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NEW:modify distance between meshs 

Jira: STUDIO-6166
Change-Id: I41ccfebf3b21b9bb21fa0f1f018d5e3146b86e5e
This commit is contained in:
zhou.xu 2024-03-12 20:05:09 +08:00 committed by Lane.Wei
parent 27c2652a40
commit b5db8bc4c3
8 changed files with 211 additions and 144 deletions
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78
src/libslic3r/Measure.cpp
View File

@ -807,7 +807,7 @@ static AngleAndEdges angle_plane_plane(const std::tuple<int, Vec3d, Vec3d>& p1,
return ret;
}
MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature& b)
MeasurementResult get_measurement(const SurfaceFeature &a, const SurfaceFeature &b, bool deal_circle_result)
{
assert(a.get_type() != SurfaceFeatureType::Undef && b.get_type() != SurfaceFeatureType::Undef);
@ -824,7 +824,7 @@ MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature&
if (f2.get_type() == SurfaceFeatureType::Point) {
Vec3d diff = (f2.get_point() - f1.get_point());
result.distance_strict = std::make_optional(DistAndPoints{diff.norm(), f1.get_point(), f2.get_point()});
result.distance_xyz = diff.cwiseAbs();
result.distance_xyz = diff;
///////////////////////////////////////////////////////////////////////////
} else if (f2.get_type() == SurfaceFeatureType::Edge) {
@ -854,13 +854,18 @@ MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature&
result.distance_strict = std::make_optional(DistAndPoints{ radius, c, p_on_circle });
}
else {
const Eigen::Hyperplane<double, 3> circle_plane(n, c);
const Vec3d proj = circle_plane.projection(f1.get_point());
const double dist = std::sqrt(std::pow((proj - c).norm() - radius, 2.) +
(f1.get_point() - proj).squaredNorm());
if (deal_circle_result == false) {
const Eigen::Hyperplane<double, 3> circle_plane(n, c);
const Vec3d proj = circle_plane.projection(f1.get_point());
const double dist = std::sqrt(std::pow((proj - c).norm() - radius, 2.) + (f1.get_point() - proj).squaredNorm());
const Vec3d p_on_circle = c + radius * (proj - c).normalized();
result.distance_strict = std::make_optional(DistAndPoints{ dist, f1.get_point(), p_on_circle }); // TODO
const Vec3d p_on_circle = c + radius * (proj - c).normalized();
result.distance_strict = std::make_optional(DistAndPoints{dist, f1.get_point(), p_on_circle});
}
else {
const double dist = (f1.get_point() - c).norm();
result.distance_strict = std::make_optional(DistAndPoints{dist, f1.get_point(), c});
}
}
///////////////////////////////////////////////////////////////////////////
} else if (f2.get_type() == SurfaceFeatureType::Plane) {
@ -908,27 +913,29 @@ MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature&
result.angle = angle_edge_edge(f1.get_edge(), f2.get_edge());
///////////////////////////////////////////////////////////////////////////
} else if (f2.get_type() == SurfaceFeatureType::Circle) {
const std::pair<Vec3d, Vec3d> e = f1.get_edge();
const auto& [center, radius, normal] = f2.get_circle();
const Vec3d e1e2 = (e.second - e.first);
const Vec3d e1e2_unit = e1e2.normalized();
const std::pair<Vec3d, Vec3d> e = f1.get_edge();
const auto &[center, radius, normal] = f2.get_circle();
const Vec3d e1e2 = (e.second - e.first);
const Vec3d e1e2_unit = e1e2.normalized();
std::vector<DistAndPoints> distances;
distances.emplace_back(*get_measurement(SurfaceFeature(e.first), f2).distance_strict);
distances.emplace_back(*get_measurement(SurfaceFeature(e.second), f2).distance_strict);
