//-------------------------------------------------------------------------------------------------// public ExperimentResult(int experimentId, string sbName, DateTime dateTime, int unitId, Configuration configuration, Specification specification, ResultInfo resultInfo) : base(experimentId, sbName, dateTime, specification.SetupId, unitId, configuration) { const string STRLOG_MethodName = "ExperimentResult"; Logfile.WriteCalled(null, STRLOG_MethodName); try { // // Add the specification information // // // YOUR CODE HERE // // // Add the result information // if (resultInfo.statusCode == StatusCodes.Completed) { // // YOUR CODE HERE // } } catch (Exception ex) { Logfile.WriteError(ex.Message); throw; } Logfile.WriteCompleted(null, STRLOG_MethodName); }
//-------------------------------------------------------------------------------------------------// public ExperimentResult(int experimentId, string sbName, DateTime dateTime, int unitId, Configuration configuration, Specification specification, ResultInfo resultInfo) : base(experimentId, sbName, dateTime, specification.SetupId, unitId, configuration) { const string STRLOG_MethodName = "ExperimentResult"; Logfile.WriteCalled(null, STRLOG_MethodName); try { // // Add the specification information // XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_formatName, specification.FormatName, false); if (specification.SetupId.Equals(Consts.STRXML_SetupId_NTPServer)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_serverUrl, specification.ServerUrl, false); } // // Add the result information // if (resultInfo.statusCode == StatusCodes.Completed) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_timeofday, resultInfo.timeofday, false); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_dayofweek, resultInfo.dateTime.DayOfWeek.ToString(), false); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_day, resultInfo.dateTime.Day); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_month, resultInfo.dateTime.Month); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_year, resultInfo.dateTime.Year); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_hours, resultInfo.dateTime.Hour); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_minutes, resultInfo.dateTime.Minute); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_seconds, resultInfo.dateTime.Second); } } catch (Exception ex) { Logfile.WriteError(ex.Message); throw; } Logfile.WriteCompleted(null, STRLOG_MethodName); }
//-------------------------------------------------------------------------------------------------// public ExperimentResult(int experimentId, string sbName, DateTime dateTime, int unitId, Configuration configuration, Specification specification, ResultInfo resultInfo) : base(experimentId, sbName, dateTime, specification.SetupId, unitId, configuration) { const string STRLOG_MethodName = "ExperimentResult"; Logfile.WriteCalled(null, STRLOG_MethodName); try { // // Add the specification information // // // Nothing to do here // // // Add the result information // if (resultInfo.statusCode == StatusCodes.Completed) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_voltage, resultInfo.voltage.ToString("F02"), false); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_current, resultInfo.current.ToString("F03"), false); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_powerFactor, resultInfo.powerFactor.ToString("F04"), false); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speed, resultInfo.speed.ToString(), false); } } catch (Exception ex) { Logfile.WriteError(ex.Message); throw; } Logfile.WriteCompleted(null, STRLOG_MethodName); }
//-------------------------------------------------------------------------------------------------// public ExperimentResult(int experimentId, string sbName, DateTime dateTime, int unitId, Configuration configuration, Specification specification, ResultInfo resultInfo) : base(experimentId, sbName, dateTime, specification.SetupId, unitId, configuration) { const string STRLOG_MethodName = "ExperimentResult"; Logfile.WriteCalled(null, STRLOG_MethodName); try { // // Add the specification information // // // Nothing to do here // // // Add the result information // if (resultInfo.statusCode == StatusCodes.Completed) { string[] measurements = null; // // Load XML measurements string // XmlDocument xmlDocument = XmlUtilities.GetXmlDocument(resultInfo.xmlMeasurements); XmlNode xmlNodeRoot = XmlUtilities.GetXmlRootNode(xmlDocument, Consts.STRXML_measurements); if (specification.SetupId.Equals(Consts.STRXML_SetupId_OpenCircuitVaryField) == true) { measurements = new string[] { Consts.STRXML_fieldCurrent, Consts.STRXML_speed, Consts.STRXML_voltage, }; } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_OpenCircuitVarySpeed) == true) { measurements = new