def job(fileset, messages, foo):
"""Different forms of annotations"""
logger.debug(__name__)
for topic, msg, timestamp in messages:
if topic == 'annotations':
yield Annotation(data=str(msg.data), timestamp=0)
else:
yield Annotation(data=str(msg.data), timestamp=timestamp.to_sec())
logger.error('err %s', foo)
logger.warn(' warn %s', foo)
logger.info('info %s', foo)
logger.debug('debug %s', foo)
def job(fileset, messages):
import datetime
from collections import defaultdict
tempmap = defaultdict(list)
for topic, msg, timestamp in messages:
now = datetime.datetime.fromtimestamp(msg.header.stamp.to_sec())
sensorid = topic.split('/')[-1],
tempmap[sensorid].append((now, msg.temperature))
import matplotlib
# don't attempt to use X11
matplotlib.use('Agg')
import matplotlib.pyplot as plt
from matplotlib import dates
fig = plt.figure()
ax1 = fig.gca()
ax1.xaxis.set_major_formatter(dates.DateFormatter('%H:%M:%S'))
ax1.xaxis_date()
fig.autofmt_xdate()
for sensorid, templist in tempmap.iteritems():
timestamps, temps = zip(*templist)
ax1.plot(timestamps, temps, 'o-', label=sensorid[0])
# add some margin
xlim = ax1.get_xlim()
ax1.set_xlim(dates.num2date(xlim[0])-datetime.timedelta(0, 2),
dates.num2date(xlim[1])+datetime.timedelta(0, 2))
ylim = ax1.get_ylim()
ax1.set_ylim(ylim[0]-2, ylim[1]+2)
ax1.set_ylabel(u'Temperature [°C]')
ax1.legend(bbox_to_anchor=(0.75, 1.13))
path = bb.make_job_file('onewire_temperature.png')
try:
fig.savefig(path)
except:
logger.warn('could not create temperature plot for %s' % fileset)
raise
return []
def job(fileset, messages):
position_topics = [x.topic.name for x in fileset.bag.topics
if x.topic.name in POSITION_TOPICS]
orientation_topics = [x.topic.name for x in fileset.bag.topics
if x.topic.name in ORIENTATION_TOPICS]
if not position_topics:
logger.debug('no gps topic found')
return []
logger.info('starting with {} and {}'.format(position_topics,
orientation_topics))
import datetime
import pyproj
import matplotlib.dates as md
import matplotlib.pyplot as plt
from matplotlib import cm
import numpy as np
proj = pyproj.Proj(proj='utm', zone=32, ellps='WGS84')
class Position(object):
def __init__(self):
self.e_offset = 0
self.n_offset = 0
self.u_offset = 0
self.gps = []
def update(self, msg):
e, n = proj(msg.longitude, msg.latitude)
if self.e_offset == 0:
self.e_offset, self.n_offset, self.u_offset = e, n, msg.altitude
e, n, u = (e - self.e_offset,
n - self.n_offset,
msg.altitude - self.u_offset)
self.gps.append([
msg.header.stamp.to_sec(),
msg.latitude,
msg.longitude,
msg.altitude,
e, n, u,
msg.status.status,
np.sqrt(msg.position_covariance[0])
])
class Orientation(object):
def __init__(self):
self.orientation = []
def update(self, msg):
if hasattr(msg, 'yaw') and not np.isnan(msg.yaw):
self.orientation.append([
msg.header.stamp.to_sec(),
msg.yaw
])
elif hasattr(msg, 'orientation') and not np.isnan(msg.orientation.x):
self.orientation.append([
msg.header.stamp.to_sec(),
self.yaw_angle(msg.orientation)
])
# calculate imu orientation
@staticmethod
def yaw_angle(frame):
rot = np.zeros((3, 3))
# consists of time, x, y, z, w
q1 = frame.x
q2 = frame.y
q3 = frame.z
q4 = frame.w
rot[0, 0] = 1 - 2 * q2 * q2 - 2 * q3 * q3
