#include <graph_displayer_canvas.h>

 #include <broken_edge.h>

 #include <math.h>

 bool GraphDisplayerCanvas::on_expose_event(GdkEventExpose *event)

 {

   Gnome::Canvas::CanvasAA::on_expose_event(event);

   //usleep(10000);

   //rezoom();

   return true;

 }

 void GraphDisplayerCanvas::changeEditorialTool(int newtool)

 {

   if(actual_tool!=newtool)

     {

       actual_handler.disconnect();

       switch(actual_tool)

 	{

 	case CREATE_EDGE:

 	  {

 	    GdkEvent * generated=new GdkEvent();

 	    generated->type=GDK_BUTTON_RELEASE;

 	    generated->button.button=3;

 	    createEdgeEventHandler(generated);      

 	    break;

 	  }

 	case EDGE_MAP_EDIT:

 	  //has to do the same thing as in the case of NODE_MAP_EDIT

 	case NODE_MAP_EDIT:

 	  {

 	    GdkEvent * generated=new GdkEvent();

 	    generated->type=GDK_KEY_PRESS;

 	    ((GdkEventKey*)generated)->keyval=GDK_KP_Enter;

 	    entryWidgetChangeHandler(generated);

 	    entrywidget.hide();

 	    break;

 	  }

 	default:

 	  break;

 	}

       active_item=NULL; 

       target_item=NULL; 

       active_edge=INVALID;	

       active_node=INVALID;	

       actual_tool=newtool;

       switch(newtool)

 	{

 	case MOVE:

 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::moveEventHandler), false);

 	  break;

 	case CREATE_NODE:

 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::createNodeEventHandler), false);

 	  break;

 	case CREATE_EDGE:

 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::createEdgeEventHandler), false);

 	  break;

 	case ERASER:

 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::eraserEventHandler), false);

 	  break;

 	case EDGE_MAP_EDIT:

 	  grab_focus();

 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::edgeMapEditEventHandler), false);

 	  break;

 	case NODE_MAP_EDIT:

 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::nodeMapEditEventHandler), false);

 	  break;

 	default:

 	  break;

 	}

     }

 }

 int GraphDisplayerCanvas::getActualTool()

 {

   return actual_tool;

 }

 bool GraphDisplayerCanvas::moveEventHandler(GdkEvent* e)

 {

   switch(e->type)

   {

     case GDK_BUTTON_PRESS:

       //we mark the location of the event to be able to calculate parameters of dragging

       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

       active_item=(get_item_at(clicked_x, clicked_y));

       active_node=INVALID;

       for (NodeIt i(g); i!=INVALID; ++i)

 	{

 	  if(nodesmap[i]==active_item)

 	    {

 	      active_node=i;

 	    }

 	}

       switch(e->button.button)

 	{

 	case 3:      

 	  isbutton=3;

 	  break;

 	default:

 	  isbutton=1;

 	  break;

 	}

       break;

     case GDK_BUTTON_RELEASE:

       isbutton=0;

       active_item=NULL;

       active_node=INVALID;

       break;

     case GDK_MOTION_NOTIFY:

       //we only have to do sg. if the mouse button is pressed AND the click was on a node that was found in the set of nodes

       if(active_node!=INVALID)

       {

 	//new coordinates will be the old values,

 	//because the item will be moved to the

 	//new coordinate therefore the new movement

 	//has to be calculated from here

 	double new_x, new_y;

 	window_to_world (e->motion.x, e->motion.y, new_x, new_y);

         double dx=new_x-clicked_x;

         double dy=new_y-clicked_y;

 	//repositioning node and its text

         active_item->move(dx, dy);

 	nodetextmap[active_node]->move(dx, dy);

         clicked_x=new_x;

         clicked_y=new_y;

 	//all the edges connected to the moved point has to be redrawn

         EdgeIt ei;

         g.firstOut(ei,active_node);

         for(;ei!=INVALID;g.nextOut(ei))

         {

             Gnome::Canvas::Points coos;

             double x1, x2, y1, y2;

             nodesmap[g.source(ei)]->get_bounds(x1, y1, x2, y2);

             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));

             nodesmap[g.target(ei)]->get_bounds(x1, y1, x2, y2);

             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));

 	    if(isbutton==3)

 	      {

 		edgesmap[ei]->setPoints(coos);

