public void RegisterHandler <T> (bool exactMatchRequired, Func <T, object> handler) { if (handler == null) { throw new ArgumentNullException(nameof(handler)); } typeMap.Add(typeof(T), exactMatchRequired, handler); }
public void AddType(XType type) { lock (dynamicTypes) { dynamicTypes.Add(type); } }
public virtual void RegisterAssembly(Assembly assembly) { lock (registeredAssemblies) { if (registeredAssemblies.Contains(assembly)) { return; } registeredAssemblies.Add(assembly); foreach (var type in GetTypes(assembly)) { if (!typeof(IRenderer).IsAssignableFrom(type)) { continue; } foreach (RendererAttribute attr in type.GetCustomAttributes(typeof(RendererAttribute))) { typeMap.Add(attr.SourceType, attr.ExactMatchRequired, type); } } } }
public void MappingTest() { FileType ft = new FileType("binary"); FileType ft1 = new FileType("apple"); FileType ft2 = new FileType("text"); TypeMapEntry mapping = new TypeMapEntry(ft, "//depot/main/..."); TypeMapEntry mapping1 = new TypeMapEntry(ft1, "//depot/dev/..."); TypeMapEntry mapping2 = new TypeMapEntry(ft2, "//depot/rel/..."); TypeMap target = new TypeMap(); target.Add(mapping); target.Add(mapping1); target.Add(mapping2); Assert.IsNotNull(target); Assert.AreEqual(target.Count, 3); Assert.AreEqual(target[1].Path, "//depot/dev/..."); }
public ExceptionConverterMiddleware(RequestDelegate next, ExceptionConverters converters, ILoggerFactory loggerFactory) { Assert.Argument(next, nameof(next)).NotNull(); Assert.Argument(loggerFactory, nameof(loggerFactory)).NotNull(); _next = next; _logger = loggerFactory.CreateLogger(nameof(ExceptionConverterMiddleware)); foreach (var kv in converters.Converters) { _converters.Add(kv.Key, kv.Value); } }
public static ReadOnlyDictionary <string, Type> GetOrCreate(Type type) { if (!TypeMap.TryGetValue(type, out ReadOnlyDictionary <string, Type>?dictionary)) { PropertyInfo[] properties = type.GetProperties(); Dictionary <string, Type> tempDictionary = new(properties.Length); foreach (PropertyInfo propertyInfo in properties) { tempDictionary.Add(propertyInfo.Name, propertyInfo.PropertyType); } dictionary = new ReadOnlyDictionary <string, Type>(tempDictionary); TypeMap.Add(type, dictionary); } return(dictionary); }
private static void AddType(Type type) { string shortName = type.Name; if (TypeMap.ContainsKey(shortName)) { shortName = type.FullName; if (TypeMap.ContainsKey(shortName)) { return; } } ShortNames.Add(type, shortName); TypeMap.Add(shortName, type); if (!type.IsGenericType) { return; } GenericTypeMap.Add(shortName.Replace("`1", ""), type); GenericShortNames.Add(type, shortName.Replace("`1", "")); }
public Unit MapTo(TypeDef def) { TypeMap = TypeMap.Add(def.MapsTo.FullName, def); return(unit); }
public static Setting GetDefault() { Setting result = new Setting(Assembly.GetExecutingAssembly()); TypeMap parameterMap_General = Core.Create.TypeMap(); //AnalyticalModel parameterMap_General.Add(AnalyticalModelParameter.NorthAngle, typeof(ProjectInfo), "SAM_NorthAngle"); parameterMap_General.Add(AnalyticalModelParameter.CoolingSizingFactor, typeof(ProjectInfo), "SAM_SizingFactorCooling"); parameterMap_General.Add(AnalyticalModelParameter.HeatingSizingFactor, typeof(ProjectInfo), "SAM_SizingFactorHeating"); //Aperture parameterMap_General.Add(typeof(Aperture), typeof(FamilyInstance), "GetWidth", "SAM_BuildingElementWidth"); parameterMap_General.Add(typeof(Aperture), typeof(FamilyInstance), "GetHeight", "SAM_BuildingElementHeight"); parameterMap_General.Add(typeof(Aperture), typeof(FamilyInstance), "Guid", "SAM_GUID"); //ApertureConstruction parameterMap_General.Add(ApertureConstructionParameter.Color, typeof(FamilySymbol), "SAM_BuildingElementColor"); parameterMap_General.Add(ApertureConstructionParameter.Transparent, typeof(FamilySymbol), "SAM_BuildingElementTransparent"); parameterMap_General.Add(ApertureConstructionParameter.Description, typeof(FamilySymbol), "SAM_BuildingElementDescription"); parameterMap_General.Add(ApertureConstructionParameter.DefaultFrameWidth, typeof(FamilySymbol), "SAM_BuildingElementFrameWidth"); parameterMap_General.Add(ApertureConstructionParameter.IsInternalShadow, typeof(FamilySymbol), "SAM_BuildingElementInternalShadows"); //MD 2021-02-25 this property will duplicate from default type //parameterMap_General.Add(typeof(ApertureConstruction), typeof(FamilySymbol), "ApertureType", "SAM_BuildingElementType"); //Construction parameterMap_General.Add(ConstructionParameter.Color, typeof(HostObjAttributes), "SAM_BuildingElementColor"); parameterMap_General.Add(ConstructionParameter.DefaultPanelType, typeof(HostObjAttributes), "SAM_BuildingElementType"); parameterMap_General.Add(ConstructionParameter.Description, typeof(HostObjAttributes), "SAM_BuildingElementDescription"); parameterMap_General.Add(ConstructionParameter.IsAir, typeof(HostObjAttributes), "SAM_BuildingElementAir"); parameterMap_General.Add(ConstructionParameter.IsInternalShadow, typeof(HostObjAttributes), "SAM_BuildingElementInternalShadows"); parameterMap_General.Add(ConstructionParameter.IsGround, typeof(HostObjAttributes), "SAM_BuildingElementGround"); parameterMap_General.Add(ConstructionParameter.Transparent, typeof(HostObjAttributes), "SAM_BuildingElementTransparent"); parameterMap_General.Add(ConstructionParameter.DefaultThickness, typeof(HostObjAttributes), "SAM_BuildingElementThickness"); //InternalCondition