gui/graph_displayer_canvas-event.cc
author hegyi
Tue, 26 Jul 2005 21:19:41 +0000
changeset 1592 4708b716d2f4
parent 1589 9192e1b26d32
child 1594 0bd9e53c8b28
permissions -rwxr-xr-x
EdgeMap and NodeMap creation is done, at last. Bach 4ever.
     1 #include <graph_displayer_canvas.h>
     2 #include <broken_edge.h>
     3 #include <math.h>
     4 
     5 
     6 bool GraphDisplayerCanvas::on_expose_event(GdkEventExpose *event)
     7 {
     8   Gnome::Canvas::CanvasAA::on_expose_event(event);
     9   //usleep(10000);
    10   //rezoom();
    11   return true;
    12 }
    13 
    14 void GraphDisplayerCanvas::changeEditorialTool(int newtool)
    15 {
    16   if(actual_tool!=newtool)
    17     {
    18 
    19       actual_handler.disconnect();
    20 
    21       switch(actual_tool)
    22 	{
    23 	case CREATE_EDGE:
    24 	  {
    25 	    GdkEvent * generated=new GdkEvent();
    26 	    generated->type=GDK_BUTTON_RELEASE;
    27 	    generated->button.button=3;
    28 	    createEdgeEventHandler(generated);      
    29 	    break;
    30 	  }
    31 	case EDGE_MAP_EDIT:
    32 	  //has to do the same thing as in the case of NODE_MAP_EDIT
    33 	case NODE_MAP_EDIT:
    34 	  {
    35 	    GdkEvent * generated=new GdkEvent();
    36 	    generated->type=GDK_KEY_PRESS;
    37 	    ((GdkEventKey*)generated)->keyval=GDK_KP_Enter;
    38 	    entryWidgetChangeHandler(generated);
    39 	    entrywidget.hide();
    40 	    break;
    41 	  }
    42 	default:
    43 	  break;
    44 	}
    45 
    46       active_item=NULL; 
    47       target_item=NULL; 
    48       active_edge=INVALID;	
    49       active_node=INVALID;	
    50 
    51 
    52       actual_tool=newtool;
    53   
    54       switch(newtool)
    55 	{
    56 	case MOVE:
    57 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::moveEventHandler), false);
    58 	  break;
    59 
    60 	case CREATE_NODE:
    61 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::createNodeEventHandler), false);
    62 	  break;
    63 
    64 	case CREATE_EDGE:
    65 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::createEdgeEventHandler), false);
    66 	  break;
    67 
    68 	case ERASER:
    69 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::eraserEventHandler), false);
    70 	  break;
    71 
    72 	case EDGE_MAP_EDIT:
    73 	  grab_focus();
    74 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::edgeMapEditEventHandler), false);
    75 	  break;
    76 
    77 	case NODE_MAP_EDIT:
    78 	  actual_handler=signal_event().connect(sigc::mem_fun(*this, &GraphDisplayerCanvas::nodeMapEditEventHandler), false);
    79 	  break;
    80 
    81 	default:
    82 	  break;
    83 	}
    84     }
    85 }
    86 
    87 int GraphDisplayerCanvas::getActualTool()
    88 {
    89   return actual_tool;
    90 }
    91 
    92 bool GraphDisplayerCanvas::moveEventHandler(GdkEvent* e)
    93 {
    94   switch(e->type)
    95   {
    96     case GDK_BUTTON_PRESS:
    97       //we mark the location of the event to be able to calculate parameters of dragging
    98       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
    99 
   100       active_item=(get_item_at(clicked_x, clicked_y));
   101       active_node=INVALID;
   102       for (NodeIt i(g); i!=INVALID; ++i)
   103 	{
   104 	  if(nodesmap[i]==active_item)
   105 	    {
   106 	      active_node=i;
   107 	    }
   108 	}
   109       switch(e->button.button)
   110 	{
