本文整理汇总了Python中tapiriik.services.interchange.Lap类的典型用法代码示例。如果您正苦于以下问题:Python Lap类的具体用法?Python Lap怎么用?Python Lap使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了Lap类的12个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: DownloadActivity
def DownloadActivity(self, serviceRecord, activity):
session = self._get_session(serviceRecord)
act_id = activity.ServiceData["ID"]
activityDetails = session.get("https://api.nike.com/me/sport/activities/%s" % act_id, params=self._with_auth(session))
activityDetails = activityDetails.json()
streams = {metric["metricType"].lower(): self._nikeStream(metric) for metric in activityDetails["metrics"]}
activity.GPS = activityDetails["isGpsActivity"]
if activity.GPS:
activityGps = session.get("https://api.nike.com/me/sport/activities/%s/gps" % act_id, params=self._with_auth(session))
activityGps = activityGps.json()
streams["gps"] = self._nikeStream(activityGps, "waypoints")
activity.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters,
gain=float(activityGps["elevationGain"]),
loss=float(activityGps["elevationLoss"]),
max=float(activityGps["elevationMax"]),
min=float(activityGps["elevationMin"])))
lap = Lap(startTime=activity.StartTime, endTime=activity.EndTime)
lap.Stats = activity.Stats
activity.Laps = [lap]
# I thought I wrote StreamSampler to be generator-friendly - nope.
streams = {k: list(v) for k,v in streams.items()}
# The docs are unclear on which of these are actually stream metrics, oh well
def stream_waypoint(offset, speed=None, distance=None, heartrate=None, calories=None, steps=None, watts=None, gps=None, **kwargs):
wp = Waypoint()
wp.Timestamp = activity.StartTime + timedelta(seconds=offset)
wp.Speed = float(speed) if speed else None
wp.Distance = float(distance) / 1000 if distance else None
wp.HR = float(heartrate) if heartrate else None
wp.Calories = float(calories) if calories else None
wp.Power = float(watts) if watts else None
if gps:
wp.Location = Location(lat=float(gps["latitude"]), lon=float(gps["longitude"]), alt=float(gps["elevation"]))
lap.Waypoints.append(wp)
StreamSampler.SampleWithCallback(stream_waypoint, streams)
activity.Stationary = len(lap.Waypoints) == 0
return activity示例2: DownloadActivity
def DownloadActivity(self, svcRecord, activity):
if activity.ServiceData["Manual"]: # I should really add a param to DownloadActivity for this value as opposed to constantly doing this
# We've got as much information as we're going to get - we need to copy it into a Lap though.
activity.Laps = [Lap(startTime=activity.StartTime, endTime=activity.EndTime, stats=activity.Stats)]
return activity
activityID = activity.ServiceData["ActivityID"]
self._globalRateLimit()
streamdata = requests.get("https://www.strava.com/api/v3/activities/" + str(activityID) + "/streams/time,altitude,heartrate,cadence,watts,temp,moving,latlng", headers=self._apiHeaders(svcRecord))
if streamdata.status_code == 401:
raise APIException("No authorization to download activity", block=True, user_exception=UserException(UserExceptionType.Authorization, intervention_required=True))
try:
streamdata = streamdata.json()
except:
raise APIException("Stream data returned is not JSON")
if "message" in streamdata and streamdata["message"] == "Record Not Found":
raise APIException("Could not find activity")
ridedata = {}
for stream in streamdata:
ridedata[stream["type"]] = stream["data"]
lap = Lap(stats=activity.Stats, startTime=activity.StartTime, endTime=activity.EndTime) # Strava doesn't support laps, but we need somewhere to put the waypoints.
activity.Laps = [lap]
lap.Waypoints = []
hasHR = "heartrate" in ridedata and len(ridedata["heartrate"]) > 0
hasCadence = "cadence" in ridedata and len(ridedata["cadence"]) > 0
hasTemp = "temp" in ridedata and len(ridedata["temp"]) > 0
hasPower = ("watts" in ridedata and len(ridedata["watts"]) > 0)
hasAltitude = "altitude" in ridedata and len(ridedata["altitude"]) > 0
if "error" in ridedata:
raise APIException("Strava error " + ridedata["error"])
waypointCt = len(ridedata["time"])
for idx in range(0, waypointCt - 1):
waypoint = Waypoint(activity.StartTime + timedelta(0, ridedata["time"][idx]))
if "latlng" in ridedata:
latlng = ridedata["latlng"][idx]
waypoint.Location = Location(latlng[0], latlng[1], None)
if waypoint.Location.Longitude == 0 and waypoint.Location.Latitude == 0:
waypoint.Location.Longitude = None
waypoint.Location.Latitude = None
if hasAltitude:
if not waypoint.Location:
waypoint.Location = Location(None, None, None)
waypoint.Location.Altitude = float(ridedata["altitude"][idx])
if idx == 0:
waypoint.Type = WaypointType.Start
elif idx == waypointCt - 2:
waypoint.Type = WaypointType.End
if hasHR:
waypoint.HR = ridedata["heartrate"][idx]
if hasCadence:
waypoint.Cadence = ridedata["cadence"][idx]
if hasTemp:
waypoint.Temp = ridedata["temp"][idx]
if hasPower:
waypoint.Power = ridedata["watts"][idx]
lap.Waypoints.append(waypoint)
return activity示例3: _downloadActivitySummary
def _downloadActivitySummary(self, serviceRecord, activity):
activityID = activity.ServiceData["ActivityID"]
session = self._get_session(record=serviceRecord)
self._rate_limit()
res = session.get("http://connect.garmin.com/proxy/activity-service-1.3/json/activity/" + str(activityID))
try:
raw_data = res.json()
except ValueError:
