ongoing renaming

Documentation/doc/Documentation/packages.txt

@@ -102,7 +102,7 @@
 \package_listing{Scale_space_reconstruction_3}
 \package_listing{Advancing_front_surface_reconstruction}
 \package_listing{Polygonal_surface_reconstruction}
-\package_listing{Kinetic_shape_reconstruction}
+\package_listing{Kinetic_shape_partition}
 \package_listing{Optimal_transportation_reconstruction_2}
 
 \cgalPackageSection{PartGeometryProcessing,Geometry Processing}

Kinetic_shape_partition/examples/Kinetic_shape_partition/CMakeLists.txt

@@ -20,7 +20,7 @@ if(Boost_FOUND)
     message(STATUS "Found Eigen")
     include(CGAL_Eigen_support)
 
-    set(targets kinetic_partition)
+    set(targets kinetic_partition kinetic_2d)
 
     set(project_linked_libraries)
     set(project_compilation_definitions)

Kinetic_shape_partition/include/CGAL/KSP_2/Data_structure.h

@@ -10,22 +10,22 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_DATA_STRUCTURE_H
+#ifndef CGAL_KSP_2_DATA_STRUCTURE_H
-#define CGAL_KSR_2_DATA_STRUCTURE_H
+#define CGAL_KSP_2_DATA_STRUCTURE_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
-#include <CGAL/KSR/utils.h>
+#include <CGAL/KSP/utils.h>
-#include <CGAL/KSR_2/Support_line.h>
+#include <CGAL/KSP_2/Support_line.h>
-#include <CGAL/KSR_2/Segment.h>
+#include <CGAL/KSP_2/Segment.h>
-#include <CGAL/KSR_2/Vertex.h>
+#include <CGAL/KSP_2/Vertex.h>
 
-#include <CGAL/KSR_2/Meta_vertex.h>
+#include <CGAL/KSP_2/Meta_vertex.h>
 
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 template <typename GeomTraits>
@@ -41,11 +41,11 @@ public:
   typedef typename Kernel::Line_2 Line_2;
   typedef typename Kernel::Segment_2 Segment_2;
 
-  typedef KSR_2::Support_line<Kernel> Support_line;
+  typedef KSP_2::Support_line<Kernel> Support_line;
-  typedef KSR_2::Segment Segment;
+  typedef KSP_2::Segment Segment;
-  typedef KSR_2::Vertex<FT> Vertex;
+  typedef KSP_2::Vertex<FT> Vertex;
 
-  typedef KSR_2::Meta_vertex<Point_2> Meta_vertex;
+  typedef KSP_2::Meta_vertex<Point_2> Meta_vertex;
 
   typedef std::vector<Support_line> Support_lines;
   typedef std::vector<Segment> Segments;
@@ -109,7 +109,7 @@ public:
   std::string segment_str (std::size_t segment_idx) const
   {
     return "Segment[" + std::to_string(segment_idx)
-      + " from " + (segment(segment_idx).input_idx() == KSR::no_element() ?
+      + " from " + (segment(segment_idx).input_idx() == KSP::no_element() ?
                     "bbox" : std::to_string(segment(segment_idx).input_idx()))
       + "](v" + std::to_string(segment(segment_idx).source_idx())
       + "->v" + std::to_string(segment(segment_idx).target_idx())
@@ -213,7 +213,7 @@ public:
   { return meta_vertex_of_vertex(m_vertices[vertex_idx]); }
 
   bool has_meta_vertex (const Vertex& vertex) const
-  { return vertex.meta_vertex_idx() != KSR::no_element(); }
+  { return vertex.meta_vertex_idx() != KSP::no_element(); }
   bool has_meta_vertex (std::size_t vertex_idx) const
   { return has_meta_vertex (m_vertices[vertex_idx]); }
 
@@ -290,7 +290,7 @@ public:
 
   bool is_bbox_meta_edge (std::size_t source_idx, std::size_t target_idx) const
   {
-    std::size_t common_line_idx = KSR::no_element();
+    std::size_t common_line_idx = KSP::no_element();
 
     for (std::size_t support_line_idx : meta_vertex(source_idx).support_lines_idx())
       if (m_meta_vertices[target_idx].support_lines_idx().find(support_line_idx)
@@ -300,7 +300,7 @@ public:
         break;
       }
 