 	      }

 	    else

 	      {

 		edgesmap[ei]->setPoints(coos,true);

 	      }

 	    //reposition of edgetext

 	    xy<double> text_pos=edgesmap[ei]->getArrowPos();

 	    text_pos+=(xy<double>(10,10));

 	    edgetextmap[ei]->property_x().set_value(text_pos.x);

 	    edgetextmap[ei]->property_y().set_value(text_pos.y);

         }

         g.firstIn(ei,active_node);

         for(;ei!=INVALID;g.nextIn(ei))

         {

             Gnome::Canvas::Points coos;

             double x1, x2, y1, y2;

             nodesmap[g.source(ei)]->get_bounds(x1, y1, x2, y2);

             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));

             nodesmap[g.target(ei)]->get_bounds(x1, y1, x2, y2);

             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));

 	    if(isbutton==3)

 	      {

 		edgesmap[ei]->setPoints(coos);

 	      }

 	    else

 	      {

 		edgesmap[ei]->setPoints(coos,true);

 	      }

 	    xy<double> text_pos=edgesmap[ei]->getArrowPos();

 	    text_pos+=(xy<double>(10,10));

 	    edgetextmap[ei]->property_x().set_value(text_pos.x);

 	    edgetextmap[ei]->property_y().set_value(text_pos.y);

         }

       }

     default: break;

   }

   return false;

 }

 bool GraphDisplayerCanvas::createNodeEventHandler(GdkEvent* e)

 {

   switch(e->type)

     {

       //draw the new node in red at the clicked place

     case GDK_2BUTTON_PRESS:

       std::cout << "double click" << std::endl;

       break;

     case GDK_BUTTON_PRESS:

       isbutton=1;

       active_node=NodeIt(g,g.addNode());

       //initiating values corresponding to new node in maps

       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

       nodesmap[active_node]=new Gnome::Canvas::Ellipse(displayed_graph, clicked_x-20, clicked_y-20, clicked_x+20, clicked_y+20);

       active_item=(Gnome::Canvas::Item *)(nodesmap[active_node]);

       *(nodesmap[active_node]) << Gnome::Canvas::Properties::fill_color("red");

       *(nodesmap[active_node]) << Gnome::Canvas::Properties::outline_color("black");

       (nodesmap[active_node])->show();

       nodetextmap[active_node]=new Gnome::Canvas::Text(displayed_graph, clicked_x+node_property_defaults[N_RADIUS]+5, clicked_y+node_property_defaults[N_RADIUS]+5, "");

       nodetextmap[active_node]->property_fill_color().set_value("darkblue");

       mapwin->updateNode(active_node);

       break;

       //move the new node

     case GDK_MOTION_NOTIFY:

       {

 	GdkEvent * generated=new GdkEvent();

 	generated->motion.x=e->motion.x;

 	generated->motion.y=e->motion.y;

 	generated->type=GDK_MOTION_NOTIFY;

 	moveEventHandler(generated);      

 	break;

       }

       //finalize the new node

     case GDK_BUTTON_RELEASE:

       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

       active_item->lower_to_bottom();

       target_item=NULL;

       target_item=get_item_at(clicked_x, clicked_y);

       active_item->raise_to_top();

       isbutton=0;

       if(target_item==active_item)

 	{

 	  //Its appropriate color is given by update.

 	  *active_item << Gnome::Canvas::Properties::fill_color("blue");

 	}

       else

 	{

 	  //In this case the given color has to be overwritten, because the noe covers an other item.

 	  *active_item << Gnome::Canvas::Properties::fill_color("lightblue");

 	}

       target_item=NULL;

       active_item=NULL;

       active_node=INVALID;

       break;

     default:

       break;

     }

   return false;

 }

 bool GraphDisplayerCanvas::createEdgeEventHandler(GdkEvent* e)

 {

   switch(e->type)

     {

     case GDK_BUTTON_PRESS:

       //in edge creation right button has special meaning

       if(e->button.button!=3)

 	{

 	  //there is not yet selected node

 	  if(active_node==INVALID)

 	    {

 	      //we mark the location of the event to be able to calculate parameters of dragging

 	      window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

 	      active_item=(get_item_at(clicked_x, clicked_y));

 	      active_node=INVALID;

 	      for (NodeIt i(g); i!=INVALID; ++i)

 		{

 		  if(nodesmap[i]==active_item)

 		    {

 		      active_node=i;

