public static List <List <EnvironmentalMetric> > GetElementEnvironmentalMetric(this IElementM elementM) { if (elementM == null) { BH.Engine.Reflection.Compute.RecordError("No IElementM was provided."); } if (elementM.IMaterialComposition() == null) { BH.Engine.Reflection.Compute.RecordError("The provided element does not have a MaterialComposition."); } List <EnvironmentalProductDeclaration> epd = elementM.IMaterialComposition().Materials.Select(x => x.Properties.Where(y => y is EnvironmentalProductDeclaration).FirstOrDefault() as EnvironmentalProductDeclaration).ToList(); if (epd == null) { BH.Engine.Reflection.Compute.RecordError("No EPD Material was found within the object's MaterialComposition."); } List <List <EnvironmentalMetric> > metric = epd.Select(x => x.EnvironmentalMetric).ToList(); if (metric.Count() <= 0) { BH.Engine.Reflection.Compute.RecordError("No Environmental Metrics could be found."); } return(metric); }
private static EnvironmentalMetricResult EvaluateEnvironmentalProductDeclarationByVolume(IElementM elementM, List <LifeCycleAssessmentPhases> phases, EnvironmentalProductDeclarationField field = EnvironmentalProductDeclarationField.GlobalWarmingPotential, bool exactMatch = false) { List <double> epdVal = elementM.GetEvaluationValue(field, phases, QuantityType.Volume, exactMatch); double volume = elementM.ISolidVolume(); List <double> volumeByRatio = elementM.IMaterialComposition().Ratios.Select(x => volume * x).ToList(); 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] * volumeByRatio[x]); } } if (epdVal == null || epdVal.Where(x => !double.IsNaN(x)).Sum() <= 0) { BH.Engine.Reflection.Compute.RecordError($"No value for {field} can be found within the supplied EPD."); return(null); } if (volume <= 0) { BH.Engine.Reflection.Compute.RecordError("Volume cannot be calculated from object " + ((IBHoMObject)elementM).BHoM_Guid); return(null); } double quantity = gwpByMaterial.Where(x => !double.IsNaN(x)).Sum(); return(new EnvironmentalMetricResult(((IBHoMObject)elementM).BHoM_Guid, field, 0, ObjectScope.Undefined, ObjectCategory.Undefined, phases, Query.GetElementEpd(elementM), quantity, field)); }
public static List <double> GetElementDensity(this IElementM elementM) { List <double> density = new List <double>(); if (elementM == null) { return(new List <double>()); } density = elementM.IMaterialComposition().Materials.Where(x => x != null).Select(x => { var epd = x.Properties.Where(y => y is IEnvironmentalProductDeclarationData).FirstOrDefault() as IEnvironmentalProductDeclarationData; if (epd != null) { return(epd.Density); } else { BH.Engine.Reflection.Compute.RecordError($"No density was provided for material name {epd.Name}."); return(0); } }).ToList(); return(density); }
public static List <EnvironmentalMetric> GetEnvironmentalMetric(this IElementM elementM) { List <EnvironmentalMetric> em = new List <EnvironmentalMetric>(); if (elementM == null) { return(new List <EnvironmentalMetric>()); } List <oM.Physical.Materials.Material> material = elementM.IMaterialComposition().Materials.ToList(); List <EnvironmentalMetric> metrics = new List <EnvironmentalMetric>(); foreach (var m in material) { List <EnvironmentalProductDeclaration> epds = m.Properties.Where(x => x is EnvironmentalProductDeclaration).Cast <EnvironmentalProductDeclaration>().ToList(); foreach (var e in epds) { List <EnvironmentalMetric> me = epds.SelectMany(x => x.EnvironmentalMetric).ToList(); metrics.AddRange(me); } } return(metrics); }
public static List <QuantityType> GetQuantityType(this IElementM elementM) { List <QuantityType> qt = new List <QuantityType>(); if (elementM == null) { return new List <QuantityType> { QuantityType.Undefined } } ; qt = elementM.IMaterialComposition().Materials.Where(x => x != null).Select(x => { var epd = x.Properties.Where(y => y is EnvironmentalProductDeclaration).FirstOrDefault() as EnvironmentalProductDeclaration; if (epd != null) { return(epd.QuantityType); } return(QuantityType.Undefined); }).ToList(); return(qt); } /***************************************************/ }
public static double Mass(this IElementM elementM) { if (elementM == null) { BH.Engine.Reflection.Compute.RecordError("Cannot query the mass of a null element."); return(0); } MaterialComposition mat = elementM.IMaterialComposition(); return(elementM.ISolidVolume() * mat.Materials.Zip(mat.Ratios, (m, r) => r * m.Density()).Sum()); }