   111 	case 3:      
   112 	  isbutton=3;
   113 	  break;
   114 	default:
   115 	  isbutton=1;
   116 	  break;
   117 	}
   118       break;
   119     case GDK_BUTTON_RELEASE:
   120       isbutton=0;
   121       active_item=NULL;
   122       active_node=INVALID;
   123       break;
   124     case GDK_MOTION_NOTIFY:
   125       //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
   126       if(active_node!=INVALID)
   127       {
   128 	//new coordinates will be the old values,
   129 	//because the item will be moved to the
   130 	//new coordinate therefore the new movement
   131 	//has to be calculated from here
   132 
   133 	double new_x, new_y;
   134 
   135 	window_to_world (e->motion.x, e->motion.y, new_x, new_y);
   136 
   137         double dx=new_x-clicked_x;
   138         double dy=new_y-clicked_y;
   139 
   140 	//repositioning node and its text
   141         active_item->move(dx, dy);
   142 	nodetextmap[active_node]->move(dx, dy);
   143 
   144         clicked_x=new_x;
   145         clicked_y=new_y;
   146 
   147 	//all the edges connected to the moved point has to be redrawn
   148         EdgeIt ei;
   149 
   150         g.firstOut(ei,active_node);
   151 
   152         for(;ei!=INVALID;g.nextOut(ei))
   153         {
   154             Gnome::Canvas::Points coos;
   155             double x1, x2, y1, y2;
   156 
   157             nodesmap[g.source(ei)]->get_bounds(x1, y1, x2, y2);
   158             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));
   159 
   160             nodesmap[g.target(ei)]->get_bounds(x1, y1, x2, y2);
   161             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));
   162 
   163 	    if(isbutton==3)
   164 	      {
   165 		edgesmap[ei]->setPoints(coos);
   166 	      }
   167 	    else
   168 	      {
   169 		edgesmap[ei]->setPoints(coos,true);
   170 	      }
   171 
   172 	    //reposition of edgetext
   173 	    xy<double> text_pos=edgesmap[ei]->getArrowPos();
   174 	    text_pos+=(xy<double>(10,10));
   175 	    edgetextmap[ei]->property_x().set_value(text_pos.x);
   176 	    edgetextmap[ei]->property_y().set_value(text_pos.y);
   177         }
   178 
   179         g.firstIn(ei,active_node);
   180         for(;ei!=INVALID;g.nextIn(ei))
   181         {
   182             Gnome::Canvas::Points coos;
   183             double x1, x2, y1, y2;
   184 
   185             nodesmap[g.source(ei)]->get_bounds(x1, y1, x2, y2);
   186             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));
   187 
   188             nodesmap[g.target(ei)]->get_bounds(x1, y1, x2, y2);
   189             coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));
   190 
   191 	    if(isbutton==3)
   192 	      {
   193 		edgesmap[ei]->setPoints(coos);
   194 	      }
   195 	    else
   196 	      {
   197 		edgesmap[ei]->setPoints(coos,true);
   198 	      }
   199 
   200 	    xy<double> text_pos=edgesmap[ei]->getArrowPos();
   201 	    text_pos+=(xy<double>(10,10));
   202 	    edgetextmap[ei]->property_x().set_value(text_pos.x);
   203 	    edgetextmap[ei]->property_y().set_value(text_pos.y);
   204         }
   205       }
   206     default: break;
   207   }
   208 
   209   return false;
   210 }
   211 
   212 bool GraphDisplayerCanvas::createNodeEventHandler(GdkEvent* e)
   213 {
   214   switch(e->type)
   215     {
   216 
   217       //draw the new node in red at the clicked place
   218     case GDK_2BUTTON_PRESS:
