Exemple #1
0
    routeName = '%s_%s-%s_%s'  % (route['locations'][0]['street'], route['locations'][0]['adminArea5'],route['locations'][-1]['street'], route['locations'][-1]['adminArea5'])
    json.dump(r.json(), open('%s_route.json' % routeName, 'w'))
    json.dump(r2.json(), open('%s_elevation.json' % routeName, 'w'))
    elResp = r2.json()

    distances = []
    height = []
    speedlimits = []

    for i in range(0, len(elResp['elevationProfile']) - 1):
        p = elResp['elevationProfile'][i]
        distances.append(round(p['distance'] * 1000))
        height.append(p['height'])
        lat1, lon1 = elResp['shapePoints'][2*i:2*i + 2]
        lat2, lon2 = elResp['shapePoints'][2*i + 2:2*i + 4]
        curSpeed = maxspeed(lon1, lat1, lon2, lat2)

        if curSpeed >= 0:
            speedlimits.append(curSpeed)
        elif i >= 1:
            print('No maxspeed information')
            speedlimits.append(speedlimits[i - 1])
        else:
            print('No maxspeed information')
            speedlimits.append(0)

    with open('%s.csv' % routeName, 'w') as f:
        writer = csv.writer(f, delimiter=';')

        for i in range(0, len(distances)):
            writer.writerow([distances[i], height[i], speedlimits[i]])
Exemple #2
0
import srtm
import gpxpy
import requests
import sys
from common import maxspeed

if len(sys.argv) < 2:
    print("Provide a .gpx file to convert")
    exit(1)

gpx = gpxpy.parse(open(sys.argv[1]))
elevation_data = srtm.get_data()
elevation_data.add_elevations(gpx) #, smooth=True)
lastPoint = gpx.tracks[0].segments[0].points[0]
distance = 0
i = 0

with open(sys.argv[1][:-4] + '.csv', 'w') as f:
    for track in gpx.tracks:
        for segment in track.segments:
            for point in segment.points:
                distance += math.sqrt(math.pow(point.latitude-lastPoint.latitude, 2)+math.pow(point.longitude-lastPoint.longitude, 2))
                speed = maxspeed(point.longitude, point.latitude, lastPoint.longitude, lastPoint.latitude)
                lastPoint = point

                f.write("%d;%f;%f\n" % (distance*100000, point.elevation, speed))
                progress = i/len(segment.points)
                print '\r[{0}] {1}%'.format('#'*(progress/10), progress),
                i += 1