 		    }

 		}

 	      //the clicked item is really a node

 	      if(active_node!=INVALID)

 		{

 		  *(nodesmap[active_node]) << Gnome::Canvas::Properties::fill_color("red");

 		  isbutton=1;

 		}

 	      //clicked item was not a node. It could be e.g. edge.

 	      else

 		{

 		  active_item=NULL;

 		}

 	    }

 	  //we only have to do sg. if the mouse button

 	  // is pressed already once AND the click was

 	  // on a node that was found in the set of 

 	  //nodes, and now we only search for the second 

 	  //node

 	  else

 	    {

 	      window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

 	      target_item=(get_item_at(clicked_x, clicked_y));

 	      Graph::NodeIt target_node=INVALID;

 	      for (NodeIt i(g); i!=INVALID; ++i)

 		{

 		  if(nodesmap[i]==target_item)

 		    {

 		      target_node=i;

 		    }

 		}

 	      //the clicked item is a node, the edge can be drawn

 	      if(target_node!=INVALID)

 		{

 		  if(target_node!=active_node)		

 		    {

 		      *(nodesmap[target_node]) << Gnome::Canvas::Properties::fill_color("red");

 		      //creating new edge

 		      active_edge=EdgeIt(g,g.addEdge(active_node, target_node));

 		      //initiating values corresponding to new edge in maps

 		      mapstorage.initMapsForEdge(active_edge);

 		      //calculating coordinates of new edge

 		      Gnome::Canvas::Points coos;

 		      double x1, x2, y1, y2;

 		      active_item->get_bounds(x1, y1, x2, y2);

 		      coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));

 		      target_item->get_bounds(x1, y1, x2, y2);

 		      coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));

 		      //drawing new edge

 		      edgesmap[active_edge]=new BrokenEdge(displayed_graph, coos, *this);

 		      *(edgesmap[active_edge]) << Gnome::Canvas::Properties::fill_color("green");

 		      edgesmap[active_edge]->property_width_pixels().set_value(10);

 		      //redraw nodes to blank terminations of the new edge

 		      target_item->raise_to_top();

 		      active_item->raise_to_top();

 		      //initializing edge-text as well, to empty string

 		      xy<double> text_pos=edgesmap[active_edge]->getArrowPos();

 		      text_pos+=(xy<double>(10,10));

 		      edgetextmap[active_edge]=new Gnome::Canvas::Text(displayed_graph, text_pos.x, text_pos.y, "");

 		      edgetextmap[active_edge]->property_fill_color().set_value("darkgreen");

 		      //updating its properties

 		      mapwin->updateEdge(active_edge);

 		    }

 		  else

 		    {

 		      target_node=INVALID;

 		      std::cout << "Loop edge is not yet implemented!" << std::endl;

 		    }

 		}

 	      //clicked item was not a node. it could be an e.g. edge. we do not deal with it furthermore.

 	      else

 		{

 		  target_item=NULL;

 		}

 	    }

 	}

       break;

     case GDK_BUTTON_RELEASE:

       isbutton=0;

       //we clear settings in two cases

       //1: the edge is ready (target_item has valid value)

       //2: the edge creation is cancelled with right button

       if((target_item)||(e->button.button==3))

 	{

 	  if(active_item)

 	    {

 	      *active_item << Gnome::Canvas::Properties::fill_color("blue");

 	      active_item=NULL;

 	    }

 	  if(target_item)

 	    {

 	      *target_item << Gnome::Canvas::Properties::fill_color("blue");

 	      target_item=NULL;

 	    }

 	  active_node=INVALID;

 	  active_edge=INVALID;

 	}

       break;

     default:

       break;

     }

   return false;

 }

 bool GraphDisplayerCanvas::eraserEventHandler(GdkEvent* e)

 {

   switch(e->type)

     {

     case GDK_BUTTON_PRESS:

       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

       active_item=(get_item_at(clicked_x, clicked_y));

       active_node=INVALID;

       active_edge=INVALID;

       for (NodeIt i(g); i!=INVALID; ++i)

 	{

 	  if(nodesmap[i]==active_item)

 	    {

 	      active_node=i;

 	    }

 	}

       if(active_node==INVALID)

 	{

 	  for (EdgeIt i(g); i!=INVALID; ++i)

 	    {

 	      if(edgesmap[i]==active_item)

 		{

 		  active_edge=i;