   219       std::cout << "double click" << std::endl;
   220       break;
   221     case GDK_BUTTON_PRESS:
   222       isbutton=1;
   223 
   224       active_node=NodeIt(g,g.addNode());
   225 
   226       //initiating values corresponding to new node in maps
   227 
   228       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   229 
   230       nodesmap[active_node]=new Gnome::Canvas::Ellipse(displayed_graph, clicked_x-20, clicked_y-20, clicked_x+20, clicked_y+20);
   231       active_item=(Gnome::Canvas::Item *)(nodesmap[active_node]);
   232       *(nodesmap[active_node]) << Gnome::Canvas::Properties::fill_color("red");
   233       *(nodesmap[active_node]) << Gnome::Canvas::Properties::outline_color("black");
   234       (nodesmap[active_node])->show();
   235 
   236       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, "");
   237       nodetextmap[active_node]->property_fill_color().set_value("darkblue");
   238 
   239       mapwin->updateNode(active_node);
   240 
   241       break;
   242 
   243       //move the new node
   244     case GDK_MOTION_NOTIFY:
   245       {
   246 	GdkEvent * generated=new GdkEvent();
   247 	generated->motion.x=e->motion.x;
   248 	generated->motion.y=e->motion.y;
   249 	generated->type=GDK_MOTION_NOTIFY;
   250 	moveEventHandler(generated);      
   251 	break;
   252       }
   253 
   254       //finalize the new node
   255     case GDK_BUTTON_RELEASE:
   256       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   257 
   258       active_item->lower_to_bottom();
   259 
   260       target_item=NULL;
   261       target_item=get_item_at(clicked_x, clicked_y);
   262 
   263       active_item->raise_to_top();
   264 
   265       isbutton=0;
   266       if(target_item==active_item)
   267 	{
   268 	  //Its appropriate color is given by update.
   269 	  *active_item << Gnome::Canvas::Properties::fill_color("blue");
   270 	}
   271       else
   272 	{
   273 	  //In this case the given color has to be overwritten, because the noe covers an other item.
   274 	  *active_item << Gnome::Canvas::Properties::fill_color("lightblue");
   275 	}
   276       target_item=NULL;
   277       active_item=NULL;
   278       active_node=INVALID;
   279       break;
   280     default:
   281       break;
   282     }
   283   return false;
   284 }
   285 
   286 bool GraphDisplayerCanvas::createEdgeEventHandler(GdkEvent* e)
   287 {
   288   switch(e->type)
   289     {
   290     case GDK_BUTTON_PRESS:
   291       //in edge creation right button has special meaning
   292       if(e->button.button!=3)
   293 	{
   294 	  //there is not yet selected node
   295 	  if(active_node==INVALID)
   296 	    {
   297 	      //we mark the location of the event to be able to calculate parameters of dragging
   298 
   299 	      window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   300 
   301 	      active_item=(get_item_at(clicked_x, clicked_y));
   302 	      active_node=INVALID;
   303 	      for (NodeIt i(g); i!=INVALID; ++i)
   304 		{
   305 		  if(nodesmap[i]==active_item)
   306 		    {
   307 		      active_node=i;
   308 		    }
   309 		}
   310 	      //the clicked item is really a node
   311 	      if(active_node!=INVALID)
   312 		{
   313 		  *(nodesmap[active_node]) << Gnome::Canvas::Properties::fill_color("red");
   314 		  isbutton=1;
   315 		}
   316 	      //clicked item was not a node. It could be e.g. edge.
