src/work/peter/magic_plane_figure.cc
changeset 1299 e2545ef5d7d8
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-1:000000000000 0:25167390427b
       
     1 // This example was started by Guillaume Laurent.
       
     2 // It has become a place to dump code that tests parts of the
       
     3 // gnomemm canvas code. Little thought has been given to the
       
     4 // actual on-screen output.
       
     5 
       
     6 #include <libgnomecanvasmm.h>
       
     7 #include <libgnomecanvasmm/polygon.h>
       
     8 #include <iostream>
       
     9 #include <lemon/list_graph.h>
       
    10 
       
    11 class CanvasExample : public Gnome::Canvas::CanvasAA
       
    12 {
       
    13 	typedef Gnome::Canvas::CanvasAA Parent;
       
    14 
       
    15 public:
       
    16 	CanvasExample(double *, int);
       
    17 	virtual ~CanvasExample();
       
    18 
       
    19 private:
       
    20 
       
    21 	///Event handler function that handles dragging nodes of triangle
       
    22 	bool event_handler(GdkEvent* e, int b);
       
    23 
       
    24 	///Event handler function that handles dragging triangle
       
    25 	bool tri_mover(GdkEvent* e);
       
    26 
       
    27 	///Coordinates of Weight Point of tirangle
       
    28 	Gnome::Art::Point * wp;
       
    29 	///Array of nodes of planefigure
       
    30 	Gnome::Canvas::Ellipse ** nodes;
       
    31 	///Sides of planefigure
       
    32 	Gnome::Canvas::Polygon * sides;
       
    33 	///Group of graphical elements of triangle
       
    34 	Gnome::Canvas::Group triangle;
       
    35 
       
    36 	///Indicates whether the button of mouse is pressed or not
       
    37 	bool isbutton;
       
    38 
       
    39 	///Number Of Elements - the number of nodes
       
    40 	int noe;
       
    41 
       
    42 	///Array of coordinates
       
    43 	double * coordinates;
       
    44 
       
    45 	///At this location was the mousebutton pressed.
       
    46 	///It helps to calculate the distance of dragging.
       
    47 	double clicked_x, clicked_y;
       
    48 
       
    49 	///Remembers which Gnome::Canvas::Item was pressed.
       
    50 	///this variable is needed, because
       
    51 	///1. we cannot query the item at he cursor as fast as it could not cause a Segmentation Fault
       
    52 	///2. we would like to handle only ony item per movement, therefore quering it is not a working solution
       
    53 	Gnome::Canvas::Item * active_item;
       
    54 
       
    55 
       
    56 };
       
    57 
       
    58 ///When we click on the weight point we can drag the whole triangle. This function resolves it.
       
    59 bool CanvasExample::tri_mover(GdkEvent* e)
       
    60 {
       
    61 	switch(e->type)
       
    62 	{
       
    63 		case GDK_BUTTON_PRESS:
       
    64 			clicked_x=e->button.x;
       
    65 			clicked_y=e->button.y;
       
    66 			isbutton=true;
       
    67 			break;
       
    68 		case GDK_BUTTON_RELEASE:
       
    69 			isbutton=false;
       
    70 			active_item=NULL;
       
    71 			break;
       
    72 		case GDK_MOTION_NOTIFY:
       
    73 			if(isbutton)
       
    74 			{
       
    75 				double dx=e->motion.x-clicked_x;
       
    76 				double dy=e->motion.y-clicked_y;
       
    77 
       
    78 				Gnome::Canvas::Points coos;
       
    79 
       
    80 				for(int i=0;i<=noe;i++)
       
    81 				{
       
    82 					nodes[i]->move(dx,dy);
       
    83 
       
    84 					double x=(coordinates[2*i]+=dx);
       
    85 					double y=(coordinates[2*i+1]+=dy);
       
    86 
       
    87 					if(i!=noe)coos.push_back(Gnome::Art::Point(x,y));
       
    88 
       
    89 				}
       
    90 
       
    91 				clicked_x=e->motion.x;
       
    92 				clicked_y=e->motion.y;
       
    93 
       
    94 				sides->property_points().set_value(coos);
       
    95 			}
       
    96 		default: break;
       
    97 	}
       
    98 	return true;
       
    99 }
       
   100 
       
   101 ///This function moves only one node of triangle,
       
   102 ///but recalculate the location of wight point,
       
   103 ///and also redraw the sides of the planefigure.
       