const Eigen::Hyperplane<double, 3> plane(e1e2_unit, center);
const Eigen::ParametrizedLine<double, 3> line = Eigen::ParametrizedLine<double, 3>::Through(e.first, e.second);
const Vec3d inter = line.intersectionPoint(plane);
const Vec3d e1inter = inter - e.first;
if (e1inter.dot(e1e2) >= 0.0 && e1inter.norm() < e1e2.norm())
distances.emplace_back(*get_measurement(SurfaceFeature(inter), f2).distance_strict);
const Eigen::Hyperplane<double, 3> plane(e1e2_unit, center);
const Eigen::ParametrizedLine<double, 3> line = Eigen::ParametrizedLine<double, 3>::Through(e.first, e.second);
const Vec3d inter = line.intersectionPoint(plane);
const Vec3d e1inter = inter - e.first;
if (e1inter.dot(e1e2) >= 0.0 && e1inter.norm() < e1e2.norm()) distances.emplace_back(*get_measurement(SurfaceFeature(inter), f2).distance_strict);
auto it = std::min_element(distances.begin(), distances.end(),
[](const DistAndPoints& item1, const DistAndPoints& item2) {
return item1.dist < item2.dist;
});
result.distance_infinite = std::make_optional(DistAndPoints{it->dist, it->from, it->to});
auto it = std::min_element(distances.begin(), distances.end(), [](const DistAndPoints &item1, const DistAndPoints &item2) { return item1.dist < item2.dist; });
if (deal_circle_result == false) {
result.distance_infinite = std::make_optional(DistAndPoints{it->dist, it->from, it->to});
}
else{
const double dist = (it->from - center).norm();
result.distance_infinite = std::make_optional(DistAndPoints{dist, it->from, center});
}
///////////////////////////////////////////////////////////////////////////
} else if (f2.get_type() == SurfaceFeatureType::Plane) {
const auto [from, to] = f1.get_edge();
@ -1190,8 +1197,14 @@ MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature&
info.sqrDistance = distance * distance;
}
if (deal_circle_result == false) {
result.distance_infinite = std::make_optional(
DistAndPoints{std::sqrt(candidates[0].sqrDistance), candidates[0].circle0Closest, candidates[0].circle1Closest}); // TODO
} else {
const double dist = (c0 - c1).norm();
result.distance_strict = std::make_optional(DistAndPoints{dist, c0, c1});
}
result.distance_infinite = std::make_optional(DistAndPoints{ std::sqrt(candidates[0].sqrDistance), candidates[0].circle0Closest, candidates[0].circle1Closest }); // TODO
///////////////////////////////////////////////////////////////////////////
} else if (f2.get_type() == SurfaceFeatureType::Plane) {
const auto [center, radius, normal1] = f1.get_circle();
@ -1237,13 +1250,26 @@ MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature&
if (are_parallel(normal1, normal2)) {
// The planes are parallel, calculate distance.
const Eigen::Hyperplane<double, 3> plane(normal1, pt1);
result.distance_infinite = std::make_optional(DistAndPoints{ plane.absDistance(pt2), pt2, plane.projection(pt2) }); // TODO
const Eigen::Hyperplane<double, 3> plane(normal2, pt2);
result.distance_infinite = std::make_optional(DistAndPoints{ plane.absDistance(pt1), pt1, plane.projection(pt1) });
}
else
result.angle = angle_plane_plane(f1.get_plane(), f2.get_plane());
}
if (swap) {
auto swap_dist_and_points = [](DistAndPoints& dp) {
auto back = dp.to;
dp.to = dp.from;
dp.from = back;
};
if (result.distance_infinite.has_value()) {
swap_dist_and_points(*result.distance_infinite);
}
if (result.distance_strict.has_value()) {
swap_dist_and_points(*result.distance_strict);
}
}
return result;
}