raise APIException("Failure downloading activity summary %s:%s" % (res.status_code, res.text))
stat_map = {}
def mapStat(gcKey, statKey, type):
stat_map[gcKey] = {
"key": statKey,
"attr": type
}
def applyStats(gc_dict, stats_obj):
for gc_key, stat in stat_map.items():
if gc_key in gc_dict:
value = float(gc_dict[gc_key]["value"])
units = self._unitMap[gc_dict[gc_key]["uom"]]
if math.isinf(value):
continue # GC returns the minimum speed as "-Infinity" instead of 0 some times :S
getattr(stats_obj, stat["key"]).update(ActivityStatistic(units, **({stat["attr"]: value})))
mapStat("SumMovingDuration", "MovingTime", "value")
mapStat("SumDuration", "TimerTime", "value")
mapStat("SumDistance", "Distance", "value")
mapStat("MinSpeed", "Speed", "min")
mapStat("MaxSpeed", "Speed", "max")
mapStat("WeightedMeanSpeed", "Speed", "avg")
mapStat("MinAirTemperature", "Temperature", "min")
mapStat("MaxAirTemperature", "Temperature", "max")
mapStat("WeightedMeanAirTemperature", "Temperature", "avg")
mapStat("SumEnergy", "Energy", "value")
mapStat("MaxHeartRate", "HR", "max")
mapStat("WeightedMeanHeartRate", "HR", "avg")
mapStat("MaxDoubleCadence", "RunCadence", "max")
mapStat("WeightedMeanDoubleCadence", "RunCadence", "avg")
mapStat("MaxBikeCadence", "Cadence", "max")
mapStat("WeightedMeanBikeCadence", "Cadence", "avg")
mapStat("MinPower", "Power", "min")
mapStat("MaxPower", "Power", "max")
mapStat("WeightedMeanPower", "Power", "avg")
mapStat("MinElevation", "Elevation", "min")
mapStat("MaxElevation", "Elevation", "max")
mapStat("GainElevation", "Elevation", "gain")
mapStat("LossElevation", "Elevation", "loss")
applyStats(raw_data["activity"]["activitySummary"], activity.Stats)
for lap_data in raw_data["activity"]["totalLaps"]["lapSummaryList"]:
lap = Lap()
if "BeginTimestamp" in lap_data:
lap.StartTime = pytz.utc.localize(datetime.utcfromtimestamp(float(lap_data["BeginTimestamp"]["value"]) / 1000))
if "EndTimestamp" in lap_data:
lap.EndTime = pytz.utc.localize(datetime.utcfromtimestamp(float(lap_data["EndTimestamp"]["value"]) / 1000))
elapsed_duration = None
if "SumElapsedDuration" in lap_data:
elapsed_duration = timedelta(seconds=round(float(lap_data["SumElapsedDuration"]["value"])))
elif "SumDuration" in lap_data:
elapsed_duration = timedelta(seconds=round(float(lap_data["SumDuration"]["value"])))
if lap.StartTime and elapsed_duration:
# Always recalculate end time based on duration, if we have the start time
lap.EndTime = lap.StartTime + elapsed_duration
if not lap.StartTime and lap.EndTime and elapsed_duration:
# Sometimes calculate start time based on duration
lap.StartTime = lap.EndTime - elapsed_duration
if not lap.StartTime or not lap.EndTime:
# Garmin Connect is weird.
raise APIExcludeActivity("Activity lap has no BeginTimestamp or EndTimestamp", userException=UserException(UserExceptionType.Corrupt))
applyStats(lap_data, lap.Stats)
activity.Laps.append(lap)
# In Garmin Land, max can be smaller than min for this field :S
if activity.Stats.Power.Max is not None and activity.Stats.Power.Min is not None and activity.Stats.Power.Min > activity.Stats.Power.Max:
activity.Stats.Power.Min = None示例4: _downloadActivitySummary
def _downloadActivitySummary(self, serviceRecord, activity):
activityID = activity.ServiceData["ActivityID"]
summary_resp = self._request_with_reauth(lambda session: session.get("https://connect.garmin.com/modern/proxy/activity-service/activity/" + str(activityID)), serviceRecord)
try:
summary_data = summary_resp.json()
except ValueError:
raise APIException("Failure downloading activity summary %s:%s" % (summary_resp.status_code, summary_resp.text))
stat_map = {}
def mapStat(gcKey, statKey, type, units):
stat_map[gcKey] = {
"key": statKey,
"attr": type,
"units": units
}
def applyStats(gc_dict, stats_obj):
for gc_key, stat in stat_map.items():
if gc_key in gc_dict:
value = float(gc_dict[gc_key])
if math.isinf(value):
continue # GC returns the minimum speed as "-Infinity" instead of 0 some times :S
getattr(stats_obj, stat["key"]).update(ActivityStatistic(stat["units"], **({stat["attr"]: value})))
mapStat("movingDuration", "MovingTime", "value", ActivityStatisticUnit.Seconds)
mapStat("duration", "TimerTime", "value", ActivityStatisticUnit.Seconds)
mapStat("distance", "Distance", "value", ActivityStatisticUnit.Meters)
mapStat("maxSpeed", "Speed", "max", ActivityStatisticUnit.MetersPerSecond)
mapStat("averageSpeed", "Speed", "avg", ActivityStatisticUnit.MetersPerSecond)
mapStat("calories", "Energy", "value", ActivityStatisticUnit.Kilocalories)
mapStat("maxHR", "HR", "max", ActivityStatisticUnit.BeatsPerMinute)
mapStat("averageHR", "HR", "avg", ActivityStatisticUnit.BeatsPerMinute)
mapStat("minElevation", "Elevation", "min", ActivityStatisticUnit.Meters)
mapStat("maxElevation", "Elevation", "max", ActivityStatisticUnit.Meters)
mapStat("elevationGain", "Elevation", "gain", ActivityStatisticUnit.Meters)
mapStat("elevationLoss", "Elevation", "loss", ActivityStatisticUnit.Meters)
mapStat("averageBikeCadence", "Cadence", "avg", ActivityStatisticUnit.RevolutionsPerMinute)
mapStat("averageCadence", "Cadence", "avg", ActivityStatisticUnit.StepsPerMinute)
applyStats(summary_data["summaryDTO"], activity.Stats)
laps_resp = self._request_with_reauth(lambda session: session.get("https://connect.garmin.com/modern/proxy/activity-service/activity/%s/splits" % str(activityID)), serviceRecord)
