def build_splits(self, activity):
# Load details
details = self.get_file(activity, 'details', format_json=True)
if 'splits_metric' not in details:
return []
# Import every metric split
out = []
for s in details['splits_metric']:
split = TrackSplit(position=s['split'])
split.time = s['elapsed_time']
split.distance = s['distance']
if split.time > 0:
split.speed = split.distance / split.time
if s['elevation_difference'] > 0:
split.elevation_gain = s['elevation_difference']
else:
split.elevation_loss = abs(s['elevation_difference'])
out.append(split)
return out
def build_splits(self, activity):
# Load details
details = self.get_file(activity, 'details', format_json=True)
if 'splits_metric' not in details:
return []
# Import every metric split
out = []
for s in details['splits_metric']:
split = TrackSplit(position=s['split'])
split.time = s['elapsed_time']
split.distance = s['distance']
if split.time > 0:
split.speed = split.distance / split.time
if s['elevation_difference'] > 0:
split.elevation_gain = s['elevation_difference']
else:
split.elevation_loss = abs(s['elevation_difference'])
out.append(split)
return out
def build_splits(self, activity):
# Load laps
laps = self.get_file(activity, 'laps', format_json=True)
if not laps or 'activity' not in laps or 'totalLaps' not in laps['activity']:
return []
laps = laps['activity']['totalLaps']['lapSummaryList']
def _convert_speed(lap, name):
# Convert a speed in m/s
if name not in lap:
return 0.0
s = lap[name]
if s['uom'] == 'kph':
return float(s['value']) / 3.6
if s['uom'] == 'hmph': # hetcometer per hour
return float(s['value']) / 36
return float(s['value'])
def _convert_distance(lap, name):
# Convert a distance in meters
if name not in lap:
return 0.0
d = lap[name]
if d['uom'] == 'kilometer':
return float(d['value']) * 1000.0
return float(d['value'])
def _convert_date(lap, name):
# Convert a timestamp to a datetime
if name not in lap:
return 0.0
d = lap[name]
tz_name = d['uom'] == 'gmt' and 'Etc/GMT' or d['uom']
tz = pytz.timezone(tz_name)
return make_aware(datetime.fromtimestamp(float(d['value']) / 1000.0), tz)
def _convert_point(lap, name_lat, name_lng):
# Build a point from lat,lng
if name_lat not in lap or name_lng not in lap:
return None
return Point(float(lap[name_lat]['value']), float(lap[name_lng]['value']))
def _convert_float(lap, name):
# Convert to float a value
if name not in lap:
return 0.0
return float(lap[name]['value'])
# Build every split
out = []
for i, lap in enumerate(laps):
split = TrackSplit(position=i+1)
split.elevation_min = _convert_float(lap, 'MinElevation')
split.elevation_max = _convert_float(lap, 'MaxElevation')
split.elevation_gain = _convert_float(lap, 'GainElevation')
split.elevation_loss = _convert_float(lap, 'LossElevation')
split.speed_max = _convert_speed(lap, 'MaxSpeed')
split.speed = _convert_speed(lap, 'WeightedMeanSpeed')
split.distance = _convert_distance(lap, 'SumDistance')
split.time = _convert_float(lap, 'SumDuration')
split.energy = _convert_float(lap, 'SumEnergy')
split.date_start = _convert_date(lap, 'BeginTimestamp')
split.date_end = _convert_date(lap, 'EndTimestamp')
split.position_start = _convert_point(lap, 'BeginLatitude', 'BeginLongitude')
split.position_end = _convert_point(lap, 'EndLatitude', 'EndLongitude')
out.append(split)
return out
def build_total(self, track, splits):
'''
Build a total TrackSplit from a list of splits
'''
total = TrackSplit(position=0)
total.track_id = track.pk
total.distance = 0
total.time = 0
# List all current splits per positions
positions = dict([(s['position'], s['pk']) for s in track.splits.values('pk', 'position')])
positions_updated = []
for s in splits:
# Update totals
total.distance += s.distance
total.time += s.time
s.distance_total = total.distance
s.time_total = total.time
# Update existing split ?
if s.position in positions:
s.id = positions[s.position]
positions_updated.append(s.position)
s.track_id = track.pk
s.save()
logger.debug("%s track #%d added split %d"% (self.NAME, s.track_id, s.position))
# Save main split
nb = len(splits)
total.distance_total = total.distance
total.time_total = total.time
if nb > 0:
total.speed = sum([s.speed for s in splits]) / nb
total.speed_max = min([s.speed_max for s in splits])
total.elevation_min = min([s.elevation_min for s in splits])
total.elevation_max = max([s.elevation_max for s in splits])
total.elevation_gain = sum([s.elevation_gain for s in splits])
total.elevation_loss = sum([s.elevation_loss for s in splits])
total.energy = sum([s.energy for s in splits])
if nb >= 2:
start = splits[0]
total.date_start = start.date_start
total.position_start = start.position_start
end = splits[nb - 1]
total.date_end = end.date_end
total.position_end = end.position_end
# Update total split ?
total_pk = positions.get(0)
if total_pk:
total.pk = total_pk
positions_updated.append(0)
total.save()
track.split_total = total
track.save()
# Cleanup useless splits
diff = set(positions.keys()).difference(positions_updated)
if positions and diff:
logger.debug('Cleanup splits on positions %s' % diff)
track.splits.filter(position__in=diff).delete()
return total
def build_total(self, track, splits):
'''
Build a total TrackSplit from a list of splits
'''
total = TrackSplit(track=track, position=0)
total.distance = 0
total.time = 0
for s in splits:
# Update totals
total.distance += s.distance
total.time += s.time
s.distance_total = total.distance
s.time_total = total.time
s.track = track
s.save()
logger.debug("%s split #%d added split %d"% (self.NAME, track.pk, s.position))
# Save main split
nb = len(splits)
total.distance_total = total.distance
total.time_total = total.time
if nb > 0:
total.speed = sum([s.speed for s in splits]) / nb
total.speed_max = min([s.speed_max for s in splits])
total.elevation_min = min([s.elevation_min for s in splits])
total.elevation_max = max([s.elevation_max for s in splits])
total.elevation_gain = sum([s.elevation_gain for s in splits])
total.elevation_loss = sum([s.elevation_loss for s in splits])
total.energy = sum([s.energy for s in splits])
if nb >= 2:
start = splits[0]
total.date_start = start.date_start
total.position_start = start.position_start
end = splits[nb - 1]
total.date_end = end.date_end
total.position_end = end.position_end
total.save()
track.split_total = total
track.save()
return total
