private async Task <long> PutMeasurementsInElements(IMeasurement measurement) { string verboseMessage = $"{baseLogString} entering PutMeasurementsInElements method. Measurement GID {measurement?.Id:X16}."; Logger.LogVerbose(verboseMessage); var enumerableMeasurementToConnectedTerminalMap = await MeasurementToConnectedTerminalMap.GetEnumerableDictionaryAsync(); if (enumerableMeasurementToConnectedTerminalMap.TryGetValue(measurement.Id, out long terminalId)) { var enumerableTerminalToConnectedElementsMap = await TerminalToConnectedElementsMap.GetEnumerableDictionaryAsync(); if (enumerableTerminalToConnectedElementsMap.TryGetValue(terminalId, out List <long> connectedElements)) { try { var elementId = connectedElements.Find( e => GetDMSTypeOfTopologyElement(e) != DMSType.CONNECTIVITYNODE && GetDMSTypeOfTopologyElement(e) != DMSType.ANALOG); var enumerableTopologyElements = await TopologyElements.GetEnumerableDictionaryAsync(); if (enumerableTopologyElements.TryGetValue(elementId, out ITopologyElement element)) { if (!element.Measurements.ContainsKey(measurement.Id)) { element.Measurements.Add(measurement.Id, measurement.GetMeasurementType()); } else { Logger.LogWarning($"{baseLogString} PutMeasurementsInElements => element.Measurements contains key: 0x{measurement.Id:X16}"); } measurement.ElementId = elementId; if (measurement is DiscreteMeasurement) { var measurementProviderClient = MeasurementProviderClient.CreateClient(); await measurementProviderClient.AddDiscreteMeasurement((DiscreteMeasurement)measurement); } if (measurement.GetMeasurementType().Equals(AnalogMeasurementType.FEEDER_CURRENT.ToString())) { await TopologyElements.SetAsync(elementId, new Feeder(element)); } else { await TopologyElements.SetAsync(elementId, element); } } else { Logger.LogError($"{baseLogString} PutMeasurementsInElement => Element with GID 0x{elementId:16X} does not exist in elements dictionary."); } } catch (Exception e) { Logger.LogError($"{baseLogString} PutMeasurementsInElement => {e.Message} {Environment.NewLine} {e.StackTrace}"); //Logger.LogError($"{baseLogString} PutMeasurementsInElement => Failed to find appropriate element for mesuremnt with GID {measurement.Id:16X}. There is no conducting equipment connected to common terminal."); } } else { Logger.LogError($"{baseLogString} PutMeasurementsInElement => Terminal with GID 0x{terminalId:X16} does not exist in terminal to element map."); } } else { Logger.LogError($"{baseLogString} PutMeasurementsInElement => Measurement with GID {measurement.Id:X16} does not exist in mesurement to terminal map."); } return(measurement.ElementId); }
public async Task <IModelDelta> TryGetAllModelEntitiesAsync() { string verboseMessage = $"{baseLogString} entering TryGetAllModelEntities method."; Logger.LogVerbose(verboseMessage); while (!ReliableDictionariesInitialized) { await Task.Delay(1000); } ModelDelta modelDelta = new ModelDelta(); try { //var clearTasks = new List<Task> //{ await TopologyElements.ClearAsync(); await Measurements.ClearAsync(); await EnergySources.ClearAsync(); await ElementConnections.ClearAsync(); await MeasurementToConnectedTerminalMap.ClearAsync(); await TerminalToConnectedElementsMap.ClearAsync(); await BaseVoltages.ClearAsync(); await Reclosers.ClearAsync(); //}; //Task.WaitAll(clearTasks.ToArray()); await energySources.SetAsync(ReliableDictionaryNames.EnergySources, new List <long>()); await reclosers.SetAsync(ReliableDictionaryNames.Reclosers, new HashSet <long>()); Logger.LogDebug($"{baseLogString} TryGetAllModelEntities => Getting all network model elements and converting them."); await