/// <summary> /// Add a blank Beam velocity data set to /// the given ensemble. This will use the number /// of bins and beams given to create the Beam /// Velocity array. The array will be empty. /// </summary> /// <param name="ensemble">Ensemble to add the dataset.</param> /// <param name="numBins">Number of bins.</param> /// <param name="numBeams">Number of beams.</param> public static void AddBeamVelocity(ref DataSet.Ensemble ensemble, int numBins, int numBeams = DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM) { // Check for null if (ensemble == null) { return; } // Add a blank Beam Velocity Data set ensemble.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) numBins, // Number of bins numBeams, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID); // Dataset ID }
public void TestEmptyConstructor() { // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); // Add Sentence to data set adcpData.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) 30, // Number of bins 4, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID); // Dataset ID Assert.IsTrue(adcpData.IsBeamVelocityAvail, "IsBeamVelocityAvail is incorrect."); Assert.AreEqual(DataSet.Ensemble.DATATYPE_FLOAT, adcpData.BeamVelocityData.ValueType, "DataType is incorrect."); Assert.AreEqual(30, adcpData.BeamVelocityData.NumElements, "Number of Elements is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, adcpData.BeamVelocityData.ElementsMultiplier, "Element Multiplies are incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_IMAG, adcpData.BeamVelocityData.Imag, "Imag is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NAME_LENGTH, adcpData.BeamVelocityData.NameLength, "Name length is incorrect."); Assert.AreEqual(DataSet.Ensemble.BeamVelocityID, adcpData.BeamVelocityData.Name, "Name is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(0), 30, "Beam Velocity Array Dimension 1 is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(1), DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, "Beam Velocity Array Dimension 2 is incorrect."); }
public void TestEncodeDecode() { // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); // Add Sentence to data set adcpData.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) 30, // Number of bins 4, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID); // Dataset ID Assert.IsTrue(adcpData.IsBeamVelocityAvail, "IsBeamVelocityAvail is incorrect."); Assert.AreEqual(DataSet.Ensemble.DATATYPE_FLOAT, adcpData.BeamVelocityData.ValueType, "DataType is incorrect."); Assert.AreEqual(30, adcpData.BeamVelocityData.NumElements, "Number of Elements is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, adcpData.BeamVelocityData.ElementsMultiplier, "Element Multiplies are incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_IMAG, adcpData.BeamVelocityData.Imag, "Imag is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NAME_LENGTH, adcpData.BeamVelocityData.NameLength, "Name length is incorrect."); Assert.AreEqual(DataSet.Ensemble.BeamVelocityID, adcpData.BeamVelocityData.Name, "Name is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(0), 30, "Beam Velocity Array Dimension 1 is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(1), DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, "Beam Velocity Array Dimension 2 is incorrect."); // Modify the array adcpData.BeamVelocityData.BeamVelocityData[0, 0] = 2.3f; adcpData.BeamVelocityData.BeamVelocityData[0, 1] = 3.4f; adcpData.BeamVelocityData.BeamVelocityData[0, 2] = 4.5f; adcpData.BeamVelocityData.BeamVelocityData[0, 3] = 5.6f; adcpData.BeamVelocityData.BeamVelocityData[1, 0] = 6.7f; adcpData.BeamVelocityData.BeamVelocityData[1, 1] = 7.8f; adcpData.BeamVelocityData.BeamVelocityData[1, 2] = 8.9f; adcpData.BeamVelocityData.BeamVelocityData[1, 3] = 9.10f; adcpData.BeamVelocityData.BeamVelocityData[2, 0] = 10.11f; adcpData.BeamVelocityData.BeamVelocityData[2, 1] = 11.12f; adcpData.BeamVelocityData.BeamVelocityData[2, 2] = 12.13f; // Encode the data byte[] encode = adcpData.BeamVelocityData.Encode(); // Create dataset DataSet.Ensemble ens1 = new DataSet.Ensemble(); // Add Sentence to data set ens1.