private void UpdateGeneratorAttribute(GeneratorAttribute currentGeneratorAttribute, GeneratorAttribute newGeneratorAttribute) { currentGeneratorAttribute.DateUpdated = DateTime.Now; currentGeneratorAttribute.UserUpdatedId = newGeneratorAttribute.UserCreatedId; currentGeneratorAttribute.DateEnd = newGeneratorAttribute.DateEnd; currentGeneratorAttribute.DateReplaced = newGeneratorAttribute.DateReplaced; currentGeneratorAttribute.DependableGeneratingCapacity = newGeneratorAttribute.DependableGeneratingCapacity; currentGeneratorAttribute.EffectiveLoadCarryingCapacity = newGeneratorAttribute.EffectiveLoadCarryingCapacity; currentGeneratorAttribute.EPACapacity = newGeneratorAttribute.EPACapacity; currentGeneratorAttribute.InServiceEndDate = newGeneratorAttribute.InServiceEndDate; currentGeneratorAttribute.InServiceStartDate = newGeneratorAttribute.InServiceStartDate; currentGeneratorAttribute.IsNitsNominated = newGeneratorAttribute.IsNitsNominated; currentGeneratorAttribute.MaximumPowerOutput = newGeneratorAttribute.MaximumPowerOutput; currentGeneratorAttribute.MaxOutputForFirmTransmission = newGeneratorAttribute.MaxOutputForFirmTransmission; currentGeneratorAttribute.MaxOutputForNonFirmTransmission = newGeneratorAttribute.MaxOutputForNonFirmTransmission; currentGeneratorAttribute.MaxTakeOrPayCapacity = newGeneratorAttribute.MaxTakeOrPayCapacity; currentGeneratorAttribute.MonthlyAverageCapacity = newGeneratorAttribute.MonthlyAverageCapacity; currentGeneratorAttribute.NamePlateCapacityInMW = newGeneratorAttribute.NamePlateCapacityInMW; currentGeneratorAttribute.NitsDesignatedCapacity = newGeneratorAttribute.NitsDesignatedCapacity; currentGeneratorAttribute.PhysicalMinimumOutput = newGeneratorAttribute.PhysicalMinimumOutput; currentGeneratorAttribute.PointToPointCapacity = newGeneratorAttribute.PointToPointCapacity; currentGeneratorAttribute.Probability = newGeneratorAttribute.Probability; currentGeneratorAttribute.RatedMVA = newGeneratorAttribute.RatedMVA; currentGeneratorAttribute.RatedOverExcitedPowerFactor = newGeneratorAttribute.RatedOverExcitedPowerFactor; currentGeneratorAttribute.RatedPowerFactor = newGeneratorAttribute.RatedPowerFactor; currentGeneratorAttribute.RatedUnderExcitedPowerFactor = newGeneratorAttribute.RatedUnderExcitedPowerFactor; currentGeneratorAttribute.RegulatoryMinimumOutput = newGeneratorAttribute.RegulatoryMinimumOutput; currentGeneratorAttribute.ReliabilityMustRunCapacity = newGeneratorAttribute.ReliabilityMustRunCapacity; currentGeneratorAttribute.SystemCapacity = newGeneratorAttribute.SystemCapacity; currentGeneratorAttribute.LeadingPowerFactor = newGeneratorAttribute.LeadingPowerFactor; currentGeneratorAttribute.LaggingPowerFactor = newGeneratorAttribute.LaggingPowerFactor; newGeneratorAttribute.Id = currentGeneratorAttribute.Id; }
public void DeleteAttribute(int generatingUnitId, int resourcePlanId, int?phaseId) { GeneratorAttribute generatorAttribute = this.Context.GeneratorAttributes.FirstOrDefault(ga => ga.GeneratingUnitId == generatingUnitId && ga.ResourcePlanId == resourcePlanId && ga.ProjectPhaseId == phaseId); if (generatorAttribute == null) { return; } this.Context.GeneratorAttributes.DeleteOnSubmit(generatorAttribute); this.Context.SubmitChanges(); }
/// <summary> /// Inserts any new GeneratorAttribute objects to Db and updates any existing GeneratorAttribute objects (based on GeneratingUnitId) /// </summary> /// <param name="generatorAttribute">GeneratorAttribute object</param> public void SaveGeneratorAttribute(GeneratorAttribute generatorAttribute) { GeneratorAttribute currentGeneratorAttribute = this.Context.GeneratorAttributes.FirstOrDefault(ga => ga.GeneratingUnitId == generatorAttribute.GeneratingUnitId && ga.ResourcePlanId == generatorAttribute.ResourcePlanId && !ga.ProjectPhaseId.HasValue); if (currentGeneratorAttribute != null) { UpdateGeneratorAttribute(currentGeneratorAttribute, generatorAttribute); } else { generatorAttribute.DateCreated = DateTime.Now; this.Context.GeneratorAttributes.InsertOnSubmit(generatorAttribute); } this.Context.SubmitChanges(); }
