108 lines
4.0 KiB
Python
108 lines
4.0 KiB
Python
import argparse
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import cv2
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import socket
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import numpy as np
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import uuid
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from common import StdPacket, InterlacedPacket, DoublyInterlacedPacket, TiledImagePacket
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def send_packet(sock, packet):
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sock.sendto(packet, (UDP_IP, UDP_PORT))
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def breakdown_image_norm(frame):
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(cols, rows, colors) = frame.shape
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# break the array down into 16x16 chunks, then transmit them as UDP packets
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for i in range(0, cols, 16):
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for j in range(0, rows, 16):
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# print("Sending frame segment (%d, %d)", i, j)
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pkt = StdPacket(uuid, j, i, frame[i:i + 16, j:j + 16])
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send_packet(sock, pkt.to_bytestr())
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def breakdown_image_interlaced(frame):
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(cols, rows, colors) = frame.shape
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# break the array into 16x32 chunks. we'll split those further into odd and even rows
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# and send each as UDP packets. this should make packet loss less obvious
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for i in range(0, cols, 32):
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for j in range(0, rows, 16):
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# print("Sending frame segment (%d, %d)", i, j)
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pkt = InterlacedPacket(uuid, j, i, False, frame[i:i + 32:2, j:j + 16])
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send_packet(sock, pkt.to_bytestr())
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for i in range(0, cols, 32):
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for j in range(0, rows, 16):
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# print("Sending frame segment (%d, %d)", i, j)
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pkt = InterlacedPacket(uuid, j, i, True, frame[i + 1:i + 32:2, j:j + 16])
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send_packet(sock, pkt.to_bytestr())
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def breakdown_image_dint(frame):
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(cols, rows, colors) = frame.shape
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# break the array into 16x32 chunks. we'll split those further into odd and even rows
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# and send each as UDP packets. this should make packet loss less obvious
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for l in range(0, 4):
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for i in range(0, cols, 32):
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for j in range(0, rows, 32):
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# print("Sending frame segment (%d, %d)", i, j)
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i_even = l % 2 == 0
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j_even = l >= 2
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pkt = DoublyInterlacedPacket(uuid, j, i, j_even, i_even, frame[i + i_even:i + 32:2, j + j_even:j + 32:2])
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send_packet(sock, pkt.to_bytestr())
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def breakdown_image_tiled(frame):
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(cols, rows, colors) = frame.shape
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# break the array into 16x32 chunks. we'll split those further into odd and even rows
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# and send each as UDP packets. this should make packet loss less obvious
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xslice = cols // 16
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yslice = rows // 16
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for i in range(0, xslice):
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for j in range(0, yslice):
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# print("Sending frame segment (%d, %d)", i, j)
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pkt = TiledImagePacket(uuid, j, i, rows, cols, frame[i:cols:xslice, j:rows:yslice])
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send_packet(sock, pkt.to_bytestr())
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if __name__ == '__main__':
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# argument parser
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parser = argparse.ArgumentParser(description="Proof-of-concept client for sauron-cv")
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parser.add_argument("-p", "--port", type=int, default=5005)
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parser.add_argument("-s", "--server", type=str, default="127.0.0.1")
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parser.add_argument("-W", "--width", type=int, default=640)
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parser.add_argument("-H", "--height", type=int, default=480)
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parser.add_argument("-d", "--device", type=int, default=0)
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args = parser.parse_args()
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# give this client its very own UUID
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uuid = uuid.uuid4()
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# give target IP address
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UDP_IP = args.server
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UDP_PORT = args.port
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WIDTH = args.width
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HEIGHT = args.height
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DEVICE = args.device
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# Create a VideoCapture object
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cap = cv2.VideoCapture(DEVICE) # 0 represents the default camera
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cap.set(cv2.CAP_PROP_FRAME_WIDTH, WIDTH)
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cap.set(cv2.CAP_PROP_FRAME_HEIGHT, HEIGHT)
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# Check if camera opened successfully
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if not cap.isOpened():
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print("Error opening video stream or file")
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# create the socket
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sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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while True:
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# Capture frame-by-frame
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ret, frame = cap.read()
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# If frame is read correctly, ret is True
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if not ret:
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print("Can't receive frame (stream end?). Exiting ...")
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break
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breakdown_image_dint(frame)
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# Release the capture and close all windows
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cap.release() |