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) 30, // Number of bins DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID, // Dataset ID encode); // Encoded data Assert.IsTrue(ens1.IsBeamVelocityAvail, "IsBeamVelocityAvail is incorrect."); Assert.AreEqual(DataSet.Ensemble.DATATYPE_FLOAT, ens1.BeamVelocityData.ValueType, "DataType is incorrect."); Assert.AreEqual(30, ens1.BeamVelocityData.NumElements, "Number of Elements is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, ens1.BeamVelocityData.ElementsMultiplier, "Element Multiplies are incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_IMAG, ens1.BeamVelocityData.Imag, "Imag is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NAME_LENGTH, ens1.BeamVelocityData.NameLength, "Name length is incorrect."); Assert.AreEqual(DataSet.Ensemble.BeamVelocityID, ens1.BeamVelocityData.Name, "Name is incorrect."); Assert.AreEqual(ens1.BeamVelocityData.BeamVelocityData.GetLength(0), 30, "Beam Velocity Array Dimension 1 is incorrect."); Assert.AreEqual(ens1.BeamVelocityData.BeamVelocityData.GetLength(1), DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, "Beam Velocity Array Dimension 2 is incorrect."); Assert.AreEqual(2.3f, ens1.BeamVelocityData.BeamVelocityData[0, 0], "0,0 Data is incorrect."); Assert.AreEqual(3.4f, ens1.BeamVelocityData.BeamVelocityData[0, 1], "0,1 Data is incorrect."); Assert.AreEqual(4.5f, ens1.BeamVelocityData.BeamVelocityData[0, 2], "0,2 Data is incorrect."); Assert.AreEqual(5.6f, ens1.BeamVelocityData.BeamVelocityData[0, 3], "0,3 Data is incorrect."); Assert.AreEqual(6.7f, ens1.BeamVelocityData.BeamVelocityData[1, 0], "1,0 Data is incorrect."); Assert.AreEqual(7.8f, ens1.BeamVelocityData.BeamVelocityData[1, 1], "1,1 Data is incorrect."); Assert.AreEqual(8.9f, ens1.BeamVelocityData.BeamVelocityData[1, 2], "1,2 Data is incorrect."); Assert.AreEqual(9.10f, ens1.BeamVelocityData.BeamVelocityData[1, 3], "1,3 Data is incorrect."); Assert.AreEqual(10.11f, ens1.BeamVelocityData.BeamVelocityData[2, 0], "2,0 Data is incorrect."); Assert.AreEqual(11.12f, ens1.BeamVelocityData.BeamVelocityData[2, 1], "2,1 Data is incorrect."); Assert.AreEqual(12.13f, ens1.BeamVelocityData.BeamVelocityData[2, 2], "2,2 Data is incorrect."); }
public void TestEmptyConstructor() { // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); // Add Sentence to data set adcpData.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) 30, // Number of bins 4, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID); // Dataset ID Assert.IsTrue(adcpData.IsBeamVelocityAvail, "IsBeamVelocityAvail is incorrect."); Assert.AreEqual(DataSet.Ensemble.DATATYPE_FLOAT, adcpData.BeamVelocityData.ValueType, "DataType is incorrect."); Assert.AreEqual(30, adcpData.BeamVelocityData.NumElements, "Number of Elements is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, adcpData.BeamVelocityData.ElementsMultiplier, "Element Multiplies are incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_IMAG, adcpData.BeamVelocityData.Imag, "Imag is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NAME_LENGTH, adcpData.BeamVelocityData.NameLength, "Name length is incorrect."); Assert.AreEqual(DataSet.Ensemble.BeamVelocityID, adcpData.BeamVelocityData.Name, "Name is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(0), 30, "Beam Velocity Array Dimension 1 is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(1), DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, "Beam Velocity Array Dimension 2 is incorrect."); }
