// // Sample program demostrating using Cairo with Gtk# // using Gtk; using System; using System.Drawing; class X { static DrawingArea a, b; static void Main () { Application.Init (); Gtk.Window w = new Gtk.Window ("System.Drawing and Gtk#"); // Custom widget sample a = new PrettyGraphic (); // Event-based drawing b = new DrawingArea (); b.ExposeEvent += ExposeHandler; b.SizeAllocated += SizeAllocatedHandler; Button c = new Button ("Quit"); c.Clicked += quit; MovingText m = new MovingText (); Box box = new HBox (true, 0); box.Add (a); box.Add (b); box.Add (m); box.Add (c); w.Add (box); w.ShowAll (); Application.Run (); } static void quit (object obj, EventArgs args) { Application.Quit (); } static Gdk.Rectangle rect; static void SizeAllocatedHandler (object obj, SizeAllocatedArgs args) { rect = args.Allocation; } static void ExposeHandler (object obj, ExposeEventArgs args) { Gdk.EventExpose ev = args.Event; Gdk.Window window = ev.Window; using (Graphics g = Gdk.Graphics.FromDrawable (window)){ g.TranslateTransform (ev.Area.X, ev.Area.Y); using (Pen p = new Pen (Color.Red)){ g.DrawPie (p, 0, 0, rect.Width, rect.Height, 50, 90); } } } } // // A sample using inheritance to draw // class PrettyGraphic : DrawingArea { public PrettyGraphic () { SetSizeRequest (200, 200); } protected override bool OnExposeEvent (Gdk.EventExpose args) { using (Graphics g = Gdk.Graphics.FromDrawable (args.Window)){ Pen p = new Pen (Color.Blue, 1.0f); for (int i = 0; i < 600; i += 60) for (int j = 0; j < 600; j += 60) g.DrawLine (p, i, 0, 0, j); } return true; } } class MovingText : DrawingArea { static int d = 0; Font f; public MovingText () { GLib.Timeout.Add (20, new GLib.TimeoutHandler (Forever)); SetSizeRequest (300, 200); f = new Font ("Times", 20); } bool Forever () { QueueDraw (); return true; } protected override bool OnExposeEvent (Gdk.EventExpose args) { using (Graphics g = Gdk.Graphics.FromDrawable (args.Window)){ using (Brush back = new SolidBrush (Color.White), fore = new SolidBrush (Color.Red)){ g.FillRectangle (back, 0, 0, 400, 400); g.TranslateTransform (150, 100); g.RotateTransform (d); d += 3; g.DrawString ("Mono", f, fore, 0, 0); } } return true; } }