/// <summary>
/// Read the JSON object and convert to the object. This will allow the serializer to
/// automatically convert the object. No special instructions need to be done and all
/// the properties found in the JSON string need to be used.
///
/// DataSet.ShipWaterMassDataSet decodedEns = Newtonsoft.Json.JsonConvert.DeserializeObject{DataSet.ShipWaterMassDataSet}(encodedEns)
///
/// </summary>
/// <param name="reader">NOT USED. JSON reader.</param>
/// <param name="objectType">NOT USED> Type of object.</param>
/// <param name="existingValue">NOT USED.</param>
/// <param name="serializer">Serialize the object.</param>
/// <returns>Serialized object.</returns>
public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
{
if (reader.TokenType != JsonToken.Null)
{
// Load the object
JObject jsonObject = JObject.Load(reader);
// Decode the data
int NumElements = (int)jsonObject[DataSet.BaseDataSet.JSON_STR_NUMELEMENTS];
int ElementsMultiplier = (int)jsonObject[DataSet.BaseDataSet.JSON_STR_ELEMENTSMULTIPLIER];
// Create the object
var data = new ShipWaterMassDataSet(DataSet.Ensemble.DATATYPE_FLOAT, NumElements, ElementsMultiplier, DataSet.Ensemble.DEFAULT_IMAG, DataSet.Ensemble.DEFAULT_NAME_LENGTH, DataSet.Ensemble.WaterMassShipID);
// Velocity Transverse
data.VelocityTransverse = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VEL_TRANS];
// Velocity Longitudinal
data.VelocityLongitudinal = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VEL_LONG];
// Velocity Normal
data.VelocityNormal = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VEL_NORM];
// Water Mass Depth Layer
data.WaterMassDepthLayer = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_WATERMASSDEPTHLAYER];
return(data);
}
return(null);
}
/// <summary>
/// Read the JSON object and convert to the object. This will allow the serializer to
/// automatically convert the object. No special instructions need to be done and all
/// the properties found in the JSON string need to be used.
///
/// DataSet.ShipWaterMassDataSet decodedEns = Newtonsoft.Json.JsonConvert.DeserializeObject{DataSet.ShipWaterMassDataSet}(encodedEns)
///
/// </summary>
/// <param name="reader">NOT USED. JSON reader.</param>
/// <param name="objectType">NOT USED> Type of object.</param>
/// <param name="existingValue">NOT USED.</param>
/// <param name="serializer">Serialize the object.</param>
/// <returns>Serialized object.</returns>
public override object ReadJson(JsonReader reader, Type objectType, object existingValue, JsonSerializer serializer)
{
if (reader.TokenType != JsonToken.Null)
{
// Load the object
JObject jsonObject = JObject.Load(reader);
// Decode the data
int NumElements = (int)jsonObject[DataSet.BaseDataSet.JSON_STR_NUMELEMENTS];
int ElementsMultiplier = (int)jsonObject[DataSet.BaseDataSet.JSON_STR_ELEMENTSMULTIPLIER];
// Create the object
var data = new ShipWaterMassDataSet(DataSet.Ensemble.DATATYPE_FLOAT, NumElements, ElementsMultiplier, DataSet.Ensemble.DEFAULT_IMAG, DataSet.Ensemble.DEFAULT_NAME_LENGTH, DataSet.Ensemble.WaterMassShipID);
// Velocity Transverse
data.VelocityTransverse = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VEL_TRANS];
// Velocity Longitudinal
data.VelocityLongitudinal = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VEL_LONG];
// Velocity Normal
data.VelocityNormal = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VEL_NORM];
// Velocity Error
data.VelocityQ = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_VELQ];
// Water Mass Depth Layer
data.WaterMassDepthLayer = (float)jsonObject[DataSet.BaseDataSet.JSON_STR_WATERMASSDEPTHLAYER];
// Water Mass Depth Layer Far
data.BtRefLayerFar = (ushort)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_LAYER_FAR];
// Water Mass Depth Layer Min
data.BtRefLayerMin = (ushort)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_LAYER_MIN];
// Water Mass Depth Layer Near
data.BtRefLayerNear = (ushort)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_LAYER_NEAR];
// Water Mass Correlation Beam 0
data.BtRefLayerCorrBeam0 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_CORR_0];
// Water Mass Correlation Beam 1
data.BtRefLayerCorrBeam1 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_CORR_1];
// Water Mass Correlation Beam 2
data.BtRefLayerCorrBeam2 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_CORR_2];
// Water Mass Correlation Beam 3
data.BtRefLayerCorrBeam3 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_CORR_3];
// Water Mass Percent Good Beam 0
data.BtRefLayerPercentGoodBeam0 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_PG_0];
// Water Mass Percent Good Beam 1
data.BtRefLayerPercentGoodBeam1 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_PG_1];
// Water Mass Percent Good Beam 2
data.BtRefLayerPercentGoodBeam2 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_PG_2];
// Water Mass Percent Good Beam 3
data.BtRefLayerPercentGoodBeam3 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_PG_3];
// Water Mass Echo Intensity Beam 0
data.BtRefLayerEchoIntensityBeam0 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_ECHO_0];
// Water Mass Echo Intensity Beam 1
data.BtRefLayerEchoIntensityBeam1 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_ECHO_1];
// Water Mass Echo Intensity Beam 2
data.BtRefLayerEchoIntensityBeam2 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_ECHO_2];
// Water Mass Echo Intensity Beam 3
data.BtRefLayerEchoIntensityBeam3 = (byte)jsonObject[DataSet.BaseDataSet.JSON_STR_WM_ECHO_3];
return(data);
}
return(null);
}