   104 bool CanvasExample::event_handler(GdkEvent* e, int b)
       
   105 {
       
   106 	switch(e->type)
       
   107 	{
       
   108 		case GDK_BUTTON_PRESS:
       
   109 			clicked_x=e->button.x;
       
   110 			clicked_y=e->button.y;
       
   111 			active_item=(get_item_at(e->button.x, e->button.y));
       
   112 			isbutton=true;
       
   113 			break;
       
   114 		case GDK_BUTTON_RELEASE:
       
   115 			isbutton=false;
       
   116 			active_item=NULL;
       
   117 			break;
       
   118 		case GDK_MOTION_NOTIFY:
       
   119 			if(isbutton)
       
   120 			{
       
   121 				//double x1, y1, x2, y2;
       
   122 				//(get_item_at(e->motion.x, e->motion.y))->get_bounds(x1, y1, x2, y2);
       
   123 				//printf("Item coos: %d %d %d %d\n", (int)x1, (int)y1, (int)x2, (int)y2);
       
   124 				//printf("Mouse is moved! %d %d\n",(int)e->motion.x,(int)e->motion.y);
       
   125 				double dx=e->motion.x-clicked_x;
       
   126 				double dy=e->motion.y-clicked_y;
       
   127 				active_item->move(dx, dy);
       
   128 
       
   129 				coordinates[2*b]+=dx;
       
   130 				coordinates[2*b+1]+=dy;
       
   131 
       
   132 				Gnome::Canvas::Points coos;
       
   133 
       
   134 				double x_wp=0;
       
   135 				double y_wp=0;
       
   136 
       
   137 				for(int i=0;i<noe;i++)
       
   138 				{
       
   139 					coos.push_back(Gnome::Art::Point(coordinates[2*i], coordinates[2*i+1]));
       
   140 
       
   141 					x_wp+=coordinates[2*i];
       
   142 					y_wp+=coordinates[2*i+1];
       
   143 				}
       
   144 
       
   145 				sides->property_points().set_value(coos);
       
   146 
       
   147 				x_wp/=noe;
       
   148 				y_wp/=noe;
       
   149 
       
   150 				dx=x_wp-coordinates[noe*2];
       
   151 				dy=y_wp-coordinates[noe*2+1];
       
   152 				nodes[noe]->move(dx, dy);
       
   153 
       
   154 				coordinates[noe*2]+=dx;
       
   155 				coordinates[noe*2+1]+=dy;
       
   156 
       
   157 				clicked_x=e->motion.x;
       
   158 				clicked_y=e->motion.y;
       
   159 			}
       
   160 		default: break;
       
   161 	}
       
   162 	return true;
       
   163 }
       
   164 
       
   165 CanvasExample::CanvasExample(double * coosarray, int numofcoos):triangle(*(root()), 0, 0),isbutton(false),active_item(NULL)
       
   166 {
       
   167 	noe=numofcoos/2;
       
   168 
       
   169 	coordinates=new double [numofcoos+2];
       
   170 
       
   171 	double x_wp=0;
       
   172 	double y_wp=0;
       
   173 
       
   174 	Gnome::Canvas::Points coos;
       
   175 	for(int i=0;i<numofcoos;i+=2)
       
   176 	{
       
   177 		coordinates[i]=coosarray[i];
       
   178 		coordinates[i+1]=coosarray[i+1];
       
