gui/gdc-broken_edge.cc
changeset 1990 15fb7a4ea6be
parent 1831 75ab76fc4bf2
equal deleted inserted replaced
1:92e9dab7739b 2:195a48911d05
     1 #include "graph_displayer_canvas.h"
     1 #include "graph_displayer_canvas.h"
     2 #include <cmath>
     2 #include <cmath>
     3 
     3 
     4 GraphDisplayerCanvas::BrokenEdge::BrokenEdge(Gnome::Canvas::Group & g, Gnome::Canvas::Points p, GraphDisplayerCanvas & gc) : Line(g), gdc(gc), isbutton(false)
     4 GraphDisplayerCanvas::BrokenEdge::BrokenEdge(Gnome::Canvas::Group & g, Edge _edge, GraphDisplayerCanvas & gc) : Line(g), edge(_edge), gdc(gc), isbutton(false)
     5 {
     5 {
     6   my_points=new Gnome::Art::Point[3];
       
     7 
       
     8   arrow=new Gnome::Canvas::Polygon(g);
     6   arrow=new Gnome::Canvas::Polygon(g);
     9   *arrow << Gnome::Canvas::Properties::fill_color("red");
     7   *arrow << Gnome::Canvas::Properties::fill_color("red");
    10   arrow->signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::BrokenEdge::edgeFormerEventHandler));
     8   arrow->signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::BrokenEdge::edgeFormerEventHandler));
    11   arrow->lower_to_bottom();
     9   arrow->lower_to_bottom();
    12   setPoints(p);
    10   draw();
    13 }
    11 }
    14 
    12 
    15 GraphDisplayerCanvas::BrokenEdge::~BrokenEdge()
    13 GraphDisplayerCanvas::BrokenEdge::~BrokenEdge()
    16 {
    14 {
    17   if(arrow)delete(arrow);
    15   if(arrow)delete(arrow);
    18 }
    16 }
    19 
    17 
    20 void GraphDisplayerCanvas::BrokenEdge::setPoints(Gnome::Canvas::Points p, bool move)
    18 void GraphDisplayerCanvas::BrokenEdge::draw()
    21 {
    19 {
    22   bool set_arrow=false;
    20   MapStorage& ms = gdc.mytab.mapstorage;
    23   //red arrow losts its position-right button
    21 
    24   if(!move)
    22   // update the edge
    25     {
    23   {
    26       if(p.size()==2)
    24     Gnome::Canvas::Points points;
    27 	{
    25     Node source = ms.graph.source(edge);
    28 	  set_arrow=true;
    26     Node target = ms.graph.target(edge);
    29 	  Gnome::Canvas::Points points_with_center;
    27     points.push_back(Gnome::Art::Point(ms.coords[source].x,
    30 	  points_with_center.push_back(my_points[0]=p[0]);
    28           ms.coords[source].y));
    31 	  points_with_center.push_back(my_points[1]=Gnome::Art::Point( (p[0].get_x()+p[1].get_x())/2+0 , (p[0].get_y()+p[1].get_y())/2 )+0 );
    29     points.push_back(Gnome::Art::Point(ms.arrow_pos[edge].x,
    32 	  points_with_center.push_back(my_points[2]=p[1]);
    30           ms.arrow_pos[edge].y));
    33 	  property_points().set_value(points_with_center);
    31     points.push_back(Gnome::Art::Point(ms.coords[target].x,
    34 	}  
    32           ms.coords[target].y));
    35       if(p.size()==3)
    33     property_points().set_value(points);
    36 	{
    34   }
    37 	  set_arrow=true;
    35 
    38 	  property_points().set_value(p);
    36   // update the arrow
    39 	  for(int i=0;i<3;i++)
    37   {
    40 	    {
    38     //calculating coordinates of the direction indicator arrow
    41 	      my_points[i]=p[i];
    39     XY target(ms.coords[ms.graph.target(edge)]);
    42 	    }
    40     XY center(ms.arrow_pos[edge]);
    43 	}
    41 
       
