Exemple #1
0
    def _run(self, keep=True):
        print fc2.get_library_version()
        c = fc2.Context()
        if (c.get_num_of_cameras() < 1): return
        c.connect(*c.get_camera_from_index(0))
        m, f = c.get_video_mode_and_frame_rate()
        print(c.get_format7_configuration())
        c.start_capture()
        im = fc2.Image()
        while True:
            c.retrieve_buffer(im)
            a = np.array(im)
            a = cv2.resize(a, (640, 480))
            a = cv2.flip(a, 0)
            if self.ctrl:
                self.ctrl.lock.acquire()
                self.ctrl.imageQueue.append(a)
                self.ctrl.haveImage = True
                self.ctrl.lock.release()
                self.ctrl.event()
                #cv2.imshow('rgb1', a)
                #cv2.waitKey(1)
            else:
                cv2.imshow('rgb', a)

                if not keep:
                    key = cv2.waitKey()
                    break
                else:
                    key = cv2.waitKey(1)
                    if key & 0xFF == ord('q'): break
        c.stop_capture()
        c.disconnect()
def test():
    print fc2.get_library_version()
    c = fc2.Context()
    print c.get_num_of_cameras()
    c.connect(*c.get_camera_from_index(0))
    print c.get_camera_info()
   # c.set_video_mode_and_frame_rate(fc2.VIDEOMODE_FORMAT7,
    #        fc2.FRAMERATE_FORMAT7)
   #m, f = c.get_video_mode_and_frame_rate()
   #print m, f
   #print c.get_video_mode_and_frame_rate_info(m, f)
    print "Frame Rate:"
    print c.get_property_info(fc2.FRAME_RATE)
    p = c.get_property(fc2.FRAME_RATE)
    print p
    c.set_property(**p)
    c.start_capture()
    im = fc2.Image()
    [np.array(c.retrieve_buffer(im)).sum() for i in range(80)]
    a = np.array(im)
    print a.shape, a.base
    print a.dtype
    
    
    cv2.imshow('', a)
    cv2.waitKey()
    cv2.destroyAllWindows()
    
    c.stop_capture()
    c.disconnect()
def test():
    print fc2.get_library_version()
    c = fc2.Context()
    print c.get_num_of_cameras()
    c.connect(*c.get_camera_from_index(0))
    print c.get_camera_info()
    #c.set_video_mode_and_frame_rate(fc2.VIDEOMODE_1280x960Y16,
            #fc2.FRAMERATE_7_5)
    m, f = c.get_video_mode_and_frame_rate()
    print m, f
    print c.get_video_mode_and_frame_rate_info(m, f)
    print c.get_property_info(fc2.FRAME_RATE)
    p = c.get_property(fc2.FRAME_RATE)
    print p
    c.set_property(**p)
    c.start_capture()
    im = fc2.Image()
    print [np.array(c.retrieve_buffer(im)).sum() for i in range(80)]
Exemple #4
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def test():
    print fc2.get_library_version()
    c = fc2.Context()
    print c.get_num_of_cameras()
    c.connect(*c.get_camera_from_index(0))
    print c.get_camera_info()
    c.set_video_mode_and_frame_rate(fc2.VIDEOMODE_1280x960Y16,
            fc2.FRAMERATE_7_5)
    m, f = c.get_video_mode_and_frame_rate()
    print m, f
    print c.get_video_mode_and_frame_rate_info(m, f)
    print c.get_property_info(fc2.FRAME_RATE)
    p = c.get_property(fc2.FRAME_RATE)
    print p
    c.set_property(**p)
    c.start_capture()
    im = fc2.Image()
    print [np.array(c.retrieve_buffer(im)).sum() for i in range(80)]
    a = np.array(im)
    print a.shape, a.base
    c.stop_capture()
    c.disconnect()
Exemple #5
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 def cameraSettings(self):
     print(fc2.get_library_version())
     self.c = fc2.Context()
     numberCam = self.c.get_num_of_cameras()
     print(numberCam)    
     self.c.connect(*self.c.get_camera_from_index(0))
     print(self.c.get_camera_info())
     m, f = self.c.get_video_mode_and_frame_rate()
     print(m, f)
     print(self.c.get_property_info(fc2.FRAME_RATE))
     p = self.c.get_property(fc2.FRAME_RATE)
     print(p)
     self.c.set_property(**p)
     self.c.start_capture()
    def __init__(self):
        """Setup the communications with the flycapture2 device."""
        import flycapture2 as fc2