rot[0, 1] = 2 * (q1 * q2 - q3 * q4)
rot[0, 2] = 2 * (q1 * q3 + q2 * q4)
rot[1, 0] = 2 * (q1 * q2 + q3 * q4)
rot[1, 1] = 1 - 2 * q1 * q1 - 2 * q3 * q3
rot[1, 2] = 2 * (q2 * q3 - q1 * q4)
rot[2, 0] = 2 * (q1 * q3 - q2 * q4)
rot[2, 1] = 2 * (q1 * q4 + q2 * q3)
rot[2, 2] = 1 - 2 * q1 * q1 - 2 * q2 * q2
vec = np.dot(rot, [1, 0, 0])
# calculate the angle
return np.arctan2(vec[1], vec[0])
positionMap = {position_topic: Position() for position_topic in position_topics}
orientationMap = {orientation_topic: Orientation()
for orientation_topic in orientation_topics}
erroneous_msg_count = defaultdict(int)
for topic, msg, timestamp in messages:
if topic in position_topics:
# skip erroneous messages
if np.isnan(msg.longitude) or \
np.isnan(msg.latitude) or \
np.isnan(msg.altitude):
erroneous_msg_count[topic] += 1
continue
if hasattr(msg, 'status'):
positionMap[topic].update(msg)
else:
raise Exception('Invalid position topic')
elif topic in orientation_topics:
orientationMap[topic].update(msg)
if erroneous_msg_count:
logger.warn('Skipped erroneous GNSS messages %r', erroneous_msg_count.items())
for position_topic, orientation_topic in product(
position_topics, orientation_topics
):
gps = np.array(positionMap[position_topic].gps)
if not len(gps):
logger.error('Aborting due to missing gps messages on topic %s',
position_topic)
continue
if orientationMap[orientation_topic].orientation:
orientation = np.array(orientationMap[orientation_topic].orientation)
else:
logger.warn('No orientation messages on topic %s', orientation_topic)
# plotting
fig = plt.figure()
fig.subplots_adjust(wspace=0.3)
ax1 = fig.add_subplot(1, 3, 1) # e-n plot
ax2 = fig.add_subplot(2, 3, 2) # orientation plot
ax3 = fig.add_subplot(2, 3, 3) # e-time plot
ax4 = fig.add_subplot(2, 3, 5) # up plot
ax5 = fig.add_subplot(2, 3, 6) # n-time plot
# masking for finite values
gps = gps[np.isfinite(gps[:, 1])]
# precompute plot vars
c = cm.prism(gps[:, 7]/2)
ax1.scatter(gps[:, 4], gps[:, 5], c=c, edgecolor='none', s=3,
label="green: RTK\nyellow: DGPS\nred: Single")
xfmt = md.DateFormatter('%H:%M:%S')
ax2.xaxis.set_major_formatter(xfmt)
ax3.xaxis.set_major_formatter(xfmt)
ax4.xaxis.set_major_formatter(xfmt)
ax5.xaxis.set_major_formatter(xfmt)
if orientationMap[orientation_topic].orientation:
ax2.plot([datetime.datetime.fromtimestamp(timestamp)
for timestamp in orientation[:, 0]], orientation[:, 1])
ax3.plot([datetime.datetime.fromtimestamp(timestamp)
for timestamp in gps[:, 0]], gps[:, 4])
ax4.plot([datetime.datetime.fromtimestamp(timestamp)
for timestamp in gps[:, 0]], gps[:, 6])
ax5.plot([datetime.datetime.fromtimestamp(timestamp)
for timestamp in gps[:, 0]], gps[:, 5])
fig.autofmt_xdate()
# add the legends
ax1.legend(loc="best")
ax1.set_ylabel('GNSS northing [m]')
ax1.set_xlabel('GNSS easting [m]')
ax2.set_ylabel('Heading over time [rad]')
ax3.set_ylabel('GNSS easting over time [m]')
ax4.set_ylabel('GNSS height over time [m]')
ax5.set_ylabel('GNSS northing over time [m]')
fig.set_size_inches(16, 9)
path = bb.make_job_file(position_topic.replace("/", "_")+'.jpg')
try:
fig.savefig(path)
except:
logger.warn(gps[:, 4])
logger.warn(gps[:, 5])
logger.warn(gps[:, 6])
raise
finally:
plt.close()
return []