public static Face ToLadybugTools_Face(this IPartition partition, BuildingModel buildingModel, Space space) { Face3D face3D = Geometry.LadybugTools.Convert.ToLadybugTools(partition?.Face3D); if (face3D == null) { return(null); } FaceType?faceType = partition.FaceType(); if (faceType == null || !faceType.HasValue) { return(null); } int index = -1; int index_Adjacent = -1; bool reverse = true; List <Space> spaces = buildingModel.GetSpaces(partition); if (spaces != null && spaces.Count != 0) { index = spaces.FindIndex(x => x.Guid == space.Guid); index = buildingModel.UniqueIndex(spaces[index]); index_Adjacent = spaces.FindIndex(x => x.Guid != space.Guid); index_Adjacent = buildingModel.UniqueIndex(spaces[index_Adjacent]); reverse = buildingModel.UniqueIndex(spaces[0]) != index; } AnyOf <Ground, Outdoors, Adiabatic, Surface> boundaryCondition = partition.ToLadybugTools_BoundaryCondition(buildingModel, space); FaceEnergyPropertiesAbridged faceEnergyPropertiesAbridged = new FaceEnergyPropertiesAbridged(); if (partition is IHostPartition) { faceEnergyPropertiesAbridged.Construction = Query.UniqueName(((IHostPartition)partition).Type(), reverse); } Face face = new Face(Query.UniqueName(partition, index), face3D, faceType.Value, boundaryCondition, new FacePropertiesAbridged(faceEnergyPropertiesAbridged), partition.Name); if (partition is IHostPartition) { List <IOpening> openings = ((IHostPartition)partition).GetOpenings(); if (openings != null && openings.Count != 0) { List <HoneybeeSchema.Aperture> apertures = new List <HoneybeeSchema.Aperture>(); List <HoneybeeSchema.Door> doors = new List <HoneybeeSchema.Door>(); foreach (IOpening opening in openings) { MaterialType materialType = MaterialType.Opaque; OpeningType openingType = opening.Type(); if (openingType != null) { materialType = buildingModel.GetMaterialType(openingType.PaneMaterialLayers); } if (opening is Window && materialType != MaterialType.Opaque) { HoneybeeSchema.Aperture aperture = ((Window)opening).ToLadybugTools(buildingModel, space); if (aperture != null) { apertures.Add(aperture); } } else { HoneybeeSchema.Door door = opening.ToLadybugTools(buildingModel, space); if (door != null) { doors.Add(door); } } } if (apertures != null && apertures.Count != 0) { face.Apertures = apertures; } if (doors != null && doors.Count != 0) { face.Doors = doors; } } } return(face); }
public static HoneybeeSchema.Door ToLadybugTools(this IOpening opening, BuildingModel buildingModel, Space space) { if (opening == null || buildingModel == null) { return(null); } OpeningType openingType = opening.Type(); if (openingType == null) { return(null); } //Opaque Windows to be replaced by Doors if (opening is Window && buildingModel.GetMaterialType(openingType.PaneMaterialLayers) != MaterialType.Opaque) { return(null); } IHostPartition hostPartition = buildingModel.GetHostPartition(opening); int index = -1; int index_Adjacent = -1; List <Space> spaces = null; if (hostPartition != null) { spaces = buildingModel.GetSpaces(hostPartition); if (spaces != null && spaces.Count != 0) { index = spaces.FindIndex(x => x.Guid == space.Guid); index = buildingModel.UniqueIndex(spaces[index]); index_Adjacent = spaces.FindIndex(x => x.Guid != space.Guid); index_Adjacent = buildingModel.UniqueIndex(spaces[index_Adjacent]); } } HoneybeeSchema.AnyOf <Outdoors, Surface> anyOf = null; if (index == -1 || index_Adjacent == -1) { anyOf = new Outdoors(); } else { bool reversed = index_Adjacent < index; List <string> uniqueNames = new List <string>(); uniqueNames.Add(Core.LadybugTools.Query.UniqueName(opening as SAMObject, index_Adjacent)); uniqueNames.Add(Query.UniqueName(hostPartition, index_Adjacent)); uniqueNames.Add(Query.UniqueName(spaces[index_Adjacent])); anyOf = new Surface(uniqueNames); } Face3D face3D = Geometry.LadybugTools.Convert.ToLadybugTools(opening); DoorEnergyPropertiesAbridged doorEnergyPropertiesAbridged = new DoorEnergyPropertiesAbridged(construction: Query.UniqueName(opening.Type(), !(index_Adjacent != -1 && index <= index_Adjacent))); return(new HoneybeeSchema.Door( identifier: Core.LadybugTools.Query.UniqueName(opening as SAMObject, index), geometry: face3D, boundaryCondition: anyOf, properties: new DoorPropertiesAbridged(doorEnergyPropertiesAbridged), displayName: opening.Name)); }
public static Model ToLadybugTools(this BuildingModel buildingModel, double silverSpacing = Tolerance.MacroDistance, double tolerance = Tolerance.Distance) { if (buildingModel == null) { return(null); } BuildingModel architecturalModel_Temp = new BuildingModel(buildingModel); architecturalModel_Temp.OffsetAperturesOnEdge(0.1, tolerance); architecturalModel_Temp.ReplaceTransparentPartitions(0.1); architecturalModel_Temp.UpdateMaterialsByMaterialLayerThickness(tolerance); architecturalModel_Temp.UpdateMaterialsByHeatTransferCoefficients(true, true); string uniqueName = Core.LadybugTools.Query.UniqueName(architecturalModel_Temp); List <Room> rooms = null; List <AnyOf <IdealAirSystemAbridged, VAV, PVAV, PSZ, PTAC, ForcedAirFurnace, FCUwithDOASAbridged, WSHPwithDOASAbridged, VRFwithDOASAbridged, FCU, WSHP, VRF, Baseboard, EvaporativeCooler, Residential, WindowAC, GasUnitHeater> > hvacs = null; List <Space> spaces = architecturalModel_Temp.GetSpaces(); if (spaces != null) { hvacs = new List <AnyOf <IdealAirSystemAbridged, VAV, PVAV, PSZ, PTAC, ForcedAirFurnace, FCUwithDOASAbridged, WSHPwithDOASAbridged, VRFwithDOASAbridged, FCU, WSHP, VRF, Baseboard, EvaporativeCooler, Residential, WindowAC, GasUnitHeater> >(); rooms = new List <Room>(); Dictionary <double, List <IPartition> > dictionary_elevations = Geometry.Spatial.Query.ElevationDictionary(buildingModel.GetPartitions()); List <Level> levels = dictionary_elevations?.Keys.ToList().ConvertAll(x => Architectural.Create.Level(x)); for (int i = 0; i < spaces.Count; i++) { Space space = spaces[i]; if (space == null) { continue; } Room room = space.ToLadybugTools(architecturalModel_Temp, silverSpacing, tolerance); if (room == null) { continue; } if (levels != null && levels.Count > 0) { double elevation_Min = Analytical.Query.MinElevation(buildingModel, space); if (!double.IsNaN(elevation_Min)) { double difference_Min = double.MaxValue; Level level_Min = null; foreach (Level level in levels) { double difference = System.Math.Abs(elevation_Min - level.Elevation); if (difference < difference_Min) { difference_Min = difference; level_Min = level; } } room.Story = level_Min.Name; } } InternalCondition internalCondition = space.InternalCondition; if (internalCondition != null) { //Michal Idea of filtering Uncondition Spaces string name_InternalCondition = internalCondition.Name; if (name_InternalCondition == null || (name_InternalCondition != null && !name_InternalCondition.ToLower().Contains("unconditioned") && !name_InternalCondition.ToLower().Contains("external"))) { IdealAirSystemAbridged