def export_kml(self, filename, dataname, x_name, y_name):
        kml = kmlclass()
        kml.begin(filename, dataname, 'Description', 0.1)
        kml.trksegbegin('', '', 'red', 'absolute')

        for i in range(len(self.df[x_name])):
            kml.trkpt(self.df[x_name][i], self.df[y_name][i], 0.0)

        kml.trksegend()
        kml.end()
    def export_kml_data(self, filename, dataname, x_data, y_data):
        kml = kmlclass()
        kml.begin(filename, dataname, 'Description', 0.1)
        kml.trksegbegin('', '', 'red', 'absolute')

        for i in range(len(x_data)):
            kml.trkpt(x_data[i], y_data[i], 0.0)

        kml.trksegend()
        kml.end()
Esempio n. 3
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 def export_kml_path(self, name):
     print("[Path planner]: "+"Exporting")
     # width: defines the line width, use e.g. 0.1 - 1.0
     kml = kmlclass()
     name = "../"+name
     kml.begin(name+'.kml', 'Example', 'Example on the use of kmlclass', 0.1)
     # color: use 'red' or 'green' or 'blue' or 'cyan' or 'yellow' or 'grey'
     # altitude: use 'absolute' or 'relativeToGround'
     kml.trksegbegin('', '', 'blue', 'absolute')
     for i in self.path:
         kml.trkpt(i.lat, i.lon, 0.0)
     kml.trksegend()
     kml.end()
Esempio n. 4
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    nmea.import_file(read_file)

    MSL = []
    NrOfSatellites = []
    GNSSAccuracy = []
    timeSplitted = []
    longitude = []
    lattitude = []
    timeSplitted = []
    time_in_seconds = []
    start_time = 0.0
    temp_time = 0.0
    splitedcord = []
    tempcord = 0

    kml = kmlclass()
    kml.begin('DroneTrack.kml', 'Drone track',
              'Creating of the track of the drone', 0.1)
    kml.trksegbegin('', '', 'red', 'absolute')

    for i in range(len(nmea.data) - 1):  #len(nmea.data)-1
        if (nmea.data[i][0] != '$GPGGA'):
            continue
        if (len(nmea.data[i][1]) < 1 or len(nmea.data[i][2]) < 1):
            continue

        for t in str(nmea.data[i][1]):
            if t != ".":
                timeSplitted.append(float(t))
        temp_time = ((timeSplitted[0] * 10) + (timeSplitted[1])) * 3600
        temp_time += ((timeSplitted[2] * 10) + (timeSplitted[3])) * 60