the selected object as STL file")),
[this](wxCommandEvent&) { q->export_stl(false, true); });
@ -3791,6 +3814,48 @@ bool Plater::priv::can_mirror() const
return get_selection().is_from_single_instance();
}
bool Plater::priv::can_reload_from_disk() const
{
// struct to hold selected ModelVolumes by their indices
struct SelectedVolume
{
int object_idx;
int volume_idx;
// operators needed by std::algorithms
bool operator < (const SelectedVolume& other) const { return (object_idx < other.object_idx) || ((object_idx == other.object_idx) && (volume_idx < other.volume_idx)); }
bool operator == (const SelectedVolume& other) const { return (object_idx == other.object_idx) && (volume_idx == other.volume_idx); }
};
std::vector<SelectedVolume> selected_volumes;
const Selection& selection = get_selection();
// collects selected ModelVolumes
const std::set<unsigned int>& selected_volumes_idxs = selection.get_volume_idxs();
for (unsigned int idx : selected_volumes_idxs)
{
const GLVolume* v = selection.get_volume(idx);
int o_idx = v->object_idx();
int v_idx = v->volume_idx();
selected_volumes.push_back({ o_idx, v_idx });
}
std::sort(selected_volumes.begin(), selected_volumes.end());
selected_volumes.erase(std::unique(selected_volumes.begin(), selected_volumes.end()), selected_volumes.end());
// collects paths of files to load
std::vector<fs::path> paths;
for (const SelectedVolume& v : selected_volumes)
{
const ModelVolume* volume = model.objects[v.object_idx]->volumes[v.volume_idx];
if (!volume->source.input_file.empty() && boost::filesystem::exists(volume->source.input_file))
paths.push_back(volume->source.input_file);
}
std::sort(paths.begin(), paths.end());
paths.erase(std::unique(paths.begin(), paths.end()), paths.end());
return !paths.empty();
}
void Plater::priv::set_bed_shape(const Pointfs& shape, const std::string& custom_texture, const std::string& custom_model)
{
bool new_shape = bed.set_shape(shape, custom_texture, custom_model);
@ -4573,6 +4638,11 @@ void Plater::export_3mf(const boost::filesystem::path& output_path)
}
}
void Plater::reload_from_disk()
{
p->reload_from_disk();
}
bool Plater::has_toolpaths_to_export() const
{
return p->preview->get_canvas3d()->has_toolpaths_to_export();
@ -5118,6 +5188,7 @@ bool Plater::can_copy_to_clipboard() const
bool Plater::can_undo() const { return p->undo_redo_stack().has_undo_snapshot(); }
bool Plater::can_redo() const { return p->undo_redo_stack().has_redo_snapshot(); }
bool Plater::can_reload_from_disk() const { return p->can_reload_from_disk(); }
const UndoRedo::Stack& Plater::undo_redo_stack_main() const { return p->undo_redo_stack_main(); }
void Plater::enter_gizmos_stack() { p->enter_gizmos_stack(); }
void Plater::leave_gizmos_stack() { p->leave_gizmos_stack(); }

2
src/slic3r/GUI/Plater.hpp
View file

@ -187,6 +187,7 @@ public:
void export_stl(bool extended = false, bool selection_only = false);
void export_amf();
void export_3mf(const boost::filesystem::path& output_path = boost::filesystem::path());
void reload_from_disk();
bool has_toolpaths_to_export() const;
void export_toolpaths_to_obj() const;
void reslice();
@ -253,6 +254,7 @@ public:
bool can_copy_to_clipboard() const;
bool can_undo() const;
bool can_redo() const;
bool can_reload_from_disk() const;
void msw_rescale();

2
src/slic3r/GUI/Selection.cpp
View file

@ -472,7 +472,7 @@ void Selection::volumes_changed(const std::vector<size_t> &map_volume_old_to_new
for (unsigned int idx : m_list)
if (map_volume_old_to_new[idx] != size_t(-1)) {
unsigned int new_idx = (unsigned int)map_volume_old_to_new[idx];
assert((*m_volumes)[new_idx]->selected);
(*m_volumes)[new_idx]->selected = true;
list_new.insert(new_idx);
}
m_list = std::move(list_new);