func main() { // Open the connection to the X server X, err := xgb.NewConn() if err != nil { log.Fatal(err) } // geometric objects points := []xproto.Point{ {10, 10}, {10, 20}, {20, 10}, {20, 20}} polyline := []xproto.Point{ {50, 10}, {5, 20}, // rest of points are relative {25, -20}, {10, 10}} segments := []xproto.Segment{ {100, 10, 140, 30}, {110, 25, 130, 60}} rectangles := []xproto.Rectangle{ {10, 50, 40, 20}, {80, 50, 10, 40}} arcs := []xproto.Arc{ {10, 100, 60, 40, 0, 90 << 6}, {90, 100, 55, 40, 0, 270 << 6}} setup := xproto.Setup(X) // Get the first screen screen := setup.DefaultScreen(X) // Create black (foreground) graphic context foreground, _ := xproto.NewGcontextId(X) mask := uint32(xproto.GcForeground | xproto.GcGraphicsExposures) values := []uint32{screen.BlackPixel, 0} xproto.CreateGC(X, foreground, xproto.Drawable(screen.Root), mask, values) // Ask for our window's Id win, _ := xproto.NewWindowId(X) winDrawable := xproto.Drawable(win) // Create the window mask = uint32(xproto.CwBackPixel | xproto.CwEventMask) values = []uint32{screen.WhitePixel, xproto.EventMaskExposure} xproto.CreateWindow(X, // Connection screen.RootDepth, // Depth win, // Window Id screen.Root, // Parent Window 0, 0, // x, y 150, 150, // width, height 10, // border_width xproto.WindowClassInputOutput, // class screen.RootVisual, // visual mask, values) // masks // Map the window on the screen xproto.MapWindow(X, win) for { evt, err := X.WaitForEvent() switch evt.(type) { case xproto.ExposeEvent: /* We draw the points */ xproto.PolyPoint(X, xproto.CoordModeOrigin, winDrawable, foreground, points) /* We draw the polygonal line */ xproto.PolyLine(X, xproto.CoordModePrevious, winDrawable, foreground, polyline) /* We draw the segments */ xproto.PolySegment(X, winDrawable, foreground, segments) /* We draw the rectangles */ xproto.PolyRectangle(X, winDrawable, foreground, rectangles) /* We draw the arcs */ xproto.PolyArc(X, winDrawable, foreground, arcs) default: /* Unknown event type, ignore it */ } if err != nil { log.Fatal(err) } } return }
func main() { // Open the connection to the X server X, err := xgb.NewConn() if err != nil { log.Fatal(err) } defer X.Close() // geometric objects points := []xproto.Point{ {10, 10}, {10, 20}, {20, 10}, {20, 20}} polyline := []xproto.Point{ {50, 10}, {5, 20}, // rest of points are relative {25, -20}, {10, 10}} segments := []xproto.Segment{ {100, 10, 140, 30}, {110, 25, 130, 60}} rectangles := []xproto.Rectangle{ {10, 50, 40, 20}, {80, 50, 10, 40}} arcs := []xproto.Arc{ {10, 100, 60, 40, 0, 90 << 6}, {90, 100, 55, 40, 0, 270 << 6}} setup := xproto.Setup(X) // Get the first screen screen := setup.DefaultScreen(X) // Create black (foreground) graphic context foreground, _ := xproto.NewGcontextId(X) mask := uint32(xproto.GcForeground | xproto.GcGraphicsExposures) values := []uint32{screen.BlackPixel, 0} xproto.CreateGC(X, foreground, xproto.Drawable(screen.Root), mask, values) // Ask for our window's Id win, _ := xproto.NewWindowId(X) winDrawable := xproto.Drawable(win) // Create the window mask = uint32(xproto.CwBackPixel | xproto.CwEventMask) values = []uint32{screen.WhitePixel, xproto.EventMaskExposure} xproto.CreateWindow(X, // Connection screen.RootDepth, // Depth win, // Window Id screen.Root, // Parent Window 0, 0, // x, y 150, 150, // width, height 10, // border_width xproto.WindowClassInputOutput, // class screen.RootVisual, // visual mask, values) // masks // Map the window on the screen xproto.MapWindow(X, win) // Obey the window-delete protocol tp := "WM_PROTOCOLS" prp := "WM_DELETE_WINDOW" typeAtom, _ := xproto.InternAtom(X, true, uint16(len(tp)), tp).Reply() propertyAtom, _ := xproto.InternAtom(X, true, uint16(len(prp)), prp).Reply() // It turns out that we need the window ID as a byte-stream... WTF!! // xprop.ChangeProp(xu, win, 8, "WM_NAME", "STRING", ([]byte)(name)) // ChangeProp(xu *xgbutil.XUtil, win xproto.Window, format byte, prop string, typ string, data []byte) data := make([]byte, 4) xgb.Put32(data, uint32(propertyAtom.Atom)) xproto.ChangeProperty(X, xproto.PropModeReplace, win, typeAtom.Atom, xproto.AtomAtom, 32, 1, data) for { evt, err := X.WaitForEvent() fmt.Printf("An event of type %T occured.\n", evt) if evt == nil && err == nil { fmt.Println("Exiting....") return } else if err != nil { log.Fatal(err) } switch event := evt.(type) { case xproto.ExposeEvent: /* We draw the points */ xproto.PolyPoint(X, xproto.CoordModeOrigin, winDrawable, foreground, points) /* We draw the polygonal line */ xproto.PolyLine(X, xproto.CoordModePrevious, winDrawable, foreground, polyline) /* We draw the segments */ xproto.PolySegment(X, winDrawable, foreground, segments) /* We draw the rectangles */ xproto.PolyRectangle(X, winDrawable, foreground, rectangles) /* We draw the arcs */ xproto.PolyArc(X, winDrawable, foreground, arcs) case xproto.ClientMessageEvent: if len(event.Data.Data32) > 0 { data := xproto.Atom(event.Data.Data32[0]) if data == propertyAtom.Atom { return } else { atomName, _ := xproto.GetAtomName(X, data).Reply() fmt.Println(atomName.Name) } } else { atomName, _ := xproto.GetAtomName(X, event.Type).Reply() fmt.Println(atomName.Name) } default: /* Unknown event type, ignore it */ } } return }