2
src/libslic3r/Measure.hpp
View File

@ -180,7 +180,7 @@ struct MeasurementResult {
};
// Returns distance/angle between two SurfaceFeatures.
MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature& b);
MeasurementResult get_measurement(const SurfaceFeature& a, const SurfaceFeature& b,bool deal_circle_result =false);
inline Vec3d edge_direction(const Vec3d& from, const Vec3d& to) { return (to - from).normalized(); }
inline Vec3d edge_direction(const std::pair<Vec3d, Vec3d>& e) { return edge_direction(e.first, e.second); }

251
src/slic3r/GUI/Gizmos/GLGizmoMeasure.cpp
View File

@ -441,12 +441,18 @@ bool GLGizmoMeasure::on_mouse(const wxMouseEvent &mouse_event)
m_imgui->set_requires_extra_frame();
const Measure::MeasurementResult &measure = m_measurement_result;
m_distance = Vec3d::Zero();
if (measure.distance_xyz.has_value() && measure.distance_xyz->norm() > EPSILON) {
Vec3d distance = *measure.distance_xyz;
if (wxGetApp().app_config->get("use_inches") == "1")
distance = GizmoObjectManipulation::mm_to_in * distance;
m_buffered_distance = distance;
m_distance = *measure.distance_xyz;
}
else if (measure.distance_infinite.has_value()) {
m_distance = measure.distance_infinite->to - measure.distance_infinite->from;
} else if (measure.distance_strict.has_value()) {
m_distance = measure.distance_strict->to - measure.distance_strict->from;
}
if (wxGetApp().app_config->get("use_inches") == "1")
m_distance = GizmoObjectManipulation::mm_to_in * m_distance;
m_buffered_distance = m_distance;
return true;
}
else
@ -570,6 +576,7 @@ void GLGizmoMeasure::on_set_state()
m_mode = EMode::FeatureSelection;
m_hover_id = -1;
m_show_reset_first_tip = false;
m_distance = Vec3d::Zero();
}
}
@ -700,41 +707,36 @@ void GLGizmoMeasure::on_render()
}
if (m_mouse_left_down_mesh_deal && m_hover_id >= 0) {
m_mouse_left_down_mesh_deal = false;
if (m_selected_features.first.feature.has_value()) {
if (m_hit_order_volumes.size() == 0) {
m_hit_order_volumes.push_back(m_last_hit_volume);
} else {
m_hit_order_volumes[0] = m_last_hit_volume;
}
}
if (m_selected_features.second.feature.has_value()) {
if (m_hit_order_volumes.size() == 1) {
m_hit_order_volumes.push_back(m_last_hit_volume);
} else {
m_hit_order_volumes[1] = m_last_hit_volume;
}
// deal hit_different_volumes
if (m_hit_different_volumes.size() >= 1) {
if (m_last_hit_volume == m_hit_different_volumes[0]) {
//do nothing
} else {
if (m_hit_different_volumes.size() == 2) {
m_hit_different_volumes[1] = m_last_hit_volume;
} else {
m_hit_different_volumes.push_back(m_last_hit_volume);
}
}
}
}
auto is_two_volume_pick = [this, &camera]() {
if (m_mesh_raycaster_map.size() < 2) {
return false;
else if (m_selected_features.first.feature.has_value()) {
if (m_hit_order_volumes.size() == 0) {
m_hit_order_volumes.push_back(m_last_hit_volume);
} else {
m_hit_order_volumes[0] = m_last_hit_volume;
}
auto hit_volume = m_last_hit_volume;
if (hit_volume) {
if (m_hit_different_volumes.size() == 0) {
m_hit_different_volumes.push_back(hit_volume);
return true;
}
if (m_hit_different_volumes.size() == 1 && hit_volume == m_hit_different_volumes[0]) {
return false;
}
m_hit_different_volumes.push_back(hit_volume);
return true;
//deal hit_different_volumes
if (m_hit_different_volumes.size() == 0) {
m_hit_different_volumes.push_back(m_last_hit_volume);
}
return false;
};
is_two_volume_pick();