public void TestEncodeDecode() { // Create dataset DataSet.Ensemble adcpData = new DataSet.Ensemble(); // Add Sentence to data set adcpData.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) 30, // Number of bins 4, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID); // Dataset ID Assert.IsTrue(adcpData.IsBeamVelocityAvail, "IsBeamVelocityAvail is incorrect."); Assert.AreEqual(DataSet.Ensemble.DATATYPE_FLOAT, adcpData.BeamVelocityData.ValueType, "DataType is incorrect."); Assert.AreEqual(30, adcpData.BeamVelocityData.NumElements, "Number of Elements is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, adcpData.BeamVelocityData.ElementsMultiplier, "Element Multiplies are incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_IMAG, adcpData.BeamVelocityData.Imag, "Imag is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NAME_LENGTH, adcpData.BeamVelocityData.NameLength, "Name length is incorrect."); Assert.AreEqual(DataSet.Ensemble.BeamVelocityID, adcpData.BeamVelocityData.Name, "Name is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(0), 30, "Beam Velocity Array Dimension 1 is incorrect."); Assert.AreEqual(adcpData.BeamVelocityData.BeamVelocityData.GetLength(1), DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, "Beam Velocity Array Dimension 2 is incorrect."); // Modify the array adcpData.BeamVelocityData.BeamVelocityData[0, 0] = 2.3f; adcpData.BeamVelocityData.BeamVelocityData[0, 1] = 3.4f; adcpData.BeamVelocityData.BeamVelocityData[0, 2] = 4.5f; adcpData.BeamVelocityData.BeamVelocityData[0, 3] = 5.6f; adcpData.BeamVelocityData.BeamVelocityData[1, 0] = 6.7f; adcpData.BeamVelocityData.BeamVelocityData[1, 1] = 7.8f; adcpData.BeamVelocityData.BeamVelocityData[1, 2] = 8.9f; adcpData.BeamVelocityData.BeamVelocityData[1, 3] = 9.10f; adcpData.BeamVelocityData.BeamVelocityData[2, 0] = 10.11f; adcpData.BeamVelocityData.BeamVelocityData[2, 1] = 11.12f; adcpData.BeamVelocityData.BeamVelocityData[2, 2] = 12.13f; // Encode the data byte[] encode = adcpData.BeamVelocityData.Encode(); // Create dataset DataSet.Ensemble ens1 = new DataSet.Ensemble(); // Add Sentence to data set ens1.AddBeamVelocityData(DataSet.Ensemble.DATATYPE_FLOAT, // Type of data stored (Float or Int) 30, // Number of bins DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, // Number of beams DataSet.Ensemble.DEFAULT_IMAG, // Default Image DataSet.Ensemble.DEFAULT_NAME_LENGTH, // Default Image length DataSet.Ensemble.BeamVelocityID, // Dataset ID encode); // Encoded data Assert.IsTrue(ens1.IsBeamVelocityAvail, "IsBeamVelocityAvail is incorrect."); Assert.AreEqual(DataSet.Ensemble.DATATYPE_FLOAT, ens1.BeamVelocityData.ValueType, "DataType is incorrect."); Assert.AreEqual(30, ens1.BeamVelocityData.NumElements, "Number of Elements is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, ens1.BeamVelocityData.ElementsMultiplier, "Element Multiplies are incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_IMAG, ens1.BeamVelocityData.Imag, "Imag is incorrect."); Assert.AreEqual(DataSet.Ensemble.DEFAULT_NAME_LENGTH, ens1.BeamVelocityData.NameLength, "Name length is incorrect."); Assert.AreEqual(DataSet.Ensemble.BeamVelocityID, ens1.BeamVelocityData.Name, "Name is incorrect."); Assert.AreEqual(ens1.BeamVelocityData.BeamVelocityData.GetLength(0), 30, "Beam Velocity Array Dimension 1 is incorrect."); Assert.AreEqual(ens1.BeamVelocityData.BeamVelocityData.GetLength(1), DataSet.Ensemble.DEFAULT_NUM_BEAMS_BEAM, "Beam Velocity Array Dimension 2 is incorrect."); Assert.AreEqual(2.3f, ens1.BeamVelocityData.BeamVelocityData[0, 0], "0,0 Data is incorrect."); Assert.AreEqual(3.4f, ens1.BeamVelocityData.BeamVelocityData[0, 1], "0,1 Data is incorrect."); Assert.AreEqual(4.5f, ens1.BeamVelocityData.BeamVelocityData[0, 2], "0,2 Data is incorrect."); Assert.AreEqual(5.6f, ens1.BeamVelocityData.BeamVelocityData[0, 3], "0,3 Data is incorrect."); Assert.AreEqual(6.7f, ens1.BeamVelocityData.BeamVelocityData[1, 0], "1,0 Data is incorrect."); Assert.AreEqual(7.8f, ens1.BeamVelocityData.BeamVelocityData[1, 1], "1,1 Data is incorrect."); Assert.AreEqual(8.9f, ens1.BeamVelocityData.BeamVelocityData[1, 2], "1,2 Data is incorrect."); Assert.AreEqual(9.10f, ens1.BeamVelocityData.BeamVelocityData[1, 3], "1,3 Data is incorrect."); Assert.AreEqual(10.11f, ens1.BeamVelocityData.BeamVelocityData[2, 0], "2,0 Data is incorrect."); Assert.AreEqual(11.12f, ens1.BeamVelocityData.BeamVelocityData[2, 1], "2,1 Data is incorrect."); Assert.AreEqual(12.13f, ens1.BeamVelocityData.BeamVelocityData[2, 2], "2,2 Data is incorrect."); }