Tech ENABLE_CGAL_BOUNDING_SPHERE set as default

src/libslic3r/Technologies.hpp

@@ -61,7 +61,5 @@
 // Enable imgui dialog which allows to set the parameters used to export binarized gcode
 #define ENABLE_BINARIZED_GCODE_DEBUG_WINDOW 0
 
-// Enable use selection's bounding sphere center as pivot for rotations
-#define ENABLE_CGAL_BOUNDING_SPHERE 1
 
 #endif // _prusaslicer_technologies_h_

src/slic3r/GUI/Gizmos/GLGizmoRotate.cpp

@@ -204,20 +204,11 @@ void GLGizmoRotate::init_data_from_selection(const Selection& selection)
     const auto [box, box_trafo] = m_force_local_coordinate ?
         selection.get_bounding_box_in_reference_system(ECoordinatesType::Local) : selection.get_bounding_box_in_current_reference_system();
     m_bounding_box = box;
-#if ENABLE_CGAL_BOUNDING_SPHERE
     const std::pair<Vec3d, double> sphere = selection.get_bounding_sphere();
     m_center = sphere.first;
     m_radius = Offset + sphere.second;
-#else
-    m_center = box_trafo.translation();
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
     m_orient_matrix = box_trafo;
-
-#if ENABLE_CGAL_BOUNDING_SPHERE
     m_orient_matrix.translation() = m_center;
-#else
-    m_radius = Offset + m_bounding_box.radius();
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
     m_snap_coarse_in_radius = m_radius / 3.0f;
     m_snap_coarse_out_radius = 2.0f * m_snap_coarse_in_radius;
     m_snap_fine_in_radius = m_radius;

src/slic3r/GUI/Selection.cpp

@@ -29,11 +29,9 @@
 #include <boost/algorithm/string/predicate.hpp>
 #include <boost/log/trivial.hpp>
 
-#if ENABLE_CGAL_BOUNDING_SPHERE
 #include <CGAL/Simple_cartesian.h>
 #include <CGAL/Min_sphere_of_spheres_d.h>
 #include <CGAL/Min_sphere_of_points_d_traits_3.h>
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
 
 static const Slic3r::ColorRGBA UNIFORM_SCALE_COLOR     = Slic3r::ColorRGBA::ORANGE();
 static const Slic3r::ColorRGBA SOLID_PLANE_COLOR       = Slic3r::ColorRGBA::ORANGE();
@@ -912,7 +910,6 @@ BoundingBoxf Selection::get_screen_space_bounding_box()
     return ss_box;
 }
 
-#if ENABLE_CGAL_BOUNDING_SPHERE
 const std::pair<Vec3d, double> Selection::get_bounding_sphere() const
 {
     if (!m_bounding_sphere.has_value()) {
@@ -947,7 +944,6 @@ const std::pair<Vec3d, double> Selection::get_bounding_sphere() const
 
     return *m_bounding_sphere;
 }
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
 
 void Selection::setup_cache()
 {
@@ -1036,27 +1032,15 @@ void Selection::rotate(const Vec3d& rotation, TransformationType transformation_
                 rotation_matrix = inst_matrix_no_offset.inverse() * inst_rotation_matrix * rotation_matrix * inst_rotation_matrix.inverse() * inst_matrix_no_offset;
 
                 // rotate around selection center
-#if ENABLE_CGAL_BOUNDING_SPHERE
                 const Vec3d inst_pivot = inst_trafo.get_matrix_no_offset().inverse() * (m_cache.rotation_pivot - inst_trafo.get_offset());
-#else
-                const Vec3d inst_pivot = inst_trafo.get_matrix_no_offset().inverse() * (m_cache.dragging_center - inst_trafo.get_offset());
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
                 rotation_matrix = Geometry::translation_transform(inst_pivot) * rotation_matrix * Geometry::translation_transform(-inst_pivot);
             }
-#if ENABLE_CGAL_BOUNDING_SPHERE
             transform_instance_relative(v, volume_data, transformation_type, rotation_matrix, m_cache.rotation_pivot);
-#else
-            transform_instance_relative(v, volume_data, transformation_type, rotation_matrix, m_cache.dragging_center);
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
         }
         else {
             if (!is_single_volume_or_modifier()) {
                 assert(transformation_type.world());
-#if ENABLE_CGAL_BOUNDING_SPHERE
                 transform_volume_relative(v, volume_data, transformation_type, rotation_matrix, m_cache.rotation_pivot);
-#else
-                transform_volume_relative(v, volume_data, transformation_type, rotation_matrix, m_cache.dragging_center);
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
             }
             else {
                 if (transformation_type.instance()) {
@@ -1082,11 +1066,7 @@ void Selection::rotate(const Vec3d& rotation, TransformationType transformation_
                             vol_rotation_matrix.inverse() * inst_scale_matrix * vol_matrix_no_offset;
                     }
                 }
-#if ENABLE_CGAL_BOUNDING_SPHERE
                 transform_volume_relative(v, volume_data, transformation_type, rotation_matrix, m_cache.rotation_pivot);
-#else
-                transform_volume_relative(v, volume_data, transformation_type, rotation_matrix, m_cache.dragging_center);
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
             }
         }
     }
@@ -2095,10 +2075,7 @@ void Selection::set_caches()
             m_cache.sinking_volumes.push_back(i);
     }
     m_cache.dragging_center = get_bounding_box().center();
-#if ENABLE_CGAL_BOUNDING_SPHERE
     m_cache.rotation_pivot = get_bounding_sphere().first;
-//    m_cache.dragging_center = m_cache.rotation_pivot;
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
 }
 
 void Selection::do_add_volume(unsigned int volume_idx)

src/slic3r/GUI/Selection.hpp

@@ -114,9 +114,7 @@ private:
         ObjectIdxsToInstanceIdxsMap content;
         // List of ids of the volumes which are sinking when starting dragging
         std::vector<unsigned int> sinking_volumes;
-#if ENABLE_CGAL_BOUNDING_SPHERE
         Vec3d rotation_pivot;
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
     };
 
     // Volumes owned by GLCanvas3D.
@@ -153,9 +151,7 @@ private:
     // and transform to place and orient it in world coordinates
     std::optional<std::pair<BoundingBoxf3, Transform3d>> m_bounding_box_in_current_reference_system;
 
-#if ENABLE_CGAL_BOUNDING_SPHERE
     std::optional<std::pair<Vec3d, double>> m_bounding_sphere;
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
 
 #if ENABLE_RENDER_SELECTION_CENTER
     GLModel m_vbo_sphere;
@@ -302,10 +298,8 @@ public:
     // Returns the screen space bounding box
     BoundingBoxf get_screen_space_bounding_box();
 
-#if ENABLE_CGAL_BOUNDING_SPHERE
-    // Returns the bounding sphere
+    // Returns the bounding sphere: first = center, second = radius
     const std::pair<Vec3d, double> get_bounding_sphere() const;
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
 
     void setup_cache();
 
@@ -372,9 +366,7 @@ private:
         m_full_unscaled_instance_bounding_box.reset(); m_full_scaled_instance_bounding_box.reset();
         m_full_unscaled_instance_local_bounding_box.reset();
         m_bounding_box_in_current_reference_system.reset();
-#if ENABLE_CGAL_BOUNDING_SPHERE
         m_bounding_sphere.reset();
-#endif // ENABLE_CGAL_BOUNDING_SPHERE
     }
     void render_synchronized_volumes();
     void render_bounding_box(const BoundingBoxf3& box, const Transform3d& trafo, const ColorRGB& color);