Python KeyValue примеры использования

Пример #1

Файл: zboat_helm_node.py Проект: rolker/zboat_helm

    def vehicleStatusCallback(self, event):
        hb = Heartbeat()
        hb.header.stamp = rospy.get_rostime()
        kv = KeyValue()
        kv.key = "piloting_mode"
        kv.value = self.pilotingMode
        hb.values.append(kv)

        self.heartbeat_pub.publish(hb)

Пример #2

Файл: mission_manager_node.py Проект: rolker/mission_manager

    def publishStatus(self, state):
        hb = Heartbeat()
        hb.header.stamp = rospy.Time.now()

        hb.values.append(KeyValue('state', state))
        hb.values.append(KeyValue('tasks_count', str(len(self.tasks))))
        for t in self.tasks:
            tstring = t['type']
            if t['type'] == 'mission_plan':
                tstring += ' (' + t['label'] + ')'
            hb.values.append(KeyValue('-task', tstring))

        if self.current_task is None:
            hb.values.append(KeyValue('current_task', 'None'))
        else:
            hb.values.append(
                KeyValue('current_task_type', self.current_task['type']))
            if self.current_task['type'] == 'mission_plan':
                hb.values.append(
                    KeyValue('current_task_label', self.current_task['label']))
                hb.values.append(
                    KeyValue('current_task_nav_objective_count',
                             str(len(self.current_task['nav_objectives']))))
                hb.values.append(
                    KeyValue(
                        'current_task_nav_objective_index',
                        str(self.current_task['current_nav_objective_index'])))

        for v in hb.values:
            v.key = v.key.encode('ascii')
            v.value = v.value.encode('ascii')
        self.status_publisher.publish(hb)

Пример #3

def ais_listener(logdir=None):
    rospy.init_node('ais')

    position_pub = rospy.Publisher('project11/ais/position',NavSatFix,queue_size=10)
    timeref_pub = rospy.Publisher('project11/ais/time_reference',TimeReference,queue_size=10)
    orientation_pub = rospy.Publisher('project11/ais/orientation', Imu, queue_size=10)
    velocity_pub = rospy.Publisher('project11/ais/velocity', TwistWithCovarianceStamped, queue_size=10)
    ais_pub = rospy.Publisher('project11/ais/contact',Contact,queue_size=10)
    ais_raw_pub = rospy.Publisher('project11/ais/raw',Heartbeat,queue_size=10)

    input_type = rospy.get_param('~input_type')
    input_address = rospy.get_param('~input','')
    input_speed = rospy.get_param('~input_speed',0)
    input_port = int(rospy.get_param('~input_port',0))
    output_port = int(rospy.get_param('~output',0))
    output_address = rospy.get_param('~output_address','<broadcast>')
    frame_id = rospy.get_param("~frame_id",'ais')
    
    ais_decoder = ais.decoder.AISDecoder()
    
    if logdir is not None:
        logfile = open(logdir+'ais_'+'.'.join(datetime.datetime.utcnow().isoformat().split(':'))+'.log','w')
    else:
        logfile = None
    
    
    if input_type == 'serial':
        serial_in = serial.Serial(input_address, int(input_speed))
    else:
        udp_in = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
        udp_in.settimeout(0.1)
        udp_in.bind(('',input_port))
    
    if output_port > 0:
        udp_out = socket.socket(socket.AF_INET, socket.SOCK_DGRAM, socket.IPPROTO_UDP)
        udp_out.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
    else:
        udp_out = None
            