        # FlyCapture Info printing and setup:
        print "\n\nlibrary version: {}\n".format(fc2.get_library_version())
        self.context = fc2.Context()
        print "Number of Cameras: {}\n".format(
            self.context.get_num_of_cameras())
        self.context.connect(*self.context.get_camera_from_index(0))
        print "Camera Info: {}\n".format(self.context.get_camera_info())
        m, f = self.context.get_video_mode_and_frame_rate()
        print "Video Mode: {}\nFrame Rate:{}\n".format(m, f)
        print "Frame Rate Property Info: {}\n".format(
            self.context.get_property_info(fc2.FRAME_RATE))
        p = self.context.get_property(fc2.FRAME_RATE)
        print "Frame Rate Property: {}\n".format(p)
        self.context.set_property(**p)
        self.context.start_capture()
        self.fc2_image = fc2.Image()
        print "done with flycap2 setup"
        self.cam_on = True

        self.image = None
        cv2.namedWindow('raw', cv2.WINDOW_NORMAL)
        cv2.waitKey(5)

        self.__acquisition_thread = None
        self.lock = threading.Lock()

        self.run = True
        self.__acquisition_thread = threading.Thread(group=None,
                                                     target=self.acquire,
                                                     name='acquisition_thread',
                                                     args=(),
                                                     kwargs={})
        self.__acquisition_thread.start()
    def __init__(self):
        """Setup the communications with the flycapture2 device."""
        import flycapture2 as fc2

        # FlyCapture Info printing and setup:
        print "\n\nlibrary version: {}\n".format(fc2.get_library_version())
        self.context = fc2.Context()
        print "Number of Cameras: {}\n".format(
            self.context.get_num_of_cameras())
        self.context.connect(*self.context.get_camera_from_index(0))
        print "Camera Info: {}\n".format(self.context.get_camera_info())
        m, f = self.context.get_video_mode_and_frame_rate()
        print "Video Mode: {}\nFrame Rate:{}\n".format(m, f)
        print "Frame Rate Property Info: {}\n".format(
            self.context.get_property_info(fc2.FRAME_RATE))
        p = self.context.get_property(fc2.FRAME_RATE)
        print "Frame Rate Property: {}\n".format(p)
        self.context.set_property(**p)
        self.context.start_capture()
        self.fc2_image = fc2.Image()
        print "done with flycap2 setup"
        self.cam_on = True

        self.image = None
        cv2.namedWindow('raw', cv2.WINDOW_NORMAL)
        cv2.waitKey(5)

        self.__acquisition_thread = None
        self.lock = threading.Lock()

        self.run = True
        self.__acquisition_thread = threading.Thread(group=None,
                                                     target=self.acquire,
                                                     name='acquisition_thread',
                                                     args=(),
                                                     kwargs={})
        self.__acquisition_thread.start()
Exemple #8
0
    cv2.waitKey(1)


def produce(consumer):
    """Produces a set of values and forwards them to the pre-defined consumer
    function"""
    while True:
        data = get_data()
        #print('Produced {}'.format(data))
        consumer.send(data)
        yield


if __name__ == '__main__':

    print fc2.get_library_version()
    c = fc2.Context()
    print c.get_num_of_cameras()
    c.connect(*c.get_camera_from_index(0))
    print c.get_camera_info()
    # c.set_video_mode_and_frame_rate(fc2.VIDEOMODE_1280x960Y16,
    #         fc2.FRAMERATE_7_5)
    m, f = c.get_video_mode_and_frame_rate()
    print m, f
    # print c.get_video_mode_and_frame_rate_info(m, f)
    print c.get_property_info(fc2.FRAME_RATE)
    p = c.get_property(fc2.FRAME_RATE)
    print p
    c.set_property(**p)
    c.start_capture()