 		}

 	    }

 	}

       if(active_item)

 	{

 	  *active_item << Gnome::Canvas::Properties::fill_color("red");

 	}

       break;

     case GDK_BUTTON_RELEASE:

       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

       if(active_item)

 	{

 	  if( active_item == ( get_item_at (clicked_x, clicked_y) ) )

 	    {

 	      if(active_node!=INVALID)

 		{

 		  //collecting edges to delete

 		  EdgeIt e;

 		  std::set<Graph::Edge> edges_to_delete;

 		  g.firstOut(e,active_node);

 		  for(;e!=INVALID;g.nextOut(e))

 		    {

 		      edges_to_delete.insert(e);

 		    }

 		  g.firstIn(e,active_node);

 		  for(;e!=INVALID;g.nextIn(e))

 		    {

 		      edges_to_delete.insert(e);

 		    }

 		  //deleting collected edges

 		  for(std::set<Graph::Edge>::iterator edge_set_it=edges_to_delete.begin();edge_set_it!=edges_to_delete.end();edge_set_it++)

 		    {

 		      deleteItem(*edge_set_it);

 		    }

 		  deleteItem(active_node);

 		}

 	      //a simple edge was chosen

 	      else

 		{

 		  deleteItem(active_edge);

 		}

 	    }

 	  //pointer was moved, deletion is cancelled

 	  else

 	    {

 	      if(active_node!=INVALID)

 		{

 		  *active_item << Gnome::Canvas::Properties::fill_color("blue");

 		}

 	      else

 		{

 		  *active_item << Gnome::Canvas::Properties::fill_color("green");

 		}

 	    }

 	}

       //reseting datas

       active_item=NULL;

       active_edge=INVALID;

       active_node=INVALID;

       break;

     case GDK_MOTION_NOTIFY:

       break;

     default:

       break;

     }

   return false;

 }

 bool GraphDisplayerCanvas::edgeMapEditEventHandler(GdkEvent* e)

 {

   switch(e->type)

     {

     case GDK_KEY_PRESS:

       {

 	nodeMapEditEventHandler(e);

 	break;

       }

     case GDK_BUTTON_PRESS:

       {

 	window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

 	active_item=(get_item_at(clicked_x, clicked_y));

 	Graph::EdgeIt clicked_edge=INVALID;

 	for (EdgeIt i(g); i!=INVALID; ++i)

 	  {

 	    if(edgesmap[i]==active_item)

 	      {

 		clicked_edge=i;

 	      }

 	  }

 	if(clicked_edge!=INVALID)

 	  {

 	    if(edgetextmap[clicked_edge]->property_text().get_value()!="")

 	      {

 		active_edge=clicked_edge;

 		if(canvasentrywidget)

 		  {

 		    delete(canvasentrywidget);

 		  }

 		entrywidget.show();

 		entrywidget.set_text(edgetextmap[active_edge]->property_text().get_value());

 		xy<double> entry_coos;

 		entry_coos.x=(edgetextmap[active_edge])->property_x().get_value();

 		entry_coos.x-=edgetextmap[active_edge]->property_text_width().get_value()/2;

 		entry_coos.y=(edgetextmap[active_edge])->property_y().get_value();

 		entry_coos.y-=edgetextmap[active_edge]->property_text_height().get_value()*1.5/2;

 		canvasentrywidget=new Gnome::Canvas::Widget(displayed_graph, entry_coos.x, entry_coos.y, entrywidget);

 		canvasentrywidget->property_width().set_value(edgetextmap[active_edge]->property_text_width().get_value()*1.5);

 		canvasentrywidget->property_height().set_value(edgetextmap[active_edge]->property_text_height().get_value()*1.5);

 	      }

 	  }

 	else

 	  {

 	    GdkEvent * generated=new GdkEvent();

 	    generated->type=GDK_KEY_PRESS;

 	    ((GdkEventKey*)generated)->keyval=GDK_KP_Enter;

 	    entryWidgetChangeHandler(generated);

 	  }

 	break;

       }

     default:

       break;

     }

   return false;  

 }

 bool GraphDisplayerCanvas::nodeMapEditEventHandler(GdkEvent* e)

 {

   switch(e->type)

     {

     case GDK_KEY_PRESS:

       {

 	switch(((GdkEventKey*)e)->keyval)

