import time import serial import argparse #======Serial Variable======= # SERIAL_PATH = "/dev/serial/by-path/pci-0000:00:14.0-usb-0:2:1.0-port0" SERIAL_PATH = "/dev/ttyS1" BAUD_RATE = 19200 PARITY='N' STOP_BITS=1 BYTE_SIZE=8 TIMEOUT=1 #============================ ser = serial.Serial(port=SERIAL_PATH, baudrate=BAUD_RATE, parity=PARITY, stopbits=STOP_BITS, bytesize=BYTE_SIZE, timeout=3) def light_control(args): global ser ch_list=[0, 16, 17, 18, 19] bright = int(args.brightness) # if(ch_num == 0): # print("Channel range : 1~4 // not 0 ") try: # START=(5 & 0xFF).to_bytes(1, byteorder='big') # CH_NUM=(ch_list[ch_num] & 0xFF).to_bytes(1, byteorder='big') # BLIGHT=(bright & 0xFF).to_bytes(1, byteorder='big') # CHK_SUM=(ch_list[ch_num] + bright & 0xFF).to_bytes(1, byteorder='big') # ser.write(START) # ser.write(CH_NUM) # ser.write(BLIGHT) # ser.write(CHK_SUM) data = b'\x05\x10\x00\x10' # result = ser.write(data) ser.write(data) # print(result) except Exception as e: print(e) return True if __name__ == '__main__': parser = argparse.ArgumentParser() parser.add_argument('--brightness', help='adjustment led brightness', required=True) args = parser.parse_args() light_control(args) # print(light_control(ser,1,30)) # time.sleep(1) # print(light_control(ser,1,0)) # time.sleep(1) # print(light_control(ser,1,100)) # time.sleep(1) # print(light_control(ser,1,0)) # time.sleep(1) # print(light_control(ser,1,240)) # # # #for i in range(500): # while True: # for i in range(0,50): # light_control(ser,1,i*5) # time.sleep(0.02) # # for i in range(0,50): # light_control(ser,1,255-i*5) # time.sleep(0.02) # print(i) # turn_on = [b"\x05", b"\x10", b'\xF0', b'\x00'] # turn_off = [b'\x05', b'\x10', b'\x00', b'\x10'] # # rqt_status = [b'\x05', b'\x14', b'\x00', b'\x14'] # remote_on = [b'\x05', b'\x29', b'\x01', b'\x2A'] # # try: # result = ser.write(b''.join(turn_off)) # print(result) # time.sleep(2) # result = ser.write(b''.join(turn_on)) # print(result) # except Exception as e: # print(f"Error {e}") # port.close()