-    CGAL_assertion (common_line_idx != KSR::no_element());
+    CGAL_assertion (common_line_idx != KSP::no_element());
 
     return is_bbox_support_line (common_line_idx);
   }
@@ -363,11 +363,11 @@ public:
     return std::size_t(m_support_lines.size() - 1);
   }
 
-  Segment& add_segment (const Segment_2 segment, std::size_t input_idx = KSR::no_element())
+  Segment& add_segment (const Segment_2 segment, std::size_t input_idx = KSP::no_element())
   {
     // Check if support line exists first
     Support_line new_support_line (segment);
-    std::size_t support_line_idx = KSR::no_element();
+    std::size_t support_line_idx = KSP::no_element();
     for (std::size_t i = 0; i < number_of_support_lines(); ++ i)
       if (new_support_line == support_line(i))
       {
@@ -375,12 +375,12 @@ public:
         break;
       }
 
-    if (support_line_idx == KSR::no_element())
+    if (support_line_idx == KSP::no_element())
     {
       support_line_idx = number_of_support_lines();
       m_support_lines.push_back (new_support_line);
 
-      if (input_idx == KSR::no_element())
+      if (input_idx == KSP::no_element())
       {
         m_support_lines.back().minimum() = m_support_lines.back().to_1d (segment.source());
         m_support_lines.back().maximum() = m_support_lines.back().to_1d (segment.target());
@@ -393,7 +393,7 @@ public:
         for (std::size_t i = 0; i < 4; ++ i)
         {
           Point_2 point;
-          if (!KSR::intersection(m_support_lines[i].line(), m_support_lines.back().line(), point))
+          if (!KSP::intersection(m_support_lines[i].line(), m_support_lines.back().line(), point))
             continue;
 
           FT position = m_support_lines.back().to_1d (point);
@@ -436,7 +436,7 @@ public:
 
   std::size_t add_meta_vertex (const Point_2& point,
                                std::size_t support_line_idx_0,
-                               std::size_t support_line_idx_1 = KSR::no_element())
+                               std::size_t support_line_idx_1 = KSP::no_element())
   {
     // Avoid several points almost equal
     Point_2 p (1e-10 * std::floor(CGAL::to_double(point.x()) / 1e-10),
@@ -452,7 +452,7 @@ public:
 
     for (std::size_t support_line_idx : { support_line_idx_0, support_line_idx_1 })
     {
-      if (support_line_idx != KSR::no_element())
+      if (support_line_idx != KSP::no_element())
       {
         meta_vertex(meta_vertex_idx).support_lines_idx().insert (support_line_idx);
 
@@ -464,7 +464,7 @@ public:
     }
 
     // Special case = meta vertex is deadend of one line
-    if (support_line_idx_1 == KSR::no_element())
+    if (support_line_idx_1 == KSP::no_element())
     {
       meta_vertex(meta_vertex_idx).make_deadend_of (support_line_idx_0);
     }
@@ -585,7 +585,7 @@ public:
     m_vertices[source_idx].freeze(m_current_time);
 
     // Release other end
-    m_vertices[target_idx].meta_vertex_idx() = KSR::no_element();
+    m_vertices[target_idx].meta_vertex_idx() = KSP::no_element();
 
     return target_idx;
   }
@@ -598,7 +598,7 @@ public:
 };
 
 
-}} // namespace CGAL::KSR_3
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_3_DATA_STRUCTURE_H
+#endif // CGAL_KSP_2_DATA_STRUCTURE_H

Kinetic_shape_partition/include/CGAL/KSP_2/Event.h

@@ -10,17 +10,17 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_EVENT_H
+#ifndef CGAL_KSP_2_EVENT_H
-#define CGAL_KSR_2_EVENT_H
+#define CGAL_KSP_2_EVENT_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
-#include <CGAL/KSR/utils.h>
+#include <CGAL/KSP/utils.h>
 
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 template <typename GeomTraits>
@@ -68,7 +68,7 @@ public:
 };
 
 
-}} // namespace CGAL::KSR_2
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_2_EVENT_H
+#endif // CGAL_KSP_2_EVENT_H

Kinetic_shape_partition/include/CGAL/KSP_2/Event_queue.h

@@ -10,13 +10,13 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_EVENT_QUEUE_H
+#ifndef CGAL_KSP_2_EVENT_QUEUE_H
-#define CGAL_KSR_2_EVENT_QUEUE_H
+#define CGAL_KSP_2_EVENT_QUEUE_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
-#include <CGAL/KSR/utils.h>
+#include <CGAL/KSP/utils.h>
-#include <CGAL/KSR_2/Event.h>
+#include <CGAL/KSP_2/Event.h>
 