   179 		coos.push_back(Gnome::Art::Point(coordinates[i],
       
   180 						 coordinates[i+1]));
       
   181 
       
   182 		x_wp+=coordinates[i];
       
   183 		y_wp+=coordinates[i+1];
       
   184 
       
   185 	}
       
   186 
       
   187 	sides=new Gnome::Canvas::Polygon(triangle, coos);
       
   188 	*sides << Gnome::Canvas::Properties::outline_color("green");
       
   189 	sides->property_width_pixels().set_value(10);
       
   190 
       
   191 	nodes=new Gnome::Canvas::Ellipse* [noe+1];
       
   192 
       
   193 	for(int i=0; i<noe;i++)
       
   194 	{
       
   195 		nodes[i]= new Gnome::Canvas::Ellipse(triangle, coos[i].get_x()-20, coos[i].get_y()-20, coos[i].get_x()+20, coos[i].get_y()+20);
       
   196 		*(nodes[i]) << Gnome::Canvas::Properties::fill_color("blue");
       
   197 		*(nodes[i]) << Gnome::Canvas::Properties::outline_color("black");
       
   198 		(nodes[i])->signal_event().connect(sigc::bind(sigc::mem_fun(*this, &CanvasExample::event_handler),i));
       
   199 	}
       
   200 
       
   201 	coordinates[numofcoos]=x_wp/noe;
       
   202 	coordinates[numofcoos+1]=y_wp/noe;
       
   203 
       
   204 	wp=new Gnome::Art::Point(coordinates[numofcoos],coordinates[numofcoos+1]);
       
   205 
       
   206 	nodes[noe]= new Gnome::Canvas::Ellipse
       
   207 	(
       
   208 		triangle,
       
   209 		coordinates[numofcoos]-20,
       
   210 		coordinates[numofcoos+1]-20,
       
   211 		coordinates[numofcoos]+20,
       
   212 		coordinates[numofcoos+1]+20
       
   213 	);
       
   214 	*(nodes[noe]) << Gnome::Canvas::Properties::fill_color("blue");
       
   215 	*(nodes[noe]) << Gnome::Canvas::Properties::outline_color("black");
       
   216 	(nodes[noe])->signal_event().connect(sigc::mem_fun(*this, &CanvasExample::tri_mover));
       
   217 
       
   218 
       
   219 
       
   220 }
       
   221 
       
   222 CanvasExample::~CanvasExample()
       
   223 {
       
   224 }
       
   225 
       
   226 //MainWin:
       
   227 
       
   228 class MainWin : public Gtk::Window
       
   229 {
       
   230 public:
       
   231 	MainWin(const std::string& title, double *, int);
       
   232 
       
   233 protected:
       
   234 	//Member widgets:
       
   235 	CanvasExample m_canvas;
       
   236 };
       
   237 
       
   238 MainWin::MainWin(const std::string& title, double * coosarray, int noc):m_canvas(coosarray, noc)
       
   239 {
       
   240 	set_title (title);
       
   241 	add(m_canvas);
       
   242 	set_default_size(900,600);
       
   243 
       
   244 	show_all();
       
   245 }
       
   246 
       
   247 //main():
       
   248 
       
   249 int main(int argc, char *argv[])
       
   250 {
       
   251 	if((argc>=7)&& (argc%2) )
       
   252 	{
       
   253 		double * coosarray=new double[argc];
       
   254 
       
   255 		for(int i=1;i<argc;i++)
       
   256 		{
       
   257 			coosarray[i-1]=atof(argv[i]);
       
   258 			printf("%g%c",coosarray[i-1],i%2?' ':'\n');
       
   259 		}
       
   260 
       
   261 		Gnome::Canvas::init();
       
   262 		Gtk::Main app(argc, argv);
       
   263 
       
   264 		MainWin mainwin("Magic Triangle",coosarray,argc-1);
       
   265 		app.run(mainwin);
       
   266 	}
       
   267 
       
   268 	return 0;
       
   269 }