   317 	      else
   318 		{
   319 		  active_item=NULL;
   320 		}
   321 	    }
   322 	  //we only have to do sg. if the mouse button
   323 	  // is pressed already once AND the click was
   324 	  // on a node that was found in the set of 
   325 	  //nodes, and now we only search for the second 
   326 	  //node
   327 	  else
   328 	    {
   329 	      window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   330 	      target_item=(get_item_at(clicked_x, clicked_y));
   331 	      Graph::NodeIt target_node=INVALID;
   332 	      for (NodeIt i(g); i!=INVALID; ++i)
   333 		{
   334 		  if(nodesmap[i]==target_item)
   335 		    {
   336 		      target_node=i;
   337 		    }
   338 		}
   339 	      //the clicked item is a node, the edge can be drawn
   340 	      if(target_node!=INVALID)
   341 		{
   342 		  if(target_node!=active_node)		
   343 		    {
   344 		      *(nodesmap[target_node]) << Gnome::Canvas::Properties::fill_color("red");
   345 
   346 		      //creating new edge
   347 		      active_edge=EdgeIt(g,g.addEdge(active_node, target_node));
   348 
   349 		      //initiating values corresponding to new edge in maps
   350 		      mapstorage.initMapsForEdge(active_edge);
   351 	  
   352 		      //calculating coordinates of new edge
   353 		      Gnome::Canvas::Points coos;
   354 		      double x1, x2, y1, y2;
   355 	  
   356 		      active_item->get_bounds(x1, y1, x2, y2);
   357 		      coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));
   358 
   359 		      target_item->get_bounds(x1, y1, x2, y2);
   360 		      coos.push_back(Gnome::Art::Point((x1+x2)/2,(y1+y2)/2));
   361 
   362 		      //drawing new edge
   363 		      edgesmap[active_edge]=new BrokenEdge(displayed_graph, coos, *this);
   364 		      *(edgesmap[active_edge]) << Gnome::Canvas::Properties::fill_color("green");
   365 		      edgesmap[active_edge]->property_width_pixels().set_value(10);
   366 
   367 		      //redraw nodes to blank terminations of the new edge
   368 		      target_item->raise_to_top();
   369 		      active_item->raise_to_top();
   370 
   371 		      //initializing edge-text as well, to empty string
   372 		      xy<double> text_pos=edgesmap[active_edge]->getArrowPos();
   373 		      text_pos+=(xy<double>(10,10));
   374 
   375 		      edgetextmap[active_edge]=new Gnome::Canvas::Text(displayed_graph, text_pos.x, text_pos.y, "");
   376 		      edgetextmap[active_edge]->property_fill_color().set_value("darkgreen");
   377 
   378 		      //updating its properties
   379 		      mapwin->updateEdge(active_edge);
   380 		    }
   381 		  else
   382 		    {
   383 		      target_node=INVALID;
   384 		      std::cout << "Loop edge is not yet implemented!" << std::endl;
   385 		    }
   386 		}
   387 	      //clicked item was not a node. it could be an e.g. edge. we do not deal with it furthermore.
   388 	      else
   389 		{
   390 		  target_item=NULL;
   391 		}
   392 	    }
   393 	}
   394       break;
   395     case GDK_BUTTON_RELEASE:
   396       isbutton=0;
   397       //we clear settings in two cases
   398       //1: the edge is ready (target_item has valid value)
   399       //2: the edge creation is cancelled with right button
   400       if((target_item)||(e->button.button==3))
   401 	{
   402 	  if(active_item)
   403 	    {
   404 	      *active_item << Gnome::Canvas::Properties::fill_color("blue");
   405 	      active_item=NULL;
   406 	    }
   407 	  if(target_item)
