private static GlobalWarmingPotentialResult EvaluateEnvironmentalProductDeclarationByArea(IElementM elementM = null, EnvironmentalProductDeclarationField field = EnvironmentalProductDeclarationField.GlobalWarmingPotential) { if (elementM is IElement2D) { BH.Engine.Reflection.Compute.RecordNote($"Thickness properties for Area-based calculations are set according to the EPD properties of object {elementM.GetType()}, not the construction."); double area = (elementM as IElement2D).Area(); List <double> epdVal = elementM.GetEvaluationValue(field, QuantityType.Area); List <double> gwpByMaterial = new List <double>(); for (int x = 0; x < epdVal.Count; x++) { if (double.IsNaN(epdVal[x])) { gwpByMaterial.Add(double.NaN); } else { gwpByMaterial.Add(epdVal[x] * area); } } if (epdVal == null || epdVal.Where(x => !double.IsNaN(x)).Sum() <= 0) { BH.Engine.Reflection.Compute.RecordError($"No value for {field} can be found within the supplied EPD."); return(null); } if (area <= 0 || area == double.NaN) { BH.Engine.Reflection.Compute.RecordError("Area cannot be calculated from object " + ((IBHoMObject)elementM).BHoM_Guid); return(null); } double quantity = gwpByMaterial.Where(x => !double.IsNaN(x)).Sum(); return(new GlobalWarmingPotentialResult(((IBHoMObject)elementM).BHoM_Guid, field, 0, ObjectScope.Undefined, ObjectCategory.Undefined, Query.GetElementEpd(elementM), quantity)); } else { BH.Engine.Reflection.Compute.RecordError("Area-based evaluations are not supported for objects of type: " + elementM.GetType() + "."); return(null); } }
private static GlobalWarmingPotentialResult EvaluateEnvironmentalProductDeclarationByLength(IElementM elementM = null, EnvironmentalProductDeclarationField field = EnvironmentalProductDeclarationField.GlobalWarmingPotential) { if (elementM is IElement1D) { double length = (elementM as IElement1D).Length(); List <double> epdVal = elementM.GetEvaluationValue(field, QuantityType.Length); List <double> gwpByMaterial = new List <double>(); for (int x = 0; x < epdVal.Count; x++) { if (double.IsNaN(epdVal[x])) { gwpByMaterial.Add(double.NaN); } else { gwpByMaterial.Add(epdVal[x] * length); } } if (epdVal == null || epdVal.Where(x => !double.IsNaN(x)).Sum() <= 0) { BH.Engine.Reflection.Compute.RecordError($"No value for {field} can be found within the supplied EPD."); return(null); } if (length <= 0 || length == double.NaN) { BH.Engine.Reflection.Compute.RecordError("Length cannot be calculated from object " + ((IBHoMObject)elementM).BHoM_Guid); return(null); } double quantity = gwpByMaterial.Where(x => !double.IsNaN(x)).Sum(); return(new GlobalWarmingPotentialResult(((IBHoMObject)elementM).BHoM_Guid, field, 0, ObjectScope.Undefined, ObjectCategory.Undefined, Query.GetElementEpd(elementM), quantity)); } else { BH.Engine.Reflection.Compute.RecordError("Length-based evaluations are not supported for objects of type: " + elementM.GetType() + "."); return(null); } }
public static LifeCycleAssessmentElementResult EvaluateEnvironmentalProductDeclaration(IElementM elementM, List <LifeCycleAssessmentPhases> phases, EnvironmentalProductDeclarationField field = EnvironmentalProductDeclarationField.GlobalWarmingPotential, bool exactMatch = false) { double value = 0; EnvironmentalMetricResult resultValue = null; List <QuantityType> qts = elementM.GetQuantityType(); qts = qts.Distinct().ToList(); foreach (QuantityType qt in qts) { switch (qt) { case QuantityType.Undefined: BH.Engine.Reflection.Compute.RecordError("The object's EPD QuantityType is Undefined and cannot be evaluated."); return(null); case QuantityType.Area: BH.Engine.Reflection.Compute.RecordNote("Evaluating