}
}
}
//const bool mouse_on_object = m_raycaster->unproject_on_mesh(mouse_position, Transform3d::Identity(), camera, position_on_model, normal_on_model, nullptr, &model_facet_idx);
@ -1197,8 +1199,8 @@ void GLGizmoMeasure::render_dimensioning()
if (shader == nullptr)
return;
auto point_point = [this, &shader](const Vec3d& v1, const Vec3d& v2, float distance) {
if ((v2 - v1).squaredNorm() < 0.000001 || distance < 0.001f)
auto point_point = [this, &shader](const Vec3d &v1, const Vec3d &v2, float distance, const std::array<float, 4> &color, bool show_label = true, bool show_first_tri = true) {
if ((v2 - v1).squaredNorm() < 0.000001 || abs(distance) < 0.001f)
return;
const Camera& camera = wxGetApp().plater()->get_camera();
@ -1249,7 +1251,7 @@ void GLGizmoMeasure::render_dimensioning()
shader->set_uniform("view_model_matrix", overlap ?
ss_to_ndc_matrix * Geometry::translation_transform(v1ss_3) * q12ss * Geometry::translation_transform(-2.0 * TRIANGLE_HEIGHT * Vec3d::UnitX()) * Geometry::scale_transform({ v12ss_len + 4.0 * TRIANGLE_HEIGHT, 1.0f, 1.0f }) :
ss_to_ndc_matrix * Geometry::translation_transform(v1ss_3) * q12ss * Geometry::scale_transform({ v12ss_len, 1.0f, 1.0f }));
m_dimensioning.line.set_color(-1,ColorRGBA::WHITE().get_data());
m_dimensioning.line.set_color(-1, color);
m_dimensioning.line.render();
#if ENABLE_GL_CORE_PROFILE
@ -1267,11 +1269,12 @@ void GLGizmoMeasure::render_dimensioning()
glsafe(::glLineWidth(1.0f));
// arrow 1
shader->set_uniform("view_model_matrix", overlap ?
ss_to_ndc_matrix * Geometry::translation_transform(v1ss_3) * q12ss :
ss_to_ndc_matrix * Geometry::translation_transform(v1ss_3) * q21ss);
m_dimensioning.triangle.render();
if (show_first_tri) {
shader->set_uniform("view_model_matrix", overlap ?
ss_to_ndc_matrix * Geometry::translation_transform(v1ss_3) * q12ss :
ss_to_ndc_matrix * Geometry::translation_transform(v1ss_3) * q21ss);
m_dimensioning.triangle.render();
}
// arrow 2
shader->set_uniform("view_model_matrix", overlap ?
ss_to_ndc_matrix * Geometry::translation_transform(v2ss_3) * q21ss :
@ -1290,7 +1293,7 @@ void GLGizmoMeasure::render_dimensioning()
m_imgui->set_next_window_pos(label_position.x(), viewport[3] - label_position.y(), ImGuiCond_Always, 0.0f, 1.0f);
m_imgui->set_next_window_bg_alpha(0.0f);
if (!m_editing_distance) {
if (!m_editing_distance && show_label) {
ImGui::PushStyleVar(ImGuiStyleVar_WindowBorderSize, 0.0f);
ImGui::PushStyleVar(ImGuiStyleVar_WindowRounding, 0.0f);
ImGui::PushStyleVar(ImGuiStyleVar_WindowPadding, { 1.0f, 1.0f });
@ -1333,35 +1336,6 @@ void GLGizmoMeasure::render_dimensioning()
const double ratio = new_value / old_value;
wxGetApp().plater()->take_snapshot(_u8L("Scale"));
auto scale_feature = [this](Measure::SurfaceFeature& feature) {
Measure::Measuring *cur_measuring = get_measuring_of_mesh(feature.mesh, feature.world_tran);
switch (feature.get_type())
{
case Measure::SurfaceFeatureType::Point:
case Measure::SurfaceFeatureType::Edge:
case Measure::SurfaceFeatureType::Circle:
case Measure::SurfaceFeatureType::Plane:
{
feature.clone(*feature.origin_surface_feature);
feature.translate(feature.world_tran);
if (feature.get_type() == Measure::SurfaceFeatureType::Circle) {
m_feature_circle_first.last_circle_feature = nullptr;
m_feature_circle_first.inv_zoom = 0;
m_feature_circle_second.last_circle_feature = nullptr;