   408 	    {
   409 	      *target_item << Gnome::Canvas::Properties::fill_color("blue");
   410 	      target_item=NULL;
   411 	    }
   412 	  active_node=INVALID;
   413 	  active_edge=INVALID;
   414 	}
   415       break;
   416     default:
   417       break;
   418     }
   419   return false;
   420 }
   421 
   422 bool GraphDisplayerCanvas::eraserEventHandler(GdkEvent* e)
   423 {
   424   switch(e->type)
   425     {
   426     case GDK_BUTTON_PRESS:
   427       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   428       active_item=(get_item_at(clicked_x, clicked_y));
   429       active_node=INVALID;
   430       active_edge=INVALID;
   431       for (NodeIt i(g); i!=INVALID; ++i)
   432 	{
   433 	  if(nodesmap[i]==active_item)
   434 	    {
   435 	      active_node=i;
   436 	    }
   437 	}
   438       if(active_node==INVALID)
   439 	{
   440 	  for (EdgeIt i(g); i!=INVALID; ++i)
   441 	    {
   442 	      if(edgesmap[i]==active_item)
   443 		{
   444 		  active_edge=i;
   445 		}
   446 	    }
   447 	}
   448       if(active_item)
   449 	{
   450 	  *active_item << Gnome::Canvas::Properties::fill_color("red");
   451 	}
   452       break;
   453 
   454     case GDK_BUTTON_RELEASE:
   455       window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   456       if(active_item)
   457 	{
   458 	  if( active_item == ( get_item_at (clicked_x, clicked_y) ) )
   459 	    {
   460 	      if(active_node!=INVALID)
   461 		{
   462 
   463 		  //collecting edges to delete
   464 		  EdgeIt e;
   465 		  std::set<Graph::Edge> edges_to_delete;
   466 
   467 		  g.firstOut(e,active_node);
   468 		  for(;e!=INVALID;g.nextOut(e))
   469 		    {
   470 		      edges_to_delete.insert(e);
   471 		    }
   472 
   473 		  g.firstIn(e,active_node);
   474 		  for(;e!=INVALID;g.nextIn(e))
   475 		    {
   476 		      edges_to_delete.insert(e);
   477 		    }
   478 
   479 		  //deleting collected edges
   480 		  for(std::set<Graph::Edge>::iterator edge_set_it=edges_to_delete.begin();edge_set_it!=edges_to_delete.end();edge_set_it++)
   481 		    {
   482 		      deleteItem(*edge_set_it);
   483 		    }
   484 		  deleteItem(active_node);
   485 		}
   486 	      //a simple edge was chosen
   487 	      else
   488 		{
   489 		  deleteItem(active_edge);
   490 		}
   491 	    }
   492 	  //pointer was moved, deletion is cancelled
   493 	  else
   494 	    {
   495 	      if(active_node!=INVALID)
   496 		{
   497 		  *active_item << Gnome::Canvas::Properties::fill_color("blue");
   498 		}
   499 	      else
   500 		{
   501 		  *active_item << Gnome::Canvas::Properties::fill_color("green");
   502 		}
   503 	    }
   504 	}
   505       //reseting datas
   506       active_item=NULL;
   507       active_edge=INVALID;
   508       active_node=INVALID;
   509       break;
   510 
   511     case GDK_MOTION_NOTIFY:
   512       break;
   513 
   514     default:
   515       break;
   516     }
   517   return false;
   518 }
   519 
   520 bool GraphDisplayerCanvas::edgeMapEditEventHandler(GdkEvent* e)
   521 {
   522   switch(e->type)
   523     {
   524     case GDK_KEY_PRESS:
   525       {
   526 	nodeMapEditEventHandler(e);
   527 	break;
   528       }
   529     case GDK_BUTTON_PRESS:
   530       {
   531 	window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   532 	active_item=(get_item_at(clicked_x, clicked_y));
   533 	Graph::EdgeIt clicked_edge=INVALID;
   534 	for (EdgeIt i(g); i!=INVALID; ++i)
