def __init__(self,
width=640,
height=480,
frame_rate=30,
jpeg_quality=70,
jpeg_lib='cv2'):
"""Constructor.
Args:
jpeg_quality (:obj:`int`): Quality of JPEG encoding, in 0, 100.
"""
# global CAMERA_CV2, CAMERA_PICAMERA
Thread.__init__(self)
self.width = width
self.height = height
self.fps = frame_rate
self.camera = picamera.PiCamera(framerate=self.fps, sensor_mode=4)
self.camera.resolution = (self.width, self.height)
self.camera.framerate = self.fps
time.sleep(2)
#self.camera.start_preview()
self.numpy_array = np.empty((self.width * self.height * 3, ),
dtype=np.uint8)
self.frame_index = 0
self.running = True
self.jpeg_image = None
self.lock = Lock()
self.jpeg_quality = jpeg_quality
self.jpeg_encode_func = lambda img, jpeg_quality=self.jpeg_quality: utils.cv2_encode_image(
img, jpeg_quality)
def __init__(self, jpeg_quality, jpeg_lib, video_name):
"""Constructor.
Args:
jpeg_quality (:obj:`int`): Quality of JPEG encoding, in 0, 100.
"""
Thread.__init__(self)
self.cap = cv2.VideoCapture(video_name)
self.running = True
self.buffer = None
self.lock = Lock()
self.jpeg_encode_func = lambda img, jpeg_quality=jpeg_quality: utils.cv2_encode_image(
img, jpeg_quality)
def __init__(self, jpeg_quality, jpeg_lib):
"""Constructor.
Args:
jpeg_quality (:obj:`int`): Quality of JPEG encoding, in 0, 100.
"""
Thread.__init__(self)
self.cap = cv2.VideoCapture(3)
self.turbojpeg = TurboJPEG()
self.running = True
self.buffer = None
self.lock = Lock()
if jpeg_lib == 'turbo':
self.jpeg = TurboJPEG()
self.jpeg_encode_func = lambda img, jpeg_quality=jpeg_quality, jpeg=self.jpeg: utils.turbo_encode_image(img, jpeg, jpeg_quality)
else:
self.jpeg_encode_func = lambda img, jpeg_quality=jpeg_quality: utils.cv2_encode_image(img, jpeg_quality)
dataview[(num_packets - 1) * data_chunk_size:]))
return packets
if __name__ == '__main__':
import random
import utils
import cv2
img = cv2.imread('monarch.png')
# Build up a collection of messages
packets = []
img0_jpeg = utils.cv2_encode_image(img, 10)
img1_jpeg = utils.cv2_encode_image(img, 100)
packets += UdpPacketsHandler.split_data(msg_idx=0,
data=img0_jpeg,
max_packet_size=2048)
packets += UdpPacketsHandler.split_data(msg_idx=1,
data=img1_jpeg,
max_packet_size=60000)
# Shuffle the packets to see if we can handle disordered packets
random.shuffle(packets)
print("A total of {} packets are considered sequentially".format(
len(packets)))
#
default=3390,
help='The port on which to listen for incoming connections')
parser.add_argument('--jpeg_quality',
type=int,
default=70,
help='The JPEG quality for compressing the reply')
args = parser.parse_args()
###########################################################
# System Initial configurations
###########################################################
host = '' # any interface
port = args.port
jpeg_quality = args.jpeg_quality
jpeg_encode_func = lambda img, jpeg_quality=jpeg_quality: utils.cv2_encode_image(
img, jpeg_quality)
jpeg_decode_func = lambda buf: utils.cv2_decode_image_buffer(buf)
#---------------------------------------------------------
# Start a thread to grab theia images
#---------------------------------------------------------
grabber = piGrabber(jpeg_quality=jpeg_quality)
grabber.set_manual_ae(100, 8333)
grabber.start()
# A lambda function to get a cv2 image
# get_buffer = lambda: grabber.get_buffer()
get_jpeg_image = lambda: grabber.get_jpeg_image()
drop_cmd_data = lambda: parse_cmddata()
#----------------------------------------------------------
