import unittest
import time
import numpy as np
from laika import AstroDog
from laika.helpers import ConstellationId
from laika.raw_gnss import correct_measurements, process_measurements, read_raw_ublox
from laika.opt import calc_pos_fix
from selfdrive.test.openpilotci import get_url
from tools.lib.logreader import LogReader
from selfdrive.test.helpers import with_processes
import cereal.messaging as messaging
def get_gnss_measurements(log_reader):
gnss_measurements = []
for msg in log_reader:
if msg.which() == "ubloxGnss":
ublox_msg = msg.ubloxGnss
if ublox_msg.which == 'measurementReport':
report = ublox_msg.measurementReport
if len(report.measurements) > 0:
gnss_measurements.append(read_raw_ublox(report))
return gnss_measurements
def get_ublox_raw(log_reader):
ublox_raw = []
for msg in log_reader:
if msg.which() == "ubloxRaw":
ublox_raw.append(msg)
return ublox_raw
class TestUbloxProcessing(unittest.TestCase):
NUM_TEST_PROCESS_MEAS = 10
@classmethod
def setUpClass(cls):
lr = LogReader(get_url("4cf7a6ad03080c90|2021-09-29--13-46-36", 0))
cls.gnss_measurements = get_gnss_measurements(lr)
# test gps ephemeris continuity check (drive has ephemeris issues with cutover data)
lr = LogReader(get_url("37b6542f3211019a|2023-01-15--23-45-10", 14))
cls.ublox_raw = get_ublox_raw(lr)
def test_read_ublox_raw(self):
count_gps = 0
count_glonass = 0
for measurements in self.gnss_measurements:
for m in measurements:
if m.constellation_id == ConstellationId.GPS:
count_gps += 1
elif m.constellation_id == ConstellationId.GLONASS:
count_glonass += 1
self.assertEqual(count_gps, 5036)
self.assertEqual(count_glonass, 3651)
def test_get_fix(self):
dog = AstroDog()
position_fix_found = 0
count_processed_measurements = 0
count_corrected_measurements = 0
position_fix_found_after_correcting = 0
pos_ests = []
for measurements in self.gnss_measurements[:self.NUM_TEST_PROCESS_MEAS]:
processed_meas = process_measurements(measurements, dog)
count_processed_measurements += len(processed_meas)
pos_fix = calc_pos_fix(processed_meas)
if len(pos_fix) > 0 and all(p != 0 for p in pos_fix[0]):
position_fix_found += 1
corrected_meas = correct_measurements(processed_meas, pos_fix[0][:3], dog)
count_corrected_measurements += len(corrected_meas)
pos_fix = calc_pos_fix(corrected_meas)
if len(pos_fix) > 0 and all(p != 0 for p in pos_fix[0]):
pos_ests.append(pos_fix[0])
position_fix_found_after_correcting += 1
mean_fix = np.mean(np.array(pos_ests)[:, :3], axis=0)
np.testing.assert_allclose(mean_fix, [-2452306.662377, -4778343.136806, 3428550.090557], rtol=0, atol=1)
# Note that can happen that there are less corrected measurements compared to processed when they are invalid.
# However, not for the current segment
self.assertEqual(position_fix_found, self.NUM_TEST_PROCESS_MEAS)
self.assertEqual(position_fix_found_after_correcting, self.NUM_TEST_PROCESS_MEAS)
self.assertEqual(count_processed_measurements, 69)
self.assertEqual(count_corrected_measurements, 69)
@with_processes(['ubloxd'])
def test_ublox_gps_cutover(self):
time.sleep(2)
ugs = messaging.sub_sock("ubloxGnss", timeout=0.1)
ur_pm = messaging.PubMaster(['ubloxRaw'])
def replay_segment():
rcv_msgs = []
for msg in self.ublox_raw:
ur_pm.send(msg.which(), msg.as_builder())
time.sleep(0.01)
rcv_msgs += messaging.drain_sock(ugs)
time.sleep(0.1)
rcv_msgs += messaging.drain_sock(ugs)
return rcv_msgs
# replay twice to enforce cutover data on rewind
rcv_msgs = replay_segment()
rcv_msgs += replay_segment()
ephems_cnt = sum(m.ubloxGnss.which() == 'ephemeris' for m in rcv_msgs)
self.assertEqual(ephems_cnt, 15)
if __name__ == "__main__":
unittest.main()