object type: " + elementM.GetType() + " based on EPD Area QuantityType."); var evalByArea = EvaluateEnvironmentalProductDeclarationByArea(elementM, phases, field, exactMatch); value += evalByArea.Quantity; if (resultValue == null) { resultValue = evalByArea; } break; case QuantityType.Ampere: BH.Engine.Reflection.Compute.RecordError("Ampere QuantityType is currently not supported."); return(null); case QuantityType.Item: BH.Engine.Reflection.Compute.RecordError("Length QuantityType is currently not supported. Try a different EPD with QuantityType values of either Area, Volume, or Mass."); return(null); case QuantityType.Length: BH.Engine.Reflection.Compute.RecordNote("Evaluating object type: " + elementM.GetType() + " based on EPD Length QuantityType."); var evalByLength = EvaluateEnvironmentalProductDeclarationByLength(elementM, phases, field, exactMatch); value += evalByLength.Quantity; if (resultValue == null) { resultValue = evalByLength; } break; case QuantityType.Mass: BH.Engine.Reflection.Compute.RecordNote("Evaluating object type: " + elementM.GetType() + " based on EPD Mass QuantityType."); var evalByMass = EvaluateEnvironmentalProductDeclarationByMass(elementM, phases, field, exactMatch); value += evalByMass.Quantity; if (resultValue == null) { resultValue = evalByMass; } break; case QuantityType.Watt: BH.Engine.Reflection.Compute.RecordError("Watt QuantityType is currently not supported."); return(null); case QuantityType.VoltAmps: BH.Engine.Reflection.Compute.RecordError("VoltAmps QuantityType is currently not supported."); return(null); case QuantityType.Volume: BH.Engine.Reflection.Compute.RecordNote("Evaluating object type: " + elementM.GetType() + " based on EPD Volume QuantityType."); var evalByVolume = EvaluateEnvironmentalProductDeclarationByVolume(elementM, phases, field, exactMatch); value += evalByVolume.Quantity; if (resultValue == null) { resultValue = evalByVolume; } break; case QuantityType.VolumetricFlowRate: BH.Engine.Reflection.Compute.RecordError("VolumetricFlowRate QuantityType is currently not supported."); return(null); default: BH.Engine.Reflection.Compute.RecordWarning("The object you have provided does not contain an EPD Material Fragment."); return(null); } } resultValue.Quantity = value; resultValue.EnvironmentalProductDeclaration = elementM.GetElementEpd(); return(resultValue); }
public static List <List <LifeCycleAssessmentPhases> > GetEPDPhases(this IElementM elementM) { // Element null check if (elementM == null) { BH.Engine.Reflection.Compute.RecordError("No IElementM was provided."); return(new List <List <LifeCycleAssessmentPhases> >()); } // Get all the epds from the elements List <EnvironmentalProductDeclaration> epd = GetElementEpd(elementM); if (epd == null) { BH.Engine.Reflection.Compute.RecordError($"No EPDs could be found within element {elementM.GetType()}."); return(new List <List <LifeCycleAssessmentPhases> >()); } // Get list of all EPD EnvironmentalMetrics List <EnvironmentalMetric> metrics = (List <EnvironmentalMetric>)epd.Select(x => x.EnvironmentalMetric); if (metrics.Count() <= 0) { BH.Engine.Reflection.Compute.RecordError($"No environmental metrics could be found within element {elementM.GetType()}."); return(new List <List <LifeCycleAssessmentPhases> >()); } // Get list of all Phases List <List <LifeCycleAssessmentPhases> > phases = metrics.Select(x => x.Phases).Distinct().ToList(); if (phases.Count <= 0) { BH.Engine.Reflection.Compute.RecordError("No Phases have been found within the EPD."); return(new List <List <LifeCycleAssessmentPhases> >()); } return(phases); }