   535 	  {
   536 	    if(edgesmap[i]==active_item)
   537 	      {
   538 		clicked_edge=i;
   539 	      }
   540 	  }
   541 	if(clicked_edge!=INVALID)
   542 	  {
   543 	    if(edgetextmap[clicked_edge]->property_text().get_value()!="")
   544 	      {
   545 		active_edge=clicked_edge;
   546 		if(canvasentrywidget)
   547 		  {
   548 		    delete(canvasentrywidget);
   549 		  }
   550 		entrywidget.show();
   551 		entrywidget.set_text(edgetextmap[active_edge]->property_text().get_value());
   552 		xy<double> entry_coos;
   553 		entry_coos.x=(edgetextmap[active_edge])->property_x().get_value();
   554 		entry_coos.x-=edgetextmap[active_edge]->property_text_width().get_value()/2;
   555 		entry_coos.y=(edgetextmap[active_edge])->property_y().get_value();
   556 		entry_coos.y-=edgetextmap[active_edge]->property_text_height().get_value()*1.5/2;
   557 		canvasentrywidget=new Gnome::Canvas::Widget(displayed_graph, entry_coos.x, entry_coos.y, entrywidget);
   558 		canvasentrywidget->property_width().set_value(edgetextmap[active_edge]->property_text_width().get_value()*1.5);
   559 		canvasentrywidget->property_height().set_value(edgetextmap[active_edge]->property_text_height().get_value()*1.5);
   560 	      }
   561 	  }
   562 	else
   563 	  {
   564 	    GdkEvent * generated=new GdkEvent();
   565 	    generated->type=GDK_KEY_PRESS;
   566 	    ((GdkEventKey*)generated)->keyval=GDK_KP_Enter;
   567 	    entryWidgetChangeHandler(generated);
   568 	  }
   569 	break;
   570       }
   571     default:
   572       break;
   573     }
   574   return false;  
   575 }
   576 
   577 bool GraphDisplayerCanvas::nodeMapEditEventHandler(GdkEvent* e)
   578 {
   579   switch(e->type)
   580     {
   581     case GDK_KEY_PRESS:
   582       {
   583 	switch(((GdkEventKey*)e)->keyval)
   584 	  {
   585 	  case GDK_Escape:
   586 	    entrywidget.hide();
   587 	    break;
   588 	  case GDK_Return:
   589 	  case GDK_KP_Enter:
   590 	    entrywidget.hide();
   591 	    break;
   592 	  default:
   593 	    break;
   594 	  }
   595   
   596 	break;
   597       }
   598     case GDK_BUTTON_PRESS:
   599       {
   600 	window_to_world (e->button.x, e->button.y, clicked_x, clicked_y);
   601 	active_item=(get_item_at(clicked_x, clicked_y));
   602 	Graph::NodeIt clicked_node=INVALID;
   603 	for (NodeIt i(g); i!=INVALID; ++i)
   604 	  {
   605 	    if(nodesmap[i]==active_item)
   606 	      {
   607 		clicked_node=i;
   608 	      }
   609 	  }
   610 	if(clicked_node!=INVALID)
   611 	  {
   612 	    //If there is already edited edge, it has to be saved first
   613 	    if(entrywidget.is_visible())
   614 	      {
   615 		GdkEvent * generated=new GdkEvent();
   616 		generated->type=GDK_KEY_PRESS;
   617 		((GdkEventKey*)generated)->keyval=GDK_KP_Enter;
   618 		entryWidgetChangeHandler(generated);
   619 	      }
   620 	    //If the previous value could be saved, we can go further, otherwise not
   621 	    if(!entrywidget.is_visible())
   622 	      {
   623 
   624 		if(nodetextmap[clicked_node]->property_text().get_value()!="")
   625 		  {
   626 		    active_node=clicked_node;
   627 		    if(canvasentrywidget)
   628 		      {
   629 			delete(canvasentrywidget);
   630 		      }
   631 		    entrywidget.show();
   632 		    entrywidget.set_text(nodetextmap[active_node]->property_text().get_value());
   633 		    xy<double> entry_coos;
   634 		    entry_coos.x=(nodetextmap[active_node])->property_x().get_value();