    42     XY unit_vector_in_dir(target-center);
       
    43     double length=sqrt( unit_vector_in_dir.normSquare() );
       
    44 
       
    45     //       std::cout << target << " - " << center << " = " << unit_vector_in_dir << "    / " <<unit_vector_in_dir.normSquare() ;
       
    46     unit_vector_in_dir/=length;
       
    47     //       std::cout << " = " << unit_vector_in_dir << std::endl;
       
    48 
       
    49     XY unit_norm_vector(0-unit_vector_in_dir.y, unit_vector_in_dir.x);
       
    50     //       std::cout << unit_norm_vector << std::endl;
       
    51 
       
    52     {      
       
    53       //       /\       // top
       
    54       //      /  \      //
       
    55       //      -  -      // c(enter)l(eft), ccl, ccr, cr
       
    56       //       ||       //
       
    57       //       ||       // b(ottom)l, br
    44     }
    58     }
    45   else
       
    46     {
       
    47       //arrow keeps its position-left button
       
    48 
    59 
    49 //       if(p.size()==2)
    60     double size=3;
    50 //       	{
       
    51 //       	  Gnome::Canvas::Points points;
       
    52 //       	  my_points[0]=p[0];
       
    53 //       	  my_points[2]=p[1];
       
    54 //       	  for(int i=0;i<3;i++)
       
    55 //       	    {
       
    56 //       	      points.push_back(my_points[i]);
       
    57 //       	    }
       
    58 //       	  property_points().set_value(points);
       
    59 //       	}
       
    60       set_arrow=true;
       
    61 
    61 
    62       //////////////////////////////////////////////////////////////////////////////////////////////////////
    62     XY bl (center - unit_vector_in_dir * 3 * size + unit_norm_vector * size );
    63       /////////// keeps shape-with scalar multiplication - version 2.
    63     XY br (center - unit_vector_in_dir * 3 * size - unit_norm_vector * size );
    64       //////////////////////////////////////////////////////////////////////////////////////////////////////
    64     XY ccl(center + unit_vector_in_dir *  size + unit_norm_vector * size );
       
    65     XY ccr(center + unit_vector_in_dir *  size - unit_norm_vector * size );
       
    66     XY cl (center + unit_vector_in_dir *  size + unit_norm_vector * 2 * size );
       
    67     XY cr (center + unit_vector_in_dir *  size - unit_norm_vector * 2 * size );
       
    68     XY top(center + unit_vector_in_dir * 3 * size);
    65 
    69 
    66       if(p.size()==2)
    70     //std::cout << bl << " " << br << " " << ccl << " "  << ccr << " " << cl << " " << cr << " " << top << std::endl;
    67       	{
       
    68 	  //old vector from one to the other node - a
       
    69 	  xy<double> a_v(my_points[2].get_x()-my_points[0].get_x(),my_points[2].get_y()-my_points[0].get_y());
       
    70 	  //new vector from one to the other node - b
       
    71 	  xy<double> b_v(p[1].get_x()-p[0].get_x(),p[1].get_y()-p[0].get_y());
       
    72 
    71 
    73 	  double absa=sqrt(a_v.normSquare());
    72     Gnome::Canvas::Points arrow_points;
    74 	  double absb=sqrt(b_v.normSquare());
    73     arrow_points.push_back(Gnome::Art::Point( bl.x , bl.y  ) );
       
    74     arrow_points.push_back(Gnome::Art::Point( br.x , br.y  ) );
       
    75     arrow_points.push_back(Gnome::Art::Point( ccr.x, ccr.y ) );
       
    76     arrow_points.push_back(Gnome::Art::Point( cr.x , cr.y  ) );
       
    77     arrow_points.push_back(Gnome::Art::Point( top.x, top.y ) );
       
    78     arrow_points.push_back(Gnome::Art::Point( cl.x , cl.y  ) );
       