 #include <boost/multi_index_container.hpp>
 #include <boost/multi_index/ordered_index.hpp>
@@ -26,7 +26,7 @@
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 template <typename GeomTraits>
@@ -36,7 +36,7 @@ public:
   typedef GeomTraits Kernel;
   typedef typename Kernel::FT FT;
 
-  typedef KSR_2::Event<GeomTraits> Event;
+  typedef KSP_2::Event<GeomTraits> Event;
 
 private:
 
@@ -101,7 +101,7 @@ public:
 };
 
 
-}} // namespace CGAL::KSR_2
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_2_EVENT_QUEUE_H
+#endif // CGAL_KSP_2_EVENT_QUEUE_H

Kinetic_shape_partition/include/CGAL/KSP_2/Meta_vertex.h

@@ -10,18 +10,18 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_META_VERTEX_H
+#ifndef CGAL_KSP_2_META_VERTEX_H
-#define CGAL_KSR_2_META_VERTEX_H
+#define CGAL_KSP_2_META_VERTEX_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
-#include <CGAL/KSR/utils.h>
+#include <CGAL/KSP/utils.h>
 #include <set>
 
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 template <typename Point_2>
@@ -58,7 +58,7 @@ public:
 };
 
 
-}} // namespace CGAL::KSR_2
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_2_META_VERTEX_H
+#endif // CGAL_KSP_2_META_VERTEX_H

Kinetic_shape_partition/include/CGAL/KSP_2/Segment.h

@@ -10,15 +10,15 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_SEGMENT_H
+#ifndef CGAL_KSP_2_SEGMENT_H
-#define CGAL_KSR_2_SEGMENT_H
+#define CGAL_KSP_2_SEGMENT_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 class Segment
@@ -48,7 +48,7 @@ public:
 };
 
 
-}} // namespace CGAL::KSR_2
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_2_POLYGON_H
+#endif // CGAL_KSP_2_POLYGON_H

Kinetic_shape_partition/include/CGAL/KSP_2/Support_line.h

@@ -10,18 +10,18 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_SUPPORT_LINE_H
+#ifndef CGAL_KSP_2_SUPPORT_LINE_H
-#define CGAL_KSR_2_SUPPORT_LINE_H
+#define CGAL_KSP_2_SUPPORT_LINE_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
-#include <CGAL/KSR/utils.h>
+#include <CGAL/KSP/utils.h>
-#include <CGAL/KSR_2/Vertex.h>
+#include <CGAL/KSP_2/Vertex.h>
 
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 template <typename GeomTraits>
@@ -55,7 +55,7 @@ public:
     , m_connected_components(1)
   {
     m_origin = CGAL::midpoint (segment.source(), segment.target());
-    m_vector = KSR::normalize (Vector_2 (segment.source(), segment.target()));
+    m_vector = KSP::normalize (Vector_2 (segment.source(), segment.target()));
   }
 
   Line_2 line() const { return Line_2 (m_origin, m_vector); }
@@ -121,7 +121,7 @@ bool operator==<CGAL::Exact_predicates_exact_constructions_kernel>
 }
 #endif
 
-}} // namespace CGAL::KSR_2
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_2_SUPPORT_LINE_H
+#endif // CGAL_KSP_2_SUPPORT_LINE_H

Kinetic_shape_partition/include/CGAL/KSP_2/Vertex.h

@@ -10,17 +10,17 @@
 //
 // Author(s)     : Simon Giraudot
 
-#ifndef CGAL_KSR_2_VERTEX_H
+#ifndef CGAL_KSP_2_VERTEX_H
-#define CGAL_KSR_2_VERTEX_H
+#define CGAL_KSP_2_VERTEX_H
 
 //#include <CGAL/license/Kinetic_shape_reconstruction.h>
 
-#include <CGAL/KSR/utils.h>
+#include <CGAL/KSP/utils.h>
 
 namespace CGAL
 {
 
-namespace KSR_2
+namespace KSP_2
 {
 
 template <typename FT>
@@ -39,13 +39,13 @@ public:
   Vertex () { }
 
   Vertex (FT point,
-          std::size_t segment_idx = KSR::no_element(),
+          std::size_t segment_idx = KSP::no_element(),
           unsigned int remaining_intersections = 0)
     : m_point (point)
     , m_direction (0)
     , m_segment_idx (segment_idx)
     , m_remaining_intersections(remaining_intersections)
-    , m_meta_vertex_idx (KSR::no_element())
+    , m_meta_vertex_idx (KSP::no_element())
   {
   }
 
