public static ApplicationDataModel.Common.UnitOfMeasure ToModelUom(this UnitOfMeasure uom) { var unitOfMeasure = new ApplicationDataModel.Common.UnitOfMeasure { Code = uom.DomainID, }; var scalarUom = uom as ScalarUnitOfMeasure; if (scalarUom != null) { unitOfMeasure.Scale = scalarUom.Scale; unitOfMeasure.Offset = scalarUom.BaseOffset; } return unitOfMeasure; }
public static ApplicationDataModel.Common.UnitOfMeasure ToModelUom(this UnitOfMeasure uom) { var unitOfMeasure = new ApplicationDataModel.Common.UnitOfMeasure { Code = uom.DomainID, }; var scalarUom = uom as ScalarUnitOfMeasure; if (scalarUom != null) { unitOfMeasure.Scale = scalarUom.Scale; unitOfMeasure.Offset = scalarUom.BaseOffset; } return(unitOfMeasure); }
public static ApplicationDataModel.Common.UnitOfMeasure ToModelUom(this UnitOfMeasure uom) { var unitOfMeasure = new ApplicationDataModel.Common.UnitOfMeasure { Code = uom.DomainID, }; var unitDimensionId = uom.UnitDimension != null ? uom.UnitDimension.DomainID.TrimStart(new []{'u','t'}) : null; if (unitDimensionId != null) { var adaptUnitDimension = (UnitOfMeasureDimensionEnum) Enum.Parse(typeof (UnitOfMeasureDimensionEnum), unitDimensionId); unitOfMeasure.Dimension = adaptUnitDimension; } var scalarUom = uom as ScalarUnitOfMeasure; if (scalarUom != null) { unitOfMeasure.Scale = scalarUom.Scale; unitOfMeasure.Offset = scalarUom.BaseOffset; } return unitOfMeasure; }
public static ApplicationDataModel.Common.UnitOfMeasure ToModelUom(this UnitOfMeasure uom) { var unitOfMeasure = new ApplicationDataModel.Common.UnitOfMeasure { Code = uom.DomainID, }; var unitDimensionId = uom.UnitDimension != null?uom.UnitDimension.DomainID.TrimStart(new [] { 'u', 't' }) : null; if (unitDimensionId != null) { var adaptUnitDimension = (UnitOfMeasureDimensionEnum)Enum.Parse(typeof(UnitOfMeasureDimensionEnum), unitDimensionId); unitOfMeasure.Dimension = adaptUnitDimension; } var scalarUom = uom as ScalarUnitOfMeasure; if (scalarUom != null) { unitOfMeasure.Scale = scalarUom.Scale; unitOfMeasure.Offset = scalarUom.BaseOffset; } return(unitOfMeasure); }
public static UnitOfMeasure ToInternalUom(this ApplicationDataModel.Common.UnitOfMeasure uom) { return(InternalUnitSystemManager.Instance.UnitOfMeasures[uom.Code]); }
public static string GetUNRec20Code(ApplicationDataModel.Common.UnitOfMeasure uom) { return(InternalUnitSystemManager.Instance.DomainIdToUnRec20Code[uom.Code]); }
private void SetNumericMeterValue(ISOSpatialRow isoSpatialRow, NumericWorkingData meter, SpatialRecord spatialRecord, Dictionary <string, List <ISOProductAllocation> > productAllocations) { var isoValue = isoSpatialRow.SpatialValues.FirstOrDefault(v => v.DataLogValue.ProcessDataDDI != "DFFE" && _workingDataMapper.DataLogValuesByWorkingDataID.ContainsKey(meter.Id.ReferenceId) && v.DataLogValue.DeviceElementIdRef == _workingDataMapper.DataLogValuesByWorkingDataID[meter.Id.ReferenceId].DeviceElementIdRef && v.DataLogValue.ProcessDataDDI == _workingDataMapper.DataLogValuesByWorkingDataID[meter.Id.ReferenceId].ProcessDataDDI); if (isoValue != null) { ADAPT.ApplicationDataModel.Common.UnitOfMeasure userProvidedUnitOfMeasure = meter.UnitOfMeasure; //Default; no display uom provided. var dvp = isoValue.DeviceProcessData?.DeviceValuePresentation; if (dvp != null) { //If a DVP element is present, report out the desired display unit of measure as the UserProvidedUnitOfMeasure. //This will not necessarily map to the Representation.UnitSystem. userProvidedUnitOfMeasure = new ApplicationDataModel.Common.UnitOfMeasure() { Code = dvp.UnitDesignator, Scale = dvp.Scale, Offset = dvp.Offset }; } var value = new NumericRepresentationValue(meter.Representation as NumericRepresentation, userProvidedUnitOfMeasure, new NumericValue(meter.UnitOfMeasure, isoValue.Value)); spatialRecord.SetMeterValue(meter, value); var other = new NumericRepresentationValue(meter.Representation as NumericRepresentation, userProvidedUnitOfMeasure, new NumericValue(meter.UnitOfMeasure, isoValue.Value)); _representationValueInterpolator.SetMostRecentMeterValue(meter, other); } else if (meter.Representation.Code == "vrProductIndex") { string detID = _workingDataMapper.ISODeviceElementIDsByWorkingDataID[meter.Id.ReferenceId]; if (productAllocations.ContainsKey(detID)) //The DeviceElement for this meter exists in the list of allocations { double numericValue = 0d; if (productAllocations[detID].Count == 1 || TimeLogMapper.GetDistinctProductIDs(_taskDataMapper, productAllocations).Count == 1) { //This product is consistent throughout the task on this device element int?adaptProductID = _taskDataMapper.InstanceIDMap.GetADAPTID(productAllocations[detID].Single().ProductIdRef); numericValue = adaptProductID.HasValue ? adaptProductID.Value : 0d; } else if (productAllocations[detID].Count > 1) { //There are multiple product allocations for the device element //Find the product allocation that governs this timestamp ISOProductAllocation relevantPan = productAllocations[detID].FirstOrDefault(p => Offset(p.AllocationStamp.Start) <= spatialRecord.Timestamp && (p.AllocationStamp.Stop == null || Offset(p.AllocationStamp.Stop) >= spatialRecord.Timestamp)); if (relevantPan != null) { int?adaptProductID = _taskDataMapper.InstanceIDMap.GetADAPTID(relevantPan.ProductIdRef); numericValue = adaptProductID.HasValue ? adaptProductID.Value : 0d; } } var value = new NumericRepresentationValue(meter.Representation as NumericRepresentation, meter.UnitOfMeasure, new NumericValue(meter.UnitOfMeasure, numericValue)); spatialRecord.SetMeterValue(meter, value); } } else { var value = _representationValueInterpolator.Interpolate(meter) as NumericRepresentationValue; spatialRecord.SetMeterValue(meter, value); } }
private IEnumerable <WorkingData> Map(ISODataLogValue dlv, IEnumerable <ISOSpatialRow> isoSpatialRows, DeviceElementUse deviceElementUse, int order, List <DeviceElementUse> pendingDeviceElementUses, DeviceElementHierarchy isoDeviceElementHierarchy) { var workingDatas = new List <WorkingData>(); if (_ddis.ContainsKey(dlv.ProcessDataDDI.AsInt32DDI())) { //Numeric Representations NumericWorkingData numericMeter = MapNumericMeter(dlv, deviceElementUse.Id.ReferenceId); DataLogValuesByWorkingDataID.Add(numericMeter.Id.ReferenceId, dlv); ISODeviceElementIDsByWorkingDataID.Add(numericMeter.Id.ReferenceId, dlv.DeviceElementIdRef); workingDatas.Add(numericMeter); return(workingDatas); } var meterCreator = _enumeratedMeterCreatorFactory.GetMeterCreator(dlv.ProcessDataDDI.AsInt32DDI()); if (meterCreator != null) { //Enumerated Representations var isoEnumeratedMeters = meterCreator.CreateMeters(isoSpatialRows); foreach (ISOEnumeratedMeter enumeratedMeter in isoEnumeratedMeters) { DataLogValuesByWorkingDataID.Add(enumeratedMeter.Id.ReferenceId, dlv); ISODeviceElementIDsByWorkingDataID.Add(enumeratedMeter.Id.ReferenceId, dlv.DeviceElementIdRef); enumeratedMeter.DeviceElementUseId = deviceElementUse.Id.ReferenceId; } workingDatas.AddRange(isoEnumeratedMeters); if (meterCreator is CondensedStateMeterCreator) { UpdateCondensedWorkingDatas(workingDatas, dlv, deviceElementUse, pendingDeviceElementUses, isoDeviceElementHierarchy); } } else { //Proprietary DDIs - report out as numeric value NumericWorkingData proprietaryWorkingData = new NumericWorkingData(); proprietaryWorkingData.Representation = new ApplicationDataModel.Representations.NumericRepresentation { Code = dlv.ProcessDataDDI, CodeSource = RepresentationCodeSourceEnum.ISO11783_DDI }; proprietaryWorkingData.DeviceElementUseId = deviceElementUse.Id.ReferenceId; //Take any information from DPDs/DVPs ApplicationDataModel.Common.UnitOfMeasure uom = null; ISODeviceElement det = isoDeviceElementHierarchy.DeviceElement; if (det != null) { ISODeviceProcessData dpd = det.DeviceProcessDatas.FirstOrDefault(d => d.DDI == dlv.ProcessDataDDI); if (dpd != null) { proprietaryWorkingData.Representation.Description = dpd.Designator; //Update the representation with a name since we have one here. ISODeviceValuePresentation dvp = det.Device.DeviceValuePresentations.FirstOrDefault(d => d.ObjectID == dpd.DeviceValuePresentationObjectId); if (dvp != null && dvp.UnitDesignator != null) { if (AgGateway.ADAPT.Representation.UnitSystem.InternalUnitSystemManager.Instance.UnitOfMeasures.Contains(dvp.UnitDesignator)) { //The unit designator used by the OEM will need to match ADAPT for this to work, otherwise we'll need to default to 'count' below //It will likely work for many simple units and will not for work compound units uom = UnitSystemManager.GetUnitOfMeasure(dvp.UnitDesignator); } } } } proprietaryWorkingData.UnitOfMeasure = uom ?? UnitSystemManager.GetUnitOfMeasure("count"); //Best we can do DataLogValuesByWorkingDataID.Add(proprietaryWorkingData.Id.ReferenceId, dlv); ISODeviceElementIDsByWorkingDataID.Add(proprietaryWorkingData.Id.ReferenceId, dlv.DeviceElementIdRef); workingDatas.Add(proprietaryWorkingData); } return(workingDatas); }