    79     arrow_points.push_back(Gnome::Art::Point( ccl.x, ccl.y ) );
    75 
    80 
    76 	  if((absa!=0)&&(absb!=0))
    81     arrow->property_points().set_value(arrow_points);
    77 	    {
    82   }
    78 	      //old vector from one node to the breakpoint - c
       
    79 	      xy<double> c_v(my_points[1].get_x()-my_points[0].get_x(),my_points[1].get_y()-my_points[0].get_y());
       
    80 
       
    81 	      //unit vector with the same direction to a_v
       
    82 	      xy<double> a_v_u(a_v.x/absa,a_v.y/absa);
       
    83 
       
    84 	      //normal vector of unit vector with the same direction to a_v
       
    85 	      xy<double> a_v_u_n(((-1)*a_v_u.y),a_v_u.x);
       
    86 
       
    87 	      //unit vector with the same direction to b_v
       
    88 	      xy<double> b_v_u(b_v.x/absb,b_v.y/absb);
       
    89 
       
    90 	      //normal vector of unit vector with the same direction to b_v
       
    91 	      xy<double> b_v_u_n(((-1)*b_v_u.y),b_v_u.x);
       
    92 
       
    93 	      //vector c in a_v_u and a_v_u_n co-ordinate system
       
    94 	      xy<double> c_a(c_v*a_v_u,c_v*a_v_u_n);
       
    95 
       
    96 	      //new vector from one node to the breakpoint - d - we have to calculate this one
       
    97 	      xy<double> d_v=absb/absa*(c_a.x*b_v_u+c_a.y*b_v_u_n);
       
    98 
       
    99 	      my_points[1]=Gnome::Art::Point(d_v.x+p[0].get_x(),d_v.y+p[0].get_y());
       
   100 
       
   101 	      my_points[0]=p[0];
       
   102 	      my_points[2]=p[1];
       
   103 	  
       
   104 	      Gnome::Canvas::Points points;
       
   105 	      for(int i=0;i<3;i++)
       
   106 		{
       
   107 		  points.push_back(my_points[i]);
       
   108 		}
       
   109 	      property_points().set_value(points);
       
   110 	    }
       
   111 	  else
       
   112 	    {
       
   113 	      //if distance is 0, segmentation would be occured
       
   114 	      //in calculations, because of division by zero
       
   115 	      //But we have luck: the edge cannot be seen in
       
   116 	      //this case, so no update needed
       
   117 	      set_arrow=false;
       
   118 	    }
       
   119 	}
       
   120     }
       
   121   if(set_arrow)
       
   122     {
       
   123       //calculating coordinates of the direction indicator arrow
       
   124 
       
   125       xy<gdouble> target( my_points[2].get_x(), my_points[2].get_y() );
       
   126       xy<gdouble> center( my_points[1].get_x(), my_points[1].get_y() );
       
   127 
       
   128       xy<gdouble> unit_vector_in_dir(target-center);
       
   129       double length=sqrt( unit_vector_in_dir.normSquare() );
       
   130 
       
   131       //       std::cout << target << " - " << center << " = " << unit_vector_in_dir << "    / " <<unit_vector_in_dir.normSquare() ;
       
   132       unit_vector_in_dir/=length;
       
   133       //       std::cout << " = " << unit_vector_in_dir << std::endl;
       
   134 
       
   135       xy<gdouble> unit_norm_vector(0-unit_vector_in_dir.y, unit_vector_in_dir.x);
       
   136       //       std::cout << unit_norm_vector << std::endl;
       
   137 
       
   138       {      
       
   139 	//       /\       // top
       
   140 	//      /  \      //
       
   141 	//      -  -      // c(enter)l(eft), ccl, ccr, cr
       
   142 	//       ||       //
       
   143 	//       ||       // b(ottom)l, br
       
   144       }
       
   145 
       
   146       double size=3;
       