parameterMap_General.Add(typeof(InternalCondition), typeof(Autodesk.Revit.DB.Mechanical.Space), "Name", "SAM_IC_ThermalTemplate"); parameterMap_General.Add(InternalConditionParameter.VentilationSystemTypeName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_VentType"); parameterMap_General.Add(InternalConditionParameter.HeatingSystemTypeName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_HeatingTypePrimary"); parameterMap_General.Add(InternalConditionParameter.CoolingSystemTypeName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_CoolingTypePrimary"); parameterMap_General.Add(InternalConditionParameter.OccupancyProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OccupacyProfile"); parameterMap_General.Add(InternalConditionParameter.OccupancySensibleGainPerPerson, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OccupantSensGain"); parameterMap_General.Add(InternalConditionParameter.OccupancyLatentGainPerPerson, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OccupantLatGain"); parameterMap_General.Add(InternalConditionParameter.AreaPerPerson, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OccupantDensity"); parameterMap_General.Add(InternalConditionParameter.EquipmentSensibleGainPerArea, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpecSmallPowerSens"); parameterMap_General.Add(InternalConditionParameter.EquipmentSensibleProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SmallPowerSensProfile"); parameterMap_General.Add(InternalConditionParameter.EquipmentLatentGainPerArea, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpecSmallPowerLat"); parameterMap_General.Add(InternalConditionParameter.EquipmentLatentProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SmallPowerLatProfile"); parameterMap_General.Add(InternalConditionParameter.LightingGainPerArea, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpecGenLighting"); parameterMap_General.Add(InternalConditionParameter.LightingProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_GenLightingProfile"); parameterMap_General.Add(InternalConditionParameter.LightingLevel, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_DesignLuxLevel"); parameterMap_General.Add(InternalConditionParameter.InfiltrationAirChangesPerHour, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_CLGInfiltrationACH"); parameterMap_General.Add(InternalConditionParameter.InfiltrationProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_InfiltrationProfile"); parameterMap_General.Add(InternalConditionParameter.PollutantProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_PollutantProfile"); parameterMap_General.Add(InternalConditionParameter.PollutantGenerationPerArea, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_PollutantGeneration_ghrm2"); parameterMap_General.Add(InternalConditionParameter.PollutantGenerationPerPerson, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_PollutantGeneration_ghrperson"); parameterMap_General.Add(InternalConditionParameter.HeatingEmitterRadiantProportion, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_HeatingEmmiterRadiantProportion"); // Add formula to copy value from System if InternalCondition has no value parameterMap_General.Add(InternalConditionParameter.HeatingEmitterCoefficient, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_HeatingEmmiterCoefficient"); // Add formula to copy value from System if InternalCondition has no value parameterMap_General.Add(InternalConditionParameter.HeatingProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpaceHeatingProfile"); parameterMap_General.Add(InternalConditionParameter.CoolingEmitterRadiantProportion, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_CoolingEmmiterRadiantProportion"); // Add formula to copy value from System if InternalCondition has no value parameterMap_General.Add(InternalConditionParameter.CoolingEmitterCoefficient, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_CoolingEmmiterCoefficient"); // Add formula to copy value from System if InternalCondition has no value parameterMap_General.Add(InternalConditionParameter.CoolingProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpaceCoolingProfile"); parameterMap_General.Add(InternalConditionParameter.HumidificationProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpaceHumidificationProfile"); parameterMap_General.Add(InternalConditionParameter.DehumidificationProfileName, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_SpaceDehumidificationProfile"); //Space parameterMap_General.Add(SpaceParameter.Area, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_Area"); parameterMap_General.Add(SpaceParameter.Occupancy, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_NoPeople", null, "[SAM.Analytical.Query.CalculatedOccupancy(Object_1)]"); parameterMap_General.Add(SpaceParameter.Volume, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_Volume"); parameterMap_General.Add(SpaceParameter.FacingExternal, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_FacingExternal"); parameterMap_General.Add(SpaceParameter.FacingExternalGlazing, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_FacingExternalGlazing"); parameterMap_General.Add(SpaceParameter.CoolingSizingFactor, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OversizingFactorCooling"); parameterMap_General.Add(SpaceParameter.HeatingSizingFactor, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OversizingFactorHeating"); parameterMap_General.Add(typeof(Space), typeof(Autodesk.Revit.DB.Mechanical.Space), "Name", "SAM_SpaceName"); parameterMap_General.Add(typeof(Space), typeof(Autodesk.Revit.DB.Mechanical.Space), "HeatingDesignTemperature", "SAM_WinterDesignTemperature", null, "[SAM.Analytical.Query.HeatingDesignTemperature(Object_1, AnalyticalModel)]"); parameterMap_General.Add(typeof(Space), typeof(Autodesk.Revit.DB.Mechanical.Space), "CoolingDesignTemperature", "SAM_SummerDesignTemperature", null, "[SAM.Analytical.Query.CoolingDesignTemperature(Object_1, AnalyticalModel)]"); parameterMap_General.Add(typeof(Space), typeof(Autodesk.Revit.DB.Mechanical.Space), "SpecificOccupancySensibleGain", "SAM_SpecOccupancySens", null, "[SAM.Analytical.Query.SpecificOccupancySensibleGain(Object_1)]"); parameterMap_General.Add(SpaceParameter.SupplyAirFlow, typeof(Autodesk.Revit.DB.Mechanical.Space), "Specified Supply Airflow"); parameterMap_General.Add(SpaceParameter.ExhaustAirFlow, typeof(Autodesk.Revit.DB.Mechanical.Space), "Specified Exhaust Airflow"); parameterMap_General.Add(SpaceParameter.OutsideSupplyAirFlow, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_TotalZoneOutsideSupplyAirFlow"); //SpaceSimulationResultParameter parameterMap_General.Add(SpaceSimulationResultParameter.Area, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_Area'"); parameterMap_General.Add(SpaceSimulationResultParameter.Volume, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_Volume'"); parameterMap_General.Add(SpaceSimulationResultParameter.OccupiedHours, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_OccupancyNoHoursYearly"); parameterMap_General.Add(SpaceSimulationResultParameter.OccupiedHours25, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ComfNoHoursAbv25'"); parameterMap_General.Add(SpaceSimulationResultParameter.OccupiedHours28, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ComfNoHoursAbv28'"); parameterMap_General.Add(SpaceSimulationResultParameter.OccupiedHours25, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ComfNoHoursAbv25Perc'", null, "[SAM.Analytical.Revit.Query.OccupiedHours25Percentage(Object_1)]"); parameterMap_General.Add(SpaceSimulationResultParameter.OccupiedHours28, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ComfNoHoursAbv28Perc'", null, "[SAM.Analytical.Revit.Query.OccupiedHours28Percentage(Object_1)]"); parameterMap_General.Add(SpaceSimulationResultParameter.MaxDryBulbTemperature, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceDryBulbTemperature_Max'"); parameterMap_General.Add(SpaceSimulationResultParameter.MinDryBulbTemperature, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceDryBulbTemperature_Min'"); parameterMap_General.Add(SpaceSimulationResultParameter.MaxDryBulbTemperatureIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_Date_SpaceDryBulbTemperature_Max'", null, "[SAM.Analytical.Convert.ToString(Value)]"); parameterMap_General.Add(SpaceSimulationResultParameter.MinDryBulbTemperatureIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_Date_SpaceDryBulbTemperature_Min'", null, "[SAM.Analytical.Convert.ToString(Value)]"); parameterMap_General.Add(typeof(SpaceSimulationResult), typeof(Autodesk.Revit.DB.Mechanical.Space), "DateTime", "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ResultsImportTime'", null, "[SAM.Analytical.Convert.ToString(Value)]"); parameterMap_General.Add(typeof(SpaceSimulationResult), typeof(Autodesk.Revit.DB.Mechanical.Space), "Reference", "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceGUID'"); //Panel parameterMap_General.Add(PanelParameter.Transparent, typeof(HostObject), "SAM_BuildingElementTransparent"); parameterMap_General.Add(PanelParameter.ThermalTransmittance, typeof(HostObject), "SAM_SrfUValue"); parameterMap_General.Add(PanelParameter.LightTransmittance, typeof(HostObject), "SAM_SrfLightTransmittance"); parameterMap_General.Add(PanelParameter.LightReflectance, typeof(HostObject), "SAM_SrfLightReflectance"); parameterMap_General.Add(PanelParameter.DirectSolarEnergyTransmittance, typeof(HostObject), "SAM_SrfDirectSolarEnergyTransmittance"); parameterMap_General.Add(PanelParameter.DirectSolarEnergyReflectance, typeof(HostObject), "SAM_SrfDirectSolarEnergyReflectance"); parameterMap_General.Add(PanelParameter.DirectSolarEnergyAbsorptance, typeof(HostObject), "SAM_SrfDirectSolarEnergyAbsorptance"); parameterMap_General.Add(PanelParameter.TotalSolarEnergyTransmittance, typeof(HostObject), "SAM_SrfgValue"); //mapCluster.Add(typeof(Panel), typeof(HostObject), null, "SAM_NorthAngle"); //double //mapCluster.Add(typeof(Panel), typeof(HostObject), null, "SAM_FacingExternal"); //double //mapCluster.Add(typeof(Panel), typeof(HostObject), null, "SAM_FacingExternalGlazing"); //double //Aperture parameterMap_General.Add(ApertureParameter.ThermalTransmittance, typeof(FamilyInstance), "SAM_SrfUValue"); parameterMap_General.Add(ApertureParameter.LightTransmittance, typeof(FamilyInstance), "SAM_SrfLightTransmittance"); parameterMap_General.Add(ApertureParameter.LightReflectance, typeof(FamilyInstance), "SAM_SrfLightReflectance"); parameterMap_General.Add(ApertureParameter.DirectSolarEnergyTransmittance, typeof(FamilyInstance), "SAM_SrfDirectSolarEnergyTransmittance"); parameterMap_General.Add(ApertureParameter.DirectSolarEnergyReflectance, typeof(FamilyInstance), "SAM_SrfDirectSolarEnergyReflectance"); parameterMap_General.Add(ApertureParameter.DirectSolarEnergyAbsorptance, typeof(FamilyInstance), "SAM_SrfDirectSolarEnergyAbsorptance"); parameterMap_General.Add(ApertureParameter.TotalSolarEnergyTransmittance, typeof(FamilyInstance), "SAM_SrfgValue"); //Material parameterMap_General.Add(typeof(Core.Material), typeof(FamilyInstance), "ThermalConductivity", "SAM_Material_Conductivity"); parameterMap_General.Add(typeof(Core.Material), typeof(FamilyInstance), "SpecificHeatCapacity", "SAM_Material_SpecificHeat"); parameterMap_General.Add(typeof(Core.Material), typeof(FamilyInstance), "Density", "SAM_Material_Density"); parameterMap_General.Add(typeof(Core.Material), typeof(FamilyInstance), "Description", "SAM_Material_Description"); parameterMap_General.Add(typeof(Core.Material), typeof(FamilyInstance), "Name", "SAM_Material_Name"); parameterMap_General.Add(RevitMaterialParameter.TypeName, typeof(FamilyInstance), "SAM_Material_Type"); parameterMap_General.Add(Core.MaterialParameter.DefaultThickness, typeof(FamilyInstance), "SAM_Material_Width"); parameterMap_General.Add(MaterialParameter.VapourDiffusionFactor, typeof(FamilyInstance), "SAM_Material_VapourDiffusionFactor"); //GasMaterial parameterMap_General.Add(GasMaterialParameter.HeatTransferCoefficient, typeof(FamilyInstance), "SAM_Material_ConvectionCoefficient"); //TransparentMaterial parameterMap_General.Add(TransparentMaterialParameter.ExternalEmissivity, typeof(FamilyInstance), "SAM_Material_ExternalEmissivity"); parameterMap_General.Add(TransparentMaterialParameter.ExternalLightReflectance, typeof(FamilyInstance), "SAM_Material_ExternalLightReflectance"); parameterMap_General.Add(TransparentMaterialParameter.ExternalSolarReflectance, typeof(FamilyInstance), "SAM_Material_ExternalSolarReflectance"); parameterMap_General.Add(TransparentMaterialParameter.InternalEmissivity, typeof(FamilyInstance), "SAM_Material_InternalEmissivity"); parameterMap_General.Add(TransparentMaterialParameter.InternalLightReflectance, typeof(FamilyInstance), "SAM_Material_InternalLightReflectance"); parameterMap_General.Add(TransparentMaterialParameter.InternalSolarReflectance, typeof(FamilyInstance), "SAM_Material_InternalSolarReflectance"); parameterMap_General.Add(TransparentMaterialParameter.IsBlind, typeof(FamilyInstance), "SAM_Material_IsBlind"); parameterMap_General.Add(TransparentMaterialParameter.LightTransmittance, typeof(FamilyInstance), "SAM_Material_LightTransmittance"); parameterMap_General.Add(TransparentMaterialParameter.SolarTransmittance, typeof(FamilyInstance), "SAM_Material_SolarTransmittance"); //OpaqueMaterial parameterMap_General.Add(OpaqueMaterialParameter.ExternalEmissivity, typeof(FamilyInstance), "SAM_Material_ExternalEmissivity"); parameterMap_General.Add(OpaqueMaterialParameter.ExternalLightReflectance, typeof(FamilyInstance), "SAM_Material_ExternalLightReflectance"); parameterMap_General.Add(OpaqueMaterialParameter.ExternalSolarReflectance, typeof(FamilyInstance), "SAM_Material_ExternalSolarReflectance"); parameterMap_General.Add(OpaqueMaterialParameter.IgnoreThermalTransmittanceCalculations, typeof(FamilyInstance), "SAM_Material_IngnoreInUvalue"); parameterMap_General.Add(OpaqueMaterialParameter.InternalEmissivity, typeof(FamilyInstance), "SAM_Material_InternalEmissivity"); parameterMap_General.Add(OpaqueMaterialParameter.InternalLightReflectance, typeof(FamilyInstance), "SAM_Material_InternalLightReflectance"); parameterMap_General.Add(OpaqueMaterialParameter.InternalSolarReflectance, typeof(FamilyInstance), "SAM_Material_InternalSolarReflectance"); result.Add(Core.Revit.ActiveSetting.Name.ParameterMap, parameterMap_General); TextMap textMap_Zone = Core.Create.TextMap("Zone Map"); textMap_Zone.Add(ZoneType.Cooling.Text(), "SAM_ZoneCoolingReference"); textMap_Zone.Add(ZoneType.Heating.Text(), "SAM_ZoneHeatingReference"); textMap_Zone.Add(ZoneType.Ventilation.Text(), "SAM_ZoneVentilationReference"); result.Add(Name.ZoneMap, textMap_Zone); TypeMap parameterMap_Cooling = Core.Create.TypeMap(); parameterMap_Cooling.Add(SpaceSimulationResultParameter.UnmetHours, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_UnmetHoursCooling"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.UnmetHourFirstIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_UnmetHourCoolingFirstInst"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.OccupiedHours, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_UnmetHoursCoolingOccupied"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.SizingMethod, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SizingMethod'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.LoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_PeakDate'", null, "[SAM.Analytical.Convert.ToString(Value)]"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.LoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_PeakTime'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.DryBulbTempearture, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceDryBulbTemperature'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.ResultantTemperature, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceResultantTemperature'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.Load, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_CoolingLoad'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.SolarGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SolarGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.LightingGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_LightingGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.InfiltrationGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_InfVentGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.AirMovementGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_AirMovementGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.BuildingHeatTransfer, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_BuildingHeatTransfer'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.GlazingExternalConduction, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ExternalConductionGlazing'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.OpaqueExternalConduction, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_ExternalConductionOpaque'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.OccupancySensibleGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_OccupancySensibleGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.EquipmentSensibleGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_EquipmentSensibleGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.EquipmentLatentGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_EquipmentLatentGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.OccupancyLatentGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_OccupancyLatentGain'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.HumidityRatio, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceHumidityRatio'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.RelativeHumidity, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceRelativeHumidity'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.ApertureFlowIn, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceAperutreFlowIn'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.ApertureFlowOut, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpaceAperutreFlowOut'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.Pollutant, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_SpacePollutant'"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.DesignLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_DesSpecSensCoolLoad'", null, "[SAM.Analytical.Query.SpecificDesignLoad(Object_1)]"); parameterMap_Cooling.Add(SpaceSimulationResultParameter.DesignLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_DesSensCoolingLoad'");// "[SAM.Analytical.Query.SpecificLoad(Object_1)]"); parameterMap_Cooling.Add(AdjacencyClusterSimulationResultParameter.UnmetHours, typeof(ProjectInfo), "SAM_BuildingUnmetHoursCooling"); parameterMap_Cooling.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneOutsideSupplyAirFlow", "SAM_ZoneCLGTotalOutsideSupplyAirFlow", null, "[SAM.Analytical.Query.CalculatedOutsideSupplyAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Cooling.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneSupplyAirFlow", "SAM_ZoneCLGSpecifiedSupplyAirflow", null, "[SAM.Analytical.Query.CalculatedSupplyAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Cooling.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneExhaustAirFlow", "SAM_ZoneCLGSpecifiedExhaustAirflow", null, "[SAM.Analytical.Query.CalculatedExhaustAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Cooling.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "HeatingSensibleLoad", "SAM_ZoneCLGHeatingSensLoad", null, "[SAM.Analytical.Query.DesignHeatingLoad(AdjacencyCluster, Object_1)]"); parameterMap_Cooling.Add(ZoneSimulationResultParameter.MaxSensibleLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_ZoneCLGCoolingSensLoad"); parameterMap_Cooling.Add(ZoneSimulationResultParameter.MaxSensibleLoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_ZoneCLGCoolingSensLoadPeakDate", null, "[SAM.Analytical.Convert.ToString(Value)]"); result.Add(Name.ParameterMap_Cooling, parameterMap_Cooling); TypeMap parameterMap_Heating = Core.Create.TypeMap(); parameterMap_Heating.Add(SpaceSimulationResultParameter.UnmetHours, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_UnmetHoursHeating"); parameterMap_Heating.Add(SpaceSimulationResultParameter.UnmetHourFirstIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_UnmetHourHeatingFirstInst"); parameterMap_Heating.Add(SpaceSimulationResultParameter.OccupiedHours, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_UnmetHoursHeatingOccupied"); parameterMap_Heating.Add(SpaceSimulationResultParameter.SizingMethod, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_SizingMethod'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.LoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_PeakDate'", null, "[SAM.Analytical.Convert.ToString(Value)]"); parameterMap_Heating.Add(SpaceSimulationResultParameter.LoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_PeakTime'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.DryBulbTempearture, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_SpaceDryBulbTemperature'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.ResultantTemperature, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_SpaceResultantTemperature'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.Load, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HeatingLoad'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.InfiltrationGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_InfVentGain'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.AirMovementGain, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_AirMovementGain'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.GlazingExternalConduction, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_ExternalConductionGlazing'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.OpaqueExternalConduction, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_ExternalConductionOpaque'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.HumidityRatio, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_SpaceHumidityRatio'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.BuildingHeatTransfer, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_HDD_BuildingHeatTransfer'"); parameterMap_Heating.Add(SpaceSimulationResultParameter.DesignLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_DesSpecSensHeatLoad'", null, "[SAM.Analytical.Query.SpecificDesignLoad(Object_1)]"); parameterMap_Heating.Add(SpaceSimulationResultParameter.DesignLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_DesignSensHeatingLoad'");//"='SAM' + [SAM.Core.Revit.Query.ParameterNamePrefix(Object_1)] + '_Height'", null, "[SAM.Analytical.Query.Height(Object_1)]"); parameterMap_Heating.Add(AdjacencyClusterSimulationResultParameter.UnmetHours, typeof(ProjectInfo), "SAM_BuildingUnmetHoursHeating"); parameterMap_Heating.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneOutsideSupplyAirFlow", "SAM_ZoneHTGTotalOutsideSupplyAirFlow", null, "[SAM.Analytical.Query.CalculatedOutsideSupplyAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Heating.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneSupplyAirFlow", "SAM_ZoneHTGSpecifiedSupplyAirflow", null, "[SAM.Analytical.Query.CalculatedSupplyAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Heating.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneExhaustAirFlow", "SAM_ZoneHTGSpecifiedExhaustAirflow", null, "[SAM.Analytical.Query.CalculatedExhaustAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Heating.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "HeatingSensibleLoad", "SAM_ZoneHTGHeatingSensLoad", null, "[SAM.Analytical.Query.DesignHeatingLoad(AdjacencyCluster, Object_1)]"); parameterMap_Heating.Add(ZoneSimulationResultParameter.MaxSensibleLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_ZoneHTGCoolingSensLoad"); parameterMap_Heating.Add(ZoneSimulationResultParameter.MaxSensibleLoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_ZoneHTGCoolingSensLoadPeakDate", null, "[SAM.Analytical.Convert.ToString(Value)]"); result.Add(Name.ParameterMap_Heating, parameterMap_Heating); TypeMap parameterMap_Ventilation = Core.Create.TypeMap(); parameterMap_Ventilation.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneOutsideSupplyAirFlow", "SAM_ZoneVNTTotalOutsideSupplyAirFlow", null, "[SAM.Analytical.Query.CalculatedOutsideSupplyAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Ventilation.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneSupplyAirFlow", "SAM_ZoneVNTSpecifiedSupplyAirflow", null, "[SAM.Analytical.Query.CalculatedSupplyAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Ventilation.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "ZoneExhaustAirFlow", "SAM_ZoneVNTSpecifiedExhaustAirflow", null, "[SAM.Analytical.Query.CalculatedExhaustAirflow(AdjacencyCluster, Object_1)]"); parameterMap_Ventilation.Add(typeof(Zone), typeof(Autodesk.Revit.DB.Mechanical.Space), "HeatingSensibleLoad", "SAM_ZoneVNTHeatingSensLoad", null, "[SAM.Analytical.Query.DesignHeatingLoad(AdjacencyCluster, Object_1)]"); parameterMap_Ventilation.Add(ZoneSimulationResultParameter.MaxSensibleLoad, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_ZoneVNTCoolingSensLoad"); parameterMap_Ventilation.Add(ZoneSimulationResultParameter.MaxSensibleLoadIndex, typeof(Autodesk.Revit.DB.Mechanical.Space), "SAM_ZoneVNTCoolingSensLoadPeakDate", null, "[SAM.Analytical.Convert.ToString(Value)]"); result.Add(Name.ParameterMap_Ventilation, parameterMap_Ventilation); //File Names result.Add(Name.FileName_DefaultAirConstructionLibrary, "SAM_AirConstructionLibrary.JSON"); result.Add(Name.ParameterMap_Tools, "ParameterMap_Tools"); string path; path = Query.DefaultAirConstructionLibraryPath(result); if (System.IO.File.Exists(path)) { result.Add(Name.Library_DefaultAirConstructionLibrary, Core.Create.IJSAMObject <ConstructionLibrary>(System.IO.File.ReadAllText(path))); } return(result); }
static AndroidFormsInspectView() { supplementaryDescriptionMap.Add(typeof(NativeViewWrapper), true, (arg) => { return(((NativeViewWrapper)arg).NativeView.GetType().Name); }); }
public static Setting GetDefault() { Setting result = new Setting(Assembly.GetExecutingAssembly()); TypeMap typeMap = Core.Create.TypeMap(); //mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "Colour", "colour"); //mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "Description", "description"); // mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "External", "external"); //mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "GUID", "GUID"); //mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "FloorArea", "floorArea"); //mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "Volume", "volume"); //new Revit Type added by MD 2020-07-22 typeMap.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_SpaceColor", "colour"); //to be added to Parameters typeMap.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_SpaceDescription", "description"); typeMap.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_ExternalZone", "external"); typeMap.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_SpaceGUID", "GUID"); typeMap.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_Area", "floorArea"); //SAM_T_Area typeMap.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_Volume", "volume"); //SAM_T_Volume //mapCluster.Add(typeof(Space), typeof(TAS3D.Zone), "SAM_Height", "height"); //SAM_T_Height to be added volume/area to review correct geometry /* * SAM_SpaceDescription * SAM_SpaceColor * SAM_ExternalZone * SAM_FacingExternal * SAM_FacingExternalGlazing * SAM_SpaceGUID * SAM_Area * SAM_Volume * SAM_Height */ //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "Colour", "colour"); //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "Description", "description"); //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "InternalShadows", "internalShadows"); typeMap.Add(typeof(Panel), typeof(TAS3D.Element), "SecondaryProportion", "secondaryProportion"); //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "Transparent", "transparent"); //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "Width", "width"); //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "GHost", "ghost"); typeMap.Add(typeof(Panel), typeof(TAS3D.Element), "FloorArea", "zoneFloorArea"); //mapCluster.Add(typeof(Panel), typeof(TAS3D.Element), "GUID", "GUID"); typeMap.Add(typeof(Panel), typeof(TAS3D.Element), "IsPreset", "isPreset"); //new Revit Type added by MD 2020-07-22 typeMap.Add(typeof(Construction), typeof(TAS3D.Element), "SAM_BuildingElementColor", "colour"); typeMap.Add(typeof(Construction), typeof(TAS3D.Element), "SAM_BuildingElementDescription", "description"); typeMap.Add(typeof(Panel), typeof(TAS3D.Element), "SAM_BuildingElementGUID", "GUID"); typeMap.Add(typeof(Construction), typeof(TAS3D.Element), "SAM_BuildingElementInternalShadows", "internalShadows"); typeMap.Add(typeof(Construction), typeof(TAS3D.Element), "SAM_BuildingElementTransparent", "transparent"); typeMap.Add(typeof(Construction), typeof(TAS3D.Element), "SAM_BuildingElementThickness", "width"); typeMap.Add(typeof(Construction), typeof(TAS3D.Element), "SAM_BuildingElementAir", "ghost"); /* * SAM_BuildingElementAir * SAM_BuildingElementDescription * SAM_BuildingElementGround * SAM_BuildingElementGUID * SAM_BuildingElementInternalShadows * SAM_BuildingElementThickness * SAM_BuildingElementTransparent * SAM_BuildingElementType */ //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "Colour", "colour"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "Description", "description"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "InternalShadows", "internalShadows"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "FrameDepth", "frameDepth"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "FrameWidth", "frameWidth"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "Transparent", "transparent"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "Width", "width"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "Height", "height"); //mapCluster.Add(typeof(Aperture), typeof(TAS3D.window), "GUID", "GUID"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "IsPreset", "isPreset"); //new Revit Type added by MD 2020-07-22 typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementColor", "colour"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementDescription", "description"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementInternalShadows", "internalShadows"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementFrameWidth", "frameWidth"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementTransparent", "transparent"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementWidth", "width"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementHeight", "height"); typeMap.Add(typeof(Aperture), typeof(TAS3D.window), "SAM_BuildingElementGUID", "GUID"); typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "Description", "description"); typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "Latitude", "latitude"); //this is based on SAM_FutureWeatherFile typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "Longitude", "longitude"); //this is based on SAM_FutureWeatherFile //mapCluster.Add(typeof(RelationCluster), typeof(TAS3D.Building), "NorthAngle", "northAngle"); typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "TimeZone", "timeZone"); //this is based on SAM_FutureWeatherFile typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "GUID", "GUID"); typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "Year", "year"); //this is based on SAM_FutureWeatherFile //new Revit Type added by MD 2020-07-22 typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "SAM_NorthAngle", "northAngle"); typeMap.Add(typeof(RelationCluster), typeof(TAS3D.Building), "SAM_Elevation", "elevation"); //not sure if exisit already typeMap.Add(typeof(GuidCollection), typeof(TAS3D.zoneSet), "Description", "description"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "Colour", "colour"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "Description", "description"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "CentreOffset", "centreOffset"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "FrameDepth", "frameDepth"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "FrameOffset", "frameOffset"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "FrameWidth", "frameWidth"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "Height", "height"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "InternalShadows", "internalShadows"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "Level", "level"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "Transparent", "transparent"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "Width", "width"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "FrameGUID", "frameGUID"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "HorizfinsGUID", "horizfinsGUID"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "VertfinsGUID", "vertfinsGUID"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "hasFrame", "HasFrame"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "HasHorizFins", "hasHorizFins"); typeMap.Add(typeof(Panel), typeof(TAS3D.shade), "HasVertFins", "hasVertFins"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "ZoneNumber", "zoneNumber"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "Description", "description"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "ZoneGuid", "zoneGUID"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "Volume", "volume"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "FloorArea", "floorArea"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "ConvectiveCommonRatio", "convectiveCommonRatio"); typeMap.Add(typeof(Space), typeof(TSD.ZoneData), "RadiantCommonRatio", "radiantCommonRatio"); typeMap.Add(typeof(Panel), typeof(TSD.SurfaceData), "SurfaceNumber", "surfaceNumber"); typeMap.Add(typeof(Panel), typeof(TSD.SurfaceData), "Area", "area"); typeMap.Add(typeof(Panel), typeof(TSD.SurfaceData), "Orientation", "orientation"); typeMap.Add(SpaceSimulationResultParameter.ZoneNumber, typeof(TSD.ZoneData), "zoneNumber"); typeMap.Add(SpaceSimulationResultParameter.ZoneGuid, typeof(TSD.ZoneData), "zoneGUID"); result.Add(Core.Tas.ActiveSetting.Name.ParameterMap, typeMap); return(result); }