try:
laps_data = laps_resp.json()
except ValueError:
raise APIException("Failure downloading activity laps summary %s:%s" % (laps_resp.status_code, laps_resp.text))
for lap_data in laps_data["lapDTOs"]:
lap = Lap()
if "startTimeGMT" in lap_data:
lap.StartTime = pytz.utc.localize(datetime.strptime(lap_data["startTimeGMT"], "%Y-%m-%dT%H:%M:%S.0"))
elapsed_duration = None
if "elapsedDuration" in lap_data:
elapsed_duration = timedelta(seconds=round(float(lap_data["elapsedDuration"])))
elif "duration" in lap_data:
elapsed_duration = timedelta(seconds=round(float(lap_data["duration"])))
if lap.StartTime and elapsed_duration:
# Always recalculate end time based on duration, if we have the start time
lap.EndTime = lap.StartTime + elapsed_duration
if not lap.StartTime and lap.EndTime and elapsed_duration:
# Sometimes calculate start time based on duration
lap.StartTime = lap.EndTime - elapsed_duration
if not lap.StartTime or not lap.EndTime:
# Garmin Connect is weird.
raise APIExcludeActivity("Activity lap has no BeginTimestamp or EndTimestamp", user_exception=UserException(UserExceptionType.Corrupt))
applyStats(lap_data, lap.Stats)
activity.Laps.append(lap)
# In Garmin Land, max can be smaller than min for this field :S
if activity.Stats.Power.Max is not None and activity.Stats.Power.Min is not None and activity.Stats.Power.Min > activity.Stats.Power.Max:
activity.Stats.Power.Min = None示例5: _downloadActivity
def _downloadActivity(self, serviceRecord, activity, returnFirstLocation=False):
activityURI = activity.ServiceData["ActivityURI"]
headers = self._getAuthHeaders(serviceRecord)
activityData = requests.get(activityURI, headers=headers)
activityData = activityData.json()
if "clock_duration" in activityData:
activity.EndTime = activity.StartTime + timedelta(seconds=float(activityData["clock_duration"]))
activity.Private = "sharing" in activityData and activityData["sharing"] != "public"
activity.GPS = False # Gets set back if there is GPS data
if "notes" in activityData:
activity.Notes = activityData["notes"]
activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilojoules, value=float(activityData["calories"]))
activity.Stats.Elevation = ActivityStatistic(ActivityStatisticUnit.Meters, gain=float(activityData["elevation_gain"]) if "elevation_gain" in activityData else None, loss=float(activityData["elevation_loss"]) if "elevation_loss" in activityData else None)
activity.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, avg=activityData["avg_heartrate"] if "avg_heartrate" in activityData else None, max=activityData["max_heartrate"] if "max_heartrate" in activityData else None)
activity.Stats.Cadence = ActivityStatistic(ActivityStatisticUnit.RevolutionsPerMinute, avg=activityData["avg_cadence"] if "avg_cadence" in activityData else None, max=activityData["max_cadence"] if "max_cadence" in activityData else None)
activity.Stats.Power = ActivityStatistic(ActivityStatisticUnit.Watts, avg=activityData["avg_power"] if "avg_power" in activityData else None, max=activityData["max_power"] if "max_power" in activityData else None)
laps_info = []
laps_starts = []
if "laps" in activityData:
laps_info = activityData["laps"]
for lap in activityData["laps"]:
laps_starts.append(dateutil.parser.parse(lap["start_time"]))
lap = None
for lapinfo in laps_info:
lap = Lap()
activity.Laps.append(lap)
lap.StartTime = dateutil.parser.parse(lapinfo["start_time"])
lap.EndTime = lap.StartTime + timedelta(seconds=lapinfo["clock_duration"])
if "type" in lapinfo:
lap.Intensity = LapIntensity.Active if lapinfo["type"] == "ACTIVE" else LapIntensity.Rest
if "distance" in lapinfo:
lap.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=float(lapinfo["distance"]))
if "duration" in lapinfo:
lap.Stats.TimerTime = ActivityStatistic(ActivityStatisticUnit.Seconds, value=lapinfo["duration"])
if "calories" in lapinfo:
lap.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilojoules, value=lapinfo["calories"])
if "elevation_gain" in lapinfo:
lap.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters, gain=float(lapinfo["elevation_gain"])))
if "elevation_loss" in lapinfo:
lap.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters, loss=float(lapinfo["elevation_loss"])))
if "max_speed" in lapinfo:
lap.Stats.Speed.update(ActivityStatistic(ActivityStatisticUnit.MetersPerSecond, max=float(lapinfo["max_speed"])))
if "max_speed" in lapinfo:
lap.Stats.Speed.update(ActivityStatistic(ActivityStatisticUnit.MetersPerSecond, max=float(lapinfo["max_speed"])))
if "avg_speed" in lapinfo:
lap.Stats.Speed.update(ActivityStatistic(ActivityStatisticUnit.MetersPerSecond, avg=float(lapinfo["avg_speed"])))
if "max_heartrate" in lapinfo:
lap.Stats.HR.update(ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, max=float(lapinfo["max_heartrate"])))
if "avg_heartrate" in lapinfo:
lap.Stats.HR.update(ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, avg=float(lapinfo["avg_heartrate"])))
if lap is None: # No explicit laps => make one that encompasses the entire activity
lap = Lap()
activity.Laps.append(lap)
lap.Stats = activity.Stats
lap.StartTime = activity.StartTime
lap.EndTime = activity.EndTime
elif len(activity.Laps) == 1:
activity.Stats.update(activity.Laps[0].Stats) # Lap stats have a bit more info generally.