   147 
       
   148       xy<gdouble> bl (center - unit_vector_in_dir * 3 * size + unit_norm_vector * size );
       
   149       xy<gdouble> br (center - unit_vector_in_dir * 3 * size - unit_norm_vector * size );
       
   150       xy<gdouble> ccl(center + unit_vector_in_dir *  size + unit_norm_vector * size );
       
   151       xy<gdouble> ccr(center + unit_vector_in_dir *  size - unit_norm_vector * size );
       
   152       xy<gdouble> cl (center + unit_vector_in_dir *  size + unit_norm_vector * 2 * size );
       
   153       xy<gdouble> cr (center + unit_vector_in_dir *  size - unit_norm_vector * 2 * size );
       
   154       xy<gdouble> top(center + unit_vector_in_dir * 3 * size);
       
   155 	 
       
   156       //std::cout << bl << " " << br << " " << ccl << " "  << ccr << " " << cl << " " << cr << " " << top << std::endl;
       
   157 
       
   158       Gnome::Canvas::Points arrow_points;
       
   159       arrow_points.push_back(Gnome::Art::Point( bl.x , bl.y  ) );
       
   160       arrow_points.push_back(Gnome::Art::Point( br.x , br.y  ) );
       
   161       arrow_points.push_back(Gnome::Art::Point( ccr.x, ccr.y ) );
       
   162       arrow_points.push_back(Gnome::Art::Point( cr.x , cr.y  ) );
       
   163       arrow_points.push_back(Gnome::Art::Point( top.x, top.y ) );
       
   164       arrow_points.push_back(Gnome::Art::Point( cl.x , cl.y  ) );
       
   165       arrow_points.push_back(Gnome::Art::Point( ccl.x, ccl.y ) );
       
   166 
       
   167       arrow->property_points().set_value(arrow_points);
       
   168     }
       
   169 }
    83 }
   170 
    84 
   171 bool GraphDisplayerCanvas::BrokenEdge::edgeFormerEventHandler(GdkEvent* e)
    85 bool GraphDisplayerCanvas::BrokenEdge::edgeFormerEventHandler(GdkEvent* e)
   172 {
    86 {
   173   switch(e->type)
    87   switch(e->type)
   201 	  double dx=e->motion.x-clicked_x;
   115 	  double dx=e->motion.x-clicked_x;
   202 	  double dy=e->motion.y-clicked_y;
   116 	  double dy=e->motion.y-clicked_y;
   203 
   117 
   204 	  Gnome::Canvas::Points points_new;
   118 	  Gnome::Canvas::Points points_new;
   205 
   119 
   206 	  points_new.push_back(my_points[0]);
   120           gdc.mytab.mapstorage.arrow_pos.set(edge, gdc.mytab.mapstorage.arrow_pos[edge] + XY(dx, dy));
   207 	  points_new.push_back(my_points[1]=Gnome::Art::Point(my_points[1].get_x()+dx,my_points[1].get_y()+dy));
       
   208 	  points_new.push_back(my_points[2]);
       
   209 
   121 
   210 	  setPoints(points_new);
   122 	  draw();
   211 	  gdc.textReposition(xy<double>(my_points[1].get_x(),my_points[1].get_y()));
   123 	  gdc.textReposition(gdc.mytab.mapstorage.arrow_pos[edge]);
   212 
   124 
   213 	  clicked_x=e->motion.x;
   125 	  clicked_x=e->motion.x;
   214 	  clicked_y=e->motion.y;
   126 	  clicked_y=e->motion.y;
   215 
   127 
   216 	}
   128 	}
   217     default: break;
   129     default: break;
   218     }
   130     }
   219 
   131 
   220   return true;
   132   return true;
   221 }
   133 }
   222 
       
   223 xy<double> GraphDisplayerCanvas::BrokenEdge::getArrowPos()
       
   224 {
       
   225   xy<double> ret_val(my_points[1].get_x(),my_points[1].get_y());
       
   226   return ret_val;
       
   227 }