string[] { Consts.STRXML_speed, Consts.STRXML_fieldCurrent, Consts.STRXML_voltage, }; } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_ShortCircuitVaryField) == true) { measurements = new string[] { Consts.STRXML_fieldCurrent, Consts.STRXML_speed, Consts.STRXML_statorCurrent, }; } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_PreSynchronisation) == true) { measurements = new string[] { Consts.STRXML_fieldCurrent, Consts.STRXML_speedSetpoint, Consts.STRXML_mainsVoltage, Consts.STRXML_mainsFrequency, Consts.STRXML_syncVoltage, Consts.STRXML_syncFrequency, Consts.STRXML_syncMainsPhase, Consts.STRXML_synchronism, }; } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_Synchronisation) == true) { measurements = new string[] { Consts.STRXML_torqueSetpoint, Consts.STRXML_fieldCurrent, Consts.STRXML_syncVoltage, Consts.STRXML_syncFrequency, Consts.STRXML_powerFactor, Consts.STRXML_realPower, Consts.STRXML_reactivePower, Consts.STRXML_phaseCurrent, }; } if (measurements != null) { for (int i = 0; i < measurements.Length; i++) { XmlNode xmlNode = XmlUtilities.GetXmlNode(xmlNodeRoot, measurements[i]); XmlDocumentFragment xmlFragment = this.xmlNodeExperimentResult.OwnerDocument.CreateDocumentFragment(); xmlFragment.InnerXml = xmlNode.OuterXml; this.xmlNodeExperimentResult.AppendChild(xmlFragment); } } } } catch (Exception ex) { Logfile.WriteError(ex.Message); throw; } Logfile.WriteCompleted(null, STRLOG_MethodName); }
//-------------------------------------------------------------------------------------------------// public ExperimentResult(int experimentId, string sbName, DateTime dateTime, int unitId, Configuration configuration, Specification specification, ResultInfo resultInfo) : base(experimentId, sbName, dateTime, specification.SetupId, unitId, configuration) { const string STRLOG_MethodName = "ExperimentResult"; Logfile.WriteCalled(null, STRLOG_MethodName); try { // // Add the specification information // if (specification.SetupId.Equals(Consts.STRXML_SetupId_VoltageVsSpeed)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speedMin, specification.Speed.min); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speedMax, specification.Speed.max); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speedStep, specification.Speed.step); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_VoltageVsField)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_fieldMin, specification.Field.min); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_fieldMax, specification.Field.max); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_fieldStep, specification.Field.step); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_VoltageVsLoad)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_loadMin, specification.Load.min); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_loadMax, specification.Load.max); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_loadStep, specification.Load.step); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_SpeedVsVoltage)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speedMin, specification.Speed.min); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speedMax, specification.Speed.max); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_speedStep, specification.Speed.step); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_SpeedVsField)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_fieldMin, specification.Field.min); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_fieldMax, specification.Field.max); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_fieldStep, specification.Field.step); } // // Add the result information // if (resultInfo.statusCode == StatusCodes.Completed) { if (specification.SetupId.Equals(Consts.STRXML_SetupId_VoltageVsSpeed)) { XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_speedVector, resultInfo.speedVector, Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_voltageVector, resultInfo.voltageVector, Consts.CHR_Splitter, false); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_VoltageVsField)) { XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_fieldVector, resultInfo.fieldVector, "F02", Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_voltageVector, resultInfo.voltageVector, Consts.CHR_Splitter, false); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_VoltageVsLoad)) { XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_loadVector, resultInfo.loadVector, Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_voltageVector, resultInfo.voltageVector, Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_speedVector, resultInfo.speedVector, Consts.CHR_Splitter, false); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_SpeedVsVoltage)) { XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_speedVector, resultInfo.speedVector, Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_voltageVector, resultInfo.voltageVector, Consts.CHR_Splitter, false); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_SpeedVsField)) { XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_fieldVector, resultInfo.fieldVector, "F02", Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_speedVector, resultInfo.speedVector, Consts.CHR_Splitter, false); XmlUtilities.SetXmlValues(this.xmlNodeExperimentResult, Consts.STRXML_voltageVector, resultInfo.voltageVector, Consts.CHR_Splitter, false); } } } catch (Exception ex) { Logfile.WriteError(ex.Message); throw; } Logfile.WriteCompleted(null, STRLOG_MethodName); }