activity.Laps[0].Stats = activity.Stats
timerStops = []
if "timer_stops" in activityData:
for stop in activityData["timer_stops"]:
timerStops.append([dateutil.parser.parse(stop[0]), dateutil.parser.parse(stop[1])])
def isInTimerStop(timestamp):
for stop in timerStops:
if timestamp >= stop[0] and timestamp < stop[1]:
return True
if timestamp >= stop[1]:
return False
return False
# Collate the individual streams into our waypoints.
# Global sample rate is variable - will pick the next nearest stream datapoint.
# Resampling happens on a lookbehind basis - new values will only appear their timestamp has been reached/passed
wasInPause = False
currentLapIdx = 0
lap = activity.Laps[currentLapIdx]
streams = []
for stream in ["location", "elevation", "heartrate", "power", "cadence", "distance"]:
if stream in activityData:
streams.append(stream)
stream_indices = dict([(stream, -1) for stream in streams]) # -1 meaning the stream has yet to start
stream_lengths = dict([(stream, len(activityData[stream])/2) for stream in streams])
# Data comes as "stream":[timestamp,value,timestamp,value,...]
stream_values = {}
for stream in streams:
values = []
for x in range(0,int(len(activityData[stream])/2)):
#.........这里部分代码省略.........
示例6: DownloadActivity
def DownloadActivity(self, svcRecord, activity):
activityID = activity.ServiceData["ActivityID"]
extID = svcRecord.ExternalID
url = self.SingletrackerDomain + "getRideData"
payload = {"userId": extID, "rideId": activityID}
headers = {
'content-type': "application/json",
'cache-control': "no-cache",
}
streamdata = requests.post(url, data=json.dumps(payload), headers=headers)
if streamdata.status_code == 500:
raise APIException("Internal server error")
if streamdata.status_code == 403:
raise APIException("No authorization to download activity", block=True,
user_exception=UserException(UserExceptionType.Authorization,
intervention_required=True))
if streamdata.status_code != 200:
raise APIException("Unknown Singletracker response %d %s" % (streamdata.status_code, streamdata.text))
try:
streamdata = streamdata.json()
except:
raise APIException("Stream data returned is not JSON")
ridedata = {}
lap = Lap(stats=activity.Stats, startTime=activity.StartTime,
endTime=activity.EndTime) # Singletracker doesn't support laps, but we need somewhere to put the waypoints.
activity.Laps = [lap]
lap.Waypoints = []
wayPointExist = False
for stream in streamdata:
waypoint = Waypoint(dateutil.parser.parse(stream["time"], ignoretz=True))
if "latitude" in stream:
if "longitude" in stream:
latitude = stream["latitude"]
longitude = stream["longitude"]
waypoint.Location = Location(latitude, longitude, None)
if waypoint.Location.Longitude == 0 and waypoint.Location.Latitude == 0:
waypoint.Location.Longitude = None
waypoint.Location.Latitude = None
if "elevation" in stream:
if not waypoint.Location:
waypoint.Location = Location(None, None, None)
waypoint.Location.Altitude = stream["elevation"]
if "distance" in stream:
waypoint.Distance = stream["distance"]
if "speed" in stream:
waypoint.Speed = stream["speed"]
waypoint.Type = WaypointType.Regular
lap.Waypoints.append(waypoint)
return activity示例7: DownloadActivity
def DownloadActivity(self, svcRecord, activity):
if activity.ServiceData["Manual"]: # I should really add a param to DownloadActivity for this value as opposed to constantly doing this
# We've got as much information as we're going to get - we need to copy it into a Lap though.
activity.Laps = [Lap(startTime=activity.StartTime, endTime=activity.EndTime, stats=activity.Stats)]
return activity
activityID = activity.ServiceData["ActivityID"]
streamdata = requests.get("https://www.strava.com/api/v3/activities/" + str(activityID) + "/streams/time,altitude,heartrate,cadence,watts,temp,moving,latlng", headers=self._apiHeaders(svcRecord))
if streamdata.status_code == 401:
self._logAPICall("download", (svcRecord.ExternalID, str(activity.StartTime)), "auth")
raise APIException("No authorization to download activity", block=True, user_exception=UserException(UserExceptionType.Authorization, intervention_required=True))
try:
streamdata = streamdata.json()
except:
raise APIException("Stream data returned is not JSON")
if "message" in streamdata and streamdata["message"] == "Record Not Found":
self._logAPICall("download", (svcRecord.ExternalID, str(activity.StartTime)), "missing")
raise APIException("Could not find activity")
ridedata = {}
for stream in streamdata:
ridedata[stream["type"]] = stream["data"]
lap = Lap(stats=activity.Stats, startTime=activity.StartTime, endTime=activity.EndTime) # Strava doesn't support laps, but we need somewhere to put the waypoints.