idealAirSystemAbridged = new IdealAirSystemAbridged(string.Format("{0}__{1}", i.ToString(), "IdealAir"), string.Format("Ideal Air System Abridged {0}", space.Name)); hvacs.Add(idealAirSystemAbridged); if (room.Properties == null) { room.Properties = new RoomPropertiesAbridged(); } if (room.Properties.Energy == null) { room.Properties.Energy = new RoomEnergyPropertiesAbridged(); } room.Properties.Energy.Hvac = idealAirSystemAbridged.Identifier; } } rooms.Add(room); } } List <Shade> shades = null; List <Face> faces_Orphaned = null; List <IPartition> partitions_Shade = buildingModel.GetShadePartitions(); if (partitions_Shade != null) { foreach (IPartition partition_Shade in partitions_Shade) { if (partitions_Shade == null) { continue; } Shade shade = partition_Shade.ToLadybugTools_Shade(); if (shade == null) { continue; } if (shades == null) { shades = new List <Shade>(); } shades.Add(shade); } } List <HostPartitionType> hostPartitionTypes = buildingModel.GetHostPartitionTypes(); List <OpeningType> openingTypes = buildingModel.GetOpeningTypes(); ConstructionSetAbridged constructionSetAbridged = Core.LadybugTools.Query.DefaultConstructionSetAbridged(); List <HoneybeeSchema.AnyOf <ConstructionSetAbridged, ConstructionSet> > constructionSets = new List <HoneybeeSchema.AnyOf <ConstructionSetAbridged, ConstructionSet> >();// { constructionSetAbridged }; List <AnyOf <OpaqueConstructionAbridged, WindowConstructionAbridged, WindowConstructionShadeAbridged, AirBoundaryConstructionAbridged, OpaqueConstruction, WindowConstruction, WindowConstructionShade, WindowConstructionDynamicAbridged, WindowConstructionDynamic, AirBoundaryConstruction, ShadeConstruction> > constructions = new List <AnyOf <OpaqueConstructionAbridged, WindowConstructionAbridged, WindowConstructionShadeAbridged, AirBoundaryConstructionAbridged, OpaqueConstruction, WindowConstruction, WindowConstructionShade, WindowConstructionDynamicAbridged, WindowConstructionDynamic, AirBoundaryConstruction, ShadeConstruction> >(); Dictionary <string, HoneybeeSchema.Energy.IMaterial> dictionary_Materials = new Dictionary <string, HoneybeeSchema.Energy.IMaterial>(); if (hostPartitionTypes != null) { foreach (HostPartitionType hostPartitionType in hostPartitionTypes) { List <MaterialLayer> materialLayers = hostPartitionType.MaterialLayers; if (materialLayers == null) { continue; } constructions.Add(hostPartitionType.ToLadybugTools()); constructions.Add(hostPartitionType.ToLadybugTools(false)); foreach (MaterialLayer materialLayer in materialLayers) { IMaterial material = buildingModel.GetMaterial(materialLayer); if (material == null) { continue; } if (dictionary_Materials.ContainsKey(material.Name)) { continue; } HoneybeeSchema.Energy.IMaterial material_HoneybeeSchema = material.ToLadybugTools(materialLayer.Thickness, false); if (material_HoneybeeSchema == null) { continue; } dictionary_Materials[material.Name] = material_HoneybeeSchema; } } } if (openingTypes != null) { foreach (OpeningType openingType in openingTypes) { List <MaterialLayer> materialLayers = openingType.PaneMaterialLayers; if (materialLayers == null) { continue; } MaterialType materialType = buildingModel.GetMaterialType(materialLayers); if (openingType is WindowType && materialType != MaterialType.Opaque) { WindowType windowType = (WindowType)openingType; constructions.Add(windowType.ToLadybugTools_WindowConstructionAbridged()); constructions.Add(windowType.ToLadybugTools_WindowConstructionAbridged(false)); } else { constructions.Add(openingType.ToLadybugTools()); constructions.Add(openingType.ToLadybugTools(false)); } foreach (MaterialLayer materialLayer in materialLayers) { IMaterial material = buildingModel.GetMaterial(materialLayer); if (material == null) { continue; } if (dictionary_Materials.ContainsKey(material.Name)) { continue; } HoneybeeSchema.Energy.IMaterial material_HoneybeeSchema = material.ToLadybugTools(materialLayer.Thickness, false); if (material_HoneybeeSchema == null) { continue; } dictionary_Materials[material.Name] = material_HoneybeeSchema; } } } Dictionary <System.Guid, ProgramType> dictionary_ProgramTypes = new Dictionary <System.Guid, ProgramType>(); if (spaces != null) { foreach (Space space in spaces) { InternalCondition internalCondition = space?.InternalCondition; if (internalCondition == null) { continue; } if (dictionary_ProgramTypes.ContainsKey(internalCondition.Guid)) { continue; } ProgramType programType = space.ToLadybugTools(buildingModel); if (programType != null) { dictionary_ProgramTypes[internalCondition.Guid] = programType; } } } List <AnyOf <EnergyMaterial, EnergyMaterialNoMass, EnergyWindowMaterialGas, EnergyWindowMaterialGasCustom, EnergyWindowMaterialGasMixture, EnergyWindowMaterialSimpleGlazSys, EnergyWindowMaterialBlind, EnergyWindowMaterialGlazing, EnergyWindowMaterialShade> > materials = new List <AnyOf <EnergyMaterial, EnergyMaterialNoMass, EnergyWindowMaterialGas, EnergyWindowMaterialGasCustom, EnergyWindowMaterialGasMixture, EnergyWindowMaterialSimpleGlazSys, EnergyWindowMaterialBlind, EnergyWindowMaterialGlazing, EnergyWindowMaterialShade> >(); //HoneybeeSchema.Helper.EnergyLibrary.DefaultMaterials?.ToList().ForEach(x => materials.Add(x as dynamic)); dictionary_Materials.Values.ToList().ForEach(x => materials.Add(x as dynamic)); List <AnyOf <ScheduleRulesetAbridged, ScheduleFixedIntervalAbridged, ScheduleRuleset, ScheduleFixedInterval> > schedules = new List <AnyOf <ScheduleRulesetAbridged, ScheduleFixedIntervalAbridged, ScheduleRuleset, ScheduleFixedInterval> >(); //HoneybeeSchema.Helper.EnergyLibrary.DefaultScheduleRuleset?.ToList().ForEach(x => schedules.Add(x)); List <HoneybeeSchema.AnyOf <ProgramTypeAbridged, ProgramType> > programTypes = new List <HoneybeeSchema.AnyOf <ProgramTypeAbridged, ProgramType> >(); //HoneybeeSchema.Helper.EnergyLibrary.DefaultProgramTypes?.ToList().ForEach(x => programTypes.Add(x)); dictionary_ProgramTypes.Values.ToList().ForEach(x => programTypes.Add(x)); List <ScheduleTypeLimit> scheduleTypeLimits = new List <ScheduleTypeLimit>(); //HoneybeeSchema.Helper.EnergyLibrary.DefaultScheduleTypeLimit?.ToList().ForEach(x => scheduleTypeLimits.Add(x)); constructionSets.RemoveAll(x => x == null); constructions.RemoveAll(x => x == null); materials.RemoveAll(x => x == null); ModelEnergyProperties modelEnergyProperties = new ModelEnergyProperties(constructionSets, constructions, materials, hvacs, null, programTypes, schedules, scheduleTypeLimits); ModelProperties modelProperties = new ModelProperties(modelEnergyProperties); Model model = new Model(uniqueName, modelProperties, buildingModel.Name, null, rooms, faces_Orphaned, shades); model.AngleTolerance = Units.Convert.ToDegrees(Tolerance.Angle);// 2; model.Tolerance = Tolerance.MacroDistance; return(model); }