//-------------------------------------------------------------------------------------------------// public ExperimentResult(int experimentId, string sbName, DateTime dateTime, int unitId, Configuration configuration, Specification specification, ResultInfo resultInfo) : base(experimentId, sbName, dateTime, specification.SetupId, unitId, configuration) { const string STRLOG_MethodName = "ExperimentResult"; Logfile.WriteCalled(null, STRLOG_MethodName); try { // // Add the specification information // XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_sourceName, specification.SourceName, false); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_duration, specification.Duration); XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_repeat, specification.Repeat); if (specification.SetupId.Equals(Consts.STRXML_SetupId_RadioactivityVsTime) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsTime) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsTimeNoDelay)) { Specification.Absorber absorber = specification.AbsorberList[0]; XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_absorberName, absorber.name, false); int distance = specification.DistanceList[0]; XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_distance, distance.ToString(), false); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_RadioactivityVsDistance) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsDistance) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsDistanceNoDelay)) { Specification.Absorber absorber = specification.AbsorberList[0]; XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_absorberName, absorber.name, false); // // Create a CSV string of distances // string csvDistances = string.Empty; for (int i = 0; i < specification.DistanceList.Length; i++) { if (i > 0) { csvDistances += Consts.CHR_CsvSplitter; } csvDistances += specification.DistanceList[i].ToString(); } XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_distance, csvDistances, false); } else if (specification.SetupId.Equals(Consts.STRXML_SetupId_RadioactivityVsAbsorber)) { // // Create a CSV string of absorbers // string csvAbsorbers = string.Empty; for (int i = 0; i < specification.AbsorberList.Length; i++) { if (i > 0) { csvAbsorbers += Consts.CHR_CsvSplitter; } csvAbsorbers += specification.AbsorberList[i].name; } XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_absorberName, csvAbsorbers, false); int distance = specification.DistanceList[0]; XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_distance, distance.ToString(), false); } // // Add the result information // if (resultInfo.statusCode == StatusCodes.Completed) { if (specification.SetupId.Equals(Consts.STRXML_SetupId_RadioactivityVsTime) || specification.SetupId.Equals(Consts.STRXML_SetupId_RadioactivityVsDistance) || specification.SetupId.Equals(Consts.STRXML_SetupId_RadioactivityVsAbsorber) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsTime) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsDistance) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsTimeNoDelay) || specification.SetupId.Equals(Consts.STRXML_SetupId_SimActivityVsDistanceNoDelay)) { XmlUtilities.SetXmlValue(this.xmlNodeExperimentResult, Consts.STRXML_dataType, resultInfo.dataType.ToString(), false); XmlNode xmlNode = XmlUtilities.GetXmlNode(this.xmlNodeExperimentResult, Consts.STRXML_dataVector); XmlNode xmlNodeCopy = null; XmlNode xmlNodeTemp = null; for (int i = 0; i < resultInfo.dataVectors.GetLength(0); i++) { if (i == 0) { // Keep a copy of the node for more dataVectors xmlNodeCopy = xmlNode.Clone(); xmlNodeTemp = xmlNode; } else { // Get a copy of the nodeCopy to add another dataVector xmlNodeTemp = xmlNodeCopy.Clone(); } // // Create CSV string from data vector // string csvString = string.Empty; for (int j = 0; j < resultInfo.dataVectors.GetLength(1); j++) { if (j > 0) { csvString += Consts.CHR_CsvSplitter; } csvString += resultInfo.dataVectors[i, j].ToString(); } xmlNodeTemp.InnerXml = csvString; if (i > 0) { // Append xml fragment to experiment result node this.xmlNodeExperimentResult.AppendChild(xmlNodeTemp); } } } } } catch (Exception ex) { Logfile.WriteError(ex.Message); throw; } Logfile.WriteCompleted(null, STRLOG_MethodName); }