public static void OnEventMesg(object sender, MesgEventArgs e) { EventValues values = new EventValues(); EventMesg mesg = (EventMesg)e.mesg; try { values._event0 = mesg.GetEvent(); values._eventType = mesg.GetEventType(); values._data = mesg.GetData(); ////Make sure properties with sub properties arent null before trying to create objects based on them if (mesg.GetTimestamp() != null) { uint tc = (uint)mesg.GetTimestamp().GetTimeStamp(); values._timestamp = FitConvert.ToLocalDateTime(tc); } } catch (FitException exception) { Console.WriteLine("\tOnFileIDMesg Error {0}", exception.Message); Console.WriteLine("\t{0}", exception.InnerException); } DataManager.Instance.EventValues.Add(values); }
public static void OnFileIDMesg(object sender, MesgEventArgs e) { FileIdValues values = new FileIdValues(); FileIdMesg mesg = (FileIdMesg)e.mesg; try { values._fileType = mesg.GetType(); values._manufacturer = mesg.GetManufacturer(); values._product = mesg.GetProduct(); values._serialNumber = mesg.GetSerialNumber(); //Make sure properties with sub properties arent null before trying to create objects based on them if (mesg.GetTimeCreated() != null) { uint tc = (uint)mesg.GetFieldValue("TimeCreated"); values._timeCreated = FitConvert.ToLocalDateTime(tc); } } catch (FitException exception) { Console.WriteLine("\tOnFileIDMesg Error {0}", exception.Message); Console.WriteLine("\t{0}", exception.InnerException); } DataManager.Instance.FileIdValues.Add(values); }
public static void OnDeviceInfoMesg(object sender, MesgEventArgs e) { DeviceInfoValues values = new DeviceInfoValues(); DeviceInfoMesg mesg = (DeviceInfoMesg)e.mesg; try { values._deviceIndex = mesg.GetDeviceIndex(); values._deviceType = mesg.GetDeviceType(); values._manufacturer = mesg.GetManufacturer(); values._serialNumber = mesg.GetSerialNumber(); values._product = mesg.GetProduct(); values._softwareVersion = mesg.GetSoftwareVersion(); values._batteryVoltage = mesg.GetBatteryVoltage(); values._batteryStatus = mesg.GetBatteryStatus(); values._descriptor = mesg.GetDescriptorAsString(); values._antDeviceNumber = mesg.GetAntDeviceNumber(); values._sourceType = mesg.GetSourceType(); values._productName = mesg.GetProductNameAsString(); //Make sure properties with sub properties arent null before trying to create objects based on them if (mesg.GetTimestamp() != null) { //values.timestamp = new Dynastream.Fit.DateTime(mesg.GetTimestamp().GetTimeStamp()); uint tc = (uint)mesg.GetTimestamp().GetTimeStamp(); values._timestamp = FitConvert.ToLocalDateTime(tc); } } catch (FitException exception) { Console.WriteLine("\tOnFileIDMesg Error {0}", exception.Message); Console.WriteLine("\t{0}", exception.InnerException); } DataManager.Instance.DeviceInfoValues.Add(values); }
public static void OnActivityMesg(object sender, MesgEventArgs e) { ActivityValues values = new ActivityValues(); ActivityMesg mesg = (ActivityMesg)e.mesg; try { values._totalTimerTime = mesg.GetTotalTimerTime(); values._numSessions = mesg.GetNumSessions(); values._type = mesg.GetType(); values._actiEvent = mesg.GetEvent(); values._eventType = mesg.GetEventType(); uint?localTimeStamp = mesg.GetLocalTimestamp(); if (localTimeStamp != null) { values._localTimestamp = FitConvert.ToDateTime(((uint)localTimeStamp)); } //Make sure properties with sub properties arent null before trying to create objects based on them if (mesg.GetTimestamp() != null) { //values.timestamp = new Dynastream.Fit.DateTime(mesg.GetTimestamp().GetTimeStamp()); uint tc = (uint)mesg.GetTimestamp().GetTimeStamp(); values._timestamp = FitConvert.ToLocalDateTime(mesg.GetTimestamp().GetTimeStamp()); } } catch (FitException exception) { Console.WriteLine("\tOnFileIDMesg Error {0}", exception.Message); Console.WriteLine("\t{0}", exception.InnerException); } DataManager.Instance.ActivityValues.Add(values); }