 	  {

 	  case GDK_Escape:

 	    entrywidget.hide();

 	    break;

 	  case GDK_Return:

 	  case GDK_KP_Enter:

 	    entrywidget.hide();

 	    break;

 	  default:

 	    break;

 	  }

 	break;

       }

     case GDK_BUTTON_PRESS:

       {

 	window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);

 	active_item=(get_item_at(clicked_x, clicked_y));

 	Graph::NodeIt clicked_node=INVALID;

 	for (NodeIt i(g); i!=INVALID; ++i)

 	  {

 	    if(nodesmap[i]==active_item)

 	      {

 		clicked_node=i;

 	      }

 	  }

 	if(clicked_node!=INVALID)

 	  {

 	    //If there is already edited edge, it has to be saved first

 	    if(entrywidget.is_visible())

 	      {

 		GdkEvent * generated=new GdkEvent();

 		generated->type=GDK_KEY_PRESS;

 		((GdkEventKey*)generated)->keyval=GDK_KP_Enter;

 		entryWidgetChangeHandler(generated);

 	      }

 	    //If the previous value could be saved, we can go further, otherwise not

 	    if(!entrywidget.is_visible())

 	      {

 		if(nodetextmap[clicked_node]->property_text().get_value()!="")

 		  {

 		    active_node=clicked_node;

 		    if(canvasentrywidget)

 		      {

 			delete(canvasentrywidget);

 		      }

 		    entrywidget.show();

 		    entrywidget.set_text(nodetextmap[active_node]->property_text().get_value());

 		    xy<double> entry_coos;

 		    entry_coos.x=(nodetextmap[active_node])->property_x().get_value();

 		    entry_coos.x-=nodetextmap[active_node]->property_text_width().get_value()/2;

 		    entry_coos.y=(nodetextmap[active_node])->property_y().get_value();

 		    entry_coos.y-=nodetextmap[active_node]->property_text_height().get_value()*1.5/2;

 		    canvasentrywidget=new Gnome::Canvas::Widget(displayed_graph, entry_coos.x, entry_coos.y, entrywidget);

 		    canvasentrywidget->property_width().set_value(nodetextmap[active_node]->property_text_width().get_value()*1.5);

 		    canvasentrywidget->property_height().set_value(nodetextmap[active_node]->property_text_height().get_value()*1.5);

 		  }

 	      }

 	  }

 	else

 	  {

 	    GdkEvent * generated=new GdkEvent();

 	    generated->type=GDK_KEY_PRESS;

 	    ((GdkEventKey*)generated)->keyval=GDK_KP_Enter;

 	    entryWidgetChangeHandler(generated);

 	  }

 	break;

       }

     default:

       break;

     }

   return false;  

 }

 bool GraphDisplayerCanvas::entryWidgetChangeHandler(GdkEvent* e)

 {

   if(entrywidget.is_visible())

     {

       if(e->type==GDK_KEY_PRESS)

 	{

 	  switch(((GdkEventKey*)e)->keyval)

 	    {

 	    case GDK_Escape:

 	      entrywidget.hide();

 	      break;

 	    case GDK_KP_Enter:

 	    case GDK_Return:

 	      {

 		bool valid_double=true;

 		int point_num=0;

 		Glib::ustring mapvalue_str = entrywidget.get_text();

 		char * mapvalue_ch=new char [mapvalue_str.length()];

 		for(int i=0;i<(int)(mapvalue_str.length());i++)

 		  {

 		    if(((mapvalue_str[i]<'0')||(mapvalue_str[i]>'9'))&&(mapvalue_str[i]!='.'))

 		      {

 			valid_double=false;

 		      }

 		    else

 		      {

 			if(mapvalue_str[i]=='.')

 			  {

 			    point_num++;

 			  }

 		      }

 		    mapvalue_ch[i]=mapvalue_str[i];

 		  }

 		double mapvalue_d=atof(mapvalue_ch);

 // 		double double_map_fract_value=0;

 // 		double double_map_value=0;

 // 		int offset=0;

 // 		int found_letter=0;

 		//converting text to double

 // 		for(int i=0;i<(int)(mapvalue.length());i++)

 // 		  {

 // 		    if(((mapvalue[i]<='9')&&(mapvalue[i]>='0'))||(mapvalue[i]=='.'))

 // 		      {

 // 			if(mapvalue[i]=='.')

