def get_camera(): if _platform == "darwin": import webcam return webcam.OpenCVCapture(device_id=0) elif _platform == "linux" or _platform == "linux2": import picam return picam.OpenCVCapture()
def get_camera(self): if self.settings.use_webcam: import webcam return webcam.OpenCVCapture(device_id=0) else: import picam return picam.OpenCVCapture()
def get_camera(): try: import picam return picam.OpenCVCapture() except Exception: import webcam return webcam.OpenCVCapture(device_id=0)
def get_camera(): try: import picam capture = picam.OpenCVCapture() capture.start() return capture except Exception: import webcam return webcam.OpenCVCapture(device_id=0)
def get_camera(): syslog.syslog("-" * 20) try: import picam syslog.syslog("Picam ausgewählt...") return picam.OpenCVCapture() except Exception: import webcam syslog.syslog("Webcam ausgewählt...") return webcam.OpenCVCapture(device_id=0) syslog.syslog("-" * 20)
def getCamera(cls): try: import webcam return webcam.OpenCVCapture(device_id=0) except Exception as e: print(e) import picam print("Loading PiCamera") capture = picam.OpenCVCapture(True) print("PiCamera loaded") capture.start() return capture
def init(): print("Loading training data...") os.chdir(config.MODEL_DIR) global models global camera for file in glob.glob("*.xml"): print("Loading model {0}".format(file)) name = file.replace(".xml", "") models[name] = cv2.face.createEigenFaceRecognizer() models[name].load(file) print("Training data loaded!") camera = picam.OpenCVCapture()
def get_camera(): try: if useUSBCam: print("Force use of USBCam...") raise Exception() import picam print("Picam selected...") # ausgewählt capture = picam.OpenCVCapture() capture.start() return capture except Exception: import webcam print("Webcam selected...") return webcam.OpenCVCapture(device_id=0)
def get_camera(): to_node("status", "-" * 20) try: if get("useUSBCam") == False: import picam to_node("status", "PiCam starting") cam = picam.OpenCVCapture() cam.start() return cam else: raise Exception except Exception: import webcam to_node("status", "Webcam ausgewählt...") return webcam.OpenCVCapture(device_id=0) to_node("status", "-" * 20)
def getCamera(cls): cls.toNode("status", "-" * 20) try: if cls.get("useUSBCam") == False: import picam cls.toNode("status", "PiCam loaded...") cam = picam.OpenCVCapture() cam.start() return cam else: raise Exception except Exception: import webcam cls.toNode("status", "Webcam loaded...") return webcam.OpenCVCapture(device_id=0) cls.toNode("status", "-" * 20)
def get_camera(): # Camera to use for capturing images. # Use this code for capturing from the Pi camera: import picam return picam.OpenCVCapture()
#imports for camera conversion from picamera.array import PiRGBArray from picamera import PiCamera import time import cv2 import PiCamera_Converter import picam #initialize the camera #PiCamera_Converter.PiCamera_Converter.take_Picture() #(camera, rawCapture) = PiCamera_Converter.PiCamera_Converter.createConvertedCameraObject() #camera.capture(rawCapture, format="bgr") #image = rawCapture.array #cv2.imshow("Image",image) #cv2.waitKey(0) cv2.imshow("image", picam.OpenCVCapture().read()) cv2.waitKey(0)
def get_camera(): import picam return picam.OpenCVCapture()
def get_camera(): # Camera to use for capturing images. import picam return picam.OpenCVCapture()