Exemple #1
0
def add_run(gpx, name,act_type,filename,polyline):
    conn = sqlite3.connect('%s/activities.db' % filebase)
    cursor = conn.cursor()
    cursor.execute("""CREATE TABLE if not exists activities
                  (id INTEGER PRIMARY KEY AUTOINCREMENT,name text, act_date text, distance text,
                   speed text, act_type text,filename text,polyline text)""")
    sql = "INSERT INTO activities VALUES (?,?,?,?,?,?,?,?)"
    start_time, end_time = gpx.get_time_bounds()
    l2d='{:.3f}'.format(gpx.length_2d() / 1000.)
    moving_time, stopped_time, moving_distance, stopped_distance, max_speed = gpx.get_moving_data()
    print(max_speed)
    #print('%sStopped distance: %sm' % stopped_distance)
    maxspeed = 'Max speed: {:.2f}km/h'.format(max_speed * 60. ** 2 / 1000. if max_speed else 0)
    duration = '{:.2f}'.format(gpx.get_duration() / 60)

    print("-------------------------")
    print(name)
    print(start_time)
    print(l2d)
    print(maxspeed)
    print("-------------------------")
    try:
        cursor.execute(sql, [None, name,start_time,l2d,duration,act_type,filename,polyline])
        conn.commit()
    except sqlite3.Error as er:
        print("-------------______---_____---___----____--____---___-----")
        print(er)
    conn.close()
def add_run(gpx, name, act_type, filename, polyline):
    conn = sqlite3.connect("%s/activities.db" % filebase)
    cursor = conn.cursor()
    cursor.execute(
        """CREATE TABLE if not exists activities
                  (id INTEGER PRIMARY KEY AUTOINCREMENT,name text, act_date text, distance text, 
                   speed text, act_type text,filename text,polyline text)"""
    )
    sql = "INSERT INTO activities VALUES (?,?,?,?,?,?,?,?)"
    start_time, end_time = gpx.get_time_bounds()
    l2d = "{:.3f}".format(gpx.length_2d() / 1000.0)
    moving_time, stopped_time, moving_distance, stopped_distance, max_speed = gpx.get_moving_data()
    print(max_speed)
    # print('%sStopped distance: %sm' % stopped_distance)
    maxspeed = "Max speed: {:.2f}km/h".format(max_speed * 60.0 ** 2 / 1000.0 if max_speed else 0)
    duration = "Duration: {:.2f}min".format(gpx.get_duration() / 60)

    print("-------------------------")
    print(name)
    print(start_time)
    print(l2d)
    print(maxspeed)
    print("-------------------------")
    try:
        cursor.execute(sql, [None, name, start_time, l2d, duration, act_type, filename, polyline])
        conn.commit()
    except sqlite3.Error as er:
        print(er)
    conn.close()
Exemple #3
0
    pset = next(s for s in psets.find('photosets').findall('photoset')
                if s.find('title').text == ALBUM)
    print('This album has {} photos'.format(pset.get('photos')))
except StopIteration:
    print('Flickr album {} not found!'.format(ALBUM))
    sys.exit(1)

# combine all GPS tracks into one
gpx = gpxpy.gpx.GPX()
for t in TRACKS:
    print('Processing GPS track {}'.format(t))
    f = open(t, 'r')
    g = gpxpy.parse(f)
    gpx.tracks.extend(g.tracks)

time_bounds = gpx.get_time_bounds()
print('These tracks start at {} and end at {}'.format(time_bounds.start_time,
                                                      time_bounds.end_time))

for photo in flickr.walk_set(pset.get('id')):
    id = photo.get('id')
    p = flickr.photos.getInfo(photo_id=id)
    taken = p.find('photo').find('dates').get('taken')
    taken_dt = datetime.datetime.strptime(
        taken, '%Y-%m-%d %H:%M:%S') + datetime.timedelta(hours=OFFSET)
    trackpoints = gpx.get_location_at(taken_dt)
    print('Photo {} was taken on {} at {}'.format(id, taken_dt, trackpoints))
    for tp in trackpoints:
        print('Trying to geotag it now...')
        resp = flickr.photos.geo.setLocation(photo_id=id,
                                             lat=unicode(tp.latitude),
Exemple #4
0
def gpx_covid_regulations_check_compliance(gpx_file, domicile):
    d_max = 1.0
    d_runner = 0.0
    gpx = gpxpy.parse(gpx_file)
    for track in gpx.tracks:
        for segment in track.segments:
            for point in segment.points:
                gps_pos = Position_GPS(point.longitude, point.latitude, "")
                distance = domicile.calculateDistanceVolOiseau(gps_pos)
                if distance > d_max and distance > d_runner:
                    d_runner = distance

    #
    # Quelques rappels sur les timezones et conversions de timestamps créés avec une timezone UTC
    #   But de cette manipulation: pas trouvé de documentation sur le package GpxPi pour changer la timezone...
    #   et données Strava utilisent UTC comme Timezone et Paris est à UTC+2 (GMT+1)
    #   donc on utilse la fonction astimezone de la classe datetime :-)
    #
    utc = timezone('UTC')
    paris = timezone('Europe/Paris')
    berlin = timezone('Europe/Berlin')
    tokyo = timezone('Asia/Tokyo')
    new_york = timezone('America/New_York')
    los_angeles = timezone('America/Los_Angeles')
    paris_time = datetime.now(paris)
    berlin_time = datetime.now(berlin)
    tokyo_time = datetime.now(tokyo)
    new_york_time = datetime.now(new_york)
    los_angeles_time = datetime.now(los_angeles)
    utc_time = datetime.now(utc)
    # print("UTC Time", utc_time)
    # print("Europe/Paris", paris_time.strftime('%Y-%m-%d_%H-%M-%S'))
    # print("Europe/Berlin", berlin_time.strftime('%Y-%m-%d_%H-%M-%S'))
    # print("Asia/Tokyo", tokyo_time.strftime('%Y-%m-%d_%H-%M-%S'))
    # print("America/New_York", new_york_time.strftime('%Y-%m-%d_%H-%M-%S'))
    # print("America/Los_Angeles", los_angeles_time.strftime('%Y-%m-%d_%H-%M-%S'))

    locale.setlocale(locale.LC_TIME, 'fr_FR')
    time_bound = gpx.get_time_bounds()
    #print("Old Timezone", time_bound.start_time.tzinfo)
    start_time = time_bound.start_time.astimezone(paris)
    #print("New Timezone", start_time.tzinfo)
    end_time = time_bound.end_time.astimezone(paris)
    day = start_time.strftime('%A %d %B %Y')
    hour = start_time.strftime('%Hh%M')
    elapsed_time = gpx.get_duration()
    distance2d = gpx.length_2d() / 1000
    distance3d = gpx.length_3d() / 1000
    duration_OK = True
    distance_OK = True
    amende = False
    exceeded_time = 0
    exceeded_distance = 0

    if d_runner > d_max:
        distance_OK = False
        exceeded_distance = d_runner - d_max
    if elapsed_time > 3600:
        duration_OK = False
        exceeded_time = elapsed_time - 3600

    if not (duration_OK and distance_OK):
        amende = True

    return day, hour, amende, distance3d, elapsed_time, distance_OK, duration_OK, exceeded_time, exceeded_distance