activity.Laps = [lap]
lap.Waypoints = []
hasHR = "heartrate" in ridedata and len(ridedata["heartrate"]) > 0
hasCadence = "cadence" in ridedata and len(ridedata["cadence"]) > 0
hasTemp = "temp" in ridedata and len(ridedata["temp"]) > 0
hasPower = ("watts" in ridedata and len(ridedata["watts"]) > 0)
hasAltitude = "altitude" in ridedata and len(ridedata["altitude"]) > 0
hasMovingData = "moving" in ridedata and len(ridedata["moving"]) > 0
moving = True
if "error" in ridedata:
self._logAPICall("download", (svcRecord.ExternalID, str(activity.StartTime)), "data")
raise APIException("Strava error " + ridedata["error"])
hasLocation = False
waypointCt = len(ridedata["time"])
for idx in range(0, waypointCt - 1):
latlng = ridedata["latlng"][idx]
waypoint = Waypoint(activity.StartTime + timedelta(0, ridedata["time"][idx]))
latlng = ridedata["latlng"][idx]
waypoint.Location = Location(latlng[0], latlng[1], None)
if waypoint.Location.Longitude == 0 and waypoint.Location.Latitude == 0:
waypoint.Location.Longitude = None
waypoint.Location.Latitude = None
else: # strava only returns 0 as invalid coords, so no need to check for null (update: ??)
hasLocation = True
if hasAltitude:
waypoint.Location.Altitude = float(ridedata["altitude"][idx])
if idx == 0:
waypoint.Type = WaypointType.Start
elif idx == waypointCt - 2:
waypoint.Type = WaypointType.End
elif hasMovingData and not moving and ridedata["moving"][idx] is True:
waypoint.Type = WaypointType.Resume
moving = True
elif hasMovingData and ridedata["moving"][idx] is False:
waypoint.Type = WaypointType.Pause
moving = False
if hasHR:
waypoint.HR = ridedata["heartrate"][idx]
if hasCadence:
waypoint.Cadence = ridedata["cadence"][idx]
if hasTemp:
waypoint.Temp = ridedata["temp"][idx]
if hasPower:
waypoint.Power = ridedata["watts"][idx]
lap.Waypoints.append(waypoint)
if not hasLocation:
self._logAPICall("download", (svcRecord.ExternalID, str(activity.StartTime)), "faulty")
raise APIExcludeActivity("No waypoints with location", activityId=activityID, userException=UserException(UserExceptionType.Corrupt))
self._logAPICall("download", (svcRecord.ExternalID, str(activity.StartTime)), None)
return activity示例8: _downloadActivity
def _downloadActivity(self, serviceRecord, activity, returnFirstLocation=False):
activityURI = activity.ServiceData["ActivityURI"]
cookies = self._get_cookies(record=serviceRecord)
activityData = requests.get(activityURI, cookies=cookies)
activityData = activityData.json()
if "clock_duration" in activityData:
activity.EndTime = activity.StartTime + timedelta(seconds=float(activityData["clock_duration"]))
activity.Private = "sharing" in activityData and activityData["sharing"] != "public"
if "notes" in activityData:
activity.Notes = activityData["notes"]
activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilojoules, value=float(activityData["calories"]))
activity.Stats.Elevation = ActivityStatistic(ActivityStatisticUnit.Meters, gain=float(activityData["elevation_gain"]) if "elevation_gain" in activityData else None, loss=float(activityData["elevation_loss"]) if "elevation_loss" in activityData else None)
activity.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, avg=activityData["avg_heartrate"] if "avg_heartrate" in activityData else None, max=activityData["max_heartrate"] if "max_heartrate" in activityData else None)
activity.Stats.Cadence = ActivityStatistic(ActivityStatisticUnit.RevolutionsPerMinute, avg=activityData["avg_cadence"] if "avg_cadence" in activityData else None, max=activityData["max_cadence"] if "max_cadence" in activityData else None)
activity.Stats.Power = ActivityStatistic(ActivityStatisticUnit.Watts, avg=activityData["avg_power"] if "avg_power" in activityData else None, max=activityData["max_power"] if "max_power" in activityData else None)
laps_info = []
laps_starts = []
if "laps" in activityData:
laps_info = activityData["laps"]
for lap in activityData["laps"]:
laps_starts.append(dateutil.parser.parse(lap["start_time"]))
lap = None
for lapinfo in laps_info:
lap = Lap()
activity.Laps.append(lap)
lap.StartTime = dateutil.parser.parse(lapinfo["start_time"])
lap.EndTime = lap.StartTime + timedelta(seconds=lapinfo["clock_duration"])
if "type" in lapinfo:
lap.Intensity = LapIntensity.Active if lapinfo["type"] == "ACTIVE" else LapIntensity.Rest
if "distance" in lapinfo:
lap.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=float(lapinfo["distance"]))
if "duration" in lapinfo:
lap.Stats.MovingTime = ActivityStatistic(ActivityStatisticUnit.Time, value=timedelta(seconds=lapinfo["duration"]))
if "calories" in lapinfo:
lap.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilojoules, value=lapinfo["calories"])
if "elevation_gain" in lapinfo:
lap.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters, gain=float(lapinfo["elevation_gain"])))
if "elevation_loss" in lapinfo:
lap.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters, loss=float(lapinfo["elevation_loss"])))
if "max_speed" in lapinfo:
lap.Stats.Speed.update(ActivityStatistic(ActivityStatisticUnit.MetersPerSecond, max=float(lapinfo["max_speed"])))
if "max_speed" in lapinfo:
lap.Stats.Speed.update(ActivityStatistic(ActivityStatisticUnit.MetersPerSecond, max=float(lapinfo["max_speed"])))
if "avg_speed" in lapinfo:
lap.Stats.Speed.update(ActivityStatistic(ActivityStatisticUnit.MetersPerSecond, avg=float(lapinfo["avg_speed"])))
if "max_heartrate" in lapinfo:
lap.Stats.HR.update(ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, max=float(lapinfo["max_heartrate"])))
if "avg_heartrate" in lapinfo:
lap.Stats.HR.update(ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, avg=float(lapinfo["avg_heartrate"])))
if lap is None: # No explicit laps => make one that encompasses the entire activity
lap = Lap()
activity.Laps.append(lap)
lap.Stats = activity.Stats
lap.StartTime = activity.StartTime
lap.EndTime = activity.EndTime
if "location" not in activityData:
activity.Stationary = True
else:
activity.Stationary = False
timerStops = []
if "timer_stops" in activityData:
for stop in activityData["timer_stops"]:
timerStops.append([dateutil.parser.parse(stop[0]), dateutil.parser.parse(stop[1])])
def isInTimerStop(timestamp):
for stop in timerStops:
if timestamp >= stop[0] and timestamp < stop[1]:
return True
if timestamp >= stop[1]:
return False
return False
# Collate the individual streams into our waypoints.
# Everything is resampled by nearest-neighbour to the rate of the location stream.
parallel_indices = {}
parallel_stream_lengths = {}
for secondary_stream in ["elevation", "heartrate", "power", "cadence", "distance"]:
if secondary_stream in activityData:
parallel_indices[secondary_stream] = 0
parallel_stream_lengths[secondary_stream] = len(activityData[secondary_stream])
wasInPause = False
currentLapIdx = 0
lap = activity.Laps[currentLapIdx]
for idx in range(0, len(activityData["location"]), 2):
# Pick the nearest indices in the parallel streams
for parallel_stream, parallel_index in parallel_indices.items():
if parallel_index + 2 == parallel_stream_lengths[parallel_stream]:
continue # We're at the end of this stream
# Is the next datapoint a better choice than the current?
if abs(activityData["location"][idx] - activityData[parallel_stream][parallel_index + 2]) < abs(activityData["location"][idx] - activityData[parallel_stream][parallel_index]):
parallel_indices[parallel_stream] += 2
#.........这里部分代码省略.........
示例9: _downloadActivitySummary
def _downloadActivitySummary(self, serviceRecord, activity):
activityID = activity.ServiceData["ActivityID"]
cookies = self._get_cookies(record=serviceRecord)
self._rate_limit()
res = requests.get("https://connect.garmin.com/proxy/activity-service-1.3/json/activity/" + str(activityID), cookies=cookies)
try:
raw_data = res.json()
except ValueError:
raise APIException("Failure downloading activity summary %s:%s" % (res.status_code, res.text))
stat_map = {}
def mapStat(gcKey, statKey, type):
stat_map[gcKey] = {
"key": statKey,
"attr": type
}
def applyStats(gc_dict, stats_obj):
for gc_key, stat in stat_map.items():
if gc_key in gc_dict:
value = float(gc_dict[gc_key]["value"])
units = self._unitMap[gc_dict[gc_key]["uom"]]
if math.isinf(value):
continue # GC returns the minimum speed as "-Infinity" instead of 0 some times :S
getattr(stats_obj, stat["key"]).update(ActivityStatistic(units, **({stat["attr"]: value})))
mapStat("SumMovingDuration", "MovingTime", "value")
mapStat("SumDuration", "TimerTime", "value")
mapStat("SumDistance", "Distance", "value")
mapStat("MinSpeed", "Speed", "min")
mapStat("MaxSpeed", "Speed", "max")
mapStat("WeightedMeanSpeed", "Speed", "avg")
mapStat("MinAirTemperature", "Temperature", "min")
mapStat("MaxAirTemperature", "Temperature", "max")
mapStat("WeightedMeanAirTemperature", "Temperature", "avg")
mapStat("SumEnergy", "Energy", "value")
mapStat("MaxHeartRate", "HR", "max")
mapStat("WeightedMeanHeartRate", "HR", "avg")
mapStat("MaxDoubleCadence", "RunCadence", "max")
mapStat("WeightedMeanDoubleCadence", "RunCadence", "avg")
mapStat("MaxBikeCadence", "Cadence", "max")
mapStat("WeightedMeanBikeCadence", "Cadence", "avg")
mapStat("MinPower", "Power", "min")
mapStat("MaxPower", "Power", "max")
mapStat("WeightedMeanPower", "Power", "avg")
mapStat("MinElevation", "Elevation", "min")
mapStat("MaxElevation", "Elevation", "max")
mapStat("GainElevation", "Elevation", "gain")
mapStat("LossElevation", "Elevation", "loss")
applyStats(raw_data["activity"]["activitySummary"], activity.Stats)