m_feature_circle_second.inv_zoom = 0;
}
if (feature.get_type() == Measure::SurfaceFeatureType::Plane) {
if (cur_measuring) {
update_world_plane_features(cur_measuring, feature);
}
}
break;
}
default: { break; }
}
};
// apply scale
TransformationType type;
type.set_world();
@ -1371,21 +1345,18 @@ void GLGizmoMeasure::render_dimensioning()
// scale selection
Selection& selection = m_parent.get_selection();
selection.setup_cache();
Vec3d old_center, new_center;
if (scale_single_volume && m_hit_different_volumes.size()==1) {
//todo//update_single_mesh_world_tran
//todo//update_single_mesh_pick(m_hit_different_volumes[0])
} else {
old_center = selection.get_bounding_box().center();
selection.scale(ratio * Vec3d::Ones(), type);
wxGetApp().plater()->canvas3D()->do_scale(""); // avoid storing another snapshot
new_center = selection.get_bounding_box().center();
register_single_mesh_pick();
}
wxGetApp().obj_manipul()->set_dirty();
// scale dimensioning
scale_feature(*m_selected_features.first.feature);
update_feature_by_tran(*m_selected_features.first.feature);
if (m_selected_features.second.feature.has_value())
scale_feature(*m_selected_features.second.feature);
update_feature_by_tran(*m_selected_features.second.feature);
// update measure on next call to data_changed()
m_pending_scale = true;
@ -1742,7 +1713,17 @@ void GLGizmoMeasure::render_dimensioning()
const Measure::DistAndPoints& dap = m_measurement_result.distance_infinite.has_value()
? *m_measurement_result.distance_infinite
: *m_measurement_result.distance_strict;
point_point(dap.from, dap.to, dap.dist);
if (m_selected_features.second.feature.has_value()) {
auto x_to = dap.from;
x_to[0] = dap.to[0];
point_point(dap.from, x_to, x_to[0] - dap.from[0], ColorRGBA::RED().get_data(), false, false);
auto y_to = x_to;
y_to[1] = dap.to[1];
point_point(x_to, y_to, y_to[1] - x_to[1], ColorRGBA::GREEN().get_data(), false, false);
point_point(y_to, dap.to, dap.to[2] - y_to[2], ColorRGBA::BLUE().get_data(), false, false);
}
point_point(dap.from, dap.to, dap.dist, ColorRGBA::WHITE().get_data());
}
glsafe(::glEnable(GL_DEPTH_TEST));
@ -1991,64 +1972,67 @@ void GLGizmoMeasure::on_render_input_window(float x, float y, float bottom_limit
wxTheClipboard->Close();
}
};
auto add_edit_distance_xyz_box = [this, &current_active_id](Vec3d distance) {
auto add_edit_distance_xyz_box = [this, &current_active_id](Vec3d& distance) {
float buf_size_max = ImGui::CalcTextSize("-100.00").x * 1.2;
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
m_imgui->text_colored(ImGuiWrapper::COL_BAMBU, "X:");
m_imgui->text_colored(ImGuiWrapper::COL_RED, "X:");
ImGui::TableSetColumnIndex(1);
ImGui::PushItemWidth(buf_size_max);
ImGui::BBLInputDouble("##measure_distance_x", &m_buffered_distance[0], 0.0f, 0.0f, "%.2f");
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
m_imgui->text_colored(ImGuiWrapper::COL_BAMBU, "Y:");
m_imgui->text_colored(ImGuiWrapper::COL_GREEN, "Y:");
ImGui::TableSetColumnIndex(1);
ImGui::BBLInputDouble("##measure_distance_y", &m_buffered_distance[1], 0.0f, 0.0f, "%.2f");
bool same_model_object = is_two_volume_in_same_model_object();
m_imgui->disabled_begin(same_model_object);
m_imgui->disabled_begin(!same_model_object);
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
m_imgui->text_colored(ImGuiWrapper::COL_BAMBU, "Z:");
