Ejemplo n.º 1
0
func DrawRectangles(image *cv.IplImage, rect []*cv.Rect, r int, g int, b int, thickness int) *cv.IplImage {
	for _, value := range rect {
		cv.Rectangle(image,
			cv.Point{value.X() + value.Width(), value.Y()},
			cv.Point{value.X(), value.Y() + value.Height()},
			cv.NewScalar(b, g, r), thickness, 1, 0)
	}
	return image
}
Ejemplo n.º 2
0
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)
}
Ejemplo n.º 3
0
func main() {
	gbot := gobot.NewGobot()

	window := opencv.NewWindowDriver("window")
	camera := opencv.NewCameraDriver("camera", 0)

	//e := edison.NewEdisonAdaptor("edison")
	//led1 := gpio.NewLedDriver(e, "led", "13")
	//firmataAdaptor := firmata.NewFirmataAdaptor("arduino", "/dev/ttyACM0")
	//led1 := gpio.NewLedDriver(firmataAdaptor, "led", "13")
	//motor := gpio.NewMotorDriver(firmataAdaptor, "motor", "4")
	//led2 := gpio.NewLedDriver(firmataAdaptor, "led", "10")
	//led3 := gpio.NewLedDriver(firmataAdaptor, "led", "9")

	_, currentfile, _, _ := runtime.Caller(0)
	work := func() {
		//speed := byte(0)
		//fadeAmount := byte(15)
		gobot.On(camera.Event("frame"), func(data interface{}) {
			cascade := cv.LoadHaarClassifierCascade(path.Join(path.Dir(currentfile), "haarcascade_frontalface_alt.xml"))
			nestedcascade := cv.LoadHaarClassifierCascade(path.Join(path.Dir(currentfile), "smiled_04.xml"))

			i := data.(*cv.IplImage)
			faces := cascade.DetectObjects(i)
			teeth := 0
			//flagcenter:= false
			for _, value := range faces {
				/*cv.Rectangle(i,
				cv.Point{value.X() + value.Width(), value.Y()},
				cv.Point{value.X(), value.Y() + value.Height()},
				cv.ScalarAll(255.0), 1, 0, 0)*/

				mouths := nestedcascade.DetectObjects(i)
				for _, value1 := range mouths {
					if float64(value1.Y()) > float64(value.Y())+float64(value.Height())*3/5 && float64(value1.Y())+float64(value1.Height()) < float64(value.Y())+float64(value.Height()) && math.Abs((float64(value1.X())+float64(value1.Width())/2)-(float64(value.X())+float64(value.Width())/2)) < float64(value.Width())/10 {

						cv.Rectangle(i,
							cv.Point{value1.X() + value1.Width(), value1.Y()},
							cv.Point{value1.X(), value1.Y() + value1.Height()},
							cv.ScalarAll(255.0), 1, 0, 0)
						teeth = teeth + 1
						//if value1.X()>240 && value1.Y()>240 && value1.Height()>50 && value1.Width()>100{ flagcenter=true }else{ flagcenter=false }
						fmt.Println(value1.X(), value1.Y(), value1.Height(), value1.Width())
					}
				}
				//if len(smiles) > 0 { fmt.Println("worked")}
			}
			window.ShowImage(i)
			if teeth > 0 {
				//led1.On()
				//motor.Speed(speed)
				//speed = speed + fadeAmount
				//if speed == 0 || speed == 255 {
				//	fadeAmount = -fadeAmount
				//}
				fmt.Println("good")
				//led2.On()
				//led3.On()
				/*f := faces[0]
				w := f.Width()
				fmt.Println(w)
				switch {
				case w < 250:
					fmt.Println("*")
					led2.On()
					led3.Off()
					//red3.Off()
					//red4.Off()
					//red5.Off()
				case w > 250 && w < 350:
					fmt.Println("**")
					led2.Off()
					led3.On()
					//red3.Off()
					//red4.Off()
					//red5.Off()
				case w > 350 && w < 400:
					fmt.Println("***")
					led2.On()
					led3.On()
					//red3.On()
					//red4.Off()
					//red5.Off()
				case w > 400 && w < 450:
					fmt.Println("****")
					led2.On()
					led3.On()
					//red3.On()
					//red4.On()
					//red5.Off()
				case w > 450:
					fmt.Println("*****")
					led2.Off()
					led3.Off()
					//red3.On()
					//red4.On()
					//red5.On()
				}*/
			} else {
				//led1.Off()
				//speed = byte(0)
				//fadeAmount := byte(15)
				fmt.Println("smile please")
				//led2.Off()
				//led3.Off()
				//red3.Off()
				//red4.Off()
				//red5.Off()
			}

		})

	}

	/*work1 := func() {
	        gobot.Every(1*time.Second, func() {

	        })
	}*/

	robot := gobot.NewRobot("cameraBot",
		//[]gobot.Connection{firmataAdaptor},
		[]gobot.Device{window, camera},
		work,
	)

	/*robot1 := gobot.NewRobot("ledBot",
	        []gobot.Device{window,camera,led1},
	        work,
	)*/

	gbot.AddRobot(robot)
	//gbot.AddRobot(robot1)

	gbot.Start()

}