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openpilot_comma
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openpilot is an open source driver assistance system. openpilot performs the functions of Automated Lane Centering and Adaptive Cruise Control for over 200 supported car makes and models.
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openpilot_comma/selfdrive/radar/nidec/interface.py

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#!/usr/bin/env python
import numpy as np
from selfdrive.car.honda.can_parser import CANParser
from selfdrive.boardd.boardd import can_capnp_to_can_list
from cereal import car
import zmq
from common.services import service_list
import selfdrive.messaging as messaging
def _create_radard_can_parser():
dbc_f = 'acura_ilx_2016_nidec.dbc'
radar_messages = range(0x430, 0x43A) + range(0x440, 0x446)
signals = zip(['LONG_DIST'] * 16 + ['NEW_TRACK'] * 16 + ['LAT_DIST'] * 16 +
['REL_SPEED'] * 16, radar_messages * 4,
[255] * 16 + [1] * 16 + [0] * 16 + [0] * 16)
checks = zip(radar_messages, [20]*16)
return CANParser(dbc_f, signals, checks)
class RadarInterface(object):
def __init__(self):
# radar
self.pts = {}
self.track_id = 0
# Nidec
self.rcp = _create_radard_can_parser()
context = zmq.Context()
self.logcan = messaging.sub_sock(context, service_list['can'].port)
def update(self):
canMonoTimes = []
can_pub_radar = []
# TODO: can hang if no packets show up
while 1:
for a in messaging.drain_sock(self.logcan, wait_for_one=True):
canMonoTimes.append(a.logMonoTime)
can_pub_radar.extend(can_capnp_to_can_list(a.can, [1, 3]))
# only run on the 0x445 packets, used for timing
if any(x[0] == 0x445 for x in can_pub_radar):
break
self.rcp.update_can(can_pub_radar)
ret = car.RadarState.new_message()
errors = []
if not self.rcp.can_valid:
errors.append("notValid")
ret.errors = errors
ret.canMonoTimes = canMonoTimes
for ii in self.rcp.msgs_upd:
cpt = self.rcp.vl[ii]
if cpt['LONG_DIST'] < 255:
if ii not in self.pts or cpt['NEW_TRACK']:
self.pts[ii] = car.RadarState.RadarPoint.new_message()
self.pts[ii].trackId = self.track_id
self.track_id += 1
self.pts[ii].dRel = cpt['LONG_DIST'] # from front of car
self.pts[ii].yRel = -cpt['LAT_DIST'] # in car frame's y axis, left is positive
self.pts[ii].vRel = cpt['REL_SPEED']
self.pts[ii].aRel = float('nan')
self.pts[ii].yvRel = float('nan')
else:
if ii in self.pts:
del self.pts[ii]
ret.points = self.pts.values()
return ret
if __name__ == "__main__":
RI = RadarInterface()
while 1:
ret = RI.update()
print(chr(27) + "[2J")
print ret