    while not rospy.is_shutdown():
        if input_type == 'serial':
            nmea_ins = (serial_in.readline(),)
            #print( nmea_ins)
            if udp_out is not None:
                udp_out.sendto(nmea_in, (output_address,output_port))
        else:
            try:
                nmea_in,addr = udp_in.recvfrom(2048)
                #print addr, nmea_in
                nmea_ins = nmea_in.decode('utf-8').split('\n')
            except socket.timeout:
                nmea_ins = None
        now = rospy.get_rostime()
        if nmea_ins is not None:
            for nmea_in_b in nmea_ins:
                try:
                    nmea_in = nmea_in_b.decode('utf-8')
                except AttributeError:
                    nmea_in = nmea_in_b
                #print(nmea_in)
                if logfile is not None:
                    logfile.write(datetime.datetime.utcnow().isoformat()+','+nmea_in+'\n')
                if nmea_in.startswith('!AIVDM'):
                    #print(nmea_in)
                    ais_decoder.addNMEA(nmea_in.strip())
                    msgs = ais_decoder.popMessages()
                    #print(msgs)
                    for m in msgs:
                        if m['type'] in (1,2,3,18,19): #position reports
                            c = Contact()
                            c.header.stamp = now
                            c.header.frame_id = frame_id
                            c.mmsi = m['mmsi']
                            if 'shipname' in ais_decoder.mmsi_db[m['mmsi']]:
                                c.name = ais_decoder.mmsi_db[m['mmsi']]['shipname']
                            if 'callsign' in ais_decoder.mmsi_db[m['mmsi']]:
                                c.callsign = ais_decoder.mmsi_db[m['mmsi']]['callsign']
                            c.position.latitude = m['lat']
                            c.position.longitude = m['lon']
                            if m['course'] is not None:
                                c.cog = math.radians(m['course'])
                            else:
                                c.cog = -1
                            if m['speed'] is not None:
                                c.sog = m['speed']*0.514444 #knots to m/s
                            else:
                                c.sog = -1
                            if m['heading'] is not None:
                                c.heading = math.radians(m['heading'])
                            else:
                                c.heading = -1
                            if 'to_bow' in ais_decoder.mmsi_db[m['mmsi']]:
                                c.dimension_to_bow = ais_decoder.mmsi_db[m['mmsi']]['to_bow']
                            if 'to_stern' in ais_decoder.mmsi_db[m['mmsi']]:
                                c.dimension_to_stern = ais_decoder.mmsi_db[m['mmsi']]['to_stern']
                            if 'to_port' in ais_decoder.mmsi_db[m['mmsi']]:
                                c.dimension_to_port = ais_decoder.mmsi_db[m['mmsi']]['to_port']
                            if 'to_starboard' in ais_decoder.mmsi_db[m['mmsi']]:
                                c.dimension_to_stbd = ais_decoder.mmsi_db[m['mmsi']]['to_starboard']
                            ais_pub.publish(c)
                        raw = Heartbeat()
                        for k,v in m.items():
                            raw.values.append(KeyValue(k,str(v)))
                        ais_raw_pub.publish(raw)
                            
                            
                            
                else:
                    nmea_parts = nmea_in.strip().split(',')
                    if len(nmea_parts):
                        #print nmea_parts
                        try:
                            if nmea_parts[0][3:] == 'ZDA' and len(nmea_parts) >= 5:
                                tref = TimeReference()
                                tref.header.stamp = now
                                tref.header.frame_id = frame_id
                                hour = int(nmea_parts[1][0:2])
                                minute = int(nmea_parts[1][2:4])
                                second = int(nmea_parts[1][4:6])
                                ms = int(float(nmea_parts[1][6:])*1000000)
                                day = int(nmea_parts[2])
                                month = int(nmea_parts[3])
                                year = int(nmea_parts[4])
                                zda = datetime.datetime(year,month,day,hour,minute,second,ms)
                                tref.time_ref = rospy.Time(calendar.timegm(zda.timetuple()),zda.microsecond*1000)
                                tref.source = 'ais'
                                timeref_pub.publish(tref)
                            if nmea_parts[0][3:] == 'GGA' and len(nmea_parts) >= 10:
                                latitude = int(nmea_parts[2][0:2])+float(nmea_parts[2][2:])/60.0
                                if nmea_parts[3] == 'S':
                                    latitude = -latitude
                                longitude = int(nmea_parts[4][0:3])+float(nmea_parts[4][3:])/60.0
                                if nmea_parts[5] == 'W':
                                    longitude = -longitude
                                altitude = float(nmea_parts[9])
                                nsf = NavSatFix()
                                nsf.header.stamp = now
                                nsf.header.frame_id = frame_id
                                nsf.latitude = latitude
                                nsf.longitude = longitude
                                nsf.altitude = altitude
                                position_pub.publish(nsf)
                            if nmea_parts[0][3:] == 'HDT' and len(nmea_parts) >= 2:
                                heading = float(nmea_parts[1])
                                imu = Imu()
                                imu.header.stamp = now
                                imu.header.frame_id = frame_id
                                q = tf.transformations.quaternion_from_euler(math.radians(90.0-heading), 0, 0, 'rzyx')
                                imu.orientation.x = q[0]
                                imu.orientation.y = q[1]
                                imu.orientation.z = q[2]
                                imu.orientation.w = q[3]
                                orientation_pub.publish(imu)
                        except ValueError:
                            pass