 // 			  {

 // 			    //for calculating non-integer part of double we step backward from the end

 // 			    //after each step the number will be divided by ten, and the new value will be added

 // 			    //to step backward from the end until the point the actual character of the string is the following:

 // 			    // mapvalue.length()-(i-position_of_point)

 // 			    //if i was the number of the first character after the decimal point the selected character will be the last

 // 			    //if i was the number of the last character, the selected character will be the first after the decimal point

 // 			    offset=mapvalue.length()+i;

 // 			  }

 // 			else

 // 			  {

 // 			    if(!offset)

 // 			      {

 // 				double_map_value=10*double_map_value+mapvalue[i]-'0';

 // 			      }

 // 			    else

 // 			      {

 // 				double_map_fract_value=double_map_fract_value/10+(double)(mapvalue[offset-i]-'0')/10;

 // 			      }

 // 			  }

 // 		      }

 // 		    else

 // 		      {

 // 			found_letter++;

 // 			continue;

 // 		      }

 // 		  }

 		if((point_num<=1)&&(valid_double))

 		  {

 		    switch(actual_tool)

 		      {

 		      case EDGE_MAP_EDIT:

 			edgetextmap[active_edge]->property_text().set_value(mapvalue_str);

 			(*(mapstorage.edgemap_storage)[edgemap_to_edit])[active_edge]=mapvalue_d;

 			break;

 		      case NODE_MAP_EDIT:

 			nodetextmap[active_node]->property_text().set_value(mapvalue_str);

 			(*(mapstorage.nodemap_storage)[nodemap_to_edit])[active_node]=mapvalue_d;

 			break;

 		      default:

 			break;

 		      }

 		    entrywidget.hide();

 		  }

 		else

 		  {

 		    std::cout << "ERROR: only handling of double values is implemented yet!" << std::endl;

 		  }

 		break;

 	      }

 	    default:

 	      break;

 	    }

 	}

     }

   return false;

 }

 void GraphDisplayerCanvas::deleteItem(NodeIt node_to_delete)

 {

   delete(nodetextmap[node_to_delete]);

   delete(nodesmap[node_to_delete]);

   g.erase(node_to_delete);

 }

 void GraphDisplayerCanvas::deleteItem(EdgeIt edge_to_delete)

 {

   delete(edgetextmap[edge_to_delete]);

   delete(edgesmap[edge_to_delete]);

   g.erase(edge_to_delete);

 }

 void GraphDisplayerCanvas::deleteItem(Graph::Edge edge_to_delete)

 {

   delete(edgetextmap[edge_to_delete]);

   delete(edgesmap[edge_to_delete]);

   g.erase(edge_to_delete);

 }

 void GraphDisplayerCanvas::textReposition(xy<double> new_place)

 {

   new_place+=(xy<double>(10,10));

   edgetextmap[forming_edge]->property_x().set_value(new_place.x);

   edgetextmap[forming_edge]->property_y().set_value(new_place.y);

 }

 void GraphDisplayerCanvas::toggleEdgeActivity(BrokenEdge* active_bre, bool on)

 {

   if(on)

     {

       if(forming_edge!=INVALID)

 	{

 	  std::cout << "ERROR!!!! Valid edge found!" << std::endl;

 	}

       else

 	{

 	  for (EdgeIt i(g); i!=INVALID; ++i)

 	    {

 	      if(edgesmap[i]==active_bre)

 		{

 		  forming_edge=i;

 		}

 	    }

 	}

     }

   else

     {

       if(forming_edge!=INVALID)

 	{

 	  forming_edge=INVALID;

 	}

       else

 	{

 	  std::cout << "ERROR!!!! Invalid edge found!" << std::endl;

 	}

     }

 }

 void GraphDisplayerCanvas::addNewEdgeMap(double default_value, std::string mapname)

 {

   Graph::EdgeMap<double> * emptr=new Graph::EdgeMap<double> (g,default_value);

   mapstorage.addEdgeMap(mapname,emptr);

   mapwin->registerNewEdgeMap(mapname);

   changeEdgeText(mapname);

 }

 void GraphDisplayerCanvas::addNewNodeMap(double default_value, std::string mapname)

 {

   Graph::NodeMap<double> * emptr=new Graph::NodeMap<double> (g,default_value);

   mapstorage.addNodeMap(mapname,emptr);

   mapwin->registerNewNodeMap(mapname);

   changeNodeText(mapname);

 }