m_imgui->text_colored(ImGuiWrapper::COL_BLUE, "Z:");
ImGui::TableSetColumnIndex(1);
ImGui::BBLInputDouble("##measure_distance_z", &m_buffered_distance[2], 0.0f, 0.0f, "%.2f");
m_imgui->disabled_end();
ImGui::TableNextRow();
/*ImGui::TableNextRow();
if (m_imgui->button(_L("Adsorbed onto the surface"))) {
std::cout << "";
}
std::cout << "todo";
}*/
m_imgui->disabled_end();
if (m_last_active_item_imgui != current_active_id && m_hit_different_volumes.size() == 2) {
auto selection = const_cast<Selection*>(&m_parent.get_selection());
selection->setup_cache();
Vec3d displacement = Vec3d::Zero();
auto v = m_hit_different_volumes[1];
auto v = m_hit_different_volumes[1];
if (std::abs(m_buffered_distance[0] - distance[0]) > EPSILON) {
if (same_model_object == false) {
wxGetApp().plater()->take_snapshot(_u8L("modify x distance between objects"));
displacement[0] = m_buffered_distance[0] - distance[0];
auto world_tran = v->get_instance_transformation() * v->get_volume_transformation();
selection->translate(v->object_idx(), v->instance_idx(), displacement);
distance[0] = m_buffered_distance[0];
}
wxGetApp().plater()->take_snapshot("modify x distance between objects");
displacement[0] = m_buffered_distance[0] - distance[0];
distance[0] = m_buffered_distance[0];
} else if (std::abs(m_buffered_distance[1] - distance[1]) > EPSILON) {
if (same_model_object == false) {
wxGetApp().plater()->take_snapshot(_u8L("modify y distance between objects"));
displacement[1] = m_buffered_distance[1] - distance[1];
selection->translate(v->object_idx(), v->instance_idx(), displacement);
distance[1] = m_buffered_distance[1];
}
wxGetApp().plater()->take_snapshot("modify y distance between objects");
displacement[1] = m_buffered_distance[1] - distance[1];
distance[1] = m_buffered_distance[1];
} else if (std::abs(m_buffered_distance[2] - distance[2]) > EPSILON) {
if (same_model_object == false) {
wxGetApp().plater()->take_snapshot(_u8L("modify y distance between objects"));
displacement[2] = m_buffered_distance[2] - distance[2];
selection->translate(v->object_idx(), v->instance_idx(), displacement);
distance[2] = m_buffered_distance[2];
}
wxGetApp().plater()->take_snapshot("modify z distance between objects");
displacement[2] = m_buffered_distance[2] - distance[2];
distance[2] = m_buffered_distance[2];
}
if (displacement.norm() > 0.0f) {
wxGetApp().plater()->take_snapshot(_u8L("MoveInMeasure"));// avoid storing another snapshot
selection->set_mode(same_model_object ? Selection::Volume : Selection::Instance);
auto llo = selection->get_mode();
if (same_model_object == false) {
selection->translate(v->object_idx(), v->instance_idx(), displacement);
} else {
selection->translate(v->object_idx(), v->instance_idx(), v->volume_idx(), displacement);
}
wxGetApp().plater()->canvas3D()->do_move("");
update_single_mesh_pick(v);
update_feature_by_tran(*m_selected_features.second.feature);
m_pending_scale = true;
}
//m_measuring.reset();
update_if_needed();
std::future<void> resultFuture = std::async(std::launch::async, [this]() { this->register_single_mesh_pick(); });
//todo and undo:remember 2 featura to solve
m_selected_features.second.feature->translate(displacement);
update_measurement_result();
}
};
ImGui::Separator();
@ -2101,6 +2085,9 @@ void GLGizmoMeasure::on_render_input_window(float x, float y, float bottom_limit
ImGui::PopID();