for lap_data in raw_data["activity"]["totalLaps"]["lapSummaryList"]:
lap = Lap()
lap.StartTime = pytz.utc.localize(datetime.utcfromtimestamp(float(lap_data["BeginTimestamp"]["value"]) / 1000))
lap.EndTime = pytz.utc.localize(datetime.utcfromtimestamp(float(lap_data["EndTimestamp"]["value"]) / 1000))
applyStats(lap_data, lap.Stats)
activity.Laps.append(lap)
# In Garmin Land, max can be smaller than min for this field :S
if activity.Stats.Power.Max is not None and activity.Stats.Power.Min is not None and activity.Stats.Power.Min > activity.Stats.Power.Max:
activity.Stats.Power.Min = None示例10: _populateActivityFromTrackData
def _populateActivityFromTrackData(self, activity, recordText, minimumWaypoints=False):
lap = Lap()
activity.Laps = [lap]
### 1ST RECORD ###
# userID;
# timestamp - create date?;
# type? W=1st
# User name;
# activity name;
# activity type;
# another timestamp - start time of event?;
# duration.00;
# distance (km);
# kcal;
#;
# max alt;
# min alt;
# max HR;
# avg HR;
### TRACK RECORDS ###
# timestamp;
# type (2=start, 3=end, 0=pause, 1=resume);
# latitude;
# longitude;
#;
#;
# alt;
# hr;
wptsWithLocation = False
wptsWithNonZeroAltitude = False
rows = recordText.split("\n")
for row in rows:
if row == "OK" or len(row) == 0:
continue
split = row.split(";")
if split[2] == "W":
# init record
lap.Stats.MovingTime = ActivityStatistic(ActivityStatisticUnit.Time, value=timedelta(seconds=float(split[7])) if split[7] != "" else None)
lap.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Kilometers, value=float(split[8]) if split[8] != "" else None)
lap.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, avg=float(split[14]) if split[14] != "" else None, max=float(split[13]) if split[13] != "" else None)
lap.Stats.Elevation = ActivityStatistic(ActivityStatisticUnit.Meters, min=float(split[12]) if split[12] != "" else None, max=float(split[11]) if split[11] != "" else None)
lap.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilocalories, value=float(split[12]) if split[12] != "" else None)
activity.Stats.update(lap.Stats)
lap.Stats = activity.Stats
activity.Name = split[4]
else:
wp = Waypoint()
if split[1] == "2":
wp.Type = WaypointType.Start
elif split[1] == "3":
wp.Type = WaypointType.End
elif split[1] == "0":
wp.Type = WaypointType.Pause
elif split[1] == "1":
wp.Type = WaypointType.Resume
else:
wp.Type == WaypointType.Regular
if split[0] == "":
continue # no timestamp, for whatever reason
wp.Timestamp = pytz.utc.localize(datetime.strptime(split[0], "%Y-%m-%d %H:%M:%S UTC")) # it's like this as opposed to %z so I know when they change things (it'll break)
if split[2] != "":
wp.Location = Location(float(split[2]), float(split[3]), None)
if wp.Location.Longitude > 180 or wp.Location.Latitude > 90 or wp.Location.Longitude < -180 or wp.Location.Latitude < -90:
raise APIExcludeActivity("Out of range lat/lng")
if wp.Location.Latitude is not None and wp.Location.Latitude is not None:
wptsWithLocation = True
if split[6] != "":
wp.Location.Altitude = float(split[6]) # why this is missing: who knows?
if wp.Location.Altitude != 0:
wptsWithNonZeroAltitude = True
if split[7] != "":
wp.HR = float(split[7])
lap.Waypoints.append(wp)
if wptsWithLocation and minimumWaypoints:
break
lap.Waypoints = sorted(activity.Waypoints, key=lambda v: v.Timestamp)
if wptsWithLocation:
activity.EnsureTZ(recalculate=True)
if not wptsWithNonZeroAltitude: # do this here so, should the activity run near sea level, altitude data won't be spotty
for x in lap.Waypoints: # clear waypoints of altitude data if all of them were logged at 0m (invalid)
if x.Location is not None:
x.Location.Altitude = None
else:
lap.Waypoints = [] # practically speaking示例11: create_random_activity
def create_random_activity(svc=None, actType=ActivityType.Other, tz=False, record=None, withPauses=True, withLaps=True):
''' creates completely random activity with valid waypoints and data '''
act = TestTools.create_blank_activity(svc, actType, record=record)
if tz is True:
tz = pytz.timezone(pytz.all_timezones[random.randint(0, len(pytz.all_timezones) - 1)])
act.TZ = tz
elif tz is not False:
act.TZ = tz
if act.CountTotalWaypoints() > 0:
raise ValueError("Waypoint list already populated")
# this is entirely random in case the testing account already has events in it (API doesn't support delete, etc)
act.StartTime = datetime(random.randint(2000, 2020), random.randint(1, 12), random.randint(1, 28), random.randint(0, 23), random.randint(0, 59), random.randint(0, 59))
if tz is not False:
if hasattr(tz, "localize"):
act.StartTime = tz.localize(act.StartTime)
else:
act.StartTime = act.StartTime.replace(tzinfo=tz)
act.EndTime = act.StartTime + timedelta(0, random.randint(60 * 5, 60 * 60)) # don't really need to upload 1000s of pts to test this...