   635 		    entry_coos.x-=nodetextmap[active_node]->property_text_width().get_value()/2;
   636 		    entry_coos.y=(nodetextmap[active_node])->property_y().get_value();
   637 		    entry_coos.y-=nodetextmap[active_node]->property_text_height().get_value()*1.5/2;
   638 		    canvasentrywidget=new Gnome::Canvas::Widget(displayed_graph, entry_coos.x, entry_coos.y, entrywidget);
   639 		    canvasentrywidget->property_width().set_value(nodetextmap[active_node]->property_text_width().get_value()*1.5);
   640 		    canvasentrywidget->property_height().set_value(nodetextmap[active_node]->property_text_height().get_value()*1.5);
   641 		  }
   642 	      }
   643 	  }
   644 	else
   645 	  {
   646 	    GdkEvent * generated=new GdkEvent();
   647 	    generated->type=GDK_KEY_PRESS;
   648 	    ((GdkEventKey*)generated)->keyval=GDK_KP_Enter;
   649 	    entryWidgetChangeHandler(generated);
   650 	  }
   651 	break;
   652       }
   653     default:
   654       break;
   655     }
   656   return false;  
   657 }
   658 
   659 bool GraphDisplayerCanvas::entryWidgetChangeHandler(GdkEvent* e)
   660 {
   661   if(entrywidget.is_visible())
   662     {
   663       if(e->type==GDK_KEY_PRESS)
   664 	{
   665 	  switch(((GdkEventKey*)e)->keyval)
   666 	    {
   667 	    case GDK_Escape:
   668 	      entrywidget.hide();
   669 	      break;
   670 	    case GDK_KP_Enter:
   671 	    case GDK_Return:
   672 	      {
   673 		bool valid_double=true;
   674 		int point_num=0;
   675 		Glib::ustring mapvalue_str = entrywidget.get_text();
   676 
   677 		char * mapvalue_ch=new char [mapvalue_str.length()];
   678 		for(int i=0;i<(int)(mapvalue_str.length());i++)
   679 		  {
   680 		    if(((mapvalue_str[i]<'0')||(mapvalue_str[i]>'9'))&&(mapvalue_str[i]!='.'))
   681 		      {
   682 			valid_double=false;
   683 		      }
   684 		    else
   685 		      {
   686 			if(mapvalue_str[i]=='.')
   687 			  {
   688 			    point_num++;
   689 			  }
   690 		      }
   691 		    mapvalue_ch[i]=mapvalue_str[i];
   692 		  }
   693   
   694 		double mapvalue_d=atof(mapvalue_ch);
   695 
   696 // 		double double_map_fract_value=0;
   697 // 		double double_map_value=0;
   698 // 		int offset=0;
   699 // 		int found_letter=0;
   700 		//converting text to double
   701 // 		for(int i=0;i<(int)(mapvalue.length());i++)
   702 // 		  {
   703 // 		    if(((mapvalue[i]<='9')&&(mapvalue[i]>='0'))||(mapvalue[i]=='.'))
   704 // 		      {
   705 // 			if(mapvalue[i]=='.')
   706 // 			  {
   707 // 			    //for calculating non-integer part of double we step backward from the end
   708 // 			    //after each step the number will be divided by ten, and the new value will be added
   709 // 			    //to step backward from the end until the point the actual character of the string is the following:
   710 // 			    // mapvalue.length()-(i-position_of_point)
   711 // 			    //if i was the number of the first character after the decimal point the selected character will be the last
   712 // 			    //if i was the number of the last character, the selected character will be the first after the decimal point
   713 // 			    offset=mapvalue.length()+i;
   714 // 			  }
   715 // 			else
   716 // 			  {
   717 // 			    if(!offset)
   718 // 			      {
   719 // 				double_map_value=10*double_map_value+mapvalue[i]-'0';
   720 // 			      }
   721 // 			    else
   722 // 			      {
   723 // 				double_map_fract_value=double_map_fract_value/10+(double)(mapvalue[offset-i]-'0')/10;