/// <summary> /// Inserts any new GeneratorAttribute objects to Db and updates any existing GeneratorAttribute objects (based on gen unit Id, plan id & phase id) /// </summary> /// <param name="generatorAttribute">GeneratorAttribute object</param> public void Save(GeneratorAttribute ga) { GeneratorAttribute currentGa = this.Context.GeneratorAttributes.FirstOrDefault(gua => gua.GeneratingUnitId == ga.GeneratingUnitId && gua.ResourcePlanId == ga.ResourcePlanId && (!gua.ProjectPhaseId.HasValue || gua.ProjectPhaseId == ga.ProjectPhaseId)); if (currentGa != null) { UpdateGeneratorAttribute(currentGa, ga); } else { ga.DateCreated = DateTime.Now; this.Context.GeneratorAttributes.InsertOnSubmit(ga); } this.Context.SubmitChanges(); }
/// <summary> /// Inserts any new GeneratorAttribute objects to Db and updates any existing GeneratorAttribute objects (based on GeneratingUnitId, resourcsPlanId & projectPhaseId) /// Updates input reference param currentGeneratorAttribute with pre update state. currentGeneratorAttribute remains null when the object is new /// </summary> /// <param name="generatorAttribute">GeneratorAttribute object</param> public bool SaveAttributeAgainstPhase(GeneratorAttribute newGeneratorAttribute, ref GeneratorAttribute currentGeneratorAttribute) { bool newToPhase = false; GeneratorAttribute existingGeneratorAttribute = this.Context.GeneratorAttributes.FirstOrDefault(ga => ga.GeneratingUnitId == newGeneratorAttribute.GeneratingUnitId && ga.ResourcePlanId == newGeneratorAttribute.ResourcePlanId && ga.ProjectPhaseId == newGeneratorAttribute.ProjectPhaseId); if (existingGeneratorAttribute != null) { currentGeneratorAttribute = existingGeneratorAttribute.Clone(); UpdateGeneratorAttribute(existingGeneratorAttribute, newGeneratorAttribute); } else { this.Context.GeneratorAttributes.InsertOnSubmit(newGeneratorAttribute); newToPhase = true; } this.Context.SubmitChanges(); return(newToPhase); }
public GeneratorAttribute Clone() { GeneratorAttribute clone = new GeneratorAttribute(); clone.GeneratingUnitId = this.GeneratingUnitId; clone.ResourcePlanId = this.ResourcePlanId; clone.ProjectPhaseId = this.ProjectPhaseId; clone.DateEnd = this.DateEnd; clone.DateReplaced = this.DateReplaced; clone.InServiceStartDate = this.InServiceStartDate; clone.InServiceEndDate = this.InServiceEndDate; clone.DependableGeneratingCapacity = this.DependableGeneratingCapacity; clone.EffectiveLoadCarryingCapacity = this.EffectiveLoadCarryingCapacity; clone.EPACapacity = this.EPACapacity; clone.IsNitsNominated = this.IsNitsNominated; clone.MaximumPowerOutput = this.MaximumPowerOutput; clone.MaxOutputForFirmTransmission = this.MaxOutputForFirmTransmission; clone.MaxOutputForNonFirmTransmission = this.MaxOutputForNonFirmTransmission; clone.LaggingPowerFactor = this.LaggingPowerFactor; clone.LeadingPowerFactor = this.LeadingPowerFactor; clone.MaxTakeOrPayCapacity = this.MaxTakeOrPayCapacity; clone.MonthlyAverageCapacity = this.MonthlyAverageCapacity; clone.NamePlateCapacityInMW = this.NamePlateCapacityInMW; clone.NitsDesignatedCapacity = this.NitsDesignatedCapacity; clone.PhysicalMinimumOutput = this.PhysicalMinimumOutput; clone.PointToPointCapacity = this.PointToPointCapacity; clone.Probability = this.Probability; clone.RatedMVA = this.RatedMVA; clone.RatedOverExcitedPowerFactor = this.RatedOverExcitedPowerFactor; clone.RatedPowerFactor = this.RatedPowerFactor; clone.RatedUnderExcitedPowerFactor = this.RatedUnderExcitedPowerFactor; clone.RegulatoryMinimumOutput = this.RegulatoryMinimumOutput; clone.ReliabilityMustRunCapacity = this.ReliabilityMustRunCapacity; clone.SystemCapacity = this.SystemCapacity; return(clone); }