public void SetValue(byte fieldNum, int index, object value) { Type objType = value.GetType(); switch (fieldNum) { case 0: _positionLat = FitConvert.ToDegrees(Convert.ToInt32(value)); break; //Int32 positionLat case 1: _positionLong = FitConvert.ToDegrees(Convert.ToInt32(value)); break; //Int32 positionLong case 2: _value2 = Convert.ToUInt16(value); break; //UInt16, Altitude case 3: _value3 = Convert.ToByte(value); break; //Byte, Heartrate? case 5: _value5 = Convert.ToUInt32(value); break; //UInt32, Distance? case 6: _value6 = Convert.ToUInt16(value); break; //UInt16, Speed? case 9: _value9 = Convert.ToInt16(value); break; //Int16, Grade? case 13: _value13 = Convert.ToSByte(value); break; //SByte, Temperature? case 31: _value31 = Convert.ToByte(value); break; //Byte, GpsAccuracy? case 253: _timestamp = FitConvert.ToLocalDateTime((uint)value); //UInt32 break; //UInt32 default: break; } }
public void SetValue(byte fieldNum, object value) { //Type objType = value.GetType(); switch (fieldNum) { case RecordMesg.FieldDefNum.PositionLat: positionLat = FitConvert.ToDegrees((int)value); //Int32 break; case RecordMesg.FieldDefNum.PositionLong: positionLong = FitConvert.ToDegrees((int)value); //Int32 break; case RecordMesg.FieldDefNum.Altitude: altitude = Convert.ToSingle(value); //Single break; case RecordMesg.FieldDefNum.HeartRate: heartRate = Convert.ToByte(value); //Byte break; case RecordMesg.FieldDefNum.Cadence: cadence = Convert.ToByte(value); //Byte break; case RecordMesg.FieldDefNum.Distance: distance = FitConvert.ToKm((float)value); //Single break; case RecordMesg.FieldDefNum.Speed: speed = FitConvert.ToKmPerHour((float)value); //Single break; case RecordMesg.FieldDefNum.Power: power = Convert.ToUInt16(value); //UInt16 break; case RecordMesg.FieldDefNum.Grade: grade = Convert.ToSingle(value); //Single break; case RecordMesg.FieldDefNum.Temperature: temperature = Convert.ToSByte(value); break; case RecordMesg.FieldDefNum.LeftRightBalance: leftRightBalance = Convert.ToByte(value); //Byte break; case RecordMesg.FieldDefNum.LeftTorqueEffectiveness: leftTorqueEffectiveness = Convert.ToSingle(value); //Single break; case RecordMesg.FieldDefNum.RightTorqueEffectiveness: rightTorqueEffectiveness = Convert.ToSingle(value); //Single break; case RecordMesg.FieldDefNum.LeftPedalSmoothness: leftPedalSmoothness = Convert.ToSingle(value); //Single break; case RecordMesg.FieldDefNum.RightPedalSmoothness: rightPedalSmoothness = Convert.ToSingle(value); //Single break; case RecordMesg.FieldDefNum.Timestamp: timestamp = FitConvert.ToLocalDateTime((uint)value); //UInt32 break; case RecordMesg.FieldDefNum.GpsAccuracy: case RecordMesg.FieldDefNum.EnhancedSpeed: case RecordMesg.FieldDefNum.EnhancedAltitude: case RecordMesg.FieldDefNum.BatterySoc: break; default: break; } }
public void SetValue(byte fieldNum, int index, object value) { Type objType = value.GetType(); switch (fieldNum) { case SessionMesg.FieldDefNum.Event: break; case SessionMesg.FieldDefNum.EventType: break; case SessionMesg.FieldDefNum.StartTime: startTime = FitConvert.ToLocalDateTime((uint)value); //UInt32 break; case SessionMesg.FieldDefNum.StartPositionLat: break; case SessionMesg.FieldDefNum.StartPositionLong: break; case SessionMesg.FieldDefNum.Sport: sport = (Sport)value; break; case SessionMesg.FieldDefNum.SubSport: break; case SessionMesg.FieldDefNum.TotalElapsedTime: totalElapsedTime = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.TotalTimerTime: totalTimerTime = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.TotalDistance: totalDistance = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.TotalCalories: totalCalories = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.AvgSpeed: avgSpeed = FitConvert.ToKmPerHour(Convert.ToSingle(value)); //Single break; case SessionMesg.FieldDefNum.MaxSpeed: maxSpeed = FitConvert.ToKmPerHour(Convert.ToSingle(value)); //Single break; case SessionMesg.FieldDefNum.AvgHeartRate: avgHeartRate = Convert.ToByte(value); //Byte break; case SessionMesg.FieldDefNum.MaxHeartRate: maxHeartRate = Convert.ToByte(value); //Byte break; case SessionMesg.FieldDefNum.AvgCadence: avgCadence = Convert.ToByte(value); //Byte break; case SessionMesg.FieldDefNum.MaxCadence: maxCadence = Convert.ToByte(value); //Byte break; case SessionMesg.FieldDefNum.AvgPower: avgPower = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.MaxPower: maxPower = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.TotalAscent: totalAscent = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.TotalDescent: totalDescent = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.NumLaps: numLaps = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.NormalizedPower: normalizedPower = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.TrainingStressScore: trainingStressScore = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.IntensityFactor: intensityFactor = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.LeftRightBalance: break; case SessionMesg.FieldDefNum.ThresholdPower: thresholdPower = Convert.ToUInt16(value); //UInt16 break; case SessionMesg.FieldDefNum.TotalWork: totalWork = Convert.ToUInt32(value); //UInt32 break; case SessionMesg.FieldDefNum.AvgAltitude: avgAltitude = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.MaxAltitude: maxAltitude = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.AvgGrade: avgGrade = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.MaxPosGrade: maxPosGrade = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.MaxNegGrade: maxNegGrade = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.AvgTemperature: avgTemperature = Convert.ToSByte(value); //SByte break; case SessionMesg.FieldDefNum.MaxTemperature: maxTemperature = Convert.ToSByte(value); //SByte break; case SessionMesg.FieldDefNum.MinHeartRate: minHeartRate = Convert.ToByte(value); //Byte break; case SessionMesg.FieldDefNum.TimeInHrZone: float val = Convert.ToSingle(value); //Single switch (index) { case 0: timeInHrZone0 = val; break; case 1: timeInHrZone1 = val; break; case 2: timeInHrZone2 = val; break; case 3: timeInHrZone3 = val; break; case 4: timeInHrZone4 = val; break; default: break; } break; case SessionMesg.FieldDefNum.TimeInPowerZone: val = Convert.ToSingle(value); //Single switch (index) { case 0: timeInPowerZone0 = val; break; case 1: timeInPowerZone1 = val; break; case 2: timeInPowerZone2 = val; break; case 3: timeInPowerZone3 = val; break; case 4: timeInPowerZone4 = val; break; case 5: timeInPowerZone5 = val; break; default: break; } break; case SessionMesg.FieldDefNum.MinAltitude: minAltitude = Convert.ToSingle(value); //Single break; case SessionMesg.FieldDefNum.Timestamp: timestamp = FitConvert.ToLocalDateTime((uint)value); //UInt32 break; case SessionMesg.FieldDefNum.EnhancedAvgSpeed: case SessionMesg.FieldDefNum.EnhancedMaxSpeed: case SessionMesg.FieldDefNum.EnhancedAvgAltitude: case SessionMesg.FieldDefNum.EnhancedMinAltitude: case SessionMesg.FieldDefNum.EnhancedMaxAltitude: break; default: break; } }