   724 // 			      }
   725 // 			  }
   726 // 		      }
   727 // 		    else
   728 // 		      {
   729 // 			found_letter++;
   730 // 			continue;
   731 // 		      }
   732 // 		  }
   733 
   734 		if((point_num<=1)&&(valid_double))
   735 		  {
   736 		    switch(actual_tool)
   737 		      {
   738 		      case EDGE_MAP_EDIT:
   739 			edgetextmap[active_edge]->property_text().set_value(mapvalue_str);
   740 			(*(mapstorage.edgemap_storage)[edgemap_to_edit])[active_edge]=mapvalue_d;
   741 			break;
   742 		      case NODE_MAP_EDIT:
   743 			nodetextmap[active_node]->property_text().set_value(mapvalue_str);
   744 			(*(mapstorage.nodemap_storage)[nodemap_to_edit])[active_node]=mapvalue_d;
   745 			break;
   746 		      default:
   747 			break;
   748 		      }
   749 		    entrywidget.hide();
   750 		  }
   751 		else
   752 		  {
   753 		    std::cout << "ERROR: only handling of double values is implemented yet!" << std::endl;
   754 		  }
   755 
   756 		break;
   757 	      }
   758 	    default:
   759 	      break;
   760 	    }
   761 	}
   762     }
   763   return false;
   764 }
   765 
   766 void GraphDisplayerCanvas::deleteItem(NodeIt node_to_delete)
   767 {
   768   delete(nodetextmap[node_to_delete]);
   769   delete(nodesmap[node_to_delete]);
   770   g.erase(node_to_delete);
   771 }
   772 
   773 void GraphDisplayerCanvas::deleteItem(EdgeIt edge_to_delete)
   774 {
   775   delete(edgetextmap[edge_to_delete]);
   776   delete(edgesmap[edge_to_delete]);
   777   g.erase(edge_to_delete);
   778 }
   779 
   780 void GraphDisplayerCanvas::deleteItem(Graph::Edge edge_to_delete)
   781 {
   782   delete(edgetextmap[edge_to_delete]);
   783   delete(edgesmap[edge_to_delete]);
   784   g.erase(edge_to_delete);
   785 }
   786 
   787 void GraphDisplayerCanvas::textReposition(xy<double> new_place)
   788 {
   789   new_place+=(xy<double>(10,10));
   790   edgetextmap[forming_edge]->property_x().set_value(new_place.x);
   791   edgetextmap[forming_edge]->property_y().set_value(new_place.y);
   792 }
   793 
   794 void GraphDisplayerCanvas::toggleEdgeActivity(BrokenEdge* active_bre, bool on)
   795 {
   796   if(on)
   797     {
   798       if(forming_edge!=INVALID)
   799 	{
   800 	  std::cout << "ERROR!!!! Valid edge found!" << std::endl;
   801 	}
   802       else
   803 	{
   804 	  for (EdgeIt i(g); i!=INVALID; ++i)
   805 	    {
   806 	      if(edgesmap[i]==active_bre)
   807 		{
   808 		  forming_edge=i;
   809 		}
   810 	    }
   811 	}
   812     }
   813   else
   814     {
   815       if(forming_edge!=INVALID)
   816 	{
   817 	  forming_edge=INVALID;
   818 	}
   819       else
   820 	{
   821 	  std::cout << "ERROR!!!! Invalid edge found!" << std::endl;
   822 	}
   823     }
   824 
   825 }
   826 
   827 void GraphDisplayerCanvas::addNewEdgeMap(double default_value, std::string mapname)
   828 {
   829   Graph::EdgeMap<double> * emptr=new Graph::EdgeMap<double> (g,default_value);
   830   mapstorage.addEdgeMap(mapname,emptr);
   831   mapwin->registerNewEdgeMap(mapname);
   832   changeEdgeText(mapname);
   833 }
   834 
   835 void GraphDisplayerCanvas::addNewNodeMap(double default_value, std::string mapname)
   836 {
   837   Graph::NodeMap<double> * emptr=new Graph::NodeMap<double> (g,default_value);
   838   mapstorage.addNodeMap(mapname,emptr);
   839   mapwin->registerNewNodeMap(mapname);
   840   changeNodeText(mapname);
   841 }
   842