act.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=random.random() * 10000)
act.Name = str(random.random())
paused = False
waypointTime = act.StartTime
backToBackPauses = False
act.Laps = []
lap = Lap(startTime=act.StartTime)
while waypointTime < act.EndTime:
wp = Waypoint()
if waypointTime == act.StartTime:
wp.Type = WaypointType.Start
wp.Timestamp = waypointTime
wp.Location = Location(random.random() * 180 - 90, random.random() * 180 - 90, random.random() * 1000) # this is gonna be one intense activity
if not (wp.HR == wp.Cadence == wp.Calories == wp.Power == wp.Temp == None):
raise ValueError("Waypoint did not initialize cleanly")
if svc.SupportsHR:
wp.HR = float(random.randint(90, 180))
if svc.SupportsPower:
wp.Power = float(random.randint(0, 1000))
if svc.SupportsCalories:
wp.Calories = float(random.randint(0, 500))
if svc.SupportsCadence:
wp.Cadence = float(random.randint(0, 100))
if svc.SupportsTemp:
wp.Temp = float(random.randint(0, 100))
if withPauses and (random.randint(40, 50) == 42 or backToBackPauses) and not paused: # pause quite often
wp.Type = WaypointType.Pause
paused = True
elif paused:
paused = False
wp.Type = WaypointType.Resume
backToBackPauses = not backToBackPauses
waypointTime += timedelta(0, int(random.random() + 9.5)) # 10ish seconds
lap.Waypoints.append(wp)
if waypointTime > act.EndTime:
wp.Timestamp = act.EndTime
wp.Type = WaypointType.End
elif withLaps and wp.Timestamp < act.EndTime and random.randint(40, 60) == 42:
# occasionally start new laps
lap.EndTime = wp.Timestamp
act.Laps.append(lap)
lap = Lap(startTime=waypointTime)
# Final lap
lap.EndTime = act.EndTime
act.Laps.append(lap)
if act.CountTotalWaypoints() == 0:
raise ValueError("No waypoints populated")
act.CalculateUID()
act.EnsureTZ()
return act示例12: DownloadActivity
def DownloadActivity(self, svcRecord, activity):
if activity.ServiceData["Manual"]: # I should really add a param to DownloadActivity for this value as opposed to constantly doing this
# We've got as much information as we're going to get - we need to copy it into a Lap though.
activity.Laps = [Lap(startTime=activity.StartTime, endTime=activity.EndTime, stats=activity.Stats)]
return activity
activityID = activity.ServiceData["ActivityID"]
streamdata = self._requestWithAuth(lambda session: session.get("https://www.strava.com/api/v3/activities/" + str(activityID) + "/streams/time,altitude,heartrate,cadence,watts,temp,moving,latlng,distance,velocity_smooth"), svcRecord)
if streamdata.status_code == 401:
raise APIException("No authorization to download activity", block=True, user_exception=UserException(UserExceptionType.Authorization, intervention_required=True))
try:
streamdata = streamdata.json()
except:
raise APIException("Stream data returned is not JSON")
if "message" in streamdata and streamdata["message"] == "Record Not Found":
raise APIException("Could not find activity")
ridedata = {}
for stream in streamdata:
ridedata[stream["type"]] = stream["data"]
lap = Lap(stats=activity.Stats, startTime=activity.StartTime, endTime=activity.EndTime) # Strava doesn't support laps, but we need somewhere to put the waypoints.
activity.Laps = [lap]
lap.Waypoints = []
hasHR = "heartrate" in ridedata and len(ridedata["heartrate"]) > 0
hasCadence = "cadence" in ridedata and len(ridedata["cadence"]) > 0
hasTemp = "temp" in ridedata and len(ridedata["temp"]) > 0
hasPower = ("watts" in ridedata and len(ridedata["watts"]) > 0)
hasAltitude = "altitude" in ridedata and len(ridedata["altitude"]) > 0
hasDistance = "distance" in ridedata and len(ridedata["distance"]) > 0
hasVelocity = "velocity_smooth" in ridedata and len(ridedata["velocity_smooth"]) > 0
if "error" in ridedata:
raise APIException("Strava error " + ridedata["error"])
inPause = False
waypointCt = len(ridedata["time"])
for idx in range(0, waypointCt - 1):
waypoint = Waypoint(activity.StartTime + timedelta(0, ridedata["time"][idx]))
if "latlng" in ridedata:
latlng = ridedata["latlng"][idx]
waypoint.Location = Location(latlng[0], latlng[1], None)
if waypoint.Location.Longitude == 0 and waypoint.Location.Latitude == 0:
waypoint.Location.Longitude = None
waypoint.Location.Latitude = None
if hasAltitude:
if not waypoint.Location:
waypoint.Location = Location(None, None, None)
waypoint.Location.Altitude = float(ridedata["altitude"][idx])
# When pausing, Strava sends this format:
# idx = 100 ; time = 1000; moving = true
# idx = 101 ; time = 1001; moving = true => convert to Pause
# idx = 102 ; time = 2001; moving = false => convert to Resume: (2001-1001) seconds pause
# idx = 103 ; time = 2002; moving = true
if idx == 0:
waypoint.Type = WaypointType.Start
elif idx == waypointCt - 2:
waypoint.Type = WaypointType.End
elif idx < waypointCt - 2 and ridedata["moving"][idx+1] and inPause:
waypoint.Type = WaypointType.Resume
inPause = False
elif idx < waypointCt - 2 and not ridedata["moving"][idx+1] and not inPause:
waypoint.Type = WaypointType.Pause
inPause = True
if hasHR:
waypoint.HR = ridedata["heartrate"][idx]
if hasCadence:
waypoint.Cadence = ridedata["cadence"][idx]
if hasTemp:
waypoint.Temp = ridedata["temp"][idx]
if hasPower:
waypoint.Power = ridedata["watts"][idx]
if hasVelocity:
waypoint.Speed = ridedata["velocity_smooth"][idx]
if hasDistance:
waypoint.Distance = ridedata["distance"][idx]
lap.Waypoints.append(waypoint)
return activity