}
}
if (m_distance.norm() >0.01 && m_hit_different_volumes.size() == 2) {
add_edit_distance_xyz_box(m_distance);
}
}
// add dummy rows to keep dialog size fixed
/*for (unsigned int i = measure_row_count; i < max_measure_row_count; ++i) {
@ -2144,7 +2131,7 @@ void GLGizmoMeasure::update_measurement_result()
if (!m_selected_features.first.feature.has_value())
m_measurement_result = Measure::MeasurementResult();
else if (m_selected_features.second.feature.has_value())
m_measurement_result = Measure::get_measurement(*m_selected_features.first.feature, *m_selected_features.second.feature);
m_measurement_result = Measure::get_measurement(*m_selected_features.first.feature, *m_selected_features.second.feature,true);
else if (!m_selected_features.second.feature.has_value() && m_selected_features.first.feature->get_type() == Measure::SurfaceFeatureType::Circle)
m_measurement_result = Measure::get_measurement(*m_selected_features.first.feature, Measure::SurfaceFeature(std::get<0>(m_selected_features.first.feature->get_circle())));
}
@ -2221,14 +2208,21 @@ void GLGizmoMeasure::register_single_mesh_pick()
}
}
void GLGizmoMeasure::update_single_mesh_pick(GLVolume *v)
{
if (m_mesh_raycaster_map.find(v) != m_mesh_raycaster_map.end()) {
auto world_tran = v->get_instance_transformation() * v->get_volume_transformation();
m_mesh_raycaster_map[v]->world_tran.set_from_transform(world_tran.get_matrix());
}
}
void GLGizmoMeasure::reset_all_feature() {
reset_feature2();
reset_feature1();
m_show_reset_first_tip = false;
m_hit_different_volumes.clear();
m_hit_different_volumes.reserve(2);
m_hit_order_volumes.clear();
m_hit_order_volumes.clear();
m_last_hit_volume = nullptr;
}
void GLGizmoMeasure::reset_feature1()
@ -2248,12 +2242,10 @@ void GLGizmoMeasure::reset_feature1()
m_selected_features.first.feature.reset();
m_show_reset_first_tip = false;
if (m_hit_different_volumes.size() == 1) {
m_hit_different_volumes[0] = m_hit_different_volumes[1];
m_hit_different_volumes.erase(m_hit_different_volumes.begin() + 0);
m_hit_different_volumes.clear();
}
if (m_hit_order_volumes.size() == 1) {
m_hit_order_volumes[0] = m_hit_order_volumes[1];
m_hit_order_volumes.erase(m_hit_order_volumes.begin() + 0);
m_hit_order_volumes.clear();
}
if (m_feature_plane_first.plane) {
m_feature_plane_first.plane->reset();
@ -2340,5 +2332,32 @@ void GLGizmoMeasure::update_world_plane_features(Measure::Measuring *cur_measuri
}
}
void GLGizmoMeasure::update_feature_by_tran(Measure::SurfaceFeature &feature)
{
Measure::Measuring *cur_measuring = get_measuring_of_mesh(feature.mesh, feature.world_tran);
switch (feature.get_type()) {
case Measure::SurfaceFeatureType::Point:
case Measure::SurfaceFeatureType::Edge:
case Measure::SurfaceFeatureType::Circle:
case Measure::SurfaceFeatureType::Plane: {
feature.clone(*feature.origin_surface_feature);
feature.translate(feature.world_tran);
if (feature.get_type() == Measure::SurfaceFeatureType::Circle) {
m_feature_circle_first.last_circle_feature = nullptr;
m_feature_circle_first.inv_zoom = 0;
m_feature_circle_second.last_circle_feature = nullptr;
m_feature_circle_second.inv_zoom = 0;
}
if (feature.get_type() == Measure::SurfaceFeatureType::Plane) {
if (cur_measuring) { update_world_plane_features(cur_measuring, feature); }
}
break;
}
default: {
break;
}
}
}
} // namespace GUI
} // namespace Slic3r

