func main() { _, currentfile, _, _ := runtime.Caller(0) filename := path.Join(path.Dir(currentfile), "../images/lena.jpg") if len(os.Args) == 2 { filename = os.Args[1] } image := opencv.LoadImage(filename) if image == nil { panic("LoadImage fail") } defer image.Release() win := opencv.NewWindow("Go-OpenCV") defer win.Destroy() win.SetMouseCallback(func(event, x, y, flags int) { fmt.Printf("event = %d, x = %d, y = %d, flags = %d\n", event, x, y, flags, ) }) win.CreateTrackbar("Thresh", 1, 100, func(pos int) { fmt.Printf("pos = %d\n", pos) }) win.ShowImage(image) opencv.WaitKey(0) }
func TestUtils(t *testing.T) { _, currentfile, _, _ := runtime.Caller(0) image := cv.LoadImage(path.Join(path.Dir(currentfile), "lena-256x256.jpg")) rect := DetectFaces("haarcascade_frontalface_alt.xml", image) gobot.Refute(t, len(rect), 0) gobot.Refute(t, DrawRectangles(image, rect, 0, 0, 0, 0), nil) }
func TestWindowDriverShowImage(t *testing.T) { d := initTestWindowDriver() _, currentfile, _, _ := runtime.Caller(0) image := cv.LoadImage(path.Join(path.Dir(currentfile), "lena-256x256.jpg")) d.Start() d.ShowImage(image) }
func main() { _, currentfile, _, _ := runtime.Caller(0) image := opencv.LoadImage(path.Join(path.Dir(currentfile), "../images/lena.jpg")) cascade := opencv.LoadHaarClassifierCascade(path.Join(path.Dir(currentfile), "haarcascade_frontalface_alt.xml")) faces := cascade.DetectObjects(image) for _, value := range faces { opencv.Rectangle(image, opencv.Point{value.X() + value.Width(), value.Y()}, opencv.Point{value.X(), value.Y() + value.Height()}, opencv.ScalarAll(255.0), 1, 1, 0) } win := opencv.NewWindow("Face Detection") win.ShowImage(image) opencv.WaitKey(0) }
func main() { _, currentfile, _, _ := runtime.Caller(0) filename := path.Join(path.Dir(currentfile), "../images/fruits.jpg") if len(os.Args) == 2 { filename = os.Args[1] } img0 := opencv.LoadImage(filename) if img0 == nil { panic("LoadImage fail") } defer img0.Release() fmt.Print("Hot keys: \n", "\tESC - quit the program\n", "\tr - restore the original image\n", "\ti or ENTER - run inpainting algorithm\n", "\t\t(before running it, paint something on the image)\n", ) img := img0.Clone() inpainted := img0.Clone() inpaint_mask := opencv.CreateImage(img0.Width(), img0.Height(), 8, 1) opencv.Zero(inpaint_mask) //opencv.Zero( inpainted ) win := opencv.NewWindow("image") defer win.Destroy() prev_pt := opencv.Point{-1, -1} win.SetMouseCallback(func(event, x, y, flags int, param ...interface{}) { if img == nil { os.Exit(0) } if event == opencv.CV_EVENT_LBUTTONUP || (flags&opencv.CV_EVENT_FLAG_LBUTTON) == 0 { prev_pt = opencv.Point{-1, -1} } else if event == opencv.CV_EVENT_LBUTTONDOWN { prev_pt = opencv.Point{x, y} } else if event == opencv.CV_EVENT_MOUSEMOVE && (flags&opencv.CV_EVENT_FLAG_LBUTTON) != 0 { pt := opencv.Point{x, y} if prev_pt.X < 0 { prev_pt = pt } rgb := opencv.ScalarAll(255.0) opencv.Line(inpaint_mask, prev_pt, pt, rgb, 5, 8, 0) opencv.Line(img, prev_pt, pt, rgb, 5, 8, 0) prev_pt = pt win.ShowImage(img) } }) win.ShowImage(img) opencv.WaitKey(0) win2 := opencv.NewWindow("inpainted image") defer win2.Destroy() win2.ShowImage(inpainted) for { key := opencv.WaitKey(20) if key == 27 { os.Exit(0) } else if key == 'r' { opencv.Zero(inpaint_mask) opencv.Copy(img0, img, nil) win.ShowImage(img) } else if key == 'i' || key == '\n' { opencv.Inpaint(img, inpaint_mask, inpainted, 3, opencv.CV_INPAINT_TELEA, ) win2.ShowImage(inpainted) } } os.Exit(0) }
func main() { _, currentfile, _, _ := runtime.Caller(0) filename := path.Join(path.Dir(currentfile), "../images/lena.jpg") if len(os.Args) == 2 { filename = os.Args[1] } image := opencv.LoadImage(filename) if image == nil { panic("LoadImage fail") } defer image.Release() w := image.Width() h := image.Height() // Create the output image cedge := opencv.CreateImage(w, h, opencv.IPL_DEPTH_8U, 3) defer cedge.Release() // Convert to grayscale gray := opencv.CreateImage(w, h, opencv.IPL_DEPTH_8U, 1) edge := opencv.CreateImage(w, h, opencv.IPL_DEPTH_8U, 1) defer gray.Release() defer edge.Release() opencv.CvtColor(image, gray, opencv.CV_BGR2GRAY) win := opencv.NewWindow("Edge") defer win.Destroy() win.SetMouseCallback(func(event, x, y, flags int, param ...interface{}) { fmt.Printf("event = %d, x = %d, y = %d, flags = %d\n", event, x, y, flags, ) }) win.CreateTrackbar("Thresh", 1, 100, func(pos int, param ...interface{}) { edge_thresh := pos opencv.Smooth(gray, edge, opencv.CV_BLUR, 3, 3, 0, 0) opencv.Not(gray, edge) // Run the edge detector on grayscale opencv.Canny(gray, edge, float64(edge_thresh), float64(edge_thresh*3), 3) opencv.Zero(cedge) // copy edge points opencv.Copy(image, cedge, edge) win.ShowImage(cedge) fmt.Printf("pos = %d\n", pos) }) win.ShowImage(image) for { key := opencv.WaitKey(20) if key == 27 { os.Exit(0) } } os.Exit(0) }