/// <summary>
/// Reinitialize the values.
/// </summary>
private void Clear()
{
// Initialize all the sentences
_prevSA = null;
_prevTS = null;
_prevRA = null;
_prevWI = null;
_prevWS = null;
_prevWE = null;
_prevWD = null;
_prevBI = null;
_prevBS = null;
_prevBE = null;
_prevBD = null;
_prevEns = new DataSet.Ensemble();
_count = 0;
}
/// <summary>
/// Set the data sets for the WI message.
/// </summary>
/// <param name="sentence">Message with the WI data.</param>
private void SetWI(string sentence)
{
_prevWI = new WI(sentence);
// Add DVL DataSet
_prevEns.DvlData.WmXVelocity = _prevWI.X;
_prevEns.DvlData.WmYVelocity = _prevWI.Y;
_prevEns.DvlData.WmZVelocity = _prevWI.Z;
_prevEns.DvlData.WmErrorVelocity = _prevWI.Q;
_prevEns.DvlData.WmInstrumentIsGoodVelocity = _prevWI.IsGood;
// Add Instrument Water Mass DataSet
if (!_prevEns.IsInstrumentWaterMassAvail)
{
_prevEns.InstrumentWaterMassData = new DataSet.InstrumentWaterMassDataSet();
_prevEns.IsInstrumentWaterMassAvail = true;
}
_prevEns.InstrumentWaterMassData.VelocityX = _prevWI.X;
_prevEns.InstrumentWaterMassData.VelocityY = _prevWI.Y;
_prevEns.InstrumentWaterMassData.VelocityZ = _prevWI.Z;
_prevEns.InstrumentWaterMassData.VelocityQ = _prevWI.Q;
}
/// <summary>
/// Set the data sets for the WI message.
/// </summary>
/// <param name="sentence">Message with the WI data.</param>
private void SetWI(string sentence)
{
// Verify byte count
if (sentence.Count(x => x == ',') != WI.NUM_ELEM - 1)
{
return;
}
var wi = new WI(sentence);
if (wi != null)
{
// Add DVL dataset
if (_prevEns.DvlData == null)
{
_prevEns.DvlData = new DataSet.DvlDataSet();
_prevEns.IsDvlDataAvail = true;
}
// Check for bad velocity
// WmXVelocity
if (wi.X == DataSet.Ensemble.BAD_VELOCITY || wi.X == PD0.BAD_VELOCITY)
{
_prevEns.DvlData.WmXVelocity = DataSet.Ensemble.BAD_VELOCITY;
}
else
{
_prevEns.DvlData.WmXVelocity = wi.X * 0.001f;
}
// WmYVelocity
if (wi.Y == DataSet.Ensemble.BAD_VELOCITY || wi.Y == PD0.BAD_VELOCITY)
{
_prevEns.DvlData.WmYVelocity = DataSet.Ensemble.BAD_VELOCITY;
}
else
{
_prevEns.DvlData.WmYVelocity = wi.Y * 0.001f;
}
// WmZVelocity
if (wi.Z == DataSet.Ensemble.BAD_VELOCITY || wi.Z == PD0.BAD_VELOCITY)
{
_prevEns.DvlData.WmZVelocity = DataSet.Ensemble.BAD_VELOCITY;
}
else
{
_prevEns.DvlData.WmZVelocity = wi.Z * 0.001f;
}
// WmErrorVelocity
if (wi.Q == DataSet.Ensemble.BAD_VELOCITY || wi.Q == PD0.BAD_VELOCITY)
{
_prevEns.DvlData.WmErrorVelocity = DataSet.Ensemble.BAD_VELOCITY;
}
else
{
_prevEns.DvlData.WmErrorVelocity = wi.Q * 0.001f;
}
_prevEns.DvlData.WmInstrumentIsGoodVelocity = wi.IsGood;
// Add Instrument Water Mass DataSet
if (!_prevEns.IsInstrumentWaterMassAvail)
{
_prevEns.InstrumentWaterMassData = new DataSet.InstrumentWaterMassDataSet();
_prevEns.IsInstrumentWaterMassAvail = true;
}
_prevEns.InstrumentWaterMassData.VelocityX = _prevEns.DvlData.WmXVelocity;
_prevEns.InstrumentWaterMassData.VelocityY = _prevEns.DvlData.WmYVelocity;
_prevEns.InstrumentWaterMassData.VelocityZ = _prevEns.DvlData.WmZVelocity;
_prevEns.InstrumentWaterMassData.VelocityQ = _prevEns.DvlData.WmErrorVelocity;
}
_prevWI = wi;
}