public static List <IEnvironmentalProductDeclarationData> GetElementEpd(this IElementM elementM) { if (elementM == null) { BH.Engine.Reflection.Compute.RecordError("No IElementM was provided."); } if (elementM.IMaterialComposition() == null) { BH.Engine.Reflection.Compute.RecordError("The provided element does not have a MaterialComposition."); } List <IEnvironmentalProductDeclarationData> epd = elementM.IMaterialComposition().Materials.Select(x => x.Properties.Where(y => y is IEnvironmentalProductDeclarationData).FirstOrDefault() as IEnvironmentalProductDeclarationData).ToList(); if (epd == null) { BH.Engine.Reflection.Compute.RecordError("No EPD Material was found within the object's MaterialComposition."); } return(epd); }
public static List <double> GetQuantityTypeValue(this IElementM elementM, QuantityType type) { if (elementM == null) { return(new List <double>()); } List <double> qtv = elementM.IMaterialComposition().Materials.Select(x => { var epd = x.Properties.Where(y => y is EnvironmentalProductDeclaration).FirstOrDefault() as EnvironmentalProductDeclaration; if (epd != null && epd.QuantityType == type) { return(epd.QuantityTypeValue); } return(1); }).Where(x => x != null).ToList(); return(qtv); }
private static EnvironmentalMetricResult EvaluateEnvironmentalProductDeclarationByMass(IElementM elementM, List <LifeCycleAssessmentPhases> phases, EnvironmentalProductDeclarationField field = EnvironmentalProductDeclarationField.GlobalWarmingPotential, bool exactMatch = false) { double volume = elementM.ISolidVolume(); List <double> epdVal = elementM.GetEvaluationValue(field, phases, QuantityType.Mass, exactMatch); List <double> gwpByMaterial = new List <double>(); List <double> volumeByRatio = elementM.IMaterialComposition().Ratios.Select(x => volume * x).ToList(); List <double> densityOfMassEpd = Query.GetEPDDensity(elementM); List <double> massOfObj = new List <double>(); if (densityOfMassEpd == null) { BH.Engine.Reflection.Compute.RecordError("Density could not be found. Material density is required for all objects using Mass-based evaluations."); return(null); } for (int x = 0; x < volumeByRatio.Count; x++) { massOfObj.Add(volumeByRatio[x] * densityOfMassEpd[x]); } for (int x = 0; x < epdVal.Count; x++) { if (double.IsNaN(epdVal[x])) { gwpByMaterial.Add(double.NaN); } else { gwpByMaterial.Add(epdVal[x] * massOfObj[x]); } } 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); } double quantity = gwpByMaterial.Where(x => !double.IsNaN(x)).Sum(); return(new EnvironmentalMetricResult(((IBHoMObject)elementM).BHoM_Guid, field, 0, ObjectScope.Undefined, ObjectCategory.Undefined, phases, Query.GetElementEpd(elementM), quantity, field)); }
public static List <double> GetEvaluationValue(this IElementM elementM, EnvironmentalProductDeclarationField field, List <LifeCycleAssessmentPhases> phases, QuantityType type, bool exactMatch = false) { if (elementM == null) { return(new List <double>()); } List <double> quantityTypeValue = elementM.GetQuantityTypeValue(type); List <double> epdVal = elementM.IMaterialComposition().Materials.Select(x => { var epd = x.Properties.Where(y => y is EnvironmentalProductDeclaration).FirstOrDefault() as EnvironmentalProductDeclaration; if (epd.QuantityType == type && (epd.EnvironmentalMetric.Where(z => z.Phases.Where(a => phases.Contains(a)).Count() != 0).FirstOrDefault() != null)) { return(GetEvaluationValue(epd, field, phases, exactMatch)); } else { return(double.NaN); } }).ToList(); //Division of GWP constant by QTV List <double> normalisedEpdVal = new List <double>(); for (int x = 0; x < epdVal.Count; x++) { if (double.IsNaN(epdVal[x])) { normalisedEpdVal.Add(double.NaN); } else { normalisedEpdVal.Add(epdVal[x] / quantityTypeValue[x]); } } return(normalisedEpdVal); }
public static List <double> GetEvaluationValue(this IElementM elementM, EnvironmentalProductDeclarationField field, QuantityType type) { if (elementM == null) { return(new List <double>()); } List <double> quantityTypeValue = elementM.GetQuantityTypeValue(type); List <double> epdVal = elementM.IMaterialComposition().Materials.Select(x => { var epd = x.Properties.Where(y => y is IEnvironmentalProductDeclarationData).FirstOrDefault() as IEnvironmentalProductDeclarationData; if (epd.QuantityType == type) { return(GetEvaluationValue(epd, field)); } else { return(double.NaN); } }).ToList(); //Division of GWP constant by QTV List <double> normalisedEpdVal = new List <double>(); for (int x = 0; x < epdVal.Count; x++) { if (double.IsNaN(epdVal[x])) { normalisedEpdVal.Add(double.NaN); } else { normalisedEpdVal.Add(epdVal[x] / quantityTypeValue[x]); } } return(normalisedEpdVal); }
public static double Mass(this IElementM elementM) { MaterialComposition mat = elementM.IMaterialComposition(); return(elementM.ISolidVolume() * mat.Materials.Zip(mat.Ratios, (m, r) => r * m.Density()).Sum()); }