func main() { win, err := x11.NewWindow() if win == nil { log.Fatalf("no window: %v", err) } screen := win.Screen() bg := canvas.NewBackground(screen.(*image.RGBA), image.White, flushFunc(win)) cvs = canvas.NewCanvas(nil, bg.Rect()) bg.SetItem(cvs) item := canvas.Draggable(canvas.Moveable( canvas.NewText( image.ZP, 0, "Hello, world", defaultFont(), 30, nil))) item.SetCentre(image.Pt(cvs.Rect().Dx()/2, cvs.Rect().Dy()/3)) cvs.AddItem(item) // txtitem := canvas.NewText( // image.Pt(100, 100), // 0, // "Working?", // defaultFont(), // 20, // nil) // img := canvas.ImageOf(txtitem) // cvs.AddItem(canvas.NewImage(img, false, image.Pt(cvs.Width() / 2, cvs.Height()*2/3))) cvs.Flush() ec := win.EventChan() for { switch e := (<-ec).(type) { case nil: log.Fatal("quitting") return case draw.MouseEvent: if e.Buttons == 0 { break } cvs.HandleMouse(cvs, e, ec) } } }
func main() { ctxt, err := x11.NewWindow() if ctxt == nil { log.Fatalf("no window: %v", err) } screen := ctxt.Screen() bg := canvas.NewBackground(screen.(*image.RGBA), image.White, flushFunc(ctxt)) cvs = canvas.NewCanvas(nil, bg.Rect()) bg.SetItem(cvs) ec := ctxt.EventChan() cvs.Flush() for { select { case e := <-ec: switch e := e.(type) { case nil: if closed(ec) { log.Fatal("quitting") return } case draw.MouseEvent: if e.Buttons == 0 { break } if cvs.HandleMouse(cvs, e, ec) { fmt.Printf("handled mouse\n") break } fmt.Printf("raster maker\n") rasterMaker(e, ec) } } } }
func main() { flag.Parse() wctxt, err := x11.NewWindow() if wctxt == nil { log.Exitf("no window: %v", err) } screen := wctxt.Screen() ctxt := &context{} ctxt.iterations = *iterations bg := canvas.NewBackground(screen.(*image.RGBA), draw.White, flushFunc(wctxt)) ctxt.cvs = canvas.NewCanvas(nil, bg.Rect()) bg.SetItem(ctxt.cvs) ctxt.cache = NewTileTable() ctxt.setFractal(NewMandelbrot(topArea, ctxt.cvs.Rect(), false, 0, ctxt.iterations), draw.ZP) qc := wctxt.QuitChan() kc := wctxt.KeyboardChan() mc := wctxt.MouseChan() ctxt.cvs.Flush() for { select { case <-qc: log.Exit("quitting") return case m0 := <-mc: // b1 drag - drag mandel around. // double-b1 drag - zoom in to rectangle // douible-b1 click - zoom in a little // b2 click - julia // b2 drag - interactive julia // b3 zoom out if m0.Buttons == 0 { break } nclick := 0 clicks, finalm := clicker(m0, mc) for _ = range clicks { nclick++ } m := <-finalm dragging := m.Buttons != 0 switch { case m0.Buttons&1 != 0: switch nclick { case 1: if dragging { ctxt.cvs.HandleMouse(ctxt.cvs, m, mc) } case 2: if dragging { ctxt.zoomRect(m, mc) } else { ctxt.zoomABit(m, mc) } } case m0.Buttons&2 != 0: switch nclick { case 1: if dragging { ctxt.interactiveJulia(m, mc) } else { ctxt.julia(m.Point) } } case m0.Buttons&4 != 0: ctxt.pop() } case <-kc: } } }
func main() { rand.Seed(0) ctxt, err := x11.NewWindow() if ctxt == nil { log.Fatalf("no window: %v", err) } screen := ctxt.Screen() bg := canvas.NewBackground(screen.(*image.RGBA), image.White, flushFunc(ctxt)) window = canvas.NewCanvas(nil, bg.Rect()) bg.SetItem(window) nballs := 0 ctxt.FlushImage() csz := window.Rect().Max // add edges of window addLine(image.Pt(-1, -1), image.Pt(csz.X, -1)) addLine(image.Pt(csz.X, -1), image.Pt(csz.X, csz.Y)) addLine(image.Pt(csz.X, csz.Y), image.Pt(-1, csz.Y)) addLine(image.Pt(-1, csz.Y), image.Pt(-1, -1)) go sliderProc() makeRect(image.Rect(30, 30, 200, 100), setAlpha(red, 128)) makeRect(image.Rect(150, 90, 230, 230), setAlpha(blue, 128)) window.Flush() mkball := make(chan ball) delball := make(chan bool) pause := make(chan bool) go monitor(mkball, delball, pause) for i := 0; i < nballs; i++ { mkball <- randBall() } ecc := make(chan (<-chan interface{})) ec := ctxt.EventChan() for { select { case e, ok := <-ec: if !ok { return } switch e := e.(type) { case ui.MouseEvent: if e.Buttons == 0 { break } if window.HandleMouse(window, e, ec) { break } switch { case e.Buttons&1 != 0: go handleMouse(e, ec, ecc, lineMaker) ec = nil case e.Buttons&2 != 0: go handleMouse(e, ec, ecc, func(m ui.MouseEvent, ec <-chan interface{}) { ballMaker(e, ec, mkball) }) ec = nil case e.Buttons&4 != 0: delball <- true } case ui.KeyEvent: fmt.Printf("got key %c (%d)\n", e.Key, e.Key) switch e.Key { case ' ': pause <- true case 'd': delball <- true } default: fmt.Printf("unknown event %v\n", e) } case ec = <-ecc: break } } }