#!/usr/bin/env python import socket, struct, time, math import fgFDM class udp_socket(object): '''a UDP socket''' def __init__(self, device, blocking=True, input=True): a = device.split(':') if len(a) != 2: print("UDP ports must be specified as host:port") sys.exit(1) self.port = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) if input: self.port.bind((a[0], int(a[1]))) self.destination_addr = None else: self.destination_addr = (a[0], int(a[1])) if not blocking: self.port.setblocking(0) self.last_address = None def recv(self,n=1000): try: data, self.last_address = self.port.recvfrom(n) except socket.error as e: if e.errno in [ 11, 35 ]: return "" raise return data def write(self, buf): try: if self.destination_addr: self.port.sendto(buf, self.destination_addr) else: self.port.sendto(buf, self.last_addr) except socket.error: pass def ft2m(x): return x * 0.3048 def m2ft(x): return x / 0.3048 def kt2mps(x): return x * 0.514444444 def mps2kt(x): return x / 0.514444444 udp = udp_socket("127.0.0.1:5123") fgout = udp_socket("127.0.0.1:5124", input=False) tlast = time.time() count = 0 fg = fgFDM.fgFDM() while True: buf = udp.recv(1000) fg.parse(buf) fgout.write(fg.pack()) count += 1 if time.time() - tlast > 1.0: print("%u FPS len=%u" % (count, len(buf))) count = 0 tlast = time.time() print(fg.get('latitude', units='degrees'), fg.get('longitude', units='degrees'), fg.get('altitude', units='meters'), fg.get('vcas', units='mps'))