@@ -82,7 +82,7 @@ public:
 };
 
 
-}} // namespace CGAL::KSR_2
+}} // namespace CGAL::KSP_2
 
 
-#endif // CGAL_KSR_2_VERTEX_H
+#endif // CGAL_KSP_2_VERTEX_H

Kinetic_shape_partition/include/CGAL/Kinetic_shape_partition_2.h

@@ -43,15 +43,15 @@ public:
   typedef typename Kernel::Ray_2 Ray_2;
   typedef typename Kernel::Vector_2 Vector_2;
 
-  typedef KSR_2::Data_structure<Kernel> Data;
+  typedef KSP_2::Data_structure<Kernel> Data;
   typedef typename Data::Support_line Support_line;
   typedef typename Data::Segment Segment;
   typedef typename Data::Vertex Vertex;
 
   typedef typename Data::Meta_vertex Meta_vertex;
 
-  typedef KSR_2::Event<Kernel> Event;
+  typedef KSP_2::Event<Kernel> Event;
-  typedef KSR_2::Event_queue<Kernel> Event_queue;
+  typedef KSP_2::Event_queue<Kernel> Event_queue;
 
 private:
 
@@ -124,7 +124,7 @@ public:
       const Support_line& support_line = m_data.support_line(i);
       for (std::size_t s : support_line.segments_idx())
       {
-        if (s == KSR::no_element())
+        if (s == KSP::no_element())
         {
           if (verbose)
             std::cerr << "ERROR: Support_line[" << i
@@ -268,7 +268,7 @@ public:
                     << "] is on Segment[-1]" << std::endl;
         return false;
       }
-      // if (vertex.meta_vertex_idx() == KSR::no_element())
+      // if (vertex.meta_vertex_idx() == KSP::no_element())
       // {
       //   if (verbose)
       //     std::cerr << "ERROR: Vertex[" << i
@@ -618,7 +618,7 @@ private:
                          != m_data.segment(segment_idx_b).support_line_idx());
 
          Point_2 point;
-         if (!KSR::intersection(segments_2[segment_idx_a], segments_2[segment_idx_b], point))
+         if (!KSP::intersection(segments_2[segment_idx_a], segments_2[segment_idx_b], point))
            return;
 
          todo.push_back (std::make_tuple (point,
@@ -712,7 +712,7 @@ private:
             continue;
 
           Point_2 point;
-          if (!KSR::intersection(si, segments_2[segment_idx], point))
+          if (!KSP::intersection(si, segments_2[segment_idx], point))
             continue;
 
           Support_line& sli = m_data.support_line_of_vertex(vertex);
@@ -896,7 +896,7 @@ private:
       m_data.vertex(ev.vertex_idx()).remaining_intersections() --;
 
     // If there are still intersections to be made, propagate
-    std::size_t new_vertex_idx = KSR::no_element();
+    std::size_t new_vertex_idx = KSP::no_element();
     if (m_data.vertex(ev.vertex_idx()).remaining_intersections() != 0)
       new_vertex_idx = m_data.propagate_segment (ev.vertex_idx());
     else
@@ -912,7 +912,7 @@ private:
     std::vector<Event> events;
     m_queue.erase_vertex_events (old_vertex, events);
 
-    if (new_vertex != KSR::no_element())
+    if (new_vertex != KSP::no_element())
       for (Event& ev : events)
       {
         ev.vertex_idx() = new_vertex;
@@ -934,13 +934,13 @@ private:
 
       CGAL_assertion (support_line.meta_vertices_idx().size() > 1);
 
-      std::size_t beginning = KSR::no_element();
+      std::size_t beginning = KSP::no_element();
-      std::size_t end = KSR::no_element();
+      std::size_t end = KSP::no_element();
 
       for (std::size_t segment_idx : support_line.segments_idx())
       {
         // New segment
-        if (beginning == KSR::no_element())
+        if (beginning == KSP::no_element())
         {
           beginning = m_data.source_of_segment(segment_idx).meta_vertex_idx();
           end = m_data.target_of_segment(segment_idx).meta_vertex_idx();