/// <summary> /// Add Water Mass Earth data set. /// </summary> /// <param name="ensemble">Ensemble to add the dataset.</param> /// <param name="numBeams">Number of beam sin the dataset.</param> public static void AddWaterMassEarth(ref DataSet.Ensemble ensemble, int numBeams = DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM) { ensemble.AddEarthWaterMassData(DataSet.Ensemble.DATATYPE_FLOAT, DataSet.EarthWaterMassDataSet.NUM_DATA_ELEMENTS, // Num elements (Bins) DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, // Num Beams DataSet.Ensemble.DEFAULT_IMAG, // Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Name length DataSet.Ensemble.WaterMassEarthID, // Name (Dataset ID) 0.0f, // Water Mass East Velocity in m/s. 0.0f, // Water Mass North Velocity in m/s. 0.0f, // Water Mass Vertical Velocity in m/s. 0.0f); // Depth layer of the Water Mass measurement in meters. }
public void TestConstructorData() { // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); adcpData.AddEarthWaterMassData(DataSet.Ensemble.DATATYPE_FLOAT, DataSet.EarthWaterMassDataSet.NUM_DATA_ELEMENTS, DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, DataSet.Ensemble.DEFAULT_IMAG, DataSet.Ensemble.DEFAULT_NAME_LENGTH, DataSet.Ensemble.WaterMassInstrumentID, 0.3f, -0.2f, 0.4f, 0.1f); Assert.IsTrue(adcpData.IsEarthWaterMassAvail, "Earth Water Mass not added to dataset"); Assert.AreEqual(adcpData.EarthWaterMassData.VelocityEast, (new DotSpatial.Positioning.Speed(300, DotSpatial.Positioning.SpeedUnit.MillimetersPerSecond)).ToMetersPerSecond().Value, 0.00001, "Earth Water Mass East not properly set."); Assert.AreEqual(adcpData.EarthWaterMassData.VelocityNorth, (new DotSpatial.Positioning.Speed(-200, DotSpatial.Positioning.SpeedUnit.MillimetersPerSecond)).ToMetersPerSecond().Value, 0.00001, "Earth Water Mass North not properly set."); Assert.AreEqual(adcpData.EarthWaterMassData.VelocityVertical, (new DotSpatial.Positioning.Speed(400, DotSpatial.Positioning.SpeedUnit.MillimetersPerSecond)).ToMetersPerSecond().Value, 0.00001, "Earth Water Mass Vertical not properly set."); Assert.AreEqual(adcpData.EarthWaterMassData.WaterMassDepthLayer, (new DotSpatial.Positioning.Distance(100, DotSpatial.Positioning.DistanceUnit.Millimeters)).ToMeters().Value, 0.00001, "Earth Water Mass Depth Layer not properly set."); }
/// <summary> /// Create a dataset. Set the bottom track Earth velocity and water mass velocity. /// </summary> /// <param name="sentence">Sentence containing DVL data.</param> /// <returns>Dataset with values set.</returns> private DataSet.Ensemble CreateDataSet(Prti02Sentence sentence) { DataSet.Ensemble adcpData = new DataSet.Ensemble(); // Add the Ensemble number to EnsembleDataSet adcpData.AddEnsembleData(sentence); // Add the Temp to AncillaryDataSet adcpData.AddAncillaryData(sentence); // Add Bottom Track data adcpData.AddBottomTrackData(sentence); // Add Water Mass data adcpData.AddEarthWaterMassData(sentence); return(adcpData); }
public void TestConstructorPrti02Sentence() { string nmea = "$PRTI02,379550,1,1468,-99999,-99999,-99999,0,,,,,0004*0A"; // Create Sentence Prti02Sentence sent = new Prti02Sentence(nmea); Assert.AreEqual(true, sent.IsValid, "NMEA sentence incorrect"); // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); adcpData.AddEarthWaterMassData(sent); Assert.IsTrue(adcpData.IsEarthWaterMassAvail, "Earth Water Mass not added to dataset"); Assert.AreEqual(adcpData.EarthWaterMassData.VelocityEast, DataSet.Ensemble.EMPTY_VELOCITY, "Earth Water Mass East not properly set."); Assert.AreEqual(adcpData.EarthWaterMassData.VelocityNorth, DataSet.Ensemble.EMPTY_VELOCITY, "Earth Water Mass North not properly set."); Assert.AreEqual(adcpData.EarthWaterMassData.VelocityVertical, DataSet.Ensemble.EMPTY_VELOCITY, "Earth Water Mass Vertical not properly set."); Assert.AreEqual(adcpData.EarthWaterMassData.WaterMassDepthLayer, 0, "Earth Water Mass Depth Layer not properly set."); }
public void TestConstructorPrti02SentenceData() { string nmea = "$PRTI02,379550,1,1468,-99999,-99999,-99999,0,300,-200,400,100,0004*23"; // Create Sentence Prti02Sentence sent = new Prti02Sentence(nmea); Assert.AreEqual(true, sent.IsValid, "NMEA sentence incorrect"); // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); adcpData.AddEarthWaterMassData(sent); Assert.IsTrue(adcpData.IsEarthWaterMassAvail, "Earth Water Mass not added to dataset"); Assert.AreEqual((new DotSpatial.Positioning.Speed(300, DotSpatial.Positioning.SpeedUnit.MillimetersPerSecond)).ToMetersPerSecond().Value, adcpData.EarthWaterMassData.VelocityEast, 0.00001, "Earth Water Mass East not properly set."); Assert.AreEqual((new DotSpatial.Positioning.Speed(-200, DotSpatial.Positioning.SpeedUnit.MillimetersPerSecond)).ToMetersPerSecond().Value, adcpData.EarthWaterMassData.VelocityNorth, 0.00001, "Earth Water Mass North not properly set."); Assert.AreEqual((new DotSpatial.Positioning.Speed(400, DotSpatial.Positioning.SpeedUnit.MillimetersPerSecond)).ToMetersPerSecond().Value, adcpData.EarthWaterMassData.VelocityVertical, 0.00001, "Earth Water Mass Vertical not properly set."); Assert.AreEqual((new DotSpatial.Positioning.Distance(100, DotSpatial.Positioning.DistanceUnit.Millimeters)).ToMeters().Value, adcpData.EarthWaterMassData.WaterMassDepthLayer, 0.00001, "Earth Water Mass Depth Layer not properly set."); }
/// <summary> /// Create a dataset. Set the bottom track Earth velocity and water mass velocity. /// </summary> /// <param name="sentence">Sentence containing DVL data.</param> /// <returns>Dataset with values set.</returns> private DataSet.Ensemble CreateDataSet(Prti02Sentence sentence) { DataSet.Ensemble adcpData = new DataSet.Ensemble(); // Add the Ensemble number to EnsembleDataSet adcpData.AddEnsembleData(sentence); // Add the Temp to AncillaryDataSet adcpData.AddAncillaryData(sentence); // Add Bottom Track data adcpData.AddBottomTrackData(sentence); // Add Water Mass data adcpData.AddEarthWaterMassData(sentence); return adcpData; }