GetBaseVoltagesAsync(); foreach (var model in ConcreteModels) { if (model != ModelCode.BASEVOLTAGE) { List <ModelCode> properties = modelResourcesDesc.GetAllPropertyIds(model); var elements = await networkModelGda.GetExtentValuesAsync(model, properties); foreach (var element in elements) { try { await TransformToTopologyElementAsync(element); } catch (Exception e) { Logger.LogError($"{baseLogString} TryGetAllModelEntitiesAsync failed." + $" {Environment.NewLine} {e.Message} " + $"{Environment.NewLine} {e.StackTrace}"); } } } } //Parallel.For(0, ConcreteModels.Count, async (i) => //{ // var model = ConcreteModels.ElementAt(i); // if (model != ModelCode.BASEVOLTAGE) // { // List<ModelCode> properties = modelResourcesDesc.GetAllPropertyIds(model); // var elements = await networkModelGda.GetExtentValuesAsync(model, properties); // foreach (var element in elements) // { // try // { // await TransformToTopologyElementAsync(element); // } // catch (Exception e) // { // Logger.LogError($"{baseLogString} TryGetAllModelEntitiesAsync failed." + // $" {Environment.NewLine} {e.Message} " + // $"{Environment.NewLine} {e.StackTrace}"); // } // } // } //}); var enumerableMeasurements = await Measurements.GetEnumerableDictionaryAsync(); List <IMeasurement> updatedMeasurements = new List <IMeasurement>(enumerableMeasurements.Count); foreach (var measurement in enumerableMeasurements.Values) { var elementId = await PutMeasurementsInElements(measurement); var measurementProviderClient = MeasurementProviderClient.CreateClient(); await measurementProviderClient.AddMeasurementElementPair(measurement.Id, elementId); updatedMeasurements.Add(measurement); } foreach (var updatedMeas in updatedMeasurements) { await Measurements.SetAsync(updatedMeas.Id, updatedMeas); } var enumerableTopologyElements = await TopologyElements.GetEnumerableDictionaryAsync(); List <ITopologyElement> updatedElements = new List <ITopologyElement>(enumerableTopologyElements.Count); foreach (var element in enumerableTopologyElements.Values) { if (element.Measurements.Count == 0) { await CreateNoScadaMeasurementAsync(element); updatedElements.Add(element); } } foreach (var updatedEl in updatedElements) { await TopologyElements.SetAsync(updatedEl.Id, updatedEl); } modelDelta.TopologyElements = enumerableTopologyElements; modelDelta.ElementConnections = await ElementConnections.GetEnumerableDictionaryAsync(); var reclosersResult = await Reclosers.TryGetValueAsync(ReliableDictionaryNames.Reclosers); if (reclosersResult.HasValue) { modelDelta.Reclosers = reclosersResult.Value; } else { Logger.LogWarning($"{baseLogString} Reliable collection '{ReliableDictionaryNames.Reclosers}' was not defined yet. Handling..."); await Reclosers.SetAsync(ReliableDictionaryNames.Reclosers, new HashSet <long>()); modelDelta.Reclosers = new HashSet <long>(); } var enegySourcesResult = await EnergySources.TryGetValueAsync(ReliableDictionaryNames.EnergySources); if (reclosersResult.HasValue) { modelDelta.EnergySources = enegySourcesResult.Value; } else { Logger.LogWarning($"{baseLogString} Reliable collection '{ReliableDictionaryNames.EnergySources}' was not defined yet. Handling..."); await EnergySources.SetAsync(ReliableDictionaryNames.EnergySources, new List <long>()); modelDelta.EnergySources = new List <long>(); } } catch (Exception e) { string message = $"{baseLogString} TryGetAllModelEntities => Failed in get all network model elements." + $"{Environment.NewLine} Exception message: {e.Message}" + $"{Environment.NewLine} Stack trace: {e.StackTrace}"; Logger.LogError(message); throw new Exception(message); } return(modelDelta); }