3
src/slic3r/GUI/Gizmos/GLGizmoMeasure.hpp
View File

@ -126,6 +126,7 @@ class GLGizmoMeasure : public GLGizmoBase
//std::vector<std::shared_ptr<GLModel>> m_plane_models_cache;
unsigned int m_last_active_item_imgui{0};
Vec3d m_buffered_distance;
Vec3d m_distance;
// used to keep the raycasters for point/center spheres
//std::vector<std::shared_ptr<PickRaycaster>> m_selected_sphere_raycasters;
std::optional<Measure::SurfaceFeature> m_curr_feature;
@ -192,6 +193,7 @@ protected:
void reset_all_pick();
void reset_gripper_pick(GripperType id,bool is_all = false);
void register_single_mesh_pick();
void update_single_mesh_pick(GLVolume* v);
void reset_all_feature();
void reset_feature1();
@ -199,6 +201,7 @@ protected:
bool is_two_volume_in_same_model_object();
Measure::Measuring* get_measuring_of_mesh(indexed_triangle_set *mesh, Transform3d &tran);
void update_world_plane_features(Measure::Measuring *cur_measuring, Measure::SurfaceFeature &feautre);
void update_feature_by_tran(Measure::SurfaceFeature & feature);
private:
// This map holds all translated description texts, so they can be easily referenced during layout calculations
// etc. When language changes, GUI is recreated and this class constructed again, so the change takes effect.

3
src/slic3r/GUI/ImGuiWrapper.cpp
View File

@ -150,6 +150,9 @@ const ImVec4 ImGuiWrapper::COL_BUTTON_HOVERED = COL_ORANGE_LIGHT;
const ImVec4 ImGuiWrapper::COL_BUTTON_ACTIVE = ImGuiWrapper::COL_BUTTON_HOVERED;
//BBS
const ImVec4 ImGuiWrapper::COL_RED = ImVec4(1.0f, 0.0f, 0.0f, 1.0f);
const ImVec4 ImGuiWrapper::COL_GREEN = ImVec4(0.0f, 1.0f, 0.0f, 1.0f);
const ImVec4 ImGuiWrapper::COL_BLUE = ImVec4(0.0f, 0.0f, 1.0f, 1.0f);
const ImVec4 ImGuiWrapper::COL_BLUE_LIGHT = ImVec4(0.122f, 0.557f, 0.918f, 1.0f);
const ImVec4 ImGuiWrapper::COL_GREEN_LIGHT = ImVec4(0.86f, 0.99f, 0.91f, 1.0f);
const ImVec4 ImGuiWrapper::COL_HOVER = { 0.933f, 0.933f, 0.933f, 1.0f };

3
src/slic3r/GUI/ImGuiWrapper.hpp
View File

@ -209,6 +209,9 @@ public:
static const ImVec4 COL_BUTTON_ACTIVE;
//BBS add more colors
static const ImVec4 COL_RED;
static const ImVec4 COL_GREEN;
static const ImVec4 COL_BLUE;
static const ImVec4 COL_BLUE_LIGHT;
static const ImVec4 COL_GREEN_LIGHT;
static const ImVec4 COL_HOVER;

12
src/slic3r/GUI/Selection.cpp
View File

@ -1552,6 +1552,18 @@ void Selection::translate(unsigned int object_idx, unsigned int instance_idx, co
this->set_bounding_boxes_dirty();
}
void Selection::translate(unsigned int object_idx, unsigned int instance_idx, unsigned int volume_idx, const Vec3d &displacement) {
if (!m_valid) return;
for (unsigned int i : m_list) {
GLVolume &v = *(*m_volumes)[i];
if (v.object_idx() == (int) object_idx && v.instance_idx() == (int) instance_idx && v.volume_idx() == (int) volume_idx)
v.set_volume_offset(v.get_volume_offset() + displacement);
}
this->set_bounding_boxes_dirty();
}
//BBS: add partplate related logic
void Selection::notify_instance_update(int object_idx, int instance_idx)
{

1
src/slic3r/GUI/Selection.hpp
View File

@ -366,6 +366,7 @@ public:
void translate(unsigned int object_idx, const Vec3d& displacement);
void translate(unsigned int object_idx, unsigned int instance_idx, const Vec3d& displacement);
void translate(unsigned int object_idx, unsigned int instance_idx, unsigned int volume_idx, const Vec3d &displacement);
//BBS: add partplate related logic
void notify_instance_update(int object_idx, int instance_idx);
// BBS