public void CompareWith(BRecord lastRecord)
{
Distance = EarthCalculations.DistanceInMeters(lastRecord.Latitude, lastRecord.Longitude, Latitude, Longitude);
TimeDifference = Convert.ToInt32(Time.Subtract(lastRecord.Time).TotalSeconds);
Speed = (float)Distance / (float)TimeDifference;
AltitudeDifference = PressureAltitude - lastRecord.PressureAltitude;
Vario = Convert.ToSingle(AltitudeDifference / TimeDifference);
}
private void ReadContents()
{
using (StringReader sr = new StringReader(Contents))
{
while (sr.Peek() >= 0)
{
string l = sr.ReadLine();
switch (l.Substring(0, 1))
{
case "A":
ARecord = new ARecord(l);
break;
case "B":
BRecord b = new BRecord(l, FlightDate, IRecord);
if (!BRecords.ContainsKey(b.Time))
{
BRecords.Add(b.Time, b);
}
break;
case "C":
break;
case "D":
break;
case "E":
ERecord e = new ERecord(l, FlightDate);
ERecords.Add(e);
if (e.Code == "STA")
{
DetectedStart = e.Time;
}
break;
case "F":
break;
case "G":
GRecord = GRecord + l.Substring(1);
break;
case "H":
HRecord h = new HRecord(l);
HRecords.Add(h.Code, h);
if (HRecords.ContainsKey("DTE"))
{
FlightDate = new DateTime(2000 + int.Parse(HRecords["DTE"].Value.Substring(4, 2)), int.Parse(HRecords["DTE"].Value.Substring(2, 2)), int.Parse(HRecords["DTE"].Value.Substring(0, 2)));
}
break;
case "I":
IRecord = new ExtensionRecord(l);
break;
case "J":
JRecord = new ExtensionRecord(l);
break;
}
}
}
if (DetectedStart == null && BRecords.Count > 0)
{
DetectedStart = BRecords.First().Key;
}
// Process other H records
if (HRecords.ContainsKey("PLT"))
{
PilotName = HRecords["PLT"].Value.CutOffUntilCharacter(":").Trim();
}
if (HRecords.ContainsKey("GTY"))
{
GliderType = HRecords["GTY"].Value.CutOffUntilCharacter(":").Trim();
}
if (HRecords.ContainsKey("GID"))
{
GliderRegistration = HRecords["GID"].Value.CutOffUntilCharacter(":").Trim();
}
if (HRecords.ContainsKey("CCL"))
{
GliderClass = HRecords["CCL"].Value.CutOffUntilCharacter(":").Trim();
}
// Process B records
BRecord currentRecord = null;
foreach (DateTime k in BRecords.Keys)
{
if (k > DetectedStart & currentRecord != null)
{
if (Takeoff == null)
{
Takeoff = new Common.Point(currentRecord);
}
BRecords[k].CompareWith(currentRecord);
if (BRecords[k].GnssAltitude > MaxAltitude)
{
MaxAltitude = BRecords[k].GnssAltitude;
}
if (BRecords[k].GnssAltitude < MinAltitude)
{
MinAltitude = BRecords[k].GnssAltitude;
}
if (BRecords[k].Vario > MaxVario)
{
MaxVario = BRecords[k].Vario;
}
if (BRecords[k].Vario < MinVario)
{
MinVario = BRecords[k].Vario;
}
if (BRecords[k].Speed > MaxSpeed)
{
MaxSpeed = BRecords[k].Speed;
}
Distance = Distance + BRecords[k].Distance;
}
currentRecord = BRecords[k];
}
DetectedLandingTime = currentRecord.Time;
FlightTime = DetectedLandingTime.Subtract(DetectedStart);
Landing = new Common.Point(currentRecord);
AverageSpeed = Convert.ToSingle((float)Distance / (float)FlightTime.TotalSeconds);
}
public void CompareWith(BRecord lastRecord)
{
Distance = EarthCalculations.DistanceInMeters(lastRecord.Latitude, lastRecord.Longitude, Latitude, Longitude);
TimeDifference = Convert.ToInt32(Time.Subtract(lastRecord.Time).TotalSeconds);
Speed = (float)Distance / (float)TimeDifference;
AltitudeDifference = PressureAltitude - lastRecord.PressureAltitude;
Vario = Convert.ToSingle(AltitudeDifference / TimeDifference);
}
private void ReadContents()
{
using (StringReader sr = new StringReader(Contents))
{
while (sr.Peek() >= 0)
{
string l = sr.ReadLine();
switch (l.Substring(0, 1))
{
case "A":
ARecord = new ARecord(l);
break;
case "B":
BRecord b = new BRecord(l, FlightDate, IRecord);
if (!BRecords.ContainsKey(b.Time))
{
BRecords.Add(b.Time, b);
}
break;
case "C":
break;
case "D":
break;
case "E":
ERecord e = new ERecord(l, FlightDate);
ERecords.Add(e);
if (e.Code == "STA")
{
DetectedStart = e.Time;
}
break;
case "F":
break;
case "G":
GRecord = GRecord + l.Substring(1);
break;
case "H":
HRecord h = new HRecord(l);
HRecords.Add(h.Code, h);
if (HRecords.ContainsKey("DTE"))
{
FlightDate = new DateTime(2000 + int.Parse(HRecords["DTE"].Value.Substring(4, 2)), int.Parse(HRecords["DTE"].Value.Substring(2, 2)), int.Parse(HRecords["DTE"].Value.Substring(0, 2)));
}
break;
case "I":
IRecord = new ExtensionRecord(l);
break;
case "J":
JRecord = new ExtensionRecord(l);
break;
}
}
}
if (DetectedStart == null && BRecords.Count > 0)
{
DetectedStart = BRecords.First().Key;
}
// Process other H records
if (HRecords.ContainsKey("PLT"))
{
PilotName = HRecords["PLT"].Value.CutOffUntilCharacter(":").Trim();
}
if (HRecords.ContainsKey("GTY"))
{
GliderType = HRecords["GTY"].Value.CutOffUntilCharacter(":").Trim();
}
if (HRecords.ContainsKey("GID"))
{
GliderRegistration = HRecords["GID"].Value.CutOffUntilCharacter(":").Trim();
}
if (HRecords.ContainsKey("CCL"))
{
GliderClass = HRecords["CCL"].Value.CutOffUntilCharacter(":").Trim();
}
// Process B records
BRecord currentRecord = null;
foreach (DateTime k in BRecords.Keys)
{
if (k > DetectedStart & currentRecord != null)
{
if (Takeoff == null)
{
Takeoff = new Common.Point(currentRecord);
}
BRecords[k].CompareWith(currentRecord);
if (BRecords[k].GnssAltitude > MaxAltitude)
{
MaxAltitude = BRecords[k].GnssAltitude;
}
if (BRecords[k].GnssAltitude < MinAltitude)
{
MinAltitude = BRecords[k].GnssAltitude;
}
if (BRecords[k].Vario > MaxVario)
{
MaxVario = BRecords[k].Vario;
}
if (BRecords[k].Vario < MinVario)
{
MinVario = BRecords[k].Vario;
}
if (BRecords[k].Speed > MaxSpeed)
{
MaxSpeed = BRecords[k].Speed;
}
Distance = Distance + BRecords[k].Distance;
}
currentRecord = BRecords[k];
}
DetectedLandingTime = currentRecord.Time;
FlightTime = DetectedLandingTime.Subtract(DetectedStart);
Landing = new Common.Point(currentRecord);
AverageSpeed = Convert.ToSingle